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1.
Free Radic Biol Med ; 162: 1-13, 2021 01.
Article de Anglais | MEDLINE | ID: mdl-33249137

RÉSUMÉ

Modern lifestyles, including lack of physical activity and poor nutritional habits, are driving the rapidly increasing prevalence of obesity and type 2 diabetes. Increased levels of free fatty acids (FFAs), particularly saturated FFAs, in obese individuals have been linked to pancreatic ß-cell failure. This process, termed lipotoxicity, involves activation of several stress responses, including ER stress and oxidative stress. However, the molecular underpinnings and causal relationships between the disparate stress responses remain unclear. Here we employed transgenic mice, expressing a genetically-encoded cytosolic H2O2 sensor, roGFP2-Orp1, to monitor dynamic changes in H2O2 levels in pancreatic islets in response to chronic palmitate exposure. We identified a transient increase in H2O2 levels from 4 to 8 h after palmitate addition, which was mirrored by a concomitant decrease in cellular NAD(P)H levels. Intriguingly, islets isolated from NOX2 knock-out mice displayed no H2O2 transient upon chronic palmitate treatment. Furthermore, NOX2 knockout rescued palmitate-dependent impairment of insulin secretion, calcium homeostasis and viability. Chemical inhibition of NOX activity protected islets from palmitate-induced impairment in insulin secretion, however had no detectable impact upon the induction of ER stress. In summary, our results reveal that transient NOX2-dependent H2O2 production is a likely cause of early palmitate-dependent lipotoxic effects.


Sujet(s)
Diabète de type 2 , Cellules à insuline , Ilots pancréatiques , Animaux , Peroxyde d'hydrogène , Insuline , Souris , NADPH Oxidase 2/génétique , Palmitates/toxicité
2.
Pharmacol Rep ; 72(6): 1725-1737, 2020 Dec.
Article de Anglais | MEDLINE | ID: mdl-32274767

RÉSUMÉ

BACKGROUND: Free fatty acids (FFAs) are known for their dual effects on insulin secretion and pancreatic ß-cell survival. Short-term exposure to FFAs, such as palmitate, increases insulin secretion. On the contrary, long-term exposure to saturated FFAs results in decreased insulin secretion, as well as triggering oxidative stress and endoplasmic reticulum (ER) stress, culminating in cell death. The effects of FFAs can be mediated either via their intracellular oxidation and consequent effects on cellular metabolism or via activation of the membrane receptor GPR40. Both pathways are likely to be activated upon both short- and long-term exposure to FFAs. However, the precise role of GPR40 in ß-cell physiology, especially upon chronic exposure to FFAs, remains unclear. METHODS: We used the GPR40 agonist (GW9508) and antagonist (GW1100) to investigate the impact of chronically modulating GPR40 activity on BRIN-BD11 pancreatic ß-cells physiology and function. RESULTS: We observed that chronic activation of GPR40 did not lead to increased apoptosis, and both proliferation and glucose-induced calcium entry were unchanged compared to control conditions. We also observed no increase in H2O2 or superoxide levels and no increase in the ER stress markers p-eIF2α, CHOP and BIP. As expected, palmitate led to increased H2O2 levels, decreased cell viability and proliferation, as well as decreased metabolism and calcium entry. These changes were not counteracted by the co-treatment of palmitate-exposed cells with the GPR40 antagonist GW1100. CONCLUSIONS: Chronic activation of GPR40 using GW9508 does not negatively impact upon BRIN-BD11 pancreatic ß-cells physiology and function. The GPR40 antagonist GW1100 does not protect against the deleterious effects of chronic palmitate exposure. We conclude that GPR40 is probably not involved in mediating the toxicity associated with chronic palmitate exposure.


Sujet(s)
Benzoates/pharmacologie , Cellules à insuline/métabolisme , Méthylamines/pharmacologie , Propionates/pharmacologie , Pyrimidines/pharmacologie , Récepteurs couplés aux protéines G/métabolisme , Animaux , Apoptose/effets des médicaments et des substances chimiques , Benzoates/administration et posologie , Calcium/métabolisme , Lignée cellulaire , Prolifération cellulaire/effets des médicaments et des substances chimiques , Survie cellulaire/effets des médicaments et des substances chimiques , Stress du réticulum endoplasmique/effets des médicaments et des substances chimiques , Peroxyde d'hydrogène/métabolisme , Méthylamines/administration et posologie , Palmitates/toxicité , Propionates/administration et posologie , Pyrimidines/administration et posologie , Rats , Récepteurs couplés aux protéines G/effets des médicaments et des substances chimiques
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