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A-M Nagy
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D Glinoer
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G Picelli
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J Delogne-Desnoeck
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B Fleury
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C Courte
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J-M Kaufman
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C Robyn
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S Meuris
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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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B T Layden
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V Durai
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M V Newman
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A M Marinelarena
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C W Ahn
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G Feng Division of Endocrinology, Northwestern University Biomedical Informatics Center, Division of Transplantation Surgery, Genomics Core, Medical Biotechnology Center, Metabolism and Molecular Medicine, Department of Medicine, Northwestern University Feinberg School of Medicine, 303 East Chicago Avenue, Tarry 15, Chicago, Illinois 60611, USA

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S Lin Division of Endocrinology, Northwestern University Biomedical Informatics Center, Division of Transplantation Surgery, Genomics Core, Medical Biotechnology Center, Metabolism and Molecular Medicine, Department of Medicine, Northwestern University Feinberg School of Medicine, 303 East Chicago Avenue, Tarry 15, Chicago, Illinois 60611, USA

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X Zhang Division of Endocrinology, Northwestern University Biomedical Informatics Center, Division of Transplantation Surgery, Genomics Core, Medical Biotechnology Center, Metabolism and Molecular Medicine, Department of Medicine, Northwestern University Feinberg School of Medicine, 303 East Chicago Avenue, Tarry 15, Chicago, Illinois 60611, USA

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D B Kaufman Division of Endocrinology, Northwestern University Biomedical Informatics Center, Division of Transplantation Surgery, Genomics Core, Medical Biotechnology Center, Metabolism and Molecular Medicine, Department of Medicine, Northwestern University Feinberg School of Medicine, 303 East Chicago Avenue, Tarry 15, Chicago, Illinois 60611, USA

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N Jafari Division of Endocrinology, Northwestern University Biomedical Informatics Center, Division of Transplantation Surgery, Genomics Core, Medical Biotechnology Center, Metabolism and Molecular Medicine, Department of Medicine, Northwestern University Feinberg School of Medicine, 303 East Chicago Avenue, Tarry 15, Chicago, Illinois 60611, USA

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G L Sørensen Division of Endocrinology, Northwestern University Biomedical Informatics Center