Background: Perilipin family proteins are important in determining the properties of lipid droplets (LDs). Results: Perilipin 5-deficient mice lack detectable LDs, exhibit enhanced fatty acid oxidation, and suffer increased ROS production in the heart. Conclusion: Perilipin 5 protects the heart from oxidative burden by sequestering fatty acid from excessive oxidation. Significance: These findings may help to increase understanding of the functions of non-adipose LDs.
a b s t r a c tWe examined the expression of the major H 2 S-producing enzymes, cystathionine-b-synthase (CBS) and cystathionine-c-lyase (CSE). CBS was ubiquitously distributed in the mouse pancreas, but CSE was found only in the exocrine. Freshly isolated islets expressed CBS, while CSE was faint. However, high glucose increased the CSE expression in the beta-cells. L-Cysteine or NaHS suppressed islet cell apoptosis with high glucose, and increased glutathione content in MIN6 beta-cells. Pretreatment with L-cysteine improved the secretory responsiveness following stimulation with glucose. The CSE inhibitor DL-propargylglycine antagonized these L-cysteine effects. We suggest H 2 S may function as an 'intrinsic brake' which protects beta-cells from glucotoxicity.
The effects of green tea catechins on glucose-stimulated insulin secretion (GSIS) were investigated in the β-cell line INS-1D. Epigallocatechin gallate (EGCG) at 10 µM or gallocatechin gallate (GCG) at 30 µM caused significant inhibitory effects on GSIS, and each of these at 100 µM almost abolished it. In contrast, epicatechin (EC) or catechin (CA) had no effect on GSIS at concentrations up to 100 µM. We thus investigated the structure-activity relationship by using epigallocatechin (EGC) and gallocatechin (GC) containing a trihydroxyl group in the B-ring, and epicatechin gallate (ECG) and catechin gallate (CG) containing the gallate moiety. EGC, GC, and ECG caused an inhibition of GSIS, although significant effects were obtained only at 100 µM. At this concentration, EGC almost abolished GSIS, whereas GC and ECG partially inhibited it. In contrast, CG did not affect GSIS at concentrations up to 100 µM. EGCG also abolished the insulin secretion induced by tolbutamide, an ATP-sensitive K channel blocker, and partially inhibited that induced by 30 mM K . Moreover, EGCG, but not EC, inhibited the oscillation of intracellular Ca 2 concentration induced by 11.1 mM glucose. These results suggest that some catechins at supraphysiological concentrations have inhibitory effects on GSIS, the potency of which depends on their structure; the order of potency was EGCG>GCG>EGC>GC≈ECG. The inhibitory effects seem to be mediated by the inhibition of voltagedependent Ca 2 channels, which is caused, at least in part, by membrane hyperpolarization resulting from the activation of K channels.
ABSTRACT. In order to assess the functional role of the polyamines spermidine and spermine in pancreatic betacells, we examined the effect of spermidine and spermine synthase inhibitors, trans-4-methylcyclohexylamine (MCHA) and N-(3-aminopropyl)cyclohexylamine (APCHA), on cellular polyamine and insulin contents, insulin secretion, and cytoplasmic Ca 2+ concentration ([Ca 2+ ]i) in mouse insulin-secreting Beta-TC6 cells. The cellular spermidine and spermine contents were reduced 90% and 64% by cultivation of cells in the presence of MCHA and APCHA for 3 days, respectively. Addition of spermidine or spermine reversed the polyamine level reduced by MCHA or APCHA, respectively. Insulin secretion was decreased 40~60% in the cells treated with MCHA or APCHA. The reduction by MCHA was reversed to the untreated level by adding spermidine exogenously, while the effect of APCHA was not reversed by treatment with spermine. The cellular insulin content was also reduced by treatment with MCHA but not the expression of insulin 1 and 2 genes, suggesting that spermidine was involved in the translation of insulin mRNAs. The elevation of [Ca 2+ ]i, a key event triggering insulin secretion induced by glucose, was reduced in Beta-TC6 cells by MCHA treatment. The spermidine synthase inhibitor also augmented the sustained [Ca 2+ ]i rise induced by carbamylcholine but not by a high concentration of KCl or nicotine. These results suggested that spermidine rather than spermine plays an important role in the regulation of insulin synthesis and the glucose-induced [Ca 2+ ]i rise in Beta-TC6 cells.
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