外分泌腺向内分泌腺的分化仅在未受伤的小鼠胰腺出生前可检测到。

Exocrine-to-endocrine differentiation is detectable only prior to birth in the uninjured mouse pancreas.

作者信息

Kopinke Daniel, Murtaugh L Charles

机构信息

University of Utah, Department of Human Genetics, Salt Lake City, UT 84112, USA.

出版信息

BMC Dev Biol. 2010 Apr 8;10:38. doi: 10.1186/1471-213X-10-38.

DOI:10.1186/1471-213X-10-38

PMID:20377894

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2858732/

Abstract

BACKGROUND

Histological evidence suggests that insulin-producing beta (beta)-cells arise in utero from duct-like structures of the fetal exocrine pancreas, and genetic lineage tracing studies indicate that they are maintained in the adult by self-renewal. These studies have not addressed the origin of the new beta-cells that arise in large numbers shortly after birth, and contradictory lineage tracing results have been published regarding the differentiation potential of duct cells in this period. We established an independent approach to address this question directly.

RESULTS

We generated mice in which duct and acinar cells, comprising the exocrine pancreas, can be genetically marked by virtue of their expressing the mucin gene Muc1. Using these mice, we performed time-specific lineage tracing to determine if these cells undergo endocrine transdifferentiation in vivo. We find that Muc1+ cells do give rise to beta-cells and other islet cells in utero, providing formal proof that mature islets arise from embryonic duct structures. From birth onwards, Muc1 lineage-labeled cells are confined to the exocrine compartment, with no detectable contribution to islet cells.

CONCLUSIONS

These results argue against a significant contribution by exocrine transdifferentiation to the normal postnatal expansion and maintenance of beta-cell mass. Exocrine transdifferentiation has been proposed to occur during injury and regeneration, and our experimental model is suited to test this hypothesis in vivo.

摘要

背景

组织学证据表明，产生胰岛素的β细胞在子宫内由胎儿外分泌胰腺的导管样结构产生，而遗传谱系追踪研究表明，它们在成体中通过自我更新得以维持。这些研究尚未涉及出生后不久大量出现的新β细胞的起源，并且关于这一时期导管细胞的分化潜能，已发表了相互矛盾的谱系追踪结果。我们建立了一种独立的方法来直接解决这个问题。

结果

我们构建了这样的小鼠，其中构成外分泌胰腺的导管细胞和腺泡细胞可因其表达粘蛋白基因Muc1而被进行基因标记。利用这些小鼠，我们进行了时间特异性谱系追踪，以确定这些细胞在体内是否会发生内分泌转分化。我们发现，Muc1+细胞在子宫内确实会产生β细胞和其他胰岛细胞，这为成熟胰岛起源于胚胎导管结构提供了确凿证据。从出生起，Muc1谱系标记的细胞局限于外分泌区室，对胰岛细胞没有可检测到的贡献。

结论

这些结果表明，外分泌转分化对出生后β细胞数量的正常增加和维持没有显著贡献。外分泌转分化被认为发生在损伤和再生过程中，我们的实验模型适合在体内检验这一假设。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8318/2858732/b3571fde04fa/1471-213X-10-38-1.jpg

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外分泌腺向内分泌腺的分化仅在未受伤的小鼠胰腺出生前可检测到。

Exocrine-to-endocrine differentiation is detectable only prior to birth in the uninjured mouse pancreas.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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