Gene/Protein
Disease
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Enzyme
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Pivot Concepts:
Gene/Protein
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Target Concepts:
Gene/Protein
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Query: EC:2.7.11.2 (
PDK1
)
2,238
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
E4BP4
, a circadian protein, is indispensable for NK cell development. It remains largely unknown which signal is required to induce
E4BP4
expression and what effects it has during NK cell differentiation. Here, we reveal that
PDK1
, a kinase upstream of mTOR, connects IL-15 signaling to
E4BP4
. Early deletion of
PDK1
caused a severe loss of NK cells and compromised antitumor activity in vivo.
PDK1
-deficient NK cells displayed much weaker IL-15-induced mTOR activation and
E4BP4
induction, as well as remarkable reduction in CD122, a receptor subunit specifying NK cell responsiveness to IL-15. The phenotypes were partially reversible by ectopic expression of
E4BP4
or bypassed activation of mTOR. We also determined that
PDK1
-mediated metabolic signaling was dispensable for NK cell terminal maturation and survival. Thus, we identify a role for
PDK1
signaling as a key mediator in regulating
E4BP4
expression during early NK cell development. Our findings underscore the importance of IL-15 self-responsiveness through a positive feedback loop that involves
PDK1
-mTOR-
E4BP4
-CD122 signaling.
...
PMID:PDK1 orchestrates early NK cell development through induction of E4BP4 expression and maintenance of IL-15 responsiveness. 2562 44
In the present study, we sought to investigate the influence of high fat diet on the core clock genes and the muscle functional genes daily expression in the skeletal muscle of Chinese soft-shelled turtle. The turtles were fed by two diets including a control fat diet (the CON treatment, 7.98% lipid) and a high fat diet (the HFD treatment, 13.86% lipid) for six weeks and administrated by the photophase regimen of 24h light/dark (12L:12D) cycle. After the feeding trial experiment, we measured the daily expression levels of 17 core clock genes (Clock, Bmal1/2, NPAS2, Tim, Cry1/2, Per1/2, DBP, AANAT, NIFL3, BHLHE40, NR1D2, RORA, RORB, RORC) and 12 muscle functional genes (FBXO32, MBNL1, MSTN, Myf5, Myf6, MyoD, MyoG, MyoM1, PPARa,
PDK4
, Trim63, UCP3) in the skeletal muscle of the two treatments. The results showed that except for Bmal1, NPAS2, Per2 and RORB, the expression of the other 13 core clock genes exhibited circadian oscillation in the CON treatment. Among the 12 muscle functional genes, MBNL1,
PDK4
and MyoM1 did not exhibit circadian oscillation in the CON treatment. In the HFD treatment, the circadian rhythms expressional patterns of the 8 core clock genes (Clock, Bmal2, Cry2, Per1, DBP,
NFIL3
, BHLHE40 and RORA) and 6 muscle functional genes (MSTN, Myf5, MyoD, MyoG, PPARa and Trim63) were disrupted. In addition, compared with the CON treatment, the circadian expression of the 5 core clock genes (Tim, Cry1, AANAT, NR1D2, RORC) and the 3 muscle functional genes (FBXO32, Myf6, UCP3) showed the advanced or delayed expression peaks in the HFD treatment. In CON treatment, the circadian expression of the MyoG, MyoD, Myf6, FBXO32 and PPARa showed positive or negative correlation with the transcription pattern of Clock, Bmal2, Cry1/2, Per1/2. However, only the FBXO32 and Myf6 presented positive or negative correlation with the circadian expression of Cry1, RORB, AANAT and Tim in HFD treatment. In summary, these results demonstrate that the disruption of the circadian rhythm of the core clock genes and muscle functional genes in the skeletal muscle is closely associated with feeding high fat diet to Chinese soft-shelled turtle.
...
PMID:The effect of high fat diet on daily rhythm of the core clock genes and muscle functional genes in the skeletal muscle of Chinese soft-shelled turtle (Trionyx sinensis). 2872 66
