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Abstract
The aim of the present study was to determine the variations in the balance between total (free plus combined) circulating α and β subunits of human chorionic gonadotrophin (hCG) throughout human pregnancy.
The equivalence between the International Units (IU) of hCG (IRP 75/537) and those assigned to the α (IRP 75/569) and β (IRP 75/551) free subunits was experimentally determined by using intact and thermally dissociated hCG. Heat exposure (2 min at 100 °C) of hCG preparations resulted in a complete dissociation of hCG into free, soluble and intact α and β subunits. The hCG and α and β subunit contents of unaltered and heated hCG preparations were assessed by specific immunoradiometric assays. The amount of immunoreactive subunits dissociated by heat from hCG could then be evaluated on a molar basis.
Circulating hCG and its free α and β subunits were immunoassayed in 836 blood samples collected from healthy pregnant women at different gestational ages. After conversion of hCG and its subunits into a common IU system, the gestational profiles of the total amounts (free plus combined) of α- and βhCG subunits increased together and peaked at 9–10 weeks of gestation. Thereafter, total α and β subunits decreased and subsequently remained stable until term. The decline in total αhCG subunit was less marked than that of total βhCG subunit. The α- to βhCG ratio was equimolar until 10 weeks of gestation when it increased almost fourfold until term (P<0·0001). Finally, the free fraction of the total circulating αhCG subunit represented 5–7% in early pregnancy but reached 60–70% in the last trimester (P<0·0001). In contrast, the free fraction of the total βhCG subunit decreased slightly from 4–5% of total β subunit in early pregnancy to 2–3% at term (P<0·0001).
The present study suggests that thermal dissociation of hCG is a useful method with which to calibrate immunoassays on a molar basis in order to assess circulating levels of the heterodimer and its subunits.
Journal of Endocrinology (1994) 140, 513–520
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Pancreatic β cells adapt to pregnancy-induced insulin resistance by unclear mechanisms. This study sought to identify genes involved in β cell adaptation during pregnancy. To examine changes in global RNA expression during pregnancy, murine islets were isolated at a time point of increased β cell proliferation (E13.5), and RNA levels were determined by two different assays (global gene expression array and G-protein-coupled receptor (GPCR) array). Follow-up studies confirmed the findings for select genes. Differential expression of 110 genes was identified and follow-up studies confirmed the changes in select genes at both the RNA and protein level. Surfactant protein D (SP-D) mRNA and protein levels exhibited large increases, which were confirmed in murine islets. Cytokine-induced expression of SP-D in islets was also demonstrated, suggesting a possible role as an anti-inflammatory molecule. Complementing these studies, an expression array was performed to define pregnancy-induced changes in expression of GPCRs that are known to impact islet cell function and proliferation. This assay, the results of which were confirmed using real-time reverse transcription-PCR assays, demonstrated that free fatty acid receptor 2 and cholecystokinin receptor A mRNA levels were increased at E13.5. This study has identified multiple novel targets that may be important for the adaptation of islets to pregnancy.