Your search keyword '"Ford RJ"' showing total 3 results

1. Author Correction: Metformin-induced ablation of microRNA 21-5p releases Sestrin-1 and CAB39L antitumoral activities.

Author

Pulito C, Mori F, Sacconi A, Goeman F, Ferraiuolo M, Pasanisi P, Campagnoli C, Berrino F, Fanciulli M, Ford RJ, Levrero M, Pediconi N, Ciuffreda L, Milella M, Steinberg GR, Cioce M, Muti P, Strano S, and Blandino G

Published

2024

2. The phosphorylation of AMPKβ1 is critical for increasing autophagy and maintaining mitochondrial homeostasis in response to fatty acids.

Author

Desjardins EM, Smith BK, Day EA, Ducommun S, Sanders MJ, Nederveen JP, Ford RJ, Pinkosky SL, Townsend LK, Gutgesell RM, Lu R, Sakamoto K, and Steinberg GR

Subjects

Mice, Animals, Phosphorylation, Mitochondria metabolism, Homeostasis, Autophagy, Triglycerides metabolism, Fatty Acids metabolism, AMP-Activated Protein Kinases genetics, AMP-Activated Protein Kinases metabolism

Abstract

Fatty acids are vital for the survival of eukaryotes, but when present in excess can have deleterious consequences. The AMP-activated protein kinase (AMPK) is an important regulator of multiple branches of metabolism. Studies in purified enzyme preparations and cultured cells have shown that AMPK is allosterically activated by small molecules as well as fatty acyl-CoAs through a mechanism involving Ser108 within the regulatory AMPK β1 isoform. However, the in vivo physiological significance of this residue has not been evaluated. In the current study, we generated mice with a targeted germline knock-in (KI) mutation of AMPKβ1 Ser108 to Ala (S108A-KI), which renders the site phospho-deficient. S108A-KI mice had reduced AMPK activity (50 to 75%) in the liver but not in the skeletal muscle. On a chow diet, S108A-KI mice had impairments in exogenous lipid-induced fatty acid oxidation. Studies in mice fed a high-fat diet found that S108A-KI mice had a tendency for greater glucose intolerance and elevated liver triglycerides. Consistent with increased liver triglycerides, livers of S108A-KI mice had reductions in mitochondrial content and respiration that were accompanied by enlarged mitochondria, suggestive of impairments in mitophagy. Subsequent studies in primary hepatocytes found that S108A-KI mice had reductions in palmitate- stimulated Cpt1a and Ppargc1a mRNA, ULK1 phosphorylation and autophagic/mitophagic flux. These data demonstrate an important physiological role of AMPKβ1 Ser108 phosphorylation in promoting fatty acid oxidation, mitochondrial biogenesis and autophagy under conditions of high lipid availability. As both ketogenic diets and intermittent fasting increase circulating free fatty acid levels, AMPK activity, mitochondrial biogenesis, and mitophagy, these data suggest a potential unifying mechanism which may be important in mediating these effects.

Published

2022

3. Salsalate reduces atherosclerosis through AMPKβ1 in mice.

Author

Day EA, Ford RJ, Smith BK, Houde VP, Stypa S, Rehal S, Lhotak S, Kemp BE, Trigatti BL, Werstuck GH, Austin RC, Fullerton MD, and Steinberg GR

Subjects

AMP-Activated Protein Kinases deficiency, Animals, Cells, Cultured, Mice, Mice, Knockout, AMP-Activated Protein Kinases metabolism, Atherosclerosis metabolism, Salicylates metabolism

Abstract

Objective: Salsalate is a prodrug of salicylate that lowers blood glucose in people with type 2 diabetes. AMP-activated protein kinase (AMPK) is an αβγ heterotrimer which inhibits macrophage inflammation and the synthesis of fatty acids and cholesterol in the liver through phosphorylation of acetyl-CoA carboxylase (ACC) and HMG-CoA reductase (HMGCR), respectively. Salicylate binds to and activates AMPKβ1-containing heterotrimers that are highly expressed in both macrophages and liver, but the potential importance of AMPK and ability of salsalate to reduce atherosclerosis have not been evaluated., Methods: ApoE -/- and LDLr -/- mice with or without (-/-) germline or bone marrow AMPKβ1, respectively, were treated with salsalate, and atherosclerotic plaque size was evaluated in serial sections of the aortic root. Studies examining the effects of salicylate on markers of inflammation, fatty acid and cholesterol synthesis and proliferation were conducted in bone marrow-derived macrophages (BMDMs) from wild-type mice or mice lacking AMPKβ1 or the key AMPK-inhibitory phosphorylation sites on ACC (ACC knock-in (KI)-ACC KI) or HMGCR (HMGCR-KI)., Results: Salsalate reduced atherosclerotic plaques in the aortic roots of ApoE -/- mice, but not ApoE -/- AMPKβ1 -/- mice. Similarly, salsalate reduced atherosclerosis in LDLr -/- mice receiving wild-type but not AMPKβ1 -/- bone marrow. Reductions in atherosclerosis by salsalate were associated with reduced macrophage proliferation, reduced plaque lipid content and reduced serum cholesterol. In BMDMs, this suppression of proliferation by salicylate required phosphorylation of HMGCR and the suppression of cholesterol synthesis., Conclusions: These data indicate that salsalate suppresses macrophage proliferation and atherosclerosis through an AMPKβ1-dependent pathway, which may involve HMGCR phosphorylation and cholesterol synthesis. Since rapidly-proliferating macrophages are a hallmark of atherosclerosis, these data indicate further evaluation of salsalate as a potential therapeutic agent for treating atherosclerotic cardiovascular disease., (Copyright © 2021 The Author(s). Published by Elsevier GmbH.. All rights reserved.)

Published

2021