bims-conane 2025-04-06 papers

Hemoglobin. 2025 Mar 30. 1-4

Unusual Causes of β Thalassemia Trait: Discovery of another Three Novel SUPT5H Variants.

Nik Fatma Fairuz Nik Mohd Hasan, Ahlem Achour, Tamara Koopmann, Adriaan van Gammeren, Joep van der Leeuw, Huib Ceelie, Daniel Stieber, Frank Baas, Cornelis L Harteveld.

Beta (β) thalassemia is an inherited disorder that occurs following mutations or deletions in the β globin gene. Rarely, it is caused by variants in genes coding for erythroid transcriptional factors or trans-acting factors. Here, we report three novel variants of SUPT5H revealed by next generation sequencing. This, gene has been progressively acknowledged as a mimicker of β thalassemia trait in two independent individuals and one family. These individuals have the same features, including hypochromic microcytic indices, increased Hb A2 levels, without mutations in the β globin gene. The three novel SUPT5H variants identified in this study (c.1168_1169del, c.2688del and c.307+1G>A) are frameshift variants leading to a premature stop codon or an intronic variant predicted to alter the splice site consensus sequence by in silico software. All three variants are characterized as Loss-of-Function variants either by generating a truncated protein or haplo-insufficiency due to nonsense-mediated decay. These findings confirm the general observation that most variants in SUPT5H associated with a β thalassemia trait phenotype are Loss-of-Function variants. This gene should be considered as a potential target gene in the genetic diagnosis of any unsolved cases of increased HbA2 and unexplained inconsistency of phenotype and genotype of β thalassemia intermedia.

Keywords: Increased Hb A2; SUPT5H; mutation; β thalassemia

DOI: https://doi.org/10.1080/03630269.2025.2484230

Exp Hematol Oncol. 2025 Mar 28. 14(1): 47

A one-base therapeutic insertion in the HBG2 distal promoter reactivates γ-globin expression.

Xiuqin Bao, Yuanyi Gao, Xiaoyi Chen, Zhongju Wang, Xiaoqin Feng, Liren Wang, Jing Du, Yuhua Ye, Feijing Chen, Li Du, Aihua Yin, Xiangmin Xu.

BACKGROUND: The reactivation of developmental silenced γ-globin genes (HBG1/2) has shown promise as a therapeutic strategy for improving symptoms of β-hemoglobinopathies. Currently, the focus of therapeutic targets is primarily on the major fetal hemoglobin suppressors, such as BCL11A and ZBTB7A and of their binding sites on the proximal HBG promoter. However, the role of the distal HBG promoter in regulating gene expression remains to be explored.
METHODS: We used CRISPR/Cas9 system to edit the distal HBG promoter. In vitro and in vivo assays, as well as engrafted NCG-Kit-V831M mice, were used for functional validation and mechanistic studies.
RESULTS: We discovered an insertion of nucleotide A (insA) between - 1368 and - 1369 bp upstream of the TSS in HBG2 resulting in remarkable increase in γ-globin expression in HUDEP-2 cells. We also observed elevated γ-globin expression in human CD34+ erythroid progenitor cells from healthy individuals and those with β-thalassemia when introducing insA mutation. Similarly, engrafted NCG-Kit-V831M mice showed increased γ-globin expression. Importantly, neither did insA have any off-target effects nor did it affect the maturation of erythroid cells. Furthermore, we found that the insA mutation created a binding site for the transcription activator FOXO3, which was activated by AMPK. Additionally, introducing insA specifically demethylated the - 162 CpG site on HBG promoter by reducing the enrichment of DNA methyltransferase 3 A (DNMT3A). At the same time, it activated histone modifications and RNA polymerase II (Pol II) in both distal and proximal HBG promoter and might inhibit the binding of BCL11A and ZBTB7A on -115 and - 200 sites on the HBG promoter respectively. In addition, combination of insA and the - 115 or -200 editing targets resulted in an amplify effect in reactivating γ-globin genes expression.
CONCLUSIONS: Overall, we presented the preclinical data to support the role of insA on regulating γ-globin expression using CD34+ HSPC cells derived from healthy donors or patients with β-thalassemia, and subsequently engrafted mice. Our study suggests that introducing insA mutation leads to significantly boosted fetal globin levels and uncovers new safe therapeutic target or strategy for β-hemoglobinopathies.

Keywords: HBG2 distal promoter; CD34+ HSPC cells; FOXO3; Methylation; One-base therapeutic insertion; Therapeutic target; β-thalassemia

DOI: https://doi.org/10.1186/s40164-025-00626-7

Expert Rev Hematol. 2025 Apr 03.

