AI Article Synopsis
- Familial erythrocytosis (FE) is a condition that makes people have too many red blood cells, which can cause health problems.
- Type 4 of this disorder is linked to changes in a gene called EPAS1, while two other genes, HIF1A and HIF3A, might also be involved but need more research.
- Scientists looked at data from studies to find certain changes in these genes that could help understand and diagnose FE better, discovering 24 gene variants that could play a key role in making red blood cells.
Article Abstract
Familial erythrocytosis (FE) is a congenital disorder, defined by elevated red blood cell number, hemoglobin, and hematocrit. Among eight types of FE, type 4 is caused by variants in the EPAS1 gene. Two other hypoxia-inducible factor alpha (HIFA) subunits, HIF1A and HIF3A, have not yet been associated with medical history of FE, but have potential role in the development of erythrocytosis. To improve diagnosis, it is crucial to identify new variants in genes involved in erythrocyte production. Published literature and data from genome browsers were used to obtain HIFA sequence variants associated with erythrocytosis and to locate them on protein sequence and regulatory sites. We retrieved 24 variants from the literature: 2 in HIF1A, 20 in EPAS1 and 2 in HIF3A gene. Sixteen out of 20 variants in the EPAS1 gene are positioned in a conserved region of 13 amino acids within exon 12, next to regulatory post-translational modification and binding sites, suggesting that EPAS1 has an important role in erythropoiesis. The role of HIF1A and HIF3A in the development of erythrocytosis should be further investigated.
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| http://dx.doi.org/10.1111/ejh.13304 | DOI Listing |
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