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Oestrogen receptor β mediates the actions of bisphenol-A on ion channel expression in mouse pancreatic beta cells

AuthorsMartinez-Pinna, Juan; Marroqui, Laura; Hmadcha, Abdelkrim ; López-Beas, Javier; Soriano, Sergi ; Villar-Pazos, Sabrina; Alonso-Magdalena, Paloma; Dos Santos, Reinaldo S.; Quesada, Iván; Martín, Franz ; Soria Escoms, Bernat ; Gustafsson, Jan-Åke; Nadal, Ángel
KeywordsBeta cell, Bisphenol-A
Endocrine-disrupting chemicals
K+ channels
Na+ channels
Oestrogen receptor β
Issue Date27-Jun-2019
PublisherSpringer Nature
CitationDiabetologia 62: 1667-1680 (2019)
AbstractAims/hypothesis: Bisphenol-A (BPA) is a widespread endocrine-disrupting chemical that has been associated with type 2 diabetes development. Low doses of BPA modify pancreatic beta cell function and induce insulin resistance; some of these effects are mediated via activation of oestrogen receptors α (ERα) and β (ERβ). Here we investigated whether low doses of BPA regulate the expression and function of ion channel subunits involved in beta cell function. Methods: Microarray gene profiling of isolated islets from vehicle- and BPA-treated (100 μg/kg per day for 4 days) mice was performed using Affymetrix GeneChip Mouse Genome 430.2 Array. Expression level analysis was performed using the normalisation method based on the processing algorithm ‘robust multi-array average’. Whole islets or dispersed islets from C57BL/6J or oestrogen receptor β (ERβ) knockout (Erβ) mice were treated with vehicle or BPA (1 nmol/l) for 48 h. Whole-cell patch-clamp recordings were used to measure Na and K currents. mRNA expression was evaluated by quantitative real-time PCR. Results: Microarray analysis showed that BPA modulated the expression of 1440 probe sets (1192 upregulated and 248 downregulated genes). Of these, more than 50 genes, including Scn9a, Kcnb2, Kcnma1 and Kcnip1, encoded important Na and K channel subunits. These findings were confirmed by quantitative RT-PCR in islets from C57BL/6J BPA-treated mice or whole islets treated ex vivo. Electrophysiological measurements showed a decrease in both Na and K currents in BPA-treated islets. The pharmacological profile indicated that BPA reduced currents mediated by voltage-activated K channels (K2.1/2.2 channels) and large-conductance Ca-activated K channels (K1.1 channels), which agrees with BPA’s effects on gene expression. Beta cells from ERβ mice did not present BPA-induced changes, suggesting that ERβ mediates BPA’s effects in pancreatic islets. Finally, BPA increased burst duration, reduced the amplitude of the action potential and enlarged the action potential half-width, leading to alteration in beta cell electrical activity. Conclusions/interpretation: Our data suggest that BPA modulates the expression and function of Na and K channels via ERβ in mouse pancreatic islets. Furthermore, BPA alters beta cell electrical activity. Altogether, these BPA-induced changes in beta cells might play a role in the diabetogenic action of BPA described in animal models.
Publisher version (URL)http://dx.doi.org/10.1007/s00125-019-4925-y
Identifiersdoi: 10.1007/s00125-019-4925-y
e-issn: 1432-0428
issn: 0012-186X
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