Mechanism of ret dysfunction by Hirschsprung mutations affecting its extracellular domain.

IF 3.1 2区 生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY Human molecular genetics Pub Date : 1996-10-01 DOI:10.1093/hmg/5.10.1577
T Iwashita, H Murakami, N Asai, M Takahashi
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引用次数: 107

Abstract

Hirschsprung disease (HSCR) is a congenital disorder associated with the absence of intrinsic ganglion cells in the distal gastrointestinal tract. Recently, many missense, nonsense and frameshift mutations of the ret proto-oncogene were found in familial and sporadic cases of HSCR. Consistent with the view that the HSCR phenotype is the result of inactivation of Ret, the missense mutations detected in the tyrosine kinase domain were demonstrated to result in a marked decrease of the kinase activity of Ret. However, the effects of missense mutations found in the extracellular domain remain unknown. We now report that five mutations in the extracellular domain examined inhibit transport of the Ret protein to the plasma membrane. As a consequence, they significantly decreased the transforming activity of Ret with multiple endocrine neoplasia (MEN) 2A mutation for which cell surface expression is required. Our results also demonstrated that long segment HSCR mutations more severely impair transport of Ret to the plasma membrane than a short segment HSCR mutation, suggesting that the level of its cell surface expression may correlate to the HSCR phenotype.

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巨结肠突变影响其胞外结构域的ret功能障碍机制。
巨结肠病(HSCR)是一种先天性疾病,与胃肠道远端缺乏固有神经节细胞有关。近年来,在家族性和散发性HSCR病例中发现了许多ret原癌基因的错义、无义和移码突变。与HSCR表型是Ret失活的结果的观点一致,在酪氨酸激酶结构域检测到的错义突变被证明导致Ret激酶活性显著降低。然而,在细胞外结构域发现的错义突变的影响尚不清楚。我们现在报道,胞外区域的五个突变抑制了Ret蛋白向质膜的转运。因此,它们显著降低了多发内分泌瘤(MEN) 2A突变Ret的转化活性,而这种突变需要细胞表面表达。我们的研究结果还表明,长片段HSCR突变比短片段HSCR突变更严重地损害Ret到质膜的运输,这表明其细胞表面表达水平可能与HSCR表型相关。
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来源期刊
Human molecular genetics
Human molecular genetics 生物-生化与分子生物学
CiteScore
6.90
自引率
2.90%
发文量
294
审稿时长
2-4 weeks
期刊介绍: Human Molecular Genetics concentrates on full-length research papers covering a wide range of topics in all aspects of human molecular genetics. These include: the molecular basis of human genetic disease developmental genetics cancer genetics neurogenetics chromosome and genome structure and function therapy of genetic disease stem cells in human genetic disease and therapy, including the application of iPS cells genome-wide association studies mouse and other models of human diseases functional genomics computational genomics In addition, the journal also publishes research on other model systems for the analysis of genes, especially when there is an obvious relevance to human genetics.
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