Frontiers in Physiology (Nov 2016)

Expression of steroid receptors in ameloblasts during amelogenesis in rat incisors

  • Sophia Houari,
  • Sophia Houari,
  • Sophia Loiodice,
  • Sophia Loiodice,
  • Katia Jedeon,
  • Katia Jedeon,
  • Ariane Berdal,
  • Ariane Berdal,
  • Ariane Berdal,
  • Sylvie Babajko,
  • Sylvie Babajko

DOI
https://doi.org/10.3389/fphys.2016.00503
Journal volume & issue
Vol. 7

Abstract

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Endocrine disrupting chemicals (EDCs) play a part in the modern burst of diseases and interfere with the steroid hormone axis. Bisphenol A (BPA), one of the most active and widely used EDCs, affects ameloblast functions, leading to an enamel hypomineralization pattern similar to that of Molar Incisor Hypomineralization (MIH). In order to explore the molecular pathways stimulated by BPA during amelogenesis, we thoroughly investigated the receptors known to directly or indirectly mediate the effects of BPA. The expression patterns of high affinity BPA receptors (ERRγ, GPR30), of ketosteroid receptors (ERs, AR, PGR, GR, MR), of the retinoid receptor RXRα and PPARγ were established using RT-qPCR analysis of RNAs extracted from microdissected enamel organ of adult rats. Their expression was dependent on the stage of ameloblast differentiation, except that of ERβ and PPARγ which remained undetectable. An additional large scale microarray analysis revealed three main groups of receptors according to their level of expression in maturation stage ameloblasts. The expression level of RXRα was the highest, similar to the vitamin D receptor (VDR), whereas the others were 13 to 612 fold lower, with AR and GR being intermediate. Immunofluorescent analysis of VDR, ERα and AR confirmed their presence mainly in maturation- stage ameloblasts. These data provide further evidence that ameloblasts express a specific combination of hormonal receptors depending on their developmental stage. This study represents the first step towards understanding dental endocrinology as well as some of the effects of EDCs on the pathophysiology of amelogenesis.

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