bims-nimamd Biomed News
on Neuroimmunity and neuroinflammation in ageing and metabolic disease
Issue of 2024‒11‒03
forty-nine papers selected by
Fawaz Alzaïd, Sorbonne Université
  1. IL-1α in aging tumors.
  2. Innate memory against viruses.
  3. How to feed mitochondria to T cells.
  4. Alternations in inflammatory macrophage niche drive phenotypic and functional plasticity of Kupffer cells.
  5. Building the epigenetic fortress with PRC2.2.
  6. Physiological and pathogenic T cell autoreactivity converge in type 1 diabetes.
  7. How does overeating lead to diabetes? A surge of neurotransmitters.
  8. Dosage compensation in T cells.
  9. Targeting ER stress sensor restores immunogenicity of chemotherapy.
  10. Stem cell activity-coupled suppression of endogenous retrovirus governs adult tissue regeneration.
  11. Heterogeneous enhancer states orchestrate β cell responses to metabolic stress.
  12. ZC3HAV1 facilitates STING activation and enhances inflammation.
  13. Anti-obesity drug has life-changing benefits for arthritis.
  14. NextGen Voices: Quarter-Century Haiku.
  15. Rejuvenating older neural stem cells.
  16. What's so special about the human brain? A graphical guide.
  17. The world needs a US president who respects evidence.
  18. Diabetes risk soars for adults who had a sweet tooth as kids.
  19. Targeting the hypothalamus for modeling age-related DNA methylation and developing OXT-GnRH combinational therapy against Alzheimer's disease-like pathologies in male mouse model.
  20. Metatranscriptomics-guided discovery and characterization of a polyphenol-metabolizing gut microbial enzyme.
  21. Atomic smash-ups hold promise of record-breaking elements.
  22. Single phage proteins sequester signals from TIR and cGAS-like enzymes.
  23. Scientific figures that pop: resources for the artistically challenged.
  24. Hidden players: the bacteria-killing viruses of the gut microbiome.
  25. Autoinhibition of dimeric NINJ1 prevents plasma membrane rupture.
  26. Tumour evolution and microenvironment interactions in 2D and 3D space.
  27. Fluorescent non-canonical amino acid provides insight into the human serotonin transporter.
  28. Far-right governments seek to cut billions of euros from research in Europe.
  29. Molecular mimicry as a mechanism of viral immune evasion and autoimmunity.
  30. TMED4 facilitates Treg suppressive function via ROS homeostasis in tumor and autoimmune mouse models.
  31. Do stem-cell transplants increase cancer risk? Long-lived recipients offer clues.
  32. Temporal dynamics of membrane contact sites.
  33. Clonal dynamics after allogeneic haematopoietic cell transplantation.
  34. Monkeypox virus keeps getting better at spreading among humans.
  35. Regulation of minimal spindle midzone organization by mitotic kinases.
  36. Protein O-GlcNAcylation coupled to Hippo signaling drives vascular dysfunction in diabetic retinopathy.
  37. Endothelial cell-specific progerin expression does not cause cardiovascular alterations and premature death.
  38. Uncovering cell cycle speed modulations with statistical inference.
  39. High-parametric protein maps reveal the spatial organization in early-developing human lung.
  40. Palmitoylation licenses RIPK1 kinase activity and cytotoxicity in the TNF pathway.
  41. How to demonstrate the real-world impact of your research.
  42. Study reveals three ways to disappear down a Wikipedia rabbit hole.
  43. A conserved Plasmodium nuclear protein is critical for late liver stage development.
  44. Exploring the limits of life extension.
  45. Structure of the turnover-ready state of an ancestral respiratory complex I.
  46. Conserved autism-associated genes tune social feeding behavior in C. elegans.
  47. Structure-guided discovery of bile acid derivatives for treating liver diseases without causing itch.
  48. Self-supervised learning for accurately modelling hierarchical evolutionary patterns of cerebrovasculature.
  49. Senescence suppresses the integrated stress response and activates a stress-remodeled secretory phenotype.
  1. Nat Immunol. 2024 Nov;25(11): 1979
    IL-1α in aging tumors.
    Stephanie Houston.
      
    DOI:  https://doi.org/10.1038/s41590-024-02013-6
  2. Nat Immunol. 2024 Nov;25(11): 1979
    Innate memory against viruses.
    Paula Jauregui.
      
    DOI:  https://doi.org/10.1038/s41590-024-02009-2
  3. Nat Immunol. 2024 Nov;25(11): 1979
    How to feed mitochondria to T cells.
    Nicholas J Bernard.
      
    DOI:  https://doi.org/10.1038/s41590-024-02008-3
  4. Nat Commun. 2024 Oct 29. 15(1): 9337
    Alternations in inflammatory macrophage niche drive phenotypic and functional plasticity of Kupffer cells.
    Han-Ying Huang, Yan-Zhou Chen, Chuang Zhao, Xin-Nan Zheng, Kai Yu, Jia-Xing Yue, Huai-Qiang Ju, Yan-Xia Shi, Lin Tian.
      Inflammatory signals lead to recruitment of circulating monocytes and induce their differentiation into pro-inflammatory macrophages. Therefore, whether blocking inflammatory monocytes can mitigate disease progression is being actively evaluated. Here, we employ multiple lineage-tracing models and show that monocyte-derived macrophages (mo-mac) are the major population of immunosuppressive, liver metastasis-associated macrophages (LMAM), while the proportion of Kupffer cells (KC) as liver-resident macrophages is diminished in metastatic nodules. Paradoxically, genetic ablation of mo-macs results in only a marginal decrease in LMAMs. Using a proliferation-recording system and a KC-tracing model in a monocyte-deficient background, we find that LMAMs can be replenished either via increased local macrophage proliferation or by promoting KC infiltration. In the latter regard, KCs undergo transient proliferation and exhibit substantial phenotypic and functional alterations through epigenetic reprogramming following the vacating of macrophage niches by monocyte depletion. Our data thus suggest that a simultaneous blockade of monocyte recruitment and macrophage proliferation may effectively target immunosuppressive myelopoiesis and reprogram the microenvironment towards an immunostimulatory state.
    DOI:  https://doi.org/10.1038/s41467-024-53659-7
  5. Nat Cell Biol. 2024 Oct 31.
    Building the epigenetic fortress with PRC2.2.
    Fides Zenk.
      
