Ferrer Jorge, Martín Mercè, Servitja Joan Marc
Genomic Programming of Beta Cells Laboratory, Institut d'Investigacions Biomèdiques August Pi i Sunyer, Endocrinology Unit, Hospital Clínic de Barcelona, Barcelona, Spain.
J Clin Invest. 2007 Apr;117(4):859-62. doi: 10.1172/JCI31749.
Diabetes results from the absolute or relative deficiency of insulin-producing beta cells. The prospect that non-beta pancreatic cells could be harnessed to become beta cells has led to interest in understanding the plasticity of pancreatic cells. Recent studies, however, have shown that adult beta cells are largely derived from preexisting beta cells. In this issue of the JCI, Desai et al. show that acinar cells, the major cell type in the pancreas, do not contribute to new beta cells formed during pancreatic regeneration (see the related article beginning on page 971). These studies suggest that the fate of adult pancreatic cell lineages is immutable. However, also in this issue of the JCI, Collombat et al. demonstrate that inducing a single transcription factor named Arx in adult beta cells causes these cells to undergo massive transdifferentiation into alpha and pancreatic polypeptide endocrine cells (see the related article beginning on page 961). This finding points to an unexpected plasticity of postnatal pancreatic endocrine cells.
糖尿病是由产生胰岛素的β细胞绝对或相对缺乏所致。利用非β胰腺细胞转化为β细胞的前景引发了人们对了解胰腺细胞可塑性的兴趣。然而,最近的研究表明,成年β细胞主要源自已有的β细胞。在本期《临床研究杂志》中,德赛等人表明,胰腺的主要细胞类型腺泡细胞对胰腺再生过程中形成的新β细胞没有贡献(见第971页开始的相关文章)。这些研究表明成年胰腺细胞谱系的命运是不可改变的。然而,同样在本期《临床研究杂志》中,科隆巴特等人证明,在成年β细胞中诱导一种名为Arx的单一转录因子会导致这些细胞大量转分化为α细胞和胰腺多肽内分泌细胞(见第961页开始的相关文章)。这一发现表明出生后胰腺内分泌细胞具有意想不到的可塑性。