Gino Vallega scite author profile

Uncoupling protein 3 (UCP-3), a member of the mitochondrial transporter superfamily, is expressed primarily in skeletal muscle where it may play a role in altering metabolic function under conditions of fuel depletion caused, for example, by fasting and exercise. Here, we show that treadmill running by rats rapidly (30 min) induces skeletal muscle UCP-3 mRNA expression (sevenfold after 200 min), as do hypoxia and swimming in a comparably rapid and substantial fashion. The expression of the mitochondrial transporters, carnitine palmitoyltransferase 1 and the tricarboxylate carrier, is unaffected under these conditions. Hypoxia and exercise-mediated induction of UCP-3 mRNA result in a corresponding four- to sixfold increase in rat UCP-3 protein. We treated extensor digitorum longus (EDL) muscle with 5'-amino-4-imidazolecarboxamide ribonucleoside (AICAR), a compound that activates AMP-activated protein kinase (AMPK), an enzyme known to be stimulated during exercise and hypoxia. Incubation of rat EDL muscle in vitro for 30 min with 2 mM AICAR causes a threefold increase in UCP-3 mRNA and a 1.5-fold increase of UCP-3 protein compared with untreated muscle. These data are consistent with the notion that activation of AMPK, presumably as a result of fuel depletion, rapidly regulates UCP-3 gene expression.

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Identification and Characterization of an Exercise-sensitive Pool of Glucose Transporters in Skeletal Muscle

Coderre¹,

Kandror²,

Vallega

et al. 1995

Journal of Biological Chemistry

174

121

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Augmentation of glucose transport into skeletal muscle by GLUT4 translocation to the plasma and T-tubule membranes can be mediated independently by insulin and by contraction/exercise. Available data suggest that separable pools of intracellular GLUT4 respond to these two stimuli. To identify and characterize these pools, we fractionated skeletal muscle membranes in a discontinuous sucrose density gradient. Fractions of 32 and 36% sucrose exhibited the highest enrichment of GLUT4 and were independently responsive to insulin and exercise, respectively. The combination of the two stimuli depleted both GLUT4 fractions simultaneously. Both vesicle populations contained the gp160 aminopeptidase, whose expression had previously been shown to be specific to muscle and fat and restricted to GLUT4 vesicles in the latter tissue. In muscle, gp160 translocates exactly as does GLUT4 in response to insulin and exercise. The contraction- and insulin-sensitive GLUT4 pools also contained secretory component-associated membrane protein/glucose transporter vesicle triplet but not GLUT1 and caveolin. Immunoadsorption of the two pools followed by silver staining did not reveal any obvious difference in their major protein components. On the other hand, sedimentational analysis in sucrose velocity gradients revealed that the insulin-sensitive GLUT4 vesicles had a larger sedimentation coefficient than the exercise-sensitive vesicles. Thus, the separation of the two intracellular GLUT4 pools should be useful in dissecting what are likely to be different signal transduction pathways that mediate their translocation to the cell surface.

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Immunopurification and Characterization of Rat Adipocyte Caveolae Suggest Their Dissociation from Insulin Signaling

Souto

Vallega

Wharton

et al. 2003

Journal of Biological Chemistry

100

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Adipocytes play an important role in the insulin-dependent regulation of organismal fuel metabolism and express caveolae at levels as high or higher than any other cell type. Recently, a link between insulin signaling and caveolae has been suggested; nevertheless, adipocyte caveolae have been the subject of relatively few studies, and their contents have been minimally characterized. With the aid of a new monoclonal antibody, we developed a rapid procedure for the immunoisolation of caveolae derived from the plasma membrane of adipocytes, and we characterized their protein content. We find that immunopurified adipocyte caveolae have a relatively limited protein composition, and they lack the raft protein, flotillin, and insulin receptors. Immunogold labeling and electron microscopy of the adipocyte plasma membrane confirmed the lack of insulin receptors in caveolae. In addition to caveolins, the structural components of caveolae, their major protein constituents, are the semicarbazide-sensitive amine oxidase and the scavenger lipoprotein receptor CD36. The results are consistent with a role for caveolae in lipid flux in and of adipocytes.

