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Battling diamond-blackfan anaemia

Battling diamond-blackfan anaemia


Battling diamond-blackfan anaemia

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Access through your institution Buy or subscribe Gene therapy strategies against Diamond-Blackfan anaemia (DBA) have been hampered by the multiple and heterogeneous causative mutations. A study now shows that modulating GATA1 expression is sufficient to tackle the erythroid maturation arrest in DBA models and patient-derived samples. Voit et al. first identified endogenous regulatory elements (hG1E-GATA1) guiding erythroid-restricted expression of GATA1 in human haematopoietic cells and then showed that hG1E-GATA1 treatment supports erythropoiesis without affecting haematopoietic stem cell function. Subsequently, they demonstrated that hG1E-GATA1 treatment can improve erythroid output in DBA models, as well as in samples from individuals with DBA, including in vivo, as suggested by xenotransplantation assays. Using single-cell transcriptomics, Voit et al. found that hG1E-GATA1 treatment reverses the DBA-characteristic erythroid transcriptional dysregulation. Finally, integration site analysis revealed that the genomic integration profile of hG1E-GATA1 lentiviral vector is comparable to that of other lentiviral gene therapy products, thus supporting the presented approach as a good candidate to test in the clinic. This is a preview of subscription content, access via your institution ACCESS OPTIONS Access through your institution Access Nature and 54 other Nature Portfolio journals Get Nature+, our best-value online-access subscription $29.99 / 30 days cancel any time Learn more Subscribe to this journal Receive 12 print issues and online access $209.00 per year only $17.42 per issue Learn more Buy this article * Purchase on SpringerLink * Instant access to full article PDF Buy now Prices may be subject to local taxes which are calculated during checkout ADDITIONAL ACCESS OPTIONS: * Log in * Learn about institutional subscriptions * Read our FAQs * Contact customer support AUTHOR INFORMATION AUTHORS AND AFFILIATIONS * Nature Cell Biology https://www.nature.com/ncb/ Stylianos Lefkopoulos Authors * Stylianos Lefkopoulos View author publications You can also search for this author inPubMed Google Scholar CORRESPONDING AUTHOR Correspondence to Stylianos Lefkopoulos. RIGHTS AND PERMISSIONS Reprints and permissions ABOUT THIS ARTICLE CITE THIS ARTICLE Lefkopoulos, S. Battling Diamond-Blackfan anaemia. _Nat Cell Biol_ 27, 4 (2025). https://doi.org/10.1038/s41556-024-01599-1 Download citation * Published: 16 January 2025 * Issue Date: January 2025 * DOI: https://doi.org/10.1038/s41556-024-01599-1 SHARE THIS ARTICLE Anyone you share the following link with will be able to read this content: Get shareable link Sorry, a shareable link is not currently available for this article. Copy to clipboard Provided by the Springer Nature SharedIt content-sharing initiative

Access through your institution Buy or subscribe Gene therapy strategies against Diamond-Blackfan anaemia (DBA) have been hampered by the multiple and heterogeneous causative mutations. A


study now shows that modulating GATA1 expression is sufficient to tackle the erythroid maturation arrest in DBA models and patient-derived samples. Voit et al. first identified endogenous


regulatory elements (hG1E-GATA1) guiding erythroid-restricted expression of GATA1 in human haematopoietic cells and then showed that hG1E-GATA1 treatment supports erythropoiesis without


affecting haematopoietic stem cell function. Subsequently, they demonstrated that hG1E-GATA1 treatment can improve erythroid output in DBA models, as well as in samples from individuals with


DBA, including in vivo, as suggested by xenotransplantation assays. Using single-cell transcriptomics, Voit et al. found that hG1E-GATA1 treatment reverses the DBA-characteristic erythroid


transcriptional dysregulation. Finally, integration site analysis revealed that the genomic integration profile of hG1E-GATA1 lentiviral vector is comparable to that of other lentiviral gene


therapy products, thus supporting the presented approach as a good candidate to test in the clinic. This is a preview of subscription content, access via your institution ACCESS OPTIONS


Access through your institution Access Nature and 54 other Nature Portfolio journals Get Nature+, our best-value online-access subscription $29.99 / 30 days cancel any time Learn more


Subscribe to this journal Receive 12 print issues and online access $209.00 per year only $17.42 per issue Learn more Buy this article * Purchase on SpringerLink * Instant access to full


article PDF Buy now Prices may be subject to local taxes which are calculated during checkout ADDITIONAL ACCESS OPTIONS: * Log in * Learn about institutional subscriptions * Read our FAQs *


Contact customer support AUTHOR INFORMATION AUTHORS AND AFFILIATIONS * Nature Cell Biology https://www.nature.com/ncb/ Stylianos Lefkopoulos Authors * Stylianos Lefkopoulos View author


publications You can also search for this author inPubMed Google Scholar CORRESPONDING AUTHOR Correspondence to Stylianos Lefkopoulos. RIGHTS AND PERMISSIONS Reprints and permissions ABOUT


THIS ARTICLE CITE THIS ARTICLE Lefkopoulos, S. Battling Diamond-Blackfan anaemia. _Nat Cell Biol_ 27, 4 (2025). https://doi.org/10.1038/s41556-024-01599-1 Download citation * Published: 16


January 2025 * Issue Date: January 2025 * DOI: https://doi.org/10.1038/s41556-024-01599-1 SHARE THIS ARTICLE Anyone you share the following link with will be able to read this content: Get


shareable link Sorry, a shareable link is not currently available for this article. Copy to clipboard Provided by the Springer Nature SharedIt content-sharing initiative


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