Induced haploinsufficiency of Kit receptor tyrosine kinase impairs brain development
Hitomi Aoki, … , Akira Hara, Takahiro Kunisada
Hitomi Aoki, … , Akira Hara, Takahiro Kunisada
Published October 5, 2017
Citation Information: JCI Insight. 2017;2(19):e94385. https://doi.org/10.1172/jci.insight.94385.
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Research Article Development Neuroscience

Induced haploinsufficiency of Kit receptor tyrosine kinase impairs brain development

Abstract

Kit receptor tyrosine kinase is highly expressed in the developing mammalian brain, yet little is known about its contribution to neural cell development and function. Here we introduced a brain-specific conditional Kit loss-of-function mutation in mice and observed severe hypoplasia of the central nervous system. This was accompanied by an increase in apoptotic cell death in the early embryonic brain and the gradual loss of the self-renewal capacity of neuronal stem/precursor cells. A single copy of the brain-specific conditional Kit loss-of-function allele resulted in the observed phenotype, including impaired in vitro differentiation of neural cells from Kit-haploinsufficient embryonic stem (ES) cells. Our findings demonstrate that Kit signaling is required for the early development of neural cells. This potentially novel Kit-haploinsufficient lethal phenotype may represent an embryonic lethal phenomenon previously unobserved because of its dominantly acting nature.

Authors

Hitomi Aoki, Akira Hara, Takahiro Kunisada

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Figure 3

Histological characterization of the E12.5 Sox1-Cre; Kit2lox/+ embryos.

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Histological characterization of the E12.5 Sox1-Cre; Kit2lox/+ embryos. ...
(A) Sox1-Cre; Kit2lox/+; Rosa26R-EYFP embryos and control Sox1-Cre; Kit+/+; Rosa26R-EYFP embryos were photographed using a fluorescence microscope. EYFP expression was markedly reduced in Sox1-Cre; Kit2lox/+; Rosa26R-EYFP embryos and clear brain hypoplasia of the telencephalon (indicated by arrowheads) was observed. (BD) Embryos were sectioned at the indicated lines shown in A. The telencephalon (black arrowheads in B) and metencephalon (white arrowheads in B and C) had degenerated in Sox1-Cre; Kit2lox/+ embryos, while the nasal cavity (black arrowheads in C) and other non-neural tissues maintained their size and integrity. The spinal cord had also degenerated in Sox1-Cre; Kit2lox/+ embryos, while the size of the dorsal root ganglia did not change in Sox1-Cre; Kit2lox/+ embryos. T, telencephalon; M, mesencephalon; NC, nasal cavity; DRG, dorsal root ganglia. (EG) Histological analysis of E12.5 Sox1-Cre; Kit2lox/+ brains and ocular tissues. Individual TUNEL+ cells in the squared regions are enlarged in the rightmost panels. Scale bars: 500 μm in BD; 100 μm in E. HE, hematoxylin and eosin.