著者
Yu-Hsin CHANG Megumi C. KATOH Ahmed M. ABDELLATIF Guli XIAFUKAITI Abdelaziz ELZEFTAWY Masami OJIMA Seiya MIZUNO Akihiro KUNO Satoru TAKAHASHI
出版者
Japanese Association for Laboratory Animal Science
雑誌
Experimental Animals (ISSN:13411357)
巻号頁・発行日
pp.19-0105, (Released:2019-12-02)
被引用文献数
1

Cre/loxP is a site-specific recombination system extensively used to enable the conditional deletion or activation of target genes in a spatial- and/or temporal-specific manner. A number of pancreatic-specific Cre driver mouse lines have been broadly established for studying the development, function and pathology of pancreatic cells. However, only a few models are currently available for glucagon-producing α-cells. Disagreement exists over the role of the MAFB transcription factor in glucagon expression during postnatal life, which might be due to the lack of α-cell-specific Cre driver mice. In the present study, we established a novel Gcg-Cre knock-in mouse line with the Cre transgene expressed under the control of the preproglucagon (Gcg) promoter without disrupting the endogenous Gcg gene expression. Then, we applied this newly developed Gcg-Cre mouse line to generate a new α-cell-specific Mafb conditional knockout mouse model (MafbΔGcg). Not only α-cell number but also glucagon production were significantly decreased in MafbΔGcg mice compared to control littermates, suggesting an indispensable role of MAFB in both α-cell development and function. Taken together, our newly developed Gcg-Cre mouse line, which was successfully utilized to uncover the role of MAFB in α-cells, is a useful tool for genetic manipulation in pancreatic α-cells, providing a new platform for future studies in this field.
著者
Shayida MAIMAITI Ryusuke KOSHIDA Masami OJIMA Kaushalya KULATHUNGA Hisashi OISHI Satoru TAKAHASHI
出版者
Japanese Association for Laboratory Animal Science
雑誌
Experimental Animals (ISSN:13411357)
巻号頁・発行日
pp.18-0182, (Released:2019-05-16)
被引用文献数
3

Mammalian postnatal growth is regulated primarily by the growth hormone (GH)/insulin-like growth factor I (IGF-I) axis. MafB is a basic leucine zipper (bZip) transcription factor that has pleiotropic functions. Although MafB plays a critical role in fetal brain development, such as in guidance for hindbrain segmentation, its postnatal role in neurons remains to be elucidated. To investigate this, we used neuron-specific Mafb conditional knockout (cKO) mice. In addition to an approximately 50% neonatal viability, the Mafb cKO mice exhibited growth retardation without apparent signs of low energy intake. Notably, serum IGF-I levels of these mice in the postnatal stage were lower than those of control mice. They seemed to have a neuroendocrine dysregulation, as shown by the upregulation of serum GH levels in the resting state and an inconsistent secretory response of GH upon administration of growth hormone-releasing hormone. These findings reveal that neuronal MafB plays an important role in postnatal development regulated by the GH/IGF-I axis.