AMP-Activated Protein Kinases

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"AMP-Activated Protein Kinases" is a descriptor in the National Library of Medicine's controlled vocabulary thesaurus, MeSH (Medical Subject Headings). Descriptors are arranged in a hierarchical structure, which enables searching at various levels of specificity.

MeSH information

Definition | Details | More General Concepts | Related Concepts | More Specific Concepts

Intracellular signaling protein kinases that play a signaling role in the regulation of cellular energy metabolism. Their activity largely depends upon the concentration of cellular AMP which is increased under conditions of low energy or metabolic stress. AMP-activated protein kinases modify enzymes involved in LIPID METABOLISM, which in turn provide substrates needed to convert AMP into ATP.

Descriptor ID	D055372
MeSH Number(s)	D08.811.913.696.620.682.700.085 D12.644.360.062 D12.776.476.062
Concept/Terms	AMP-Activated Protein Kinases AMP-Activated Protein Kinases AMP Activated Protein Kinases AMP-Activated Kinase AMP Activated Kinase AMP-Activated Protein Kinase AMP Activated Protein Kinase 5'-AMP-Activated Protein Kinase 5' AMP Activated Protein Kinase AMP-Activated Protein Kinase beta Subunits AMP-Activated Protein Kinase beta Subunits AMP Activated Protein Kinase beta Subunits AMP-Activated Protein Kinase beta Subunit AMP Activated Protein Kinase beta Subunit AMP-Activated Protein Kinase gamma Subunits AMP-Activated Protein Kinase gamma Subunits AMP Activated Protein Kinase gamma Subunits AMP-Activated Protein Kinase gamma Subunit AMP Activated Protein Kinase gamma Subunit AMP-Activated Protein Kinase alpha Subunits AMP-Activated Protein Kinase alpha Subunits AMP Activated Protein Kinase alpha Subunits PRKAA AMP-Activated Protein Kinase alpha Subunit AMP Activated Protein Kinase alpha Subunit

Below are MeSH descriptors whose meaning is more general than "AMP-Activated Protein Kinases".

Chemicals and Drugs [D]
Enzymes and Coenzymes [D08]
Enzymes [D08.811]
Transferases [D08.811.913]
Phosphotransferases [D08.811.913.696]
Phosphotransferases (Alcohol Group Acceptor) [D08.811.913.696.620]
Protein Kinases [D08.811.913.696.620.682]
Protein-Serine-Threonine Kinases [D08.811.913.696.620.682.700]
AMP-Activated Protein Kinases [D08.811.913.696.620.682.700.085]
Amino Acids, Peptides, and Proteins [D12]
Peptides [D12.644]
Intracellular Signaling Peptides and Proteins [D12.644.360]
AMP-Activated Protein Kinases [D12.644.360.062]
Proteins [D12.776]
Intracellular Signaling Peptides and Proteins [D12.776.476]
AMP-Activated Protein Kinases [D12.776.476.062]

Below are MeSH descriptors whose meaning is related to "AMP-Activated Protein Kinases".

Below are MeSH descriptors whose meaning is more specific than "AMP-Activated Protein Kinases".

publications

Timeline | Most Recent

This graph shows the total number of publications written about "AMP-Activated Protein Kinases" by people in this website by year, and whether "AMP-Activated Protein Kinases" was a major or minor topic of these publications.

Bar chart showing 49 publications over 19 distinct years, with a maximum of 7 publications in 2014

To see the data from this visualization as text, click here.

Below are the most recent publications written about "AMP-Activated Protein Kinases" by people in Profiles.

Masuda M, Yoshida-Shimizu R, Mori Y, Ohnishi K, Adachi Y, Sakai M, Kabutoya S, Ohminami H, Yamanaka-Okumura H, Yamamoto H, Miyazaki M, Taketani Y. Sulforaphane induces lipophagy through the activation of AMPK-mTOR-ULK1 pathway signaling in adipocytes. J Nutr Biochem. 2022 Aug; 106:109017.

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Lorca RA, Houck JA, Laurent LC, Matarazzo CJ, Baker K, Horii M, Nelson KK, Bales ES, Euser AG, Parast MM, Moore LG, Julian CG. High altitude regulates the expression of AMPK pathways in human placenta. Placenta. 2021 01 15; 104:267-276.

