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小鼠中细丝蛋白B缺乏会导致骨骼畸形和微血管发育受损。

Filamin B deficiency in mice results in skeletal malformations and impaired microvascular development.

作者信息

Zhou Xianghua, Tian Fei, Sandzén Johan, Cao Renhai, Flaberg Emilie, Szekely Laszlo, Cao Yihai, Ohlsson Claes, Bergo Martin O, Borén Jan, Akyürek Levent M

机构信息

Sahlgrenska Center for Cardiovascular and Metabolic Research, Wallenberg Laboratory, Göteborg University, SE 413 45 Göteborg, Sweden.

出版信息

Proc Natl Acad Sci U S A. 2007 Mar 6;104(10):3919-24. doi: 10.1073/pnas.0608360104. Epub 2007 Feb 26.

DOI:10.1073/pnas.0608360104
PMID:17360453
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1820684/
Abstract

Mutations in filamin B (FLNB), a gene encoding a cytoplasmic actin-binding protein, have been found in human skeletal disorders, including boomerang dysplasia, spondylocarpotarsal syndrome, Larsen syndrome, and atelosteogenesis phenotypes I and III. To examine the role of FLNB in vivo, we generated mice with a targeted disruption of Flnb. Fewer than 3% of homozygous embryos reached term, indicating that Flnb is important in embryonic development. Heterozygous mutant mice were indistinguishable from their wild-type siblings. Flnb was ubiquitously expressed; strong expression was found in endothelial cells and chondrocytes. Flnb-deficient fibroblasts exhibited more disorganized formation of actin filaments and reduced ability to migrate compared with wild-type controls. Flnb-deficient embryos exhibited impaired development of the microvasculature and skeletal system. The few Flnb-deficient mice that were born were very small and had severe skeletal malformations, including scoliotic and kyphotic spines, lack of intervertebral discs, fusion of vertebral bodies, and reduced hyaline matrix in extremities, thorax, and vertebrae. These mice died or had to be euthanized before 4 weeks of age. Thus, the phenotypes of Flnb-deficient mice closely resemble those of human skeletal disorders with mutations in FLNB.

摘要

细丝蛋白B(FLNB)是一种编码细胞质肌动蛋白结合蛋白的基因,其突变已在人类骨骼疾病中被发现,包括回飞镖发育不良、脊椎腕跗骨综合征、拉森综合征以及Ⅰ型和Ⅲ型atelosteogenesis表型。为了研究FLNB在体内的作用,我们构建了Flnb基因靶向敲除的小鼠。纯合子胚胎足月出生的比例不到3%,这表明Flnb在胚胎发育中很重要。杂合突变小鼠与其野生型同窝小鼠没有区别。Flnb在全身广泛表达;在内皮细胞和软骨细胞中发现有强烈表达。与野生型对照相比,Flnb缺陷的成纤维细胞肌动蛋白丝的形成更加紊乱,迁移能力降低。Flnb缺陷的胚胎表现出微血管系统和骨骼系统发育受损。少数出生的Flnb缺陷小鼠非常小,并有严重的骨骼畸形,包括脊柱侧弯和后凸、椎间盘缺失、椎体融合以及四肢、胸部和椎骨的透明基质减少。这些小鼠在4周龄前死亡或不得不实施安乐死。因此,Flnb缺陷小鼠的表型与FLNB突变的人类骨骼疾病非常相似。

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