S Dhayal1, H J Welters, N G Morgan. 1. Institute of Biomedical and Clinical Science, Peninsula Medical School, Plymouth, UK.
Abstract
BACKGROUND AND PURPOSE: Exposure of pancreatic beta-cells to long-chain free fatty acids leads to differential responses according to the chain length and degree of unsaturation. In particular, long-chain saturated molecules such as palmitate (C16:0) cause apoptosis, whereas equivalent mono-unsaturated species (for example, palmitoleate (C16:1)) are not overtly toxic. Moreover, mono-unsaturates exert a powerful cytoprotective response against a range of proapoptotic stimuli. However, the structural requirements that determine cytoprotection have not been determined and form the basis of the present study. EXPERIMENTAL APPROACH: BRIN-BD11 and INS-1 beta-cells were exposed either to the saturated fatty acid palmitate, or to serum withdrawal, to mediate cytotoxicity. The protective effects of a wide range of mono-unsaturated fatty acid derivatives were tested in cytotoxicity assays. Effector caspase activity was also measured and correlated with viability. KEY RESULTS: The cytotoxic actions of palmitate were inhibited dose-dependently by long-chain mono-unsaturated fatty acids with a defined potency order C18:1>C16:1>>C14:1. The configuration of the double bond was also important with cis forms being more potent than trans forms. Alkylated mono-unsaturated fatty-acid derivates were also cytoprotective, although their efficacy declined as the alkyl chain length increased. Cytoprotection was achieved rapidly on addition of mono-unsaturates and correlated with a rapid and dramatic inhibition of caspase-3/7 activity in palmitate-treated cells. CONCLUSIONS AND IMPLICATIONS: The data reveal the structural requirements that dictate the cytoprotective actions of mono-unsaturated fatty acids in pancreatic beta-cells. Metabolic activation is not required and the data point at the potential involvement of a fatty acid receptor in mediating cytoprotection.
BACKGROUND AND PURPOSE: Exposure of pancreatic beta-cells to long-chain free fatty acids leads to differential responses according to the chain length and degree of unsaturation. In particular, long-chain saturated molecules such as palmitate (C16:0) cause apoptosis, whereas equivalent mono-unsaturated species (for example, palmitoleate (C16:1)) are not overtly toxic. Moreover, mono-unsaturates exert a powerful cytoprotective response against a range of proapoptotic stimuli. However, the structural requirements that determine cytoprotection have not been determined and form the basis of the present study. EXPERIMENTAL APPROACH: BRIN-BD11 and INS-1 beta-cells were exposed either to the saturated fatty acid palmitate, or to serum withdrawal, to mediate cytotoxicity. The protective effects of a wide range of mono-unsaturated fatty acid derivatives were tested in cytotoxicity assays. Effector caspase activity was also measured and correlated with viability. KEY RESULTS: The cytotoxic actions of palmitate were inhibited dose-dependently by long-chain mono-unsaturated fatty acids with a defined potency order C18:1>C16:1>>C14:1. The configuration of the double bond was also important with cis forms being more potent than trans forms. Alkylated mono-unsaturated fatty-acid derivates were also cytoprotective, although their efficacy declined as the alkyl chain length increased. Cytoprotection was achieved rapidly on addition of mono-unsaturates and correlated with a rapid and dramatic inhibition of caspase-3/7 activity in palmitate-treated cells. CONCLUSIONS AND IMPLICATIONS: The data reveal the structural requirements that dictate the cytoprotective actions of mono-unsaturated fatty acids in pancreatic beta-cells. Metabolic activation is not required and the data point at the potential involvement of a fatty acid receptor in mediating cytoprotection.
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Authors: Virginia M Stone; Shalinee Dhayal; David M Smith; Carol Lenaghan; Katy J Brocklehurst; Noel G Morgan Journal: Br J Pharmacol Date: 2012-04 Impact factor: 8.739