    DOI:  https://doi.org/10.1038/s41556-024-01551-3
  6. Nat Commun. 2024 Oct 29. 15(1): 9204
    Physiological and pathogenic T cell autoreactivity converge in type 1 diabetes.
    Anne Eugster, Anna Lorenc, Martin Kotrulev, Yogesh Kamra, Manisha Goel, Katja Steinberg-Bains, Shereen Sabbah, Sevina Dietz, Ezio Bonifacio, Mark Peakman, Iria Gomez-Tourino.
      Autoimmune diseases result from autoantigen-mediated activation of adaptive immunity; intriguingly, autoantigen-specific T cells are also present in healthy donors. An assessment of dynamic changes of this autoreactive repertoire in both health and disease is thus warranted. Here we investigate the physiological versus pathogenic autoreactive processes in the context of Type 1 diabetes (T1D) and one of its landmark autoantigens, glutamic acid decarboxylase 65 (GAD65). Using single cell gene expression profiling and tandem T cell receptor (TCR) sequencing, we find that GAD65-specific true naïve cells are present in both health and disease, with GAD65-specific effector and memory responses showing similar ratios in healthy donors and patients. Deeper assessment of phenotype and TCR repertoire uncover differential features in GAD65-specific TCRs, including lower clonal sizes of healthy donor-derived clonotypes in patients. We thus propose a model whereby physiological autoimmunity against GAD65 is needed during early life, and that alterations of these physiological autoimmune processes in predisposed individuals trigger overt Type 1 diabetes.
    DOI:  https://doi.org/10.1038/s41467-024-53255-9
  7. Nature. 2024 Oct 31.
    How does overeating lead to diabetes? A surge of neurotransmitters.
    Smriti Mallapaty.
      
    Keywords:  Diabetes; Diseases; Obesity
    DOI:  https://doi.org/10.1038/d41586-024-03513-z
  8. Nat Immunol. 2024 Nov;25(11): 1979
    Dosage compensation in T cells.
    Laurie A Dempsey.
      
    DOI:  https://doi.org/10.1038/s41590-024-02012-7
  9. Nat Rev Immunol. 2024 Oct 28.
    Targeting ER stress sensor restores immunogenicity of chemotherapy.
    Yvonne Bordon.
      
    DOI:  https://doi.org/10.1038/s41577-024-01107-4
  10. Cell. 2024 Oct 23. pii: S0092-8674(24)01155-3. [Epub ahead of print]
    Stem cell activity-coupled suppression of endogenous retrovirus governs adult tissue regeneration.
    Ying Lyu, Soo Jin Kim, Ericka S Humphrey, Richa Nayak, Yinglu Guan, Qingnan Liang, Kun Hee Kim, Yukun Tan, Jinzhuang Dou, Huandong Sun, Xingzhi Song, Priyadharsini Nagarajan, Kamryn N Gerner-Mauro, Kevin Jin, Virginia Liu, Rehman H Hassan, Miranda L Johnson, Lisa P Deliu, Yun You, Anurag Sharma, H Amalia Pasolli, Yue Lu, Jianhua Zhang, Vakul Mohanty, Ken Chen, Youn Joo Yang, Taiping Chen, Yejing Ge.
      Mammalian retrotransposons constitute 40% of the genome. During tissue regeneration, adult stem cells coordinately repress retrotransposons and activate lineage genes, but how this coordination is controlled is poorly understood. Here, we observed that dynamic expression of histone methyltransferase SETDB1 (a retrotransposon repressor) closely mirrors stem cell activities in murine skin. SETDB1 ablation leads to the reactivation of endogenous retroviruses (ERVs, a type of retrotransposon) and the assembly of viral-like particles, resulting in hair loss and stem cell exhaustion that is reversible by antiviral drugs. Mechanistically, at least two molecularly and spatially distinct pathways are responsible: antiviral defense mediated by hair follicle stem cells and progenitors and antiviral-independent response due to replication stress in transient amplifying cells. ERV reactivation is promoted by DNA demethylase ten-eleven translocation (TET)-mediated hydroxymethylation and recapitulated by ablating cell fate transcription factors. Together, we demonstrated ERV silencing is coupled with stem cell activity and essential for adult hair regeneration.
    Keywords:  DNA demethylation; adult stem cells; antiviral response; endogenous retroviruses; hair follicle stem cell exhaustion; hair loss; heterochromatin; replication stress; retrotransposons; skin
    DOI:  https://doi.org/10.1016/j.cell.2024.10.007
  11. Nat Commun. 2024 Oct 30. 15(1): 9361
    Heterogeneous enhancer states orchestrate β cell responses to metabolic stress.
    Liu Wang, Jie Wu, Madeline Sramek, S M Bukola Obayomi, Peidong Gao, Yan Li, Aleksey V Matveyenko, Zong Wei.
      Obesity-induced β cell dysfunction contributes to the onset of type 2 diabetes. Nevertheless, elucidating epigenetic mechanisms underlying islet dysfunction at single cell level remains challenging. Here we profile single-nuclei RNA along with enhancer marks H3K4me1 or H3K27ac in islets from lean or obese mice. Our study identifies distinct gene signatures and enhancer states correlating with β cell dysfunction trajectory. Intriguingly, while many metabolic stress-induced genes exhibit concordant changes in both H3K4me1 and H3K27ac at their enhancers, expression changes of specific subsets are solely attributable to either H3K4me1 or H3K27ac dynamics. Remarkably, a subset of H3K4me1+H3K27ac- primed enhancers prevalent in lean β cells and occupied by FoxA2 are largely absent after metabolic stress. Lastly, cell-cell communication analysis identified the nerve growth factor (NGF) as protective paracrine signaling for β cells through repressing ER stress. In summary, our findings define the heterogeneous enhancer responses to metabolic challenges in individual β cells.
    DOI:  https://doi.org/10.1038/s41467-024-53717-0
  12. Commun Biol. 2024 Oct 30. 7(1): 1418
    ZC3HAV1 facilitates STING activation and enhances inflammation.
    Danhui Qin, Hui Song, Caiwei Wang, Xiaojie Ma, Yu Fu, Chunyuan Zhao, Wei Zhao, Lei Zhang, Weifang Zhang.
      Stimulator of interferon genes (STING) is vital in the cytosolic DNA-sensing process and critical for initiating the innate immune response, which has important functions in host defense and contributes to the pathogenesis of inflammatory diseases. Zinc finger CCCH-type antiviral protein 1 (ZC3HAV1) specifically binds the CpG dinucleotides in the viral RNAs of multiple viruses and promotes their degradation. ZAPS (ZC3HAV1 short isoform) is a potent stimulator of retinoid acid-inducible gene I (RIG-I) signaling during the antiviral response. However, how ZC3HAV1 controls STING signaling is unclear. Here, we show that ZC3HAV1 specifically potentiates STING activation by associating with STING to promote its oligomerization and translocation from the endoplasmic reticulum (ER) to the Golgi, which facilitates activation of IRF3 and NF-κB pathway. Accordingly, Zc3hav1 deficiency protects mice against herpes simplex virus-1 (HSV-1) infection- or 5,6-dimethylxanthenone-4-acetic acid (DMXAA)-induced inflammation in a STING-dependent manner. These results indicate that ZC3HAV1 is a key regulator of STING signaling, which suggests its possible use as a therapeutic target for STING-dependent inflammation.
    DOI:  https://doi.org/10.1038/s42003-024-07116-2
  13. Nature. 2024 Oct 30.
    Anti-obesity drug has life-changing benefits for arthritis.
    Traci Watson.
      
