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Disruption of entire Cables2 locus leads to embryonic lethality by diminished Rps21 gene expression and enhanced p53 pathway.

Tra Thi Huong DinhHiroyoshi IsekiSeiya MizunoSaori Iijima-MizunoYoko TanimotoYoko DaitokuKanako KatoYuko HamadaAmmar Shaker Hamed HasanHayate SuzukiKazuya MurataMasafumi MurataniMasatsugu EmaJun-Dal KimJunji IshidaAkiyoshi FukamizuMitsuyasu KatoSatoru TakahashiKen-Ichi YagamiValerie WilsonRuth M ArkellFumihiro Sugiyama
Published in: eLife (2021)
In vivo function of CDK5 and Abl enzyme substrate 2 (Cables2), belonging to the Cables protein family, is unknown. Here, we found that targeted disruption of the entire Cables2 locus (Cables2d) caused growth retardation and enhanced apoptosis at the gastrulation stage and then induced embryonic lethality in mice. Comparative transcriptome analysis revealed disruption of Cables2, 50% down-regulation of Rps21 abutting on the Cables2 locus, and up-regulation of p53-target genes in Cables2d gastrulas. We further revealed the lethality phenotype in Rps21-deleted mice and unexpectedly, the exon 1-deleted Cables2 mice survived. Interestingly, chimeric mice derived from Cables2d ESCs carrying exogenous Cables2 and tetraploid wild-type embryo overcame gastrulation. These results suggest that the diminished expression of Rps21 and the completed lack of Cables2 expression are intricately involved in the embryonic lethality via the p53 pathway. This study sheds light on the importance of Cables2 locus in mouse embryonic development.
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