The challenges of iron chelation therapy in thalassemia: how do we overcome them?

Lauren E Wang, Sara Muttar, Sherif M Badawy.

INTRODUCTION: Packed red blood cell (pRBC) transfusions are the primary treatment for thalassemia. However, chronic transfusions ultimately result in iron overload, causing heart, liver, and endocrine complications along with other comorbidities. Although iron chelation is routinely initiated to remove excess iron, adherence remains a challenge, and iron overload still contributes to significant morbidity and early mortality in thalassemia.
AREAS COVERED: We review the evidence for iron overload and its complications in thalassemia. We also assess iron chelation strategies with possible adherence challenges categorized as patient-, medication-, and system-related barriers. Evidence suggests that lower adherence rates have been associated with more endorsed barriers. Further, patient-related barriers could be internal or external, and taking a patient-centered approach is key to addressing these challenges. Choosing the right iron chelator could help overcome some medication-related barriers. Finally, insurance coverage and access to specialized centers could affect initiation of iron chelation.
EXPERT OPINION: A critical and routine assessment of adherence barriers is key to optimizing patients' adherence to iron chelation. Adherence is often a multifactorial process, and it varies over time. Shared decision making with patients and/or caregivers is an important next step to improving adherence to iron chelation, and ultimately health outcomes.

Keywords: Iron chelation; adherence; barriers; hemoglobinopathy; iron overload; mobile health; thalassemia; transfusion

DOI: https://doi.org/10.1080/17474086.2025.2489562

Science. 2025 Apr 04. 388(6742): 52-59

Transcription factor networks disproportionately enrich for heritability of blood cell phenotypes.

Jorge Diego Martin-Rufino, Alexis Caulier, Seayoung Lee, Nicole Castano, Emily King, Samantha Joubran, Marcus Jones, Seth R Goldman, Uma P Arora, Lara Wahlster, Eric S Lander, Vijay G Sankaran.

Most phenotype-associated genetic variants map to noncoding regulatory regions of the human genome, but their mechanisms remain elusive in most cases. We developed a highly efficient strategy, Perturb-multiome, to simultaneously profile chromatin accessibility and gene expression in single cells with CRISPR-mediated perturbation of master transcription factors (TFs). We examined the connection between TFs, accessible regions, and gene expression across the genome throughout hematopoietic differentiation. We discovered that variants within TF-sensitive accessible chromatin regions in erythroid differentiation, although representing <0.3% of the genome, show a ~100-fold enrichment for blood cell phenotype heritability, which is substantially higher than that for other accessible chromatin regions. Our approach facilitates large-scale mechanistic understanding of phenotype-associated genetic variants by connecting key cis-regulatory elements and their target genes within gene regulatory networks.

DOI: https://doi.org/10.1126/science.ads7951

Blood Cells Mol Dis. 2025 Mar 29. pii: S1079-9796(25)00015-4. [Epub ahead of print]112 102923

Comprehensive analysis of sickle β+-thalassemia genotypes and their associated HbA levels in France.

Cecilia Baltus, Stéphane Moutereau, Nathalie Couque, Bichr Allaf, Muriel Giansily-Blaizot, Julian Boutin, Ketty Lee, Emmanuelle Bernit, Estelle Cadet, Victor Bobee, Véronique Picard, Serge Pissard, Frédéric Galactéros, Céline Renoux, Philippe Connes, Patricia Aguilar-Martinez, Corinne Pondarre, Philippe Joly.

We retrospectively reviewed the clinical records of 228 HbS/β+-thal patients. The different genotypes were distributed into three groups according to their mean residual HbA levels: <10 % (group 1; n = 22), between 10 and 20 % (group 2; n = 175) and > 20 % (group 3; n = 31). Routine red blood cells and hemoglobin parameters were compared between the three groups. Sixteen different sickle β+-thal genotypes were identified but only four of them were associated with a residual HbA level below 10 %. Patients of this group exhibited a more severe anemia (Hb < 10 g/dL; reticulocytes >200 G/L) compared to the two other groups. However, no difference could be observed on those parameters between patients of group 2 and 3, as well as for the main RBC parameters. According to our study, >80 % of the sickle β+-thalassemia patients in France have a residual HbA level beyond 10 % and a mild to moderate anemia. Only four β+-thal variations (all affecting the splicing process) would lead to a potentially severe SCD syndrome in association with HbS (HbA < 10 %) but this result should be confirmed in a prospective clinical study.

Keywords: Genotype-phenotype correlation; HbA levels; Sickle beta(+)-thalassemia

DOI: https://doi.org/10.1016/j.bcmd.2025.102923