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Spontaneously hypertensive rat vascular smooth muscle cells in culture exhibit increased growth and Na+/H+ exchange.

Berk¹,

Vallega²,

Muslin³

et al. 1989

J. Clin. Invest.

188

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The cellular mechanisms responsible for abnormalities in spontaneously hypertensive rat (SHR) vascular smooth muscle cell (VSMC) growth and vasoreactivity are not defined. Because Na+/H' exchange, which we have previously demonstrated in cultured VSMC, plays an essential role in mediating growth factor responses, we hypothesized that abnormalities in SHR growth regulation might be reflected in the activity of this transporter. To test this hypothesis, we studied DNA synthesis and Na+/H' exchange (measured as the rate of amiloride-sensitive intracellular alkalinization or Na' influx) in early subcultures (< 6) of aortic VSMC from 12-wk-old SHR and Wistar Kyoto (WKY) animals. Serum-deprived SHR VSMC grew more rapidly in response to 10% serum with an increase in [3Hjthymidine incorporation of 439% compared with 191% in WKY controls. Basal intracellular pH (pHj) values determined by fluorescent pH measurements were 7.37±0.04 and 7.27±0.03 (P < 0.05) in early passage SHR and WKY, respectively. Acid recovery (initial pH1 = 6.8) by SHR VSMC was faster than by WKY VSMC as measured by alkalinization (1.8±0.6 vs. 0.8±0.2 mmol Hf/liter * min, P < 0.05) or by amiloride-sensitive 22Na' influx (14.5±1.2 vs. 4.0±0.5 nmol Na+/mg protein * min, P < 0.05). In comparison to WKY cells early passage SHR VSMC exhibited 2.5-fold greater alkalinization and amiloride-sensitive 22Na' influx in response to 100 nM angiotensin II. During serial passage, WKY cells acquired enhanced Na+/H' exchange and growth rates so that by passage 6, these differences were no longer present. These findings in early cultures of SHR VSMC, removed from the in vivo neurohumoral milieu, suggest that increased Na+/H' exchange in SHR may reflect alterations in Na' homeostasis that might contribute to altered SHR VSMC function such as enhanced growth and vasoreactivity.

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Insulin-dependent protein trafficking in skeletal muscle cells

Zhou

Sevilla

Vallega

et al. 1998

American Journal of Physiology-Endocrinology and Metabolism

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We have established a simple procedure for the separation of intracellular pool(s) of glucose transporter isoform GLUT-4-containing vesicles from the surface sarcolemma and T tubule membranes of rat skeletal myocytes. This procedure enabled us to immunopurify intracellular GLUT-4-containing vesicles and to demonstrate that 20–30% of the receptors for insulin-like growth factor II/mannose 6-phosphate and transferrin are colocalized with GLUT-4 in the same vesicles. Using our new fractionation procedure as well as cell surface biotinylation, we have shown that these receptors are translocated from their intracellular compartment(s) to the cell surface along with GLUT-4 after insulin stimulation in vivo. Denervation causes a considerable downregulation of GLUT-4 protein in skeletal muscle but does not affect the level of expression of other known component proteins of the corresponding vesicles. Moreover, the sedimentation coefficient of these vesicles remains unchanged by denervation. We suggest that the normal level of GLUT-4 expression is not necessary for the structural organization and insulin-sensitive translocation of its cognate intracellular compartment.

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Gino Vallega

UCP-3 expression in skeletal muscle: effects of exercise, hypoxia, and AMP-activated protein kinase

Identification and Characterization of an Exercise-sensitive Pool of Glucose Transporters in Skeletal Muscle

Immunopurification and Characterization of Rat Adipocyte Caveolae Suggest Their Dissociation from Insulin Signaling

Spontaneously hypertensive rat vascular smooth muscle cells in culture exhibit increased growth and Na+/H+ exchange.

Insulin-dependent protein trafficking in skeletal muscle cells

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