Literature DB >> 25802931

Akt suppresses DLK for maintaining self-renewal of mouse embryonic stem cells.

Cheng-Chung Wu1, Hong-Jin Wu, Chia-Hui Wang, Chia-Hua Lin, Shu-Ching Hsu, Yi-Rong Chen, Michael Hsiao, Scott C Schuyler, Frank Leigh Lu, Nianhan Ma, Jean Lu.   

Abstract

Mouse embryonic stem cells (ES cells) can proliferate indefinitely. To identify potential signals involved in suppression of self-renewal, we previously screened a kinase/phosphatase expression library in ES cells, and observed that inhibition of Dual Leucine zipper-bearing Kinase (DLK) increased relative cell numbers. DLK protein was detected in both the pluripotent and differentiated states of mouse ES cells while DLK kinase activity increased upon differentiation. Overexpression of DLK in mouse ES cells displayed reductions in relative cell/colony numbers and Nanog expression, suggesting a suppressive role of DLK in self-renewal. By examining protein sequences of DLK, we identified 2 putative Akt phosphorylation sites at S584 and T659. Blocking PI3K/Akt signaling with LY-294002 enhanced DLK kinase activity dramatically. We found that Akt interacts with and phosphorylates DLK. Mutations of DLK amino acid residues at putative Akt phosphorylation sites (S584A, T659A, or S584A and T659A) diminished the level of DLK phosphorylation. While the mutated DLKs (S584A, T659A, or S584A and T659A) were expressed, a further reduction in cell/colony numbers and Nanog expression appeared in mouse ES cells. In addition, these mutant DLKs (S584A, T659A, or S584A and T659A) exhibited more robust kinase activity and cell death compared to wild type DLK or green fluorescence (GFP) controls. In summary, our results show that DLK functions to suppress self-renewal of mouse ES cells and is restrained by Akt phosphorylation.

Entities:  

Keywords:  Akt; Dual Leucine zipper-bearing Kinase (DLK); Nanog; mouse embryonic stem cells; self-renewal

Mesh:

Substances:

Year:  2015        PMID: 25802931      PMCID: PMC4614864          DOI: 10.1080/15384101.2015.1014144

Source DB:  PubMed          Journal:  Cell Cycle        ISSN: 1551-4005            Impact factor:   4.534


  58 in total

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