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Osteopenia or osteoporosis occurs frequently in alcoholics and patients with alcoholic fatty liver disease. Methoxsalen (MTS), 8-methoxypsoralen, improved osteoporosis in ovariectomized and diabetic mouse models; however, its effects on alcohol-induced osteopenia and steatosis have not been reported. This study examined the effects of MTS on alcohol-induced bone loss and steatosis. Rats in the alcohol groups were fed a Liber-DeCarli liquid diet containing 36% of its calories as alcohol. MTS was at 0.005% in their diet, while alendronate (positive control; 500 μg/kg BW/day) was administered orally for eight weeks. The pair-fed group received the same volume of isocaloric liquid diet containing dextrin-maltose instead of alcohol as the alcohol control group consumed the previous day. In the alcohol-fed rats, the MTS and alendronate increased the bone volume density, bone surface density and trabecular number, while the bone specific surface, trabecular separation and structure model index were decreased in the tibia. MTS down-regulated tibial tartrate-resistant acid phosphatase 5 (TRAP) expression compared to the alcohol control group. MTS or alendronate prevented chronic alcohol-induced hepatic lipid accumulation and the triglyceride level in the alcohol-fed rats by decreasing the lipogenic enzyme activities and increasing the fatty acid oxidation enzyme activities. MTS reduced significantly the serum levels of alcohol, TRAP and tumor necrosis factor-α compared to the alcohol control group. Overall, these results suggest that MTS is likely to be an alternative agent for alcoholic osteopenia and hepatosteatosis.

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Fast flip-flop of cholesterol and fatty acids in membranes: implications for membrane transport proteins

Ham¹

2003

Current Opinion in Lipidology

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“Carmen perpetuum,” &c.

Ham¹

1852

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Glutamate Pathways Mediate Somatostain Responses to Glucose in Normal and Diabetic Rat Hypothalamus

Lewis

Ham

Scanlon

1998

J Neuroendocrinology

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We investigated the role of hypothalamic glutamate receptors in mediating the stimulatory effect of low glucose (< 5 mM) on somatostatin release. We also studied whether alteration in glutamate release might contribute to the reduced hypothalamic somatostatin response to low glucose observed in diabetic (Goto-Kakizaki) rat hypothalami. Hypothalamic somatostatin release in response to incubation with 1 mM D-glucose was inhibited by the ionotropic glutamate receptor antagonists MK801, D-AP5 and DNQX but not by the metabotropic antagonists L-AP3 or MCPG. The release of somatostatin was increased by the ionotropic agonists NMDA, AMPA and kainate but not by metabotropic agonists t-ACPD or L-AP4. Basal and peak glutamate release in response to incubation with 1 mM glucose, were significantly lower from GK hypothalami There were no significant differences in the basal or stimulated release of serine and GABA. These data indicate that ionotropic NMDA/AMPA/kainate receptors and not metabotropic receptors mediate the effects of glucose on rat hypothalamic somatostatin release. Reduced hypothalamic somatostatin release in response to low glucose in diabetic (Goto-Kakizaki) rats may well be secondary, at least in part, to reduced glutamate release.

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A New FFT-Based Digital Frequency Relay for Load Shedding

Protective Effects of Methoxsalen Supplementation on Chronic Alcohol-induced Osteopenia and Steatosis in Rats

Fast flip-flop of cholesterol and fatty acids in membranes: implications for membrane transport proteins

“Carmen perpetuum,” &c.

Glutamate Pathways Mediate Somatostain Responses to Glucose in Normal and Diabetic Rat Hypothalamus

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