散发性醛固酮瘤中的新型KCNJ5突变降低了Kir3.4细胞膜丰度。
Novel KCNJ5 mutations in sporadic aldosterone-producing adenoma reduce Kir3.4 membrane abundance.
作者信息
Cheng Chih-Jen, Sung Chih-Chien, Wu Sheng-Tang, Lin Yu-Chun, Sytwu Huey-Kang, Huang Chou-Long, Lin Shih-Hua
机构信息
Department of Medicine (C.-J.C., C.-C.S., S.-H.L.), Division of Nephrology; Department of Surgery (S.-T.W.), Division of Urology; Deparment of Pathology (Y.-C.L.), Tri-Service General Hospital; Graduate Institute of Life Science (C.-C.S., S.-H.L.); and Department and Graduate Institute of Microbiology and Immunology (H.-K.S.), National Defense Medical Center, Taipei 114, Taiwan; and Department of Medicine (C.-L.H.), Division of Nephrology, University of Texas Southwestern Medical Center, Dallas, Texas 75390.
出版信息
J Clin Endocrinol Metab. 2015 Jan;100(1):E155-63. doi: 10.1210/jc.2014-3009.
CONTEXT
Aldosterone-producing adenoma (APA) has been linked to mutations in the KCNJ5 gene encoding the inward-rectifying potassium (K(+)) Kir3.4 channel. These mutations abolish the K(+) selectivity of Kir3.4 and, consequently, cause sodium (Na(+)) leak, depolarized membrane potential, and nonsuppressible aldosterone secretion.
OBJECTIVE
Our objective was to investigate KCNJ5 mutations in patients with sporadic APA and the role of endogenous Kir3.4 in human adrenocortical cells.
DESIGN
We screened the KCNJ5 gene from the adrenal adenomas of 69 Chinese patients with sporadic APA and functionally characterized novel Kir3.4 mutations.
RESULTS
Thirty-seven percent (26 of 69) of our APA patients carried heterozygous somatic mutations in the KCNJ5 gene. Besides the most common G151R and L168R mutations, we identified a previously uncharacterized E145Q mutation and 2 novel mutations (R115W and E246G) in 6 patients. The E145Q mutant conducted a barium-insensitive Na(+)-leak current. The R115W and E246G mutants preserved barium-sensitive, K(+)-selective and Gβγ-activatable Kir3.4 currents, which were ∼30% and ∼15% of wild-type current, respectively. Biotinylation assays revealed markedly reduced membrane abundance of R115W and E246G mutants. All Kir3.4 mutants exerted dominant-negative effects on wild-type channels. Kir3.4 protein expression in APAs with the novel KCNJ5 mutation was significantly lower than those in APAs with wild-type KCNJ5 or Na(+)-leak KCNJ5 mutations. Inhibition of endogenous Kir3.4 by tertiapin-Q significantly depolarized membrane potential and increased CYP11B2 expression in human adrenocortical cells.
CONCLUSION
Besides Na(+)-leak mutations, novel KCNJ5 mutations causing a reduction of surface and total abundance of Kir3.4 are also associated with sporadic APA. Basal Kir3.4 current is important to maintaining normal resting membrane potential and suppressing aldosterone synthesis in human adrenocortical cells.
背景
醛固酮瘤(APA)与编码内向整流钾离子(K(+))通道Kir3.4的KCNJ5基因突变有关。这些突变消除了Kir3.4对K(+)的选择性,从而导致钠离子泄漏、膜电位去极化以及醛固酮分泌不受抑制。
目的
我们的目的是研究散发性APA患者中的KCNJ5突变以及内源性Kir3.4在人肾上腺皮质细胞中的作用。
设计
我们对69例中国散发性APA患者肾上腺腺瘤中的KCNJ5基因进行了筛查,并对新发现的Kir3.4突变进行了功能特性分析。
结果
我们的APA患者中有37%(69例中的26例)携带KCNJ5基因的杂合体细胞突变。除了最常见的G151R和L168R突变外,我们在6例患者中鉴定出一种以前未描述的E145Q突变和2种新突变(R115W和E246G)。E145Q突变体传导一种对钡不敏感的钠离子泄漏电流。R115W和E246G突变体保留了对钡敏感、对K(+)有选择性且可被Gβγ激活的Kir3.4电流,分别约为野生型电流的30%和15%。生物素化分析显示R115W和E246G突变体的膜丰度显著降低。所有Kir3.4突变体对野生型通道都有显性负效应。具有新的KCNJ5突变的APA中Kir3.4蛋白表达显著低于具有野生型KCNJ5或钠离子泄漏KCNJ5突变的APA。用替他品-Q抑制内源性Kir3.4可使人肾上腺皮质细胞膜电位显著去极化并增加CYP11B2表达。
结论
除了钠离子泄漏突变外,导致Kir3.4表面和总丰度降低的新的KCNJ5突变也与散发性APA有关。基础Kir3.4电流对于维持人肾上腺皮质细胞正常的静息膜电位和抑制醛固酮合成很重要。
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