    Keywords:  Ageing; Medical research; Obesity
    DOI:  https://doi.org/10.1038/d41586-024-03512-0
  14. Science. 2024 Nov;386(6721): 501
    NextGen Voices: Quarter-Century Haiku.
      
    DOI:  https://doi.org/10.1126/science.adu2108
  15. Nat Aging. 2024 Oct 31.
    Rejuvenating older neural stem cells.
    George Andrew S Inglis.
      
    DOI:  https://doi.org/10.1038/s43587-024-00761-6
  16. Nature. 2024 Oct 30.
    What's so special about the human brain? A graphical guide.
    Kerri Smith, Nik Spencer.
      
    Keywords:  Brain; Evolution; Molecular biology; Neuroscience
    DOI:  https://doi.org/10.1038/d41586-024-03425-y
  17. Nature. 2024 Oct;634(8036): 1017-1018
    The world needs a US president who respects evidence.
      
    Keywords:  Government; Policy; Politics
    DOI:  https://doi.org/10.1038/d41586-024-03417-y
  18. Nature. 2024 Oct 31.
    Diabetes risk soars for adults who had a sweet tooth as kids.
    Heidi Ledford.
      
    Keywords:  Diabetes; Epidemiology; Metabolism; Nutrition
    DOI:  https://doi.org/10.1038/d41586-024-03535-7
  19. Nat Commun. 2024 Oct 31. 15(1): 9419
    Targeting the hypothalamus for modeling age-related DNA methylation and developing OXT-GnRH combinational therapy against Alzheimer's disease-like pathologies in male mouse model.
    Salman Sadullah Usmani, Hyun-Gug Jung, Qichao Zhang, Min Woo Kim, Yuna Choi, Ahmet Burak Caglayan, Dongsheng Cai.
      The hypothalamus plays an important role in aging, but it remains unclear regarding the underlying epigenetics and whether this hypothalamic basis can help address aging-related diseases. Here, by comparing mouse hypothalamus with two other limbic system components, we show that the hypothalamus is characterized by distinctively high-level DNA methylation during young age and by the distinct dynamics of DNA methylation and demethylation when approaching middle age. On the other hand, age-related DNA methylation in these limbic system components commonly and sensitively applies to genes in hypothalamic regulatory pathways, notably oxytocin (OXT) and gonadotropin-releasing hormone (GnRH) pathways. Middle age is associated with transcriptional declines of genes which encode OXT, GnRH and signaling components, which similarly occur in an Alzheimer's disease (AD)-like model. Therapeutically, OXT-GnRH combination is substantially more effective than individual peptides in treating AD-like disorders in male 5×FAD model. In conclusion, the hypothalamus is important for modeling age-related DNA methylation and developing hypothalamic strategies to combat AD.
    DOI:  https://doi.org/10.1038/s41467-024-53507-8
  20. Cell Host Microbe. 2024 Oct 23. pii: S1931-3128(24)00360-3. [Epub ahead of print]
    Metatranscriptomics-guided discovery and characterization of a polyphenol-metabolizing gut microbial enzyme.
    Minwoo Bae, Chi Le, Raaj S Mehta, Xueyang Dong, Lindsey M Pieper, Lorenzo Ramirez, Margaret Alexander, Sina Kiamehr, Peter J Turnbaugh, Curtis Huttenhower, Andrew T Chan, Emily P Balskus.
      Gut microbial catechol dehydroxylases are a largely uncharacterized family of metalloenzymes that potentially impact human health by metabolizing dietary polyphenols. Here, we use metatranscriptomics (MTX) to identify highly transcribed catechol-dehydroxylase-encoding genes in human gut microbiomes. We discover a prevalent, previously uncharacterized catechol dehydroxylase (Gp Hcdh) from Gordonibacter pamelaeae that dehydroxylates hydrocaffeic acid (HCA), an anti-inflammatory gut microbial metabolite derived from plant-based foods. Further analyses suggest that the activity of Gp Hcdh may reduce anti-inflammatory benefits of polyphenol-rich foods. Together, these results show the utility of combining MTX analysis and biochemical characterization for gut microbial enzyme discovery and reveal a potential link between host inflammation and a specific polyphenol-metabolizing gut microbial enzyme.
    Keywords:  catechol dehydroxylase; diet; gut microbe; inflammation; metatranscriptomics; polyphenol
    DOI:  https://doi.org/10.1016/j.chom.2024.10.002
  21. Nature. 2024 Oct;634(8036): 1021
    Atomic smash-ups hold promise of record-breaking elements.
      
    Keywords:  Physics
    DOI:  https://doi.org/10.1038/d41586-024-03381-7
  22. Nature. 2024 Oct 30.
    Single phage proteins sequester signals from TIR and cGAS-like enzymes.
    Dong Li, Yu Xiao, Iana Fedorova, Weijia Xiong, Yu Wang, Xi Liu, Erin Huiting, Jie Ren, Zirui Gao, Xingyu Zhao, Xueli Cao, Yi Zhang, Joseph Bondy-Denomy, Yue Feng.
      Prokaryotic anti-phage immune systems use TIR and cGAS-like enzymes to produce 1''-3'-glycocyclic ADP-ribose (1''-3'-gcADPR) and cyclic dinucleotide (CDN) and cyclic trinucleotide (CTN) signalling molecules, respectively, which limit phage replication1-3. However, how phages neutralize these distinct and common systems is largely unclear. Here we show that the Thoeris anti-defence proteins Tad14 and Tad25 both achieve anti-cyclic-oligonucleotide-based anti-phage signalling system (anti-CBASS) activity by simultaneously sequestering CBASS cyclic oligonucleotides. Apart from binding to the Thoeris signals 1''-3'-gcADPR and 1''-2'-gcADPR, Tad1 also binds to numerous CBASS CDNs and CTNs with high affinity, inhibiting CBASS systems that use these molecules in vivo and in vitro. The hexameric Tad1 has six binding sites for CDNs or gcADPR, which are independent of the two high-affinity binding sites for CTNs. Tad2 forms a tetramer that also sequesters various CDNs in addition to gcADPR molecules, using distinct binding sites to simultaneously bind to these signals. Thus, Tad1 and Tad2 are both two-pronged inhibitors that, alongside anti-CBASS protein 2 (Acb26-8), establish a paradigm of phage proteins that use distinct binding sites to flexibly sequester a considerable breadth of cyclic nucleotides.
    DOI:  https://doi.org/10.1038/s41586-024-08122-4
  23. Nature. 2024 Oct;634(8036): 1248-1249
    Scientific figures that pop: resources for the artistically challenged.
    Amanda Heidt.
      
