Identification of a cell retention signal in the B-chain of platelet-derived growth factor and in the long splice version of the A-chain.

A Ostman, M Andersson, C Betsholtz, B Westermark, C H Heldin
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引用次数: 129

Abstract

The B-chain homodimer of platelet-derived growth factor (PDGF) is only very inefficiently secreted and remains largely associated with the producer cell; in contrast, the dimer of the short, and most common, splice variant of the A-chain is secreted. To identify the structural background to the differences in the secretory pattern between the different isoforms of PDGF, a set of chimeric PDGF A/B cDNAs was generated and expressed in COS cells. Analyses of the biosynthesis and processing of the corresponding products led to the identification of a determinant for cell association in the carboxy-terminal third of the PDGF B-chain precursor. Introduction of stop codons at various positions in the carboxy-terminal prosequence of the PDGF B-chain localized this determinant to an 11-amino-acid-long region (amino acids 219-229). This region contains an 8-amino-acid-long basic sequence that is homologous to a sequence present in an alternatively spliced longer version of the PDGF A-chain. In contrast to the short splice variant, the long splice A-chain version, like the B-chain, was found to remain predominantly cell associated. Thus, we have identified a conserved sequence that inhibits the secretion of some of the PDGF isoforms. Our data also suggest that switching of splicing patterns can be a mechanism to regulate the formation of secreted or cell-associated forms of PDGF-AA and possibly other growth factors.

血小板源性生长因子b链和a链长剪接中细胞保留信号的鉴定。
血小板衍生生长因子(PDGF)的b链同二聚体的分泌效率非常低,并且主要与产生细胞相关;相反,短的二聚体,和最常见的,a链的剪接变体分泌。为了确定PDGF不同亚型之间分泌模式差异的结构背景,我们在COS细胞中生成并表达了一组嵌合PDGF a /B cdna。对相应产物的生物合成和加工的分析导致在PDGF b链前体的羧基端三分之一处鉴定出细胞结合的决定因素。在PDGF b链羧基末端的不同位置引入终止密码子,将该决定子定位在一个11个氨基酸长的区域(氨基酸219-229)。该区域包含一个8个氨基酸长的碱基序列,该序列与PDGF a链的一个可选剪接的较长版本中的序列同源。与短剪接变体相反,长剪接的a链版本,像b链一样,被发现仍然主要与细胞相关。因此,我们已经确定了一个保守的序列,可以抑制一些PDGF亚型的分泌。我们的数据还表明,剪接模式的切换可能是调节PDGF-AA分泌或细胞相关形式以及其他生长因子形成的机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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