Your search keyword '"Durham, William J."' showing total 5 results

1. Quantification of muscle triglyceride synthesis rate requires an adjustment for total triglyceride content

Author

Asghar, Rabia, Chondronikola, Maria, Dillon, Edgar L., Durham, William J., Porter, Craig, Wu, Zhanpin, Camacho-Hughes, Maria, Andersen, Clark R., Spratt, Heidi, Volpi, Elena, Sheffield-Moore, Melinda, Sidossis, Labros, Wolfe, Robert R., Abate, Nicola, and Tuvdendorj, Demidmaa R.

Abstract

Intramyocellular triglyceride (imTG) in skeletal muscle plays a significant role in metabolic health, and an infusion of [13C16]palmitate can be used to quantitate the in vivo fractional synthesis rate (FSR) and absolute synthesis rate (ASR) of imTGs. However, the extramyocellular TG (emTG) pool, unless precisely excised, contaminates the imTG pool, diluting the imTG-bound tracer enrichment and leading to underestimation of FSR. Because of the difficulty of excising the emTGs precisely, it would be advantageous to be able to calculate the imTG synthesis rate without dissecting the emTGs from each sample. Here, we tested the hypothesis that the ASR of total TGs (tTGs), a combination of imTGs and emTGs, calculated as “FSR × tTG pool,” reasonably represents the imTG synthesis. Muscle lipid parameters were measured in nine healthy women at 90 and 170 min after the start of [13C16]palmitate infusion. While the measurements of tTG content, enrichment, and FSR did not correlate (P> 0.05), those of the tTG ASR were significantly correlated (r= 0.947, P< 0.05). These results demonstrate that when imTGs and emTGs are pooled, the resulting underestimation of imTG FSR is balanced by the overestimation of the imTG content. We conclude that imTG metabolism is reflected by the measurement of the tTG ASR.

Published

2018

2. Inflammatory burden and amino acid metabolism in cancer cachexia

Author

Durham, William J, Dillon, Edgar Lichar, and Sheffield-Moore, Melinda

Abstract

Cancer cachexia is associated with marked alterations in skeletal muscle protein metabolism that lead to muscle wasting and, in some cases, death. The inflammatory response elicited by cancer is a likely, if not primary, mediator of these alterations. This review focuses on the possible relationship between inflammatory signaling and altered amino acid metabolism in cancer.

Published

2009

3. Exogenous nitric oxide increases basal leg glucose uptake in humans

Author

Durham, William J, Yeckel, Catherine W, Miller, Sharon L, Gore, Dennis C, and Wolfe, Robert R

Abstract

This study addressed the role of blood flow and nitric oxide in leg glucose uptake. Seven subjects (5 men, 2 women) were studied during conditions of resting blood flow and increased blood flow, achieved by infusion of the nitric oxide (NO) donor sodium nitroprusside (SNP) into the femoral artery. Femoral arterial and venous blood samples were obtained and blood flow was determined by infusion of indocyanine green dye. SNP infusion significantly increased leg blood flow (769 ± 103 v450 ± 65 mL · min−1· leg−1, P< .001), but did not affect arterial (4.68 ± 0.13 mmol/L control, 4.63 ± 0.09 mmol/L SNP) or venous (4.60 ± 0.14 mmol/L control, 4.54 ± 0.10 mmol/L SNP) glucose concentrations. Glucose uptake was significantly (P< .01) higher during SNP infusion (65 ± 6 μmol · min−1· leg−1) than during the basal period (34 ± 6 μmol · min−1· leg−1), whereas lactate release was unaffected (rest, 45 ± 11 μmol · min−1· leg−1; SNP, 42 ± 14 μmol · min−1· leg−1). We conclude that blood flow and/or NO increase basal leg glucose uptake.

Published

2003

4. Generation of Reactive Oxygen and Nitrogen Species in Contracting Skeletal Muscle

Author

REID, MICHAEL B. and DURHAM, WILLIAM J.

Abstract

Since the early 1980s biologists have recognized that skeletal muscle generates free radicals. Of particular interest are two closely related redox cascades—reactive oxygen species (ROS) and nitric oxide (NO) derivatives. The ROS cascade is initiated by superoxide anion radicals derived from the mitochondrial electron transport chain, the membrane‐associated NAD(P)H oxidase complex, or other sources. NO is produced by two NO synthase isoforms constitutively expressed by muscle fibers. ROS and NO derivatives are produced continually and are detectable in both the cytosolic and extracellular compartments. Production increases during strenuous exercise. Both ROS and NO modulate contractile function. Under basal conditions, low levels of ROS enhance force production. Excessive ROS accumulation inhibits force, for example, during fatiguing exercise. NO inhibits skeletal muscle contraction, an effect that is partially mediated by cyclic GMP as a second messenger. With aging, redox modulation of muscle contraction may be altered by changes in the rates of ROS and NO production, the levels of endogenous antioxidants that buffer ROS and NO, and the sensitivities of regulatory proteins to ROS and NO action. The impact of aging on contractile regulation depends on the relative magnitude of these changes and their net effects on ROS and NO activities at the cellular level.

Published

2002

5. Carbohydrate Metabolism and Sudden Death In Mice Heterozygous for the Y524S Mutation in RyR1

Author

Cheng, Qing, Long, Cheng, Durham, William J., and Hamilton, Susan L.

Published

2009