    Keywords:  Authorship; Careers; Publishing; Technology
    DOI:  https://doi.org/10.1038/d41586-024-03477-0
  24. Nature. 2024 Oct 31.
    Hidden players: the bacteria-killing viruses of the gut microbiome.
    Anthony King.
      
    Keywords:  Microbiology; Virology
    DOI:  https://doi.org/10.1038/d41586-024-03532-w
  25. Nature. 2024 Oct 30.
    Autoinhibition of dimeric NINJ1 prevents plasma membrane rupture.
    Sergei Pourmal, Melissa E Truong, Matthew C Johnson, Ying Yang, Lijuan Zhou, Kamela Alegre, Irma B Stowe, Shalini Gupta, Phoebe A Chen, Yingnan Zhang, Alexis Rohou, Kim Newton, Nobuhiko Kayagaki, Vishva M Dixit, Ishan Deshpande.
      Lytic cell death culminates in plasma membrane rupture (PMR), which releases large intracellular molecules to augment the inflammatory response. PMR is mediated by the effector membrane protein ninjurin-1 (NINJ1)1, which polymerises and ruptures the membrane via its hydrophilic face1-4. How NINJ1 is restrained under steady-state conditions to ensure cell survival remains a mystery. Here we describe the molecular underpinnings of NINJ1 inhibition. Using cryogenic electron microscopy, we determined the structure of inactive-state mouse NINJ1 bound to a newly-developed nanobody, Nb538. Inactive NINJ1 forms a face-to-face homodimer by adopting a 3-helix conformation with unkinked transmembrane helix 1 (TM1), in contrast to the 4-helix TM1-kinked active conformation2-4. Accordingly, endogenous NINJ1 from primary macrophages is a dimer under steady-state conditions. Inactive dimers sequester the PMR-inducing hydrophilic face of NINJ1 and occlude the binding site for kinked TM1 from neighbouring activated NINJ1 molecules. Mutagenesis studies in cells show that destabilisation of inactive face-to-face dimers leads to NINJ1-mediated cell death, whereas stabilisation of face-to-face dimers inhibits NINJ1 activity. Moreover, destabilising mutations prompt spontaneous TM1 kink formation, a hallmark of NINJ1 activation. Collectively, our data demonstrate that dimeric NINJ1 is autoinhibited in trans to prevent unprovoked PMR and cell death.
    DOI:  https://doi.org/10.1038/s41586-024-08273-4
  26. Nature. 2024 Oct;634(8036): 1178-1186
    Tumour evolution and microenvironment interactions in 2D and 3D space.
    Chia-Kuei Mo, Jingxian Liu, Siqi Chen, Erik Storrs, Andre Luiz N Targino da Costa, Andrew Houston, Michael C Wendl, Reyka G Jayasinghe, Michael D Iglesia, Cong Ma, John M Herndon, Austin N Southard-Smith, Xinhao Liu, Jacqueline Mudd, Alla Karpova, Andrew Shinkle, S Peter Goedegebuure, Abdurrahman Taha Mousa Ali Abdelzaher, Peng Bo, Lauren Fulghum, Samantha Livingston, Metin Balaban, Angela Hill, Joseph E Ippolito, Vesteinn Thorsson, Jason M Held, Ian S Hagemann, Eric H Kim, Peter O Bayguinov, Albert H Kim, Mary M Mullen, Kooresh I Shoghi, Tao Ju, Melissa A Reimers, Cody Weimholt, Liang-I Kang, Sidharth V Puram, Deborah J Veis, Russell Pachynski, Katherine C Fuh, Milan G Chheda, William E Gillanders, Ryan C Fields, Benjamin J Raphael, Feng Chen, Li Ding.
      To study the spatial interactions among cancer and non-cancer cells1, we here examined a cohort of 131 tumour sections from 78 cases across 6 cancer types by Visium spatial transcriptomics (ST). This was combined with 48 matched single-nucleus RNA sequencing samples and 22 matched co-detection by indexing (CODEX) samples. To describe tumour structures and habitats, we defined 'tumour microregions' as spatially distinct cancer cell clusters separated by stromal components. They varied in size and density among cancer types, with the largest microregions observed in metastatic samples. We further grouped microregions with shared genetic alterations into 'spatial subclones'. Thirty five tumour sections exhibited subclonal structures. Spatial subclones with distinct copy number variations and mutations displayed differential oncogenic activities. We identified increased metabolic activity at the centre and increased antigen presentation along the leading edges of microregions. We also observed variable T cell infiltrations within microregions and macrophages predominantly residing at tumour boundaries. We reconstructed 3D tumour structures by co-registering 48 serial ST sections from 16 samples, which provided insights into the spatial organization and heterogeneity of tumours. Additionally, using an unsupervised deep-learning algorithm and integrating ST and CODEX data, we identified both immune hot and cold neighbourhoods and enhanced immune exhaustion markers surrounding the 3D subclones. These findings contribute to the understanding of spatial tumour evolution through interactions with the local microenvironment in 2D and 3D space, providing valuable insights into tumour biology.
    DOI:  https://doi.org/10.1038/s41586-024-08087-4
  27. Nat Commun. 2024 Oct 27. 15(1): 9267
    Fluorescent non-canonical amino acid provides insight into the human serotonin transporter.
    Andreas Nygaard, Linda G Zachariassen, Kathrine S Larsen, Anders S Kristensen, Claus J Loland.
      The serotonin transporter (SERT), responsible for the reuptake of released serotonin, serves as a major target for antidepressants and psychostimulants. Nevertheless, refining the mechanistic models for SERT remains challenging. Here, we expand the molecular understanding of the binding of ions, substrates, and inhibitors to SERT by incorporating the fluorescent non-canonical amino acid Anap through genetic code expansion. We elucidate steady-state changes in conformational dynamics of purified SERT with Anap inserted at intracellular- or extracellular sites. This uncovers the competitive mechanisms underlying cation binding and assigns distinct binding- and allosteric coupling patterns for several inhibitors and substrates. Finally, we track in real-time conformational transitions in response to the interaction with Na+ or serotonin. In this work, we present a methodological platform reporting on SERT conformational dynamics, which together with other approaches will deepen our insights into the molecular mechanisms of SERT.
    DOI:  https://doi.org/10.1038/s41467-024-53584-9
  28. Nature. 2024 Oct 28.
    Far-right governments seek to cut billions of euros from research in Europe.
    David Matthews.
      
