Robert A. McKay scite author profile

Current understanding of microRNA (miRNA) biology is limited, and antisense oligonucleotide (ASO) inhibition of miRNAs is a powerful technique for their functionalization. To uncover the role of the liver-specific miR-122 in the adult liver, we inhibited it in mice with a 2'-O-methoxyethyl phosphorothioate ASO. miR-122 inhibition in normal mice resulted in reduced plasma cholesterol levels, increased hepatic fatty-acid oxidation, and a decrease in hepatic fatty-acid and cholesterol synthesis rates. Activation of the central metabolic sensor AMPK was also increased. miR-122 inhibition in a diet-induced obesity mouse model resulted in decreased plasma cholesterol levels and a significant improvement in liver steatosis, accompanied by reductions in several lipogenic genes. These results implicate miR-122 as a key regulator of cholesterol and fatty-acid metabolism in the adult liver and suggest that miR-122 may be an attractive therapeutic target for metabolic disease.

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Antisense oligonucleotide reduction of DGAT2 expression improves hepatic steatosis and hyperlipidemia in obese mice

Murray

et al. 2005

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In this study, we investigated the role of acyl-coenzyme A:diacylglycerol acyltransferase 2 (DGAT2) in glucose and lipid metabolism in obese mice by reducing its expression in liver and fat with an optimized antisense oligonucleotide (ASO). High-fat diet-induced obese (DIO) C57BL/6J mice and ob/ob mice were treated with DGAT2 ASO, control ASO, or saline. DGAT2 ASO treatment reduced DGAT2 messenger RNA (mRNA) levels by more than 75% in both liver and fat but did not change DGAT1 mRNA levels in either of these tissues, which resulted in decreased DGAT activity in liver but not in fat. DGAT2 ASO treatment did not cause significant changes in body weight, adiposity, metabolic rate, insulin sensitivity, or skin microstructure. However, DGAT2 ASO treatment caused a marked reduction in hepatic triglyceride content and improved hepatic steatosis in both models, which was consistent with a dramatic decrease in triglyceride synthesis and an increase in fatty acid oxidation observed in primary mouse hepatocytes treated with DGAT2 ASO. In addition, the treatment lowered hepatic triglyceride secretion rate and plasma triglyceride levels, and improved plasma lipoprotein profile in DIO mice. The positive effects of the DGAT2 ASO were accompanied by a reduction in the mRNA levels of several hepatic lipogenic genes, including SCD1, FAS, ACC1, ACC2, ATP-citrate lyase, glycerol kinase, and HMG-CoA reductase. In conclusion, reduction of DGAT2 expression in obese animals can reduce hepatic lipogenesis and hepatic steatosis as well as attenuate hyperlipidemia, thereby leading to an improvement in metabolic syndrome.

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Molecular motion in polycarbonates by dipolar rotational spin-echo carbon-13 NMR

Schaefer¹,

Stejskal²,

McKay³

et al. 1984

Macromolecules

154

213

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Molecular motions in polycarbonates and polycarbonate-like materials have been characterized by dipolar rotational spin-echo 13C NMR. The dominant motion in polycarbonate is 180°f lips about the aromatic-ring C2 axes. These flips occur over a broad range of frequencies extending to over 15 MHz. The flips are superimposed on 30°r ing oscillations about the same axes. Other main-chain motions, as measured through methyl-carbon dipolar patterns, are also significant; amplitudes of these motions are of the order of 20°. Chlorine substitution on the rings abolishes both ring and main-chain motions. Chemical modification of the links between rings also reduces motion, in some cases by preventing a fraction of the rings from flipping.

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PTP1B antisense oligonucleotide lowers PTP1B protein, normalizes blood glucose, and improves insulin sensitivity in diabetic mice

Zinker

Rondinone

Trevillyan

et al. 2002

Proc. Natl. Acad. Sci. U.S.A.

377

208

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The role of protein-tyrosine phosphatase 1B (PTP1B) in diabetes was investigated using an antisense oligonucleotide in ob͞ob and db͞db mice. PTP1B antisense oligonucleotide treatment normalized plasma glucose levels, postprandial glucose excursion, and HbA 1C. Hyperinsulinemia was also reduced with improved insulin sensitivity. PTP1B protein and mRNA were reduced in liver and fat with no effect in skeletal muscle. Insulin signaling proteins, insulin receptor substrate 2 and phosphatidylinositol 3 (PI3)-kinase regulatory subunit p50␣, were increased and PI3-kinase p85␣ expression was decreased in liver and fat. These changes in protein expression correlated with increased insulin-stimulated protein kinase B phosphorylation. The expression of liver gluconeogenic enzymes, phosphoenolpyruvate carboxykinase, and fructose-1,6-bisphosphatase was also down-regulated. These findings suggest that PTP1B modulates insulin signaling in liver and fat, and that therapeutic modalities targeting PTP1B inhibition may have clinical benefit in type 2 diabetes.

