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9 results on '"Arumugam, Yoga"'

1. Different mechanisms can alter fatty acid transport when muscle contractile activity is chronically altered

Author

Koonen, Debby P.Y., Benton, Carley R., Arumugam, Yoga, Tandon, Narendra N., Calles-Escandon, Jorge, Glatz, Jan F.C., Luiken, Joost J.F.P., and Bonen, Arend

Subjects
Fatty acids -- Research, Biological sciences
Abstract

Different mechanisms can alter fatty acid transport when muscle contractile activity is chronically altered. Am J Physiol Endocrinol Metab 286: E1042-E1049, 2004; 10.1152/ajpendo.00531.2003.--We examined whether skeletal muscle transport rates of long-chain fatty acids (LCFAs) were altered when muscle activity was eliminated (denervation) or increased (chronic stimulation). After 7 days of chronically stimulating the hindlimb muscles of female Sprague-Dawley rats, the LCFA transporter proteins fatty acid translocase (FAT)/CD36 (+43%) and plasma membrane-associated fatty acid-binding protein (FABPpm; +30%) were increased (P < 0.05), which resulted in the increased plasmalemmal content of these proteins (FAT/CD36, +42%; FABPpm +13%, P < 0.05) and a concomitant increase in the LCFA transport rate into giant sarcolemmal vesicles (+44%, P < 0.05). Although the total muscle contents of FAT/CD36 and FABPpm were not altered (P > 0.05) after 7 days of denervation, the LCFA transport rate was markedly decreased (-39%). This was associated with reductions in plasmalemmal FAT/CD36 (-24%) and FABPpm (-28%; P < 0.05). These data suggest that these LCFA transporters were resequestered to their intracellular depot(s) within the muscle. Combining the results from these experiments indicated that changes in rates of LCFA transport were correlated with concomitant changes in plasmalemmal FAT/CD36 and FABPpm, but not necessarily with their total muscle content. Thus chronic alterations in muscle activity can alter the rates of LCFA transport via different mechanisms, either l) by increasing the total muscle content of FAT/CD36 and FABPpm, resulting in a concomitant increase at the sarcolemma, or 2) by reducing the plasma membrane content of these proteins in the absence of any changes in their total muscle content. giant vesicles; tibialis anterior; gastrocnemius; denervation; chronic stimulation

Published
2004

2. Changes in fatty acid transport and transporters are related to the severity of insulin deficiency

Author

Luiken, Joost J.F.P., Arumugam, Yoga, Bell, Rhonda C., Calles-Escandon, Jorge, Tandon, Narendra N., Glatz, Jan F.C., and Bonen, Arend

Subjects
Insulin -- Physiological aspects, Fatty acid metabolism -- Research, Streptozocin -- Physiological aspects, Diabetes -- Physiological aspects, Biological sciences
Abstract

We have examined the effects of streptozotocin (STZ)-induced diabetes (moderate and severe) on fatty acid transport and fatty acid transporter (FAT/CD36) and plasma membrane-bound fatty acid binding protein (FABPpm) expression, at the mRNA and protein level, as well as their plasmalemmal localization. These studies have shown that, with STZ-induced diabetes, 1) fatty acid transport across the plasma membrane is increased in heart, skeletal muscle, and adipose tissue and is reduced in liver; 2) changes in fatty acid transport are generally not associated with changes in fatty acid transporter mRNAs, except in the heart; 3) increases in fatty acid transport in heart and skeletal muscle occurred with concomitant increases in plasma membrane FAT/CD36, whereas in contrast, the increase and decrease in fatty acid transport in adipose tissue and liver, respectively, were accompanied by concomitant increments and reductions in plasma membrane FABPpm; and finally, 4) the increases in plasma membrane transporters (FAT/CD36 in heart and skeletal muscle; FABPpm in adipose tissue) were attributable to their increased expression, whereas in liver, the reduced plasma membrane FABPpm appeared to be due to its relocation within the cell in the face of slightly increased expression. Taken together, STZ-induced changes in fatty acid uptake demonstrate a complex and tissue-specific pattern, involving different fatty acid transporters in different tissues, in combination with different underlying mechanisms to alter their surface abundance. fatty acid transporter CD6; plasma membrane-bound fatty acid binding protein; muscle; heart; liver; adipose tissue

Published
2002

3. Insulin induces the translocation of the fatty acid transporter FAT/CD36 to the plasma membrane

Author

Luiken, Joost J.F.P., Dyck, David J., Han, Xiao-Xia, Tandon, Narendra N., Arumugam, Yoga, Glatz, Jan F.C., and Bonen, Arend

Subjects
Insulin -- Physiological aspects, Fatty acid metabolism -- Physiological aspects, Striated muscle -- Physiological aspects, Insulin resistance -- Physiological aspects, Biological sciences
Abstract

Insulin induces the translocation of the fatty acid transporter FAT/CD36 to the plasma membrane. Am J Physiol Endocrinol Metab 282: E491-E495, 2002; 10.1152/ajpendo.00419.2001.--It is well known that muscle contraction and insulin can independently translocate GLUT-4 from an intracellular depot to the plasma membrane. Recently, we have shown that the fatty acid transporter FAT/CD36 is translocated from an intracellular depot to the plasma membrane by muscle contraction ( hindlimb perfusion; glucose transporter 4; palmitate; oxidation; triacylglycerol; diacylglycerol; phospholipids

Published
2002

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