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Gorski M, Jung B, Li Y, Matias-Garcia PR, Wuttke M, Coassin S, Thio CHL, Kleber ME, Winkler TW, Wanner V, Chai JF, Chu AY, Cocca M, Feitosa MF, Ghasemi S, Hoppmann A, Horn K, Li M, Nutile T, Scholz M, Sieber KB, Teumer A, Tin A, Wang J, Tayo BO, Ahluwalia TS, Almgren P, Bakker SJL, Banas B, Bansal N, Biggs ML, Boerwinkle E, Bottinger EP, Brenner H, Carroll RJ, Chalmers J, Chee ML, Chee ML, Cheng CY, Coresh J, de Borst MH, Degenhardt F, Eckardt KU, Endlich K, Franke A, Freitag-Wolf S, Gampawar P, Gansevoort RT, Ghanbari M, Gieger C, Hamet P, Ho K, Hofer E, Holleczek B, Xian Foo VH, Hutri-Kähönen N, Hwang SJ, Ikram MA, Josyula NS, Kähönen M, Khor CC, Koenig W, Kramer H, Krämer BK, Kühnel B, Lange LA, Lehtimäki T, Lieb W, Loos RJF, Lukas MA, Lyytikäinen LP, Meisinger C, Meitinger T, Melander O, Milaneschi Y, Mishra PP, Mononen N, Mychaleckyj JC, Nadkarni GN, Nauck M, Nikus K, Ning B, Nolte IM, O'Donoghue ML, Orho-Melander M, Pendergrass SA, Penninx BWJH, Preuss MH, Psaty BM, Raffield LM, Raitakari OT, Rettig R, Rheinberger M, Rice KM, Rosenkranz AR, Rossing P, Rotter JI, Sabanayagam C, Schmidt H, Schmidt R, Schöttker B, Schulz CA, Sedaghat S, Shaffer CM, Strauch K, Szymczak S, Taylor KD, Tremblay J, Chaker L, van der Harst P, van der Most PJ, Verweij N, Völker U, Waldenberger M, Wallentin L, Waterworth DM, White HD, Wilson JG, Wong TY, Woodward M, Yang Q, Yasuda M, Yerges-Armstrong LM, Zhang Y, Snieder H, Wanner C, Böger CA, Köttgen A, Kronenberg F, Pattaro C, Heid IM. Meta-analysis uncovers genome-wide significant variants for rapid kidney function decline. Kidney Int. 2021 04; 99(4):926-939.

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Lane SL, Houck JA, Doyle AS, Bales ES, Lorca RA, Julian CG, Moore LG. AMP-activated protein kinase activator AICAR attenuates hypoxia-induced murine fetal growth restriction in part by improving uterine artery blood flow. J Physiol. 2020 09; 598(18):4093-4105.

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Yuan H, Han Y, Wang X, Li N, Liu Q, Yin Y, Wang H, Pan L, Li L, Song K, Qiu T, Pan Q, Chen Q, Zhang G, Zang Y, Tan M, Zhang J, Li Q, Wang X, Jiang J, Qin J. SETD2 Restricts Prostate Cancer Metastasis by Integrating EZH2 and AMPK Signaling Pathways. Cancer Cell. 2020 09 14; 38(3):350-365.e7.

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Keleher MR, Erickson K, Kechris K, Yang IV, Dabelea D, Friedman JE, Boyle KE, Jansson T. Associations between the activity of placental nutrient-sensing pathways and neonatal and postnatal metabolic health: the ECHO Healthy Start cohort. Int J Obes (Lond). 2020 11; 44(11):2203-2212.

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Wang L, Halliday G, Huot JR, Satoh T, Baust JJ, Fisher A, Cook T, Hu J, Avolio T, Goncharov DA, Bai Y, Vanderpool RR, Considine RV, Bonetto A, Tan J, Bachman TN, Sebastiani A, McTiernan CF, Mora AL, Machado RF, Goncharova EA, Gladwin MT, Lai YC. Treatment With Treprostinil and Metformin Normalizes Hyperglycemia and Improves Cardiac Function in Pulmonary Hypertension Associated With Heart Failure With Preserved Ejection Fraction. Arterioscler Thromb Vasc Biol. 2020 06; 40(6):1543-1558.

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Chen Y, Manna SK, Golla S, Krausz KW, Cai Y, Garcia-Milian R, Chakraborty T, Chakraborty J, Chatterjee R, Thompson DC, Gonzalez FJ, Vasiliou V. Glutathione deficiency-elicited reprogramming of hepatic metabolism protects against alcohol-induced steatosis. Free Radic Biol Med. 2019 11 01; 143:127-139.

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Lane SL, Dodson RB, Doyle AS, Park H, Rathi H, Matarrazo CJ, Moore LG, Lorca RA, Wolfson GH, Julian CG. Pharmacological activation of peroxisome proliferator-activated receptor ? (PPAR-?) protects against hypoxia-associated fetal growth restriction. FASEB J. 2019 08; 33(8):8999-9007.

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Vaughan OR, Powell TL, Jansson T. Apelin is a novel regulator of human trophoblast amino acid transport. Am J Physiol Endocrinol Metab. 2019 05 01; 316(5):E810-E816.

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