AI Article Synopsis
- V-ATPases are protein complexes that use ATP energy to transport H ions across cell membranes, important for maintaining proper acidity in cells and their surroundings.* -
- Mutations in V-ATPase genes can impair H transport in renal tubules, potentially causing autosomal recessive distal renal tubular acidosis (dRTA).* -
- Recent studies have identified specific genes linked to dRTA and explored the role of other V-ATPase subunit genes, aiming to improve understanding for better diagnosis and treatment.*
Article Abstract
V-ATPases are a class of multi-subunit protein complexes that utilize energy derived from ATP hydrolysis for mediating H transport across cell membranes, which plays an important role in a range of life activities by acidifying the intracellular and extracellular environment. Variants of V-ATPase genes may lead to complete or partial loss of V-ATPase activity, which in turn may impair the ability of type A intercalated cells in renal tubules to pump H into the tubular lumen, ultimately resulting in the onset of autosomal recessive distal renal tubular acidosis (dRTA). With the rapid development of molecular techniques, ATP6V0A4 and ATP6V1B1 have now been identified as the pathogenic genes for dRTA. Moreover, animal and cell experiments have substantiated the implication of V-ATPase subunit genes including ATP6V1C2 and ATP6V1G3 in the development of dRTA, though clinical evidence is still limited. This article has reviewed recent progress on the genetic and molecular mechanisms of V-ATPase subunit gene variants which can lead to dRTA, which may shed light on the diagnosis and treatment of this disease.
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| http://dx.doi.org/10.3760/cma.j.cn511374-20240224-00120 | DOI Listing |
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