    Keywords:  Policy; Politics
    DOI:  https://doi.org/10.1038/d41586-024-03506-y
  29. Nat Commun. 2024 Oct 30. 15(1): 9403
    Molecular mimicry as a mechanism of viral immune evasion and autoimmunity.
    Cole Maguire, Chumeng Wang, Akshara Ramasamy, Cara Fonken, Brinkley Morse, Nathan Lopez, Dennis Wylie, Esther Melamed.
      Mimicry of host protein structures, or 'molecular mimicry', is a common mechanism employed by viruses to evade the host's immune system. Short linear amino acid (AA) molecular mimics can elicit cross-reactive antibodies and T cells from the host, but the prevalence of such mimics throughout the human virome has not been fully explored. Here we evaluate 134 human-infecting viruses and find significant usage of linear mimicry across the virome, particularly those in the Herpesviridae and Poxviridae families. Furthermore, host proteins related to cellular replication and inflammation, autosomes, the X chromosome, and thymic cells are enriched as viral mimicry targets. Finally, we find that short linear mimicry from Epstein-Barr virus (EBV) is higher in auto-antibodies found in patients with multiple sclerosis than previously appreciated. Our results thus hint that human-infecting viruses leverage mimicry in the course of their infection, and that such mimicry may contribute to autoimmunity, thereby prompting potential targets for therapies.
    DOI:  https://doi.org/10.1038/s41467-024-53658-8
  30. J Clin Invest. 2024 Oct 31. pii: e179874. [Epub ahead of print]
    TMED4 facilitates Treg suppressive function via ROS homeostasis in tumor and autoimmune mouse models.
    Zhenyan Jiang, Huizi Wang, Xiaoxia Wang, Hongrui Duo, Yuexiao Tao, Jia Li, Xin Li, Jiamin Liu, Jun Ni, Emily Jiatong Wu, Hongrui Xiang, Chenyang Guan, Xinyu Wang, Kun Zhang, Peng Zhang, Zhaoyuan Hou, Yong Liu, Zhengting Wang, Bing Su, Bo Li, Youjin Hao, Bin Li, Xuefeng Wu.
      Endoplasmic reticulum stress (ERS) plays crucial roles in maintaining regulatory T cells (Treg) stability and function, yet the underlying mechanism remains largely unexplored. Here we demonstrate that ERS-related protein transmembrane p24 trafficking protein 4 (TMED4) Treg-specific knockout (Tmed4ΔTreg) mice contain more Treg cells with impaired Foxp3 stability, Treg signature and suppressive activity, which leads to T cell hyperactivation, exacerbated inflammatory phenotype and boosted anti-tumor immunity in mice. Mechanistically, loss of Tmed4 causes defects in ERS and nuclear factor erythroid 2-related factor 2 (NRF2)-related antioxidant response, which results in excessive reactive oxygen species (ROS) that reduces Foxp3 stability and suppressive function of Treg cells in an IRE1α-XBP1 axis-dependent manner. The abnormalities can be effectively rescued by ROS scavenger, NRF2 inducer or forcible expression of IRE1α. Moreover, TMED4 suppresses IRE1α proteosome degradation via the ER-associated degradation (ERAD) system including BIP. Our study reveals that TMED4 maintains Treg cell stability and suppressive function through IRE1α-dependent ROS and the NRF2-related antioxidant response.
    Keywords:  Adaptive immunity; Autoimmune diseases; Immunology; T cells
    DOI:  https://doi.org/10.1172/JCI179874
  31. Nature. 2024 Oct 25.
    Do stem-cell transplants increase cancer risk? Long-lived recipients offer clues.
    Smriti Mallapaty.
      
    Keywords:  Cell biology; Medical research; Therapeutics
    DOI:  https://doi.org/10.1038/d41586-024-03450-x
  32. Nat Cell Biol. 2024 Oct 31.
    Temporal dynamics of membrane contact sites.
    Tomas Knedlik, Marta Giacomello.
      
    DOI:  https://doi.org/10.1038/s41556-024-01539-z
  33. Nature. 2024 Oct 30.
    Clonal dynamics after allogeneic haematopoietic cell transplantation.
    Michael Spencer Chapman, C Matthias Wilk, Steffen Boettcher, Emily Mitchell, Kevin Dawson, Nicholas Williams, Jan Müller, Larisa Kovtonyuk, Hyunchul Jung, Francisco Caiado, Kirsty Roberts, Laura O'Neill, David G Kent, Anthony R Green, Jyoti Nangalia, Markus G Manz, Peter J Campbell.
      Allogeneic haematopoietic cell transplantation (HCT) replaces the stem cells responsible for blood production with those from a donor1,2. Here, to quantify dynamics of long-term stem cell engraftment, we sequenced genomes from 2,824 single-cell-derived haematopoietic colonies of ten donor-recipient pairs taken 9-31 years after HLA-matched sibling HCT3. With younger donors (18-47 years at transplant), 5,000-30,000 stem cells had engrafted and were still contributing to haematopoiesis at the time of sampling; estimates were tenfold lower with older donors (50-66 years). Engrafted cells made multilineage contributions to myeloid, B lymphoid and T lymphoid populations, although individual clones often showed biases towards one or other mature cell type. Recipients had lower clonal diversity than matched donors, equivalent to around 10-15 years of additional ageing, arising from up to 25-fold greater expansion of stem cell clones. A transplant-related population bottleneck could not explain these differences; instead, phylogenetic trees evinced two distinct modes of HCT-specific selection. In pruning selection, cell divisions underpinning recipient-enriched clonal expansions had occurred in the donor, preceding transplant-their selective advantage derived from preferential mobilization, collection, survival ex vivo or initial homing. In growth selection, cell divisions underpinning clonal expansion occurred in the recipient's marrow after engraftment, most pronounced in clones with multiple driver mutations. Uprooting stem cells from their native environment and transplanting them to foreign soil exaggerates selective pressures, distorting and accelerating the loss of clonal diversity compared to the unperturbed haematopoiesis of donors.
    DOI:  https://doi.org/10.1038/s41586-024-08128-y
  34. Nature. 2024 Oct 30.
    Monkeypox virus keeps getting better at spreading among humans.
    Max Kozlov.
      
