2019
DOI: 10.1002/dvg.23286
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A critical role for the nuclear protein Akirin2 in the formation of mammalian muscle in vivo

Abstract: Summary Evolutionarily conserved Akirin nuclear proteins interact with chromatin remodeling complexes at gene enhancers and promoters, and have been reported to regulate cell proliferation and differentiation. Of the two mouse Akirin genes, Akirin2 is essential during embryonic development, with known in vivo roles in immune system function and the formation of the cerebral cortex. Here we demonstrate that Akirin2 is critical for mouse myogenesis, a tightly regulated developmental process through which myoblas… Show more

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Cited by 8 publications
(28 citation statements)
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“…Interestingly, mRNA levels assessed by qPCR at a sampling of ages remained consistent throughout development in contrast to Aki2 protein levels (Figure 1C). This is consistent with our prior work utilizing muscle cells as well as with a developmental mouse cortex transcriptomic dataset (Fertuzinhos et al, 2014;Bosch et al, 2019) and suggests that Aki2 protein is post-transcriptionally regulated during brain maturation. Furthermore, close inspection of western blots at a variety of exposures revealed 3 distinct bands of ~22kDa, 25kDa, and 27kDa, as well as two higher molecular weight bands of ~33kDa and ~35kDa.…”
Section: Neurons Of the Postnatal Cerebral Cortex Express Akirin2supporting
confidence: 91%
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“…Interestingly, mRNA levels assessed by qPCR at a sampling of ages remained consistent throughout development in contrast to Aki2 protein levels (Figure 1C). This is consistent with our prior work utilizing muscle cells as well as with a developmental mouse cortex transcriptomic dataset (Fertuzinhos et al, 2014;Bosch et al, 2019) and suggests that Aki2 protein is post-transcriptionally regulated during brain maturation. Furthermore, close inspection of western blots at a variety of exposures revealed 3 distinct bands of ~22kDa, 25kDa, and 27kDa, as well as two higher molecular weight bands of ~33kDa and ~35kDa.…”
Section: Neurons Of the Postnatal Cerebral Cortex Express Akirin2supporting
confidence: 91%
“…Cell death and glial activation moves from the cortical layers with the greatest number of Aki2 null cells and progresses to primarily Cre-negative layers providing evidence that primary cell death occurs in Aki2-null neurons cell-autonomously followed by secondary cell-non-autonomous death in neurons that retain Aki2. Interestingly, unlike the apoptosis reported in embryonic Aki2-null cortical progenitors (Bosch et al, 2016) and muscle progenitors (Bosch et al, 2019) we present extensive convergent evidence that Aki2-null postmitotic neurons die via necroptosis in a p53-dependent manner. Our transcriptomic analyses also support this conclusion, as both mutant neural progenitor and postmitotic neuron transcriptomes were enriched for upregulated p53 target genes.…”
Section: Discussionsupporting
confidence: 48%
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“…in porcine and mouse muscle cells and conditional knockout of Akirin2 perturbed muscle development in vivo in the mouse (Chen et al 2017;Bosch et al 2019). Akirin2, but not Akirin1, was also studied in the context of tumor promotion.…”
mentioning
confidence: 99%