Corticotropin releasing factor mRNA and peptide levels are differentially regulated in the developing ovine brain

Autor: Timothy J. Zehnder, Gary Brewre, C. Jane Keiger, Mary G. Sorci-Thomas, W. Keith O'Steen, James C. Rose
Rok vydání: 1994
Předmět:
Zdroj: Brain research. Molecular brain research. 27(1)
ISSN: 0169-328X
Popis: The regulation of CRF mRNA and protein in the developing ovine brain has been studied to assess the hypothesis that CRF is differentially regulated in the hypothalamus (Hypo), hippocampal-amygdala complex (H & A), frontal cerebral cortex (FCC) and brainstem (BS). We used a quantitative RNase protection assay and radioimmunoassay to determine mRNA and peptide concentrations, respectively, from the last third of gestation until term (i.e., from 95 to 142 days gestation (dg); term ≈ 145 days). The major findings from this study are: (1) Hypothalamic CRF mRNA was increased by 2-fold in 140–142 dg fetuses compared to 128–138 and 95–123 dg fetuses; P = 0.016. (2) In the hypothalamus of 140–142 dg fetuses, there was a 2.5-fold increase in CRF mRNA derived from polyadenylation at poly(A) sites 2, 3 or 4; P = 0.005. (3) In 128–138 dg fetuses, CRF mRNA in the frontal cortex was 2-fold higher than in the other brain regions during this time period; P = 0.008. (4) CRF peptide concentrations in the Hypo were 2.5-fold higher in 140–142 dg fetuses compared to 95–106 and 128–138 dg fetuses; P = 0.007. (5) CRF peptide concentrations in the frontal cortex were 5.5-fold higher in 140–142 dg fetuses compared to fetuses at 95–106 dg; P = 0.004. (6) CRF peptide concentrations in the H & A were 5-fold higher in 140–142 dg fetuses compared to 95–106 dg fetuses; P = 0.029. The results from the present study demonstrate for the first time that CRF mRNA and peptide are differentially regulated in a region-specific manner during development.
Databáze: OpenAIRE
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