    Keywords:  Diseases; Public health; Virology
    DOI:  https://doi.org/10.1038/d41586-024-03531-x
  35. Nat Commun. 2024 Oct 29. 15(1): 9213
    Regulation of minimal spindle midzone organization by mitotic kinases.
    Wei Ming Lim, Wei-Xiang Chew, Arianna Esposito Verza, Marion Pesenti, Andrea Musacchio, Thomas Surrey.
      During cell division, the microtubule cytoskeleton undergoes dramatic cell cycle-driven reorganizations of its architecture. Coordinated by changes in the phosphorylation patterns of a multitude of microtubule associated proteins, the mitotic spindle first self-assembles to capture the chromosomes and then reorganizes in anaphase as the chromosomes are segregated. A key protein for this reorganization is PRC1 which is differentially phosphorylated by the mitotic kinases CDK1 and PLK1. How the phosphorylation state of PRC1 orchestrates spindle reorganization is not understood mechanistically. Here, we reconstitute in vitro the transition between metaphase and anaphase-like microtubule architectures triggered by the changes in PRC1 phosphorylation. We find that whereas PLK1 regulates its own recruitment by PRC1, CDK1 controls the affinity of PRC1 for antiparallel microtubule binding. Dephosphorylation of CDK1-phosphorylated PRC1 is required and sufficient to trigger the reorganization of a minimal anaphase midzone in the presence of the midzone length controlling kinesin KIF4A. These results demonstrate how phosphorylation-controlled affinity changes regulate the architecture of active microtubule networks, providing new insight into the mechanistic underpinnings of the cell cycle-driven reorganization of the central spindle during mitosis.
    DOI:  https://doi.org/10.1038/s41467-024-53500-1
  36. Nat Commun. 2024 Oct 29. 15(1): 9334
    Protein O-GlcNAcylation coupled to Hippo signaling drives vascular dysfunction in diabetic retinopathy.
    Yi Lei, Qiangyun Liu, Binggui Chen, Fangfang Wu, Yiming Li, Xue Dong, Nina Ma, Ziru Wu, Yanfang Zhu, Lu Wang, Yuxin Fu, Yuming Liu, Yinting Song, Mei Du, Heng Zhang, Jidong Zhu, Timothy J Lyons, Ting Wang, Junhao Hu, Heping Xu, Mei Chen, Hua Yan, Xiaohong Wang.
      Metabolic disorder significantly contributes to diabetic vascular complications, including diabetic retinopathy, the leading cause of blindness in the working-age population. However, the molecular mechanisms by which disturbed metabolic homeostasis causes vascular dysfunction in diabetic retinopathy remain unclear. O-GlcNAcylation modification acts as a nutrient sensor particularly sensitive to ambient glucose. Here, we observe pronounced O-GlcNAc elevation in retina endothelial cells of diabetic retinopathy patients and mouse models. Endothelial-specific depletion or pharmacological inhibition of O-GlcNAc transferase effectively mitigates vascular dysfunction. Mechanistically, we find that Yes-associated protein (YAP) and Transcriptional co-activator with PDZ-binding motif (TAZ), key effectors of the Hippo pathway, are O-GlcNAcylated in diabetic retinopathy. We identify threonine 383 as an O-GlcNAc site on YAP, which inhibits its phosphorylation at serine 397, leading to its stabilization and activation, thereby promoting vascular dysfunction by inducing a pro-angiogenic and glucose metabolic transcriptional program. This work emphasizes the critical role of the O-GlcNAc-Hippo axis in the pathogenesis of diabetic retinopathy and suggests its potential as a therapeutic target.
    DOI:  https://doi.org/10.1038/s41467-024-53601-x
  37. Aging Cell. 2024 Oct 31. e14389
    Endothelial cell-specific progerin expression does not cause cardiovascular alterations and premature death.
    Ignacio Benedicto, Magda R Hamczyk, Rosa M Nevado, Ana Barettino, Rosa M Carmona, Carla Espinós-Estévez, Pilar Gonzalo, Miguel de la Fuente-Pérez, María J Andrés-Manzano, Cristina González-Gómez, Beatriz Dorado, Vicente Andrés.
      Hutchinson-Gilford progeria syndrome (HGPS) is a rare genetic disorder caused by a mutation in the LMNA gene that provokes the synthesis of progerin, a mutant version of the nuclear protein lamin A that accelerates aging and precipitates death. The most clinically relevant feature of HGPS is the development of cardiac anomalies and severe vascular alterations, including massive loss of vascular smooth muscle cells, increased fibrosis, and generalized atherosclerosis. However, it is unclear if progerin expression in endothelial cells (ECs) causes the cardiovascular manifestations of HGPS. To tackle this question, we generated atherosclerosis-free mice (LmnaLCS/LCSCdh5-CreERT2) and atheroprone mice (Apoe-/-LmnaLCS/LCSCdh5-CreERT2) with EC-specific progerin expression. Like progerin-free controls, LmnaLCS/LCSCdh5-CreERT2 mice did not develop heart fibrosis or cardiac electrical and functional alterations, and had normal vascular structure, body weight, and lifespan. Similarly, atheroprone Apoe-/-LmnaLCS/LCSCdh5-CreERT2 mice showed no alteration in body weight or lifespan versus Apoe-/-LmnaLCS/LCS controls and did not develop vascular alterations or aggravated atherosclerosis. Our results indicate that progerin expression in ECs is not sufficient to cause the cardiovascular phenotype and premature death associated with progeria.
    Keywords:  Hutchinson‐Gilford progeria syndrome; atherosclerosis; cardiovascular disease; endothelial cells; progerin
    DOI:  https://doi.org/10.1111/acel.14389
  38. Nat Methods. 2024 Oct 31.
    Uncovering cell cycle speed modulations with statistical inference.
    Pengzhi Zhang, Guangyu Wang.
      