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Role of resistin in diet-induced hepatic insulin resistance

Muse¹,

Obici²,

Bhanot³

et al. 2004

J. Clin. Invest.

293

174

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Resistin is an adipose-derived hormone postulated to link adiposity to insulin resistance. To determine whether resistin plays a causative role in the development of diet-induced insulin resistance, we lowered circulating resistin levels in mice by use of a specific antisense oligodeoxynucleotide (ASO) directed against resistin mRNA and assessed in vivo insulin action by the insulin-clamp technique. After 3 weeks on a high-fat (HF) diet, mice displayed severe insulin resistance associated with an approximately 80% increase in plasma resistin levels. In particular, the rate of endogenous glucose production (GP) increased more than twofold compared with that in mice fed a standard chow. Treatment with the resistin ASO for 1 week normalized the plasma resistin levels and completely reversed the hepatic insulin resistance. Importantly, in this group of mice, the acute infusion of purified recombinant mouse resistin, designed to acutely elevate the levels of circulating resistin up to those observed in the HF-fed mice, was sufficient to reconstitute hepatic insulin resistance. These results provide strong support for a physiological role of resistin in the development of hepatic insulin resistance in this model.

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Magic-angle carbon-13 nuclear magnetic resonance study of the compatibility of solid polymeric blends

Stejskal¹,

Schaefer²,

Sefcik³

et al. 1981

Macromolecules

254

179

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A theoretical analysis of coupled relaxation processes has been used in the quantitative interpretation of carbon-resolved, proton TI, data obtained at 15.1 MHz for a variety of solid blends of poly(pheny1ene oxide) and polystyrene. This analysis permits an estimate of spin-diffusion rates between different chemical species. These rates are strongly dependent on spatial proximity and hence are applicable to the determination of the homogeneity of the blends. Proton Tl,'s in the blends are nearly but not quite averaged to a single value by spin diffusion, indicating extensive intermixing of poly(pheny1ene oxide) and polystyrene chains. The proton TI, experiments are sensitive enough to distinguish between identically prepared blends made from poly(pheny1ene oxide) and either atactic or isotactic polystyrenes. While the bulk of both types of blends is an intimate mixture of polymer chains, there are also some small regions in the atactic polystyrene blend where the polystyrene is not uniformly dispersed.

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Total suppression of sidebands in CPMAS C-13 NMR

Dixon

Schaefer

Sefcik

et al. 1982

Journal of Magnetic Resonance (1969)

217

159

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Specific Inhibition of PTEN Expression Reverses Hyperglycemia in Diabetic Mice

et al. 2002

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Signaling through the phosphatidylinositol 3-kinase (PI3K) pathway is crucial for metabolic responses to insulin, and defects in PI3K signaling have been demonstrated in type 2 diabetes. PTEN (MMAC1) is a lipid/ protein phosphatase that can negatively regulate the PI3K pathway by dephosphorylating phosphatidylinositol (3,4,5)-triphosphate, but it is unclear whether PTEN is physiologically relevant to insulin signaling in vivo. We employed an antisense oligonucleotide (ASO) strategy in an effort to specifically inhibit the expression of PTEN. Transfection of cells in culture with ASO targeting PTEN reduced PTEN mRNA and protein levels and increased insulin-stimulated Akt phosphorylation in ␣-mouse liver-12 (AML12) cells. Systemic administration of PTEN ASO once a week in mice suppressed PTEN mRNA and protein expression in liver and fat by up to 90 and 75%, respectively, and normalized blood glucose concentrations in db/db and ob/ob mice. Inhibition of PTEN expression also dramatically reduced insulin concentrations in ob/ob mice, improved the performance of db/db mice during insulin tolerance tests, and increased Akt phosphorylation in liver in response to insulin. These results suggest that PTEN plays a significant role in regulating glucose metabolism in vivo by negatively regulating insulin signaling.

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Robert A. McKay

miR-122 regulation of lipid metabolism revealed by in vivo antisense targeting

Antisense oligonucleotide reduction of DGAT2 expression improves hepatic steatosis and hyperlipidemia in obese mice

Molecular motion in polycarbonates by dipolar rotational spin-echo carbon-13 NMR

PTP1B antisense oligonucleotide lowers PTP1B protein, normalizes blood glucose, and improves insulin sensitivity in diabetic mice

Role of resistin in diet-induced hepatic insulin resistance

Magic-angle carbon-13 nuclear magnetic resonance study of the compatibility of solid polymeric blends

Total suppression of sidebands in CPMAS C-13 NMR

Specific Inhibition of PTEN Expression Reverses Hyperglycemia in Diabetic Mice

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