肾囊肿细胞中16号染色体短臂1区3带的多囊肾病（PKD1）区域缺失支持了囊肿发病机制的功能丧失模型。

Loss of the polycystic kidney disease (PKD1) region of chromosome 16p13 in renal cyst cells supports a loss-of-function model for cyst pathogenesis.

作者信息

Brasier J L, Henske E P

机构信息

Division of Hematology-Oncology, Brigham and Women's Hospital, Boston, Massachusetts 02115, USA.

出版信息

J Clin Invest. 1997 Jan 15;99(2):194-9. doi: 10.1172/JCI119147.

DOI:10.1172/JCI119147

PMID:9005987

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC507786/

Abstract

It is not known whether mutations in the PKD1 gene cause autosomal dominant polycystic kidney disease (PKD) by an activating (gain-of-function) or an inactivating (loss-of-function) model. We analyzed DNA from cyst epithelial cells for loss of heterozygosity (LOH) in the PKD1 region of chromosome 16p13 using microsatellite markers. 29 cysts from four patients were studied. Five cysts from three patients had chromosome 16p13 LOH. Four of the cysts had loss of two chromosome 16p13 markers that flank the PKD1 gene. In two patients, microsatellite analysis of family members was consistent with loss of the wild-type copy of PKD1 in the cysts. In the third patient, 16p13 LOH was detected in three separate cysts, all of which showed loss of the same alleles. Chromosome 3p21 LOH was detected in one cyst. No LOH was detected in four other genomic regions. These results demonstrate that some renal cyst epithelial cells exhibit clonal chromosomal abnormalities with loss of the wild-type copy of PKD1. This supports a loss-of-function model for autosomal dominant PKD, with a germline mutation inactivating one copy of PKD1 and somatic mutation or deletion inactivating the remaining wild-type copy.

摘要

尚不清楚多囊肾病1（PKD1）基因的突变是通过激活（功能获得）还是失活（功能丧失）模型导致常染色体显性多囊肾病（PKD）。我们使用微卫星标记分析了来自囊肿上皮细胞的DNA，以检测16号染色体短臂1区（16p13）PKD1区域的杂合性缺失（LOH）。研究了4名患者的29个囊肿。3名患者的5个囊肿存在16p13染色体LOH。其中4个囊肿缺失了PKD1基因两侧的两个16p13染色体标记。在两名患者中，对家庭成员的微卫星分析与囊肿中PKD1野生型拷贝的缺失一致。在第三名患者中，在三个不同的囊肿中检测到16p13 LOH，所有这些囊肿都显示相同等位基因的缺失。在一个囊肿中检测到3号染色体短臂2区（3p21）LOH。在其他四个基因组区域未检测到LOH。这些结果表明，一些肾囊肿上皮细胞表现出克隆性染色体异常，伴有PKD1野生型拷贝的缺失。这支持了常染色体显性PKD的功能丧失模型，即种系突变使PKD1的一个拷贝失活，体细胞突变或缺失使其余野生型拷贝失活。

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本文引用的文献

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