    DOI:  https://doi.org/10.1038/s41592-024-02484-3
  39. Nat Commun. 2024 Oct 30. 15(1): 9381
    High-parametric protein maps reveal the spatial organization in early-developing human lung.
    Sanem Sariyar, Alexandros Sountoulidis, Jan Niklas Hansen, Sergio Marco Salas, Mariya Mardamshina, Anna Martinez Casals, Frederic Ballllosera Navarro, Zaneta Andrusivova, Xiaofei Li, Paulo Czarnewski, Joakim Lundeberg, Sten Linnarsson, Mats Nilsson, Erik Sundström, Christos Samakovlis, Emma Lundberg, Burcu Ayoglu.
      The respiratory system, including the lungs, is essential for terrestrial life. While recent research has advanced our understanding of lung development, much still relies on animal models and transcriptome analyses. In this study conducted within the Human Developmental Cell Atlas (HDCA) initiative, we describe the protein-level spatiotemporal organization of the lung during the first trimester of human gestation. Using high-parametric tissue imaging with a 30-plex antibody panel, we analyzed human lung samples from 6 to 13 post-conception weeks, generating data from over 2 million cells across five developmental timepoints. We present a resource detailing spatially resolved cell type composition of the developing human lung, including proliferative states, immune cell patterns, spatial arrangement traits, and their temporal evolution. This represents an extensive single-cell resolved protein-level examination of the developing human lung and provides a valuable resource for further research into the developmental roots of human respiratory health and disease.
    DOI:  https://doi.org/10.1038/s41467-024-53752-x
  40. Mol Cell. 2024 Oct 22. pii: S1097-2765(24)00825-6. [Epub ahead of print]
    Palmitoylation licenses RIPK1 kinase activity and cytotoxicity in the TNF pathway.
    Na Zhang, Jianping Liu, Rui Guo, Lingjie Yan, Yuanxin Yang, Chen Shi, Mengmeng Zhang, Bing Shan, Wanjin Li, Jinyang Gu, Daichao Xu.
      Tumor necrosis factor (TNF)-induced receptor-interacting serine/threonine protein kinase 1 (RIPK1)-mediated cell death, including apoptosis and necroptosis, is increasingly recognized as a major driver of inflammatory diseases. Cell death checkpoints normally suppress RIPK1 kinase to safeguard the organism from its detrimental consequences. However, the mechanisms licensing RIPK1 kinase activity when a protective checkpoint is disabled remain unclear. Here, we identified S-palmitoylation as a licensing modification for RIPK1 kinase. TNF induces RIPK1 palmitoylation, mediated by DHHC5 and dependent on K63-linked ubiquitination of RIPK1, which enhances RIPK1 kinase activity by promoting the homo-interaction of its kinase domain and promotes cell death upon cell death checkpoint blockade. Furthermore, DHHC5 is amplified by fatty acid in the livers of mice with metabolic dysfunction-associated steatohepatitis, contributing to increased RIPK1 cytotoxicity observed in this condition. Our findings reveal that ubiquitination-dependent palmitoylation licenses RIPK1 kinase activity to induce downstream cell death signaling and suggest RIPK1 palmitoylation as a feasible target for inflammatory diseases.
    Keywords:  DHHC5; RIPK1; TNF pathway; apoptosis; metabolic dysfunction-associated steatohepatitis; necroptosis; palmitoyl acyltransferase; palmitoylation
    DOI:  https://doi.org/10.1016/j.molcel.2024.10.002
  41. Nature. 2024 Oct 30.
    How to demonstrate the real-world impact of your research.
    Martha Newson, Sadie Watson.
      
    Keywords:  Careers; Government; Policy
    DOI:  https://doi.org/10.1038/d41586-024-03059-0
  42. Nature. 2024 Oct 25.
    Study reveals three ways to disappear down a Wikipedia rabbit hole.
    Helena Kudiabor.
      
    Keywords:  Information technology; Society; Software
    DOI:  https://doi.org/10.1038/d41586-024-03454-7
  43. Commun Biol. 2024 Oct 25. 7(1): 1387
    A conserved Plasmodium nuclear protein is critical for late liver stage development.
    Debashree Goswami, Silvia A Arredondo, William Betz, Janna Armstrong, Sudhir Kumar, Gigliola Zanghi, Hardik Patel, Nelly Camargo, Kenza M Z Oualim, Annette M Seilie, Sophia Schneider, Sean C Murphy, Stefan H I Kappe, Ashley M Vaughan.
      Malaria, caused by Plasmodium parasites, imposes a significant health burden and live-attenuated parasites are being pursued as vaccines. Here, we report on the creation of a genetically attenuated parasite by the deletion of Plasmodium LINUP, encoding a liver stage nuclear protein. In the rodent parasite Plasmodium yoelii, LINUP expression was restricted to liver stage nuclei after the onset of liver stage schizogony. Compared to wildtype P. yoelii, P. yoelii LINUP gene deletion parasites (linup-) exhibited no phenotype in blood stages and mosquito stages but suffered developmental arrest late in liver stage schizogony with a pronounced defect in exo-erythrocytic merozoite formation. This defect caused severe attenuation of the liver stage-to-blood stage transition and immunization of mice with linup - parasites conferred robust protection against infectious sporozoite challenge. LINUP gene deletion in the human parasite Plasmodium falciparum also caused a severe defect in late liver stage differentiation. Importantly, P. falciparum linup - liver stages completely failed to transition from the liver stage to a viable blood stage infection in a humanized mouse model. These results suggest that P. falciparum LINUP is an ideal target for late liver stage attenuation that can be incorporated into a late liver stage-arresting replication competent whole parasite vaccine.
    DOI:  https://doi.org/10.1038/s42003-024-07063-y
  44. Nat Med. 2024 Oct 31.
    Exploring the limits of life extension.
    Karen O'Leary.
      
