由CYP27B1基因突变导致的1型维生素D依赖性佝偻病,该突变影响与肾上腺皮质铁氧化还原蛋白的蛋白质相互作用。
Vitamin D-Dependent Rickets Type 1 Caused by Mutations in CYP27B1 Affecting Protein Interactions With Adrenodoxin.
作者信息
Zalewski Adam, Ma Nina S, Legeza Balazs, Renthal Nora, Flück Christa E, Pandey Amit V
机构信息
Division of Pediatric Endocrinology, Diabetology, and Metabolism (A.Z., B.L., C.E.F., A.V.P.), Department of Pediatrics, University Children's Hospital, Inselspital, Bern, and Department of Clinical Research, University of Bern, CH-3010 Bern, Switzerland; and Division of Endocrinology (N.S.M., N.R.), Boston Children's Hospital, and Department of Pediatrics, Harvard Medical School, Boston, Massachusetts 02114.
出版信息
J Clin Endocrinol Metab. 2016 Sep;101(9):3409-18. doi: 10.1210/jc.2016-2124. Epub 2016 Jul 11.
CONTEXT
CYP27B1 converts 25-hydroxyvitamin D3 to active 1,25-dihydroxyvitamin D3, playing a vital role in calcium homeostasis and bone growth. Vitamin D-dependent rickets type 1 (VDDR-1) is a rare autosomal recessive disorder caused by mutations in CYP27B1.
OBJECTIVE
The objective of the study was an enzymatic and structural analysis of mutations in a patient with calcipenic rickets. Design, Setting, Patient, and Intervention: Two siblings presented with calcipenic rickets and normal 1,25-dihydroxyvitamin D3 levels. CYP27B1 gene analysis showed compound heterozygous mutations confirming VDDR-1. We studied wild-type CYP27B1 and mutations H441Y and R459L by computational homology modeling, molecular dynamics simulations, and functional studies using a luciferase assay. The patients were successfully treated with calcitriol.
MAIN OUTCOME
The main outcomes of the study were novel mutations leading to a severe loss of CYP27B1 activities for metabolism of 25-hydroxyvitamin D3.
RESULTS
Mitochondrial cytochrome P450s require adrenodoxin (FDX1) and adrenodoxin reductase. We created models of CYP27B1-FDX1 complex, which revealed negative effects of mutations H441Y and R459L. Upon structural analysis, near-identical folds, protein contact areas, and orientations of heme/iron-sulfur cluster suggested that both mutations may destabilize the CYP27B1-FDX1 complex by negating directional interactions with adrenodoxin. This system is highly sensitive to small local changes modulating the binding/dissociation of adrenodoxin, and electron-transporting efficiency might change with mutations at the surface. Functional assays confirmed this hypothesis and showed severe loss of activity of CYP27B1 by both mutations.
CONCLUSIONS
This is the first report of mutations in CYP27B1 causing VDDR-1 by affecting protein-protein interactions with FDX1 that results in reduced CYP27B1 activities. Detailed characterization of mutations in CYP27B1 is required for understanding the novel molecular mechanisms causing VDDR-1.
背景
细胞色素P450 27B1(CYP27B1)将25-羟基维生素D3转化为活性1,25-二羟基维生素D3,在钙稳态和骨骼生长中起关键作用。1型维生素D依赖性佝偻病(VDDR-1)是一种由CYP27B1基因突变引起的罕见常染色体隐性疾病。
目的
本研究的目的是对一名低钙血症性佝偻病患者的突变进行酶学和结构分析。设计、地点、患者和干预措施:两名同胞患有低钙血症性佝偻病且1,25-二羟基维生素D3水平正常。CYP27B1基因分析显示复合杂合突变,确诊为VDDR-1。我们通过计算同源建模、分子动力学模拟以及使用荧光素酶测定的功能研究,对野生型CYP27B1以及H441Y和R459L突变进行了研究。患者接受骨化三醇治疗成功。
主要结果
本研究的主要结果是导致CYP27B1代谢25-羟基维生素D3的活性严重丧失的新突变。
结果
线粒体细胞色素P450需要肾上腺铁氧还蛋白(FDX1)和肾上腺铁氧还蛋白还原酶。我们构建了CYP27B1-FDX1复合物模型,该模型揭示了H441Y和R459L突变的负面影响。通过结构分析,近乎相同的折叠、蛋白质接触区域以及血红素/铁硫簇的方向表明,这两种突变可能通过消除与肾上腺铁氧还蛋白的定向相互作用而使CYP27B1-FDX1复合物不稳定。该系统对调节肾上腺铁氧还蛋白结合/解离的微小局部变化高度敏感,并且电子传输效率可能会因表面突变而改变。功能测定证实了这一假设,并显示这两种突变均导致CYP27B1活性严重丧失。
结论
这是关于CYP27B1突变通过影响与FDX1的蛋白质-蛋白质相互作用导致VDDR-1从而使CYP27B1活性降低的首次报道。需要对CYP27B1突变进行详细表征,以了解导致VDDR-1的新分子机制。
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