Department of Biological Sciences, National University of Singapore, 119260 Singapore, Singapore.
Differentiation. 2009 Nov;78(4):241-52. doi: 10.1016/j.diff.2009.05.009. Epub 2009 Jun 23.
Cell lineage analysis is critical in understanding the relationship between progenitors and differentiated cells as well as the mechanism underlying the process of differentiation. In order to study the zebrafish endocrine pancreas cell lineage, transgenic expression of diphtheria toxin gene A chain (DTA) under two cell type-specific promoters derived from the insulin (ins) and somatostatin2 (sst2) genes was used to ablate the two types of endocrine cells: insulin-producing beta-cells and somatostatin-producing delta-cells, respectively. We found that ablation of beta-cells resulted in a reduction of not only beta-cells but also glucagon-producing alpha-cells; in contrast, delta-cells were largely unaffected. Ablation of delta-cells led to reduction of all three types of endocrine cells: alpha-, beta-, and delta. Interestingly, alpha-cells were more profoundly affected in both beta- and delta-cell ablations and were frequently reduced together with beta- and delta-cells. By taking advantage of Tg(ins:gfp) and Tg(sst2:gfp) lines, we also monitored the changes of different types of endocrine cells in vivo after ablation and found that both beta- and delta-cell populations significantly recovered by 3dpf after their ablation and it seemed that delta-cells had a better capability of recovery than beta-cells. Thus, our current observations indicated differential interdependence of these three cell lineages. The development of zebrafish alpha-cells, but not delta-cells, is dependent on beta-cells, while the development of both alpha- and beta-cells is dependent on delta-cells. In contrast, the development of delta-cells was independent of beta-cells.
细胞谱系分析对于理解祖细胞与分化细胞之间的关系以及分化过程的机制至关重要。为了研究斑马鱼内分泌胰腺细胞谱系,我们使用两种细胞类型特异性启动子(源自胰岛素(ins)和生长抑素 2(sst2)基因)下的白喉毒素基因 A 链(DTA)的转基因表达来分别消融两种内分泌细胞:胰岛素产生的β细胞和生长抑素产生的δ细胞。我们发现,β细胞的消融不仅导致β细胞减少,而且导致胰高血糖素产生的α细胞减少;相比之下,δ细胞受影响不大。δ细胞的消融导致所有三种内分泌细胞:α、β和δ细胞减少。有趣的是,在β细胞和δ细胞消融中,α细胞受到更严重的影响,并且经常与β细胞和δ细胞一起减少。通过利用 Tg(ins:gfp)和 Tg(sst2:gfp)系,我们还在体内监测了消融后不同类型内分泌细胞的变化,发现消融后 3dpf 时β和δ细胞群体明显恢复,似乎δ细胞的恢复能力比β细胞更好。因此,我们目前的观察结果表明这三种细胞谱系之间存在差异相互依存关系。斑马鱼α细胞的发育,但不是δ细胞,依赖于β细胞,而α和β细胞的发育都依赖于δ细胞。相比之下,δ细胞的发育不依赖于β细胞。