    Keywords:  Ageing; Public health; Society
    DOI:  https://doi.org/10.1038/d41591-024-00076-4
  45. Nat Commun. 2024 Oct 29. 15(1): 9340
    Structure of the turnover-ready state of an ancestral respiratory complex I.
    Bozhidar S Ivanov, Hannah R Bridges, Owen D Jarman, Judy Hirst.
      Respiratory complex I is pivotal for cellular energy conversion, harnessing energy from NADH:ubiquinone oxidoreduction to drive protons across energy-transducing membranes for ATP synthesis. Despite detailed structural information on complex I, its mechanism of catalysis remains elusive due to lack of accompanying functional data for comprehensive structure-function analyses. Here, we present the 2.3-Å resolution structure of complex I from the α-proteobacterium Paracoccus denitrificans, a close relative of the mitochondrial progenitor, in phospholipid-bilayer nanodiscs. Three eukaryotic-type supernumerary subunits (NDUFS4, NDUFS6 and NDUFA12) plus a novel L-isoaspartyl-O-methyltransferase are bound to the core complex. Importantly, the enzyme is in a single, homogeneous resting state that matches the closed, turnover-ready (active) state of mammalian complex I. Our structure reveals the elements that stabilise the closed state and completes P. denitrificans complex I as a unified platform for combining structure, function and genetics in mechanistic studies.
    DOI:  https://doi.org/10.1038/s41467-024-53679-3
  46. Nat Commun. 2024 Oct 28. 15(1): 9301
    Conserved autism-associated genes tune social feeding behavior in C. elegans.
    Mara H Cowen, Dustin Haskell, Kristi Zoga, Kirthi C Reddy, Sreekanth H Chalasani, Michael P Hart.
      Animal foraging is an essential and evolutionarily conserved behavior that occurs in social and solitary contexts, but the underlying molecular pathways are not well defined. We discover that conserved autism-associated genes (NRXN1(nrx-1), NLGN3(nlg-1), GRIA1,2,3(glr-1), GRIA2(glr-2), and GLRA2,GABRA3(avr-15)) regulate aggregate feeding in C. elegans, a simple social behavior. NRX-1 functions in chemosensory neurons (ADL and ASH) independently of its postsynaptic partner NLG-1 to regulate social feeding. Glutamate from these neurons is also crucial for aggregate feeding, acting independently of NRX-1 and NLG-1. Compared to solitary counterparts, social animals show faster presynaptic release and more presynaptic release sites in ASH neurons, with only the latter requiring nrx-1. Disruption of these distinct signaling components additively converts behavior from social to solitary. Collectively, we find that aggregate feeding is tuned by conserved autism-associated genes through complementary synaptic mechanisms, revealing molecular principles driving social feeding.
    DOI:  https://doi.org/10.1038/s41467-024-53590-x
  47. Cell. 2024 Oct 24. pii: S0092-8674(24)01149-8. [Epub ahead of print]
    Structure-guided discovery of bile acid derivatives for treating liver diseases without causing itch.
    Jun Yang, Tianjun Zhao, Junping Fan, Huaibin Zou, Guangyi Lan, Fusheng Guo, Yaocheng Shi, Han Ke, Huasheng Yu, Zongwei Yue, Xin Wang, Yingjie Bai, Shuai Li, Yingjun Liu, Xiaoming Wang, Yu Chen, Yulong Li, Xiaoguang Lei.
      Chronic itch is a debilitating symptom profoundly impacting the quality of life in patients with liver diseases like cholestasis. Activation of the human G-protein coupled receptor, MRGPRX4 (hX4), by bile acids (BAs) is implicated in promoting cholestasis itch. However, the detailed underlying mechanisms remain elusive. Here, we identified 3-sulfated BAs that are elevated in cholestatic patients with itch symptoms. We solved the cryo-EM structure of hX4-Gq in a complex with 3-phosphated deoxycholic acid (DCA-3P), a mimic of the endogenous 3-sulfated deoxycholic acid (DCA-3S). This structure revealed an unprecedented ligand-binding pocket in MRGPR family proteins, highlighting the crucial role of the 3-hydroxyl (3-OH) group on BAs in activating hX4. Guided by this structural information, we designed and developed compound 7 (C7), a BA derivative lacking the 3-OH. Notably, C7 effectively alleviates hepatic injury and fibrosis in liver disease models while significantly mitigating the itch side effects.
    Keywords:  3-sulfonated bile acids; MRGPRX4; OCA; bile acids; cholestatic pruritus; cryo-EM structure; deoxycholic acid; farnesoid X receptor; liver diseases; non-alcoholic steatohepatitis
    DOI:  https://doi.org/10.1016/j.cell.2024.10.001
  48. Nat Commun. 2024 Oct 25. 15(1): 9235
    Self-supervised learning for accurately modelling hierarchical evolutionary patterns of cerebrovasculature.
    Bin Guo, Ying Chen, Jinping Lin, Bin Huang, Xiangzhuo Bai, Chuanliang Guo, Bo Gao, Qiyong Gong, Xiangzhi Bai.
      Cerebrovascular abnormalities are critical indicators of stroke and neurodegenerative diseases like Alzheimer's disease (AD). Understanding the normal evolution of brain vessels is essential for detecting early deviations and enabling timely interventions. Here, for the first time, we proposed a pipeline exploring the joint evolution of cortical volumes (CVs) and arterial volumes (AVs) in a large cohort of 2841 individuals. Using advanced deep learning for vessel segmentation, we built normative models of CVs and AVs across spatially hierarchical brain regions. We found that while AVs generally decline with age, distinct trends appear in regions like the circle of Willis. Comparing healthy individuals with those affected by AD or stroke, we identified significant reductions in both CVs and AVs, wherein patients with AD showing the most severe impact. Our findings reveal gender-specific effects and provide critical insights into how these conditions alter brain structure, potentially guiding future clinical assessments and interventions.
    DOI:  https://doi.org/10.1038/s41467-024-53550-5
  49. Mol Cell. 2024 Oct 24. pii: S1097-2765(24)00826-8. [Epub ahead of print]
    Senescence suppresses the integrated stress response and activates a stress-remodeled secretory phenotype.
    Matthew J Payea, Showkat A Dar, Carlos Anerillas, Jennifer L Martindale, Cedric Belair, Rachel Munk, Sulochan Malla, Jinshui Fan, Yulan Piao, Xiaoling Yang, Abid Rehman, Nirad Banskota, Kotb Abdelmohsen, Myriam Gorospe, Manolis Maragkakis.
      Senescence is a state of indefinite cell-cycle arrest associated with aging, cancer, and age-related diseases. Here, we find that translational deregulation, together with a corresponding maladaptive integrated stress response (ISR), is a hallmark of senescence that desensitizes senescent cells to stress. We present evidence that senescent cells maintain high levels of eIF2α phosphorylation, typical of ISR activation, but translationally repress production of the stress response activating transcription factor 4 (ATF4) by ineffective bypass of the inhibitory upstream open reading frames (uORFs). Surprisingly, ATF4 translation remains inhibited even after acute proteotoxic and amino acid starvation stressors, resulting in a highly diminished stress response. We also find that stress augments the senescence-associated secretory phenotype with sustained remodeling of inflammatory factors expression that is suppressed by non-uORF carrying ATF4 mRNA expression. Our results thus show that senescent cells possess a unique response to stress, which entails an increase in their inflammatory profile.
    Keywords:  ATF4; ER stress; ISR; SASP; integrated stress response; nanopore direct RNA sequencing; proteomics; ribosome sequencing; senescence; senescence-associated secretory phenotype; translation
    DOI:  https://doi.org/10.1016/j.molcel.2024.10.003
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