MNK1 and MNK2 mediate adverse effects of high-fat feeding in distinct ways

被引:0
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作者
C. E. J. Moore
J. Pickford
F. R. Cagampang
R. L. Stead
S. Tian
X. Zhao
X. Tang
C. D. Byrne
C. G. Proud
机构
[1] Centre for Biological Sciences,Department of Biochemistry & Genetics
[2] University of Southampton,undefined
[3] Nutrition and Metabolism,undefined
[4] South Australian Health & Medical Research Institute,undefined
[5] North Terrace,undefined
[6] Institute of Developmental Sciences,undefined
[7] University of Southampton,undefined
[8] Faculty of Medicine,undefined
[9] Zhejiang University School of Medicine,undefined
[10] Hangzhou,undefined
[11] Nutrition and Metabolism,undefined
[12] University of Southampton,undefined
[13] Faculty of Medicine,undefined
[14] Southampton National Institute for Health Research,undefined
[15] Biomedical Research Centre,undefined
[16] University Hospital,undefined
[17] School of Biological Sciences,undefined
[18] University of Adelaide,undefined
[19] Adelaide SA 5005,undefined
[20] Australia.,undefined
[21] Present address: Nutrition & Metabolism,undefined
[22] South Australian Health & Medical Research Institute,undefined
[23] North Terrace,undefined
[24] Adelaide,undefined
[25] SA5000,undefined
[26] Australia.,undefined
来源
Scientific Reports | / 6卷
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摘要
The MAP kinase-interacting kinases (MNK1 and MNK2) are non-essential enzymes which are activated by MAP kinases. They are implicated in controlling protein synthesis. Here we show that mice in which the expression of either MNK1 or MNK2 has been knocked out (KO) are protected against adverse effects of high-fat feeding, and in distinct ways. High-fat diet (HFD)-fed MNK2-KO show less weight gain than wild-type animals, and improved glucose tolerance, better insulin sensitivity and markedly diminished adipose tissue inflammation. This suggests MNK2 plays a role in adipogenesis and/or lipogenesis and in macrophage biology. MNK1-KO/HFD mice show better glucose tolerance and insulin sensitivity, but gain weight and show similar adipose inflammation to WT animals. These data suggest MNK1 participates in mediating HFD-induced insulin resistance. Our findings reveal distinct roles for the MNKs in a novel area of disease biology, metabolic dysfunction, and suggests they are potential new targets for managing metabolic disease.
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