bims-limsir Biomed News
on Lipophilic modified siRNAs
Issue of 2024–03–17
three papers selected by
Ivan V. Chernikov, Institute of Сhemical Biology and Fundamental Medicine of the SB RAS
  1. Impact of allele-selective silencing of von Willebrand factor in mice based on a single nucleotide allelic difference in von Willebrand factor.
  2. Chimeric Antigen Receptor T Cell Therapy for Hepatocellular Carcinoma: Where Do We Stand?
  3. Intrathecal bivalent CAR T cells targeting EGFR and IL13Rα2 in recurrent glioblastoma: phase 1 trial interim results.
  1. Thromb Res. 2024 Mar 05. pii: S0049-3848(24)00075-6. [Epub ahead of print]236 201-208
    Impact of allele-selective silencing of von Willebrand factor in mice based on a single nucleotide allelic difference in von Willebrand factor.
    Yvonne K Jongejan, Noa A Linthorst, Elisa Schrader Echeverri, Sebastiaan N J Laan, Richard J Dirven, James E Dahlman, Bart J M van Vlijmen, Cécile V Denis, Jeroen C J Eikenboom.
       INTRODUCTION: Von Willebrand factor (VWF) plays a pathophysiological role in hemostatic disorders. Partial inhibition of the VWF gene through small interfering RNA (siRNA)-mediated allele-selective silencing could be a promising therapeutic strategy. For von Willebrand disease, allele-selectively inhibiting dominant-negative VWF-alleles might ameliorate the phenotype. For thrombotic disorders, partial VWF reduction can lower thrombotic risk, while avoiding bleeding. Previously, we demonstrated the feasibility of Vwf-silencing in homozygous C57BL/6J (B6) or 129S1/SvImJ (129S) mice. The present study investigated allele-selective Vwf-silencing in a complex heterozygous setting of crossed B6 and 129S mice and its subsequent hemostatic impact.
    MATERIALS AND METHODS: Heterozygous B6.129S mice were treated with siRNAs targeting Vwf expressed from either B6- (siVwf.B6) or 129S-alleles (siVwf.129S). Plasma VWF and lung Vwf mRNA were determined. siVwf.B6-treated B6.129S mice were subjected to ferric chloride-induced mesenteric vessel thrombosis and tail-bleeding.
    RESULTS: In B6.129S mice, siVwf.B6 reduced Vwf mRNA of the targeted B6-allele by 72% vs. only 12% of the non-targeted 129S-allele (41% total mRNA reduction), lowering plasma VWF by 46%. Oppositely, siVwf.129S reduced Vwf mRNA by 45%, now selectively inhibiting the 129S-allele over the B6-allele (58% vs. 9%), decreasing plasma VWF by 43%. The allele-selective VWF reduction by siVwf.B6 coincided with decreased thrombus formation in mesenteric arterioles, without prolonging tail-bleeding times.
    CONCLUSIONS: This study demonstrates the feasibility of allele-selective Vwf-silencing in a heterozygous setting, achieving a controlled close to 50% reduction of plasma VWF. The observed thromboprotection and absence of prolonged bleeding times underline the potential of allele-selective Vwf-silencing as a therapeutic strategy in hemostatic disorders.
    Keywords:  Allele-selective silencing; Bleeding; Murine models; Thrombosis; Von Willebrand factor; siRNA
    DOI:  https://doi.org/10.1016/j.thromres.2024.03.002
  2. Int J Mol Sci. 2024 Feb 23. pii: 2631. [Epub ahead of print]25(5):
    Chimeric Antigen Receptor T Cell Therapy for Hepatocellular Carcinoma: Where Do We Stand?
    Ioanna Aggeletopoulou, Maria Kalafateli, Christos Triantos.
