用于胰腺β细胞特异性Cre-loxP重组的Ins1-cre驱动型C57BL/6N小鼠的构建与鉴定

Generation and characterization of Ins1-cre-driver C57BL/6N for exclusive pancreatic beta cell-specific Cre-loxP recombination.

作者信息

Hasegawa Yoshikazu, Daitoku Yoko, Mizuno Seiya, Tanimoto Yoko, Mizuno-Iijima Saori, Matsuo Miki, Kajiwara Noriko, Ema Masatsugu, Oishi Hisashi, Miwa Yoshihiro, Mekada Kazuyuki, Yoshiki Atsushi, Takahashi Satoru, Sugiyama Fumihiro, Yagami Ken-ichi

机构信息

Laborarory Animal Resource Center, University of Tsukuba, 1-1-1 Tennodai, Tsukuba 305-8575, Japan.

出版信息

Exp Anim. 2014;63(2):183-91. doi: 10.1538/expanim.63.183.

DOI:10.1538/expanim.63.183

PMID:24770644

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4160984/

Abstract

Cre/loxP system-mediated site-specific recombination is utilized to study gene function in vivo. Successful conditional knockout of genes of interest is dependent on the availability of Cre-driver mice. We produced and characterized pancreatic β cell-specific Cre-driver mice for use in diabetes mellitus research. The gene encoding Cre was inserted into the second exon of mouse Ins1 in a bacterial artificial chromosome (BAC). Five founder mice were produced by microinjection of linearized BAC Ins1-cre. The transgene was integrated between Mafa and the telomere on chromosome 15 in one of the founders, BAC Ins1-cre25. To investigate Cre-loxP recombination, BAC Ins1-cre25 males were crossed with two different Cre-reporters, R26R and R26GRR females. On gross observation, reporter signal after Cre-loxP recombination was detected exclusively in the adult pancreatic islets in both F1 mice. Immunohistological analysis indicated that Cre-loxP recombination-mediated reporter signal was colocalized with insulin in pancreatic islet cells of both F1 mice, but not with glucagon. Moreover, Cre-loxP recombination signal was already observed in the pancreatic islets at E13.5 in both F1 fetuses. Finally, we investigated ectopic Cre-loxP recombination for Ins1, because the ortholog Ins2 is also expressed in the brain, in addition to the pancreas. However, there was no Cre-loxP recombination-mediated reporter signal in the brain of both F1 mice. Our data suggest that BAC Ins1-cre25 mice are a useful Cre-driver C57BL/6N for pancreatic β cell-specific Cre-loxP recombination, except for crossing with knock-in mice carrying floxed gene on chromosome 15.

摘要

Cre/loxP系统介导的位点特异性重组被用于在体内研究基因功能。成功实现对感兴趣基因的条件性敲除取决于Cre驱动小鼠的可用性。我们制备并鉴定了用于糖尿病研究的胰腺β细胞特异性Cre驱动小鼠。编码Cre的基因被插入到细菌人工染色体（BAC）中的小鼠Ins1的第二个外显子中。通过显微注射线性化的BAC Ins1-cre产生了五只奠基小鼠。在其中一只奠基小鼠BAC Ins1-cre25中，转基因整合在15号染色体上Mafa和端粒之间。为了研究Cre-loxP重组，将BAC Ins1-cre25雄性小鼠与两种不同的Cre报告基因R26R和R26GRR雌性小鼠杂交。大体观察发现，在两只F1小鼠的成年胰腺胰岛中均仅检测到Cre-loxP重组后的报告基因信号。免疫组织学分析表明，Cre-loxP重组介导的报告基因信号在两只F1小鼠的胰岛细胞中与胰岛素共定位，但不与胰高血糖素共定位。此外，在两只F1胎儿的E13.5期胰腺胰岛中已观察到Cre-loxP重组信号。最后，我们研究了Ins1的异位Cre-loxP重组，因为直系同源基因Ins2除了在胰腺中表达外，在大脑中也有表达。然而，在两只F1小鼠的大脑中均未检测到Cre-loxP重组介导的报告基因信号。我们的数据表明，BAC Ins1-cre25小鼠是一种有用的C57BL/6N Cre驱动小鼠，可用于胰腺β细胞特异性Cre-loxP重组，但不能与在15号染色体上携带floxed基因的敲入小鼠杂交。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ab8e/4160984/3a8606068d4c/expanim-63-183-g001.jpg

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用于胰腺β细胞特异性Cre-loxP重组的Ins1-cre驱动型C57BL/6N小鼠的构建与鉴定

Generation and characterization of Ins1-cre-driver C57BL/6N for exclusive pancreatic beta cell-specific Cre-loxP recombination.

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