CONTEXT: Differential promoter use and alternative splicing generate a variety of glucocorticoid receptor (GR) mRNA transcripts, potentially altering the cortisol responsiveness of gestational tissues during pregnancy and labor. OBJECTIVE: We examined GR mRNA transcript expression in term placentae before and after labor, in association with fetal sex and after glucocorticoid treatment. DESIGN: RNA from 34 placentae and from eight placental explants incubated with glucocorticoids were analyzed for the GR mRNA variants GR-alpha, GR-beta, GR-P, and GR-gamma and the untranslated exon one variants 1A1, 1A2, 1A3, 1B, and 1C by quantitative RT-PCR. MAIN OUTCOME MEASURE: mRNA expression was assessed. RESULTS: All GR mRNA variants examined were detected in the human placenta, with GR-alpha and GR-1C mRNA having the highest expression of GR splice variants and exon 1 variants, respectively. GR-P mRNA abundance decreased with spontaneous labor (P < 0.01). GR-1A3 mRNA abundance changed with fetal sex, with a higher level in placentae of male fetuses (P < 0.05). GR-1C was the preferential promoter for GR-alpha, GR-gamma, and GR-P mRNA. GR-beta mRNA was preferentially associated with GR-1A1. GR-P mRNA transcription switched to the GR-1A1 promoter after labor and to the GR-1A3 promoter in placentae from male fetuses. Glucocorticoid treatment significantly reduced transcription from promoters GR-1B and -1C and decreased GR-alpha and GR-P mRNA abundance. CONCLUSIONS: The human placenta expresses a variety of GR mRNA transcripts. GR-alpha mRNA transcribed from the 1C promoter generates the majority of placental GR. However, alterations in promoter use and alternative splicing may modulate responses to cortisol during stressful events.
CONTEXT: Differential promoter use and alternative splicing generate a variety of glucocorticoid receptor (GR) mRNA transcripts, potentially altering the cortisol responsiveness of gestational tissues during pregnancy and labor. OBJECTIVE: We examined GR mRNA transcript expression in term placentae before and after labor, in association with fetal sex and after glucocorticoid treatment. DESIGN: RNA from 34 placentae and from eight placental explants incubated with glucocorticoids were analyzed for the GR mRNA variants GR-alpha, GR-beta, GR-P, and GR-gamma and the untranslated exon one variants 1A1, 1A2, 1A3, 1B, and 1C by quantitative RT-PCR. MAIN OUTCOME MEASURE: mRNA expression was assessed. RESULTS: All GR mRNA variants examined were detected in the human placenta, with GR-alpha and GR-1C mRNA having the highest expression of GR splice variants and exon 1 variants, respectively. GR-P mRNA abundance decreased with spontaneous labor (P < 0.01). GR-1A3 mRNA abundance changed with fetal sex, with a higher level in placentae of male fetuses (P < 0.05). GR-1C was the preferential promoter for GR-alpha, GR-gamma, and GR-P mRNA. GR-beta mRNA was preferentially associated with GR-1A1. GR-P mRNA transcription switched to the GR-1A1 promoter after labor and to the GR-1A3 promoter in placentae from male fetuses. Glucocorticoid treatment significantly reduced transcription from promoters GR-1B and -1C and decreased GR-alpha and GR-P mRNA abundance. CONCLUSIONS: The human placenta expresses a variety of GR mRNA transcripts. GR-alpha mRNA transcribed from the 1C promoter generates the majority of placental GR. However, alterations in promoter use and alternative splicing may modulate responses to cortisol during stressful events.
Authors: Amanda C Filiberto; Matthew A Maccani; Devin Koestler; Charlotte Wilhelm-Benartzi; Michele Avissar-Whiting; Carolyn E Banister; Luc A Gagne; Carmen J Marsit Journal: Epigenetics Date: 2011-05-01 Impact factor: 4.528