      Hepatocellular carcinoma (HCC) remains a global health challenge that urgently calls for innovative therapeutic strategies. Chimeric antigen receptor T cell (CAR T) therapy has emerged as a promising avenue for HCC treatment. However, the therapeutic efficacy of CAR T immunotherapy in HCC patients is significantly compromised by some major issues including the immunosuppressive environment within the tumor, antigen heterogeneity, CAR T cell exhaustion, and the advanced risk for on-target/off-tumor toxicity. To overcome these challenges, many ongoing preclinical and clinical trials are underway focusing on the identification of optimal target antigens and the decryption of the immunosuppressive milieu of HCC. Moreover, limited tumor infiltration constitutes a significant obstacle of CAR T cell therapy that should be addressed. The continuous effort to design molecular targets for CAR cells highlights the importance for a more practical approach for CAR-modified cell manufacturing. This review critically examines the current landscape of CAR T cell therapy for HCC, shedding light on the changes in innate and adaptive immune responses in the context of HCC, identifying potential CAR T cell targets, and exploring approaches to overcome inherent challenges. Ongoing advancements in scientific research and convergence of diverse treatment modalities offer the potential to greatly enhance HCC patients' care in the future.
    Keywords:  T cell exhaustion; adoptive T cell therapy; chimeric antigen receptor; cytotoxicity; hepatocellular carcinoma; immunotherapy; tumor microenvironment
    DOI:  https://doi.org/10.3390/ijms25052631
  3. Nat Med. 2024 Mar 13.
    Intrathecal bivalent CAR T cells targeting EGFR and IL13Rα2 in recurrent glioblastoma: phase 1 trial interim results.
    Stephen J Bagley, Meghan Logun, Joseph A Fraietta, Xin Wang, Arati S Desai, Linda J Bagley, Ali Nabavizadeh, Danuta Jarocha, Rene Martins, Eileen Maloney, Lester Lledo, Carly Stein, Amy Marshall, Rachel Leskowitz, Julie K Jadlowsky, Shannon Christensen, Bike Su Oner, Gabriela Plesa, Andrea Brennan, Vanessa Gonzalez, Fang Chen, Yusha Sun, Whitney Gladney, David Barrett, MacLean P Nasrallah, Wei-Ting Hwang, Guo-Li Ming, Hongjun Song, Donald L Siegel, Carl H June, Elizabeth O Hexner, Zev A Binder, Donald M O'Rourke.
      Recurrent glioblastoma (rGBM) remains a major unmet medical need, with a median overall survival of less than 1 year. Here we report the first six patients with rGBM treated in a phase 1 trial of intrathecally delivered bivalent chimeric antigen receptor (CAR) T cells targeting epidermal growth factor receptor (EGFR) and interleukin-13 receptor alpha 2 (IL13Rα2). The study's primary endpoints were safety and determination of the maximum tolerated dose. Secondary endpoints reported in this interim analysis include the frequency of manufacturing failures and objective radiographic response (ORR) according to modified Response Assessment in Neuro-Oncology criteria. All six patients had progressive, multifocal disease at the time of treatment. In both dose level 1 (1 ×107 cells; n = 3) and dose level 2 (2.5 × 107 cells; n = 3), administration of CART-EGFR-IL13Rα2 cells was associated with early-onset neurotoxicity, most consistent with immune effector cell-associated neurotoxicity syndrome (ICANS), and managed with high-dose dexamethasone and anakinra (anti-IL1R). One patient in dose level 2 experienced a dose-limiting toxicity (grade 3 anorexia, generalized muscle weakness and fatigue). Reductions in enhancement and tumor size at early magnetic resonance imaging timepoints were observed in all six patients; however, none met criteria for ORR. In exploratory endpoint analyses, substantial CAR T cell abundance and cytokine release in the cerebrospinal fluid were detected in all six patients. Taken together, these first-in-human data demonstrate the preliminary safety and bioactivity of CART-EGFR-IL13Rα2 cells in rGBM. An encouraging early efficacy signal was also detected and requires confirmation with additional patients and longer follow-up time. ClinicalTrials.gov identifier: NCT05168423 .
    DOI:  https://doi.org/10.1038/s41591-024-02893-z
This page is being maintained by Thomas Krichel. It was last updated on 2025‒02‒13 at 22:45.