用于感染活体和体外蝾螈的假型逆转录病毒。

Pseudotyped retroviruses for infecting axolotl in vivo and in vitro.

机构信息

Department of Genetics, Harvard Medical School, 77 Avenue Louis Pasteur, Boston, MA 02115, USA.

出版信息

Development. 2013 Mar;140(5):1137-46. doi: 10.1242/dev.087734. Epub 2013 Jan 23.

DOI:10.1242/dev.087734

PMID:23344705

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3583047/

Abstract

Axolotls are poised to become the premiere model system for studying vertebrate appendage regeneration. However, very few molecular tools exist for studying crucial cell lineage relationships over regeneration or for robust and sustained misexpression of genetic elements to test their function. Furthermore, targeting specific cell types will be necessary to understand how regeneration of the diverse tissues within the limb is accomplished. We report that pseudotyped, replication-incompetent retroviruses can be used in axolotls to permanently express markers or genetic elements for functional study. These viruses, when modified by changing their coat protein, can infect axolotl cells only when they have been experimentally manipulated to express the receptor for that coat protein, thus allowing for the possibility of targeting specific cell types. Using viral vectors, we have found that progenitor populations for many different cell types within the blastema are present at all stages of limb regeneration, although their relative proportions change with time.

摘要

蝾螈有望成为研究脊椎动物附肢再生的首要模式系统。然而，几乎没有分子工具可用于研究再生过程中关键的细胞谱系关系，也无法稳定且持续地过表达遗传元件来测试其功能。此外，为了了解如何完成肢体内部不同组织的再生，靶向特定细胞类型是必要的。我们报告称，假型、复制缺陷型逆转录病毒可用于蝾螈中，以永久性表达标记物或遗传元件，用于功能研究。这些病毒在改变其包膜蛋白后，只有当它们被实验操作以表达该包膜蛋白的受体时，才能感染蝾螈细胞，从而允许靶向特定细胞类型的可能性。使用病毒载体，我们发现，在肢体再生的所有阶段，芽基内的许多不同细胞类型的祖细胞群体都存在，尽管它们的相对比例随时间而变化。

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