突变体
突变
医学
溶质载体族
肠病
转运蛋白
运输机
遗传学
生物
基因
内科学
疾病
作者
Satowa Seki,Gen Tanaka,Toru Kimura,Mari Hayashida,Jun Miyoshi,Minoru Matsuura,Hiroyuki Sakurai,Tadakazu Hisamatsu
摘要
Abstract Background and Aim Chronic enteropathy associated with the solute carrier organic anion transporter family member 2A1 (SLCO2A1), or CEAS, causes anemia and hypoalbuminemia in young people. Dysfunction of the SLCO2A1 transporter protein is thought to involve genetic mutation, but mutant proteins have not been functionally characterized. We examined the prostaglandin E 2 (PGE 2 ) transport ability of recombinant SLCO2A1 proteins containing 11 SLCO2A1 mutations found in CEAS patients. Methods Wild‐type and mutant SLCO2A1 proteins were forcibly expressed in Xenopus laevis oocytes, and measurements of PGE 2 uptake and transport capacity were compared. The membrane protein topology and functionality of the eight SLCO2A1 mutations involving single‐nucleotide substitutions were predicted using computer analysis. Results The extent of functional disruption of the 11 SLCO2A1 mutations identified in CEAS patients was variable, with 10 mutations (421GT, 547GA, 664GA, 770GA, 830dupT, 830delT, 940 + 1GA, 1372GT, 1647GT, and 1807CT) resulting in loss or reduction of PGE 2 transport, excluding 97GC. Conclusion PGE 2 transport ability of recombinant SLCO2A1 in X. laevis oocytes was hindered in 10/11 SLCO2A1 mutations identified in patients with CEAS. Further studies on the relationships between the different mutations and PGE 2 transport and clinical features, such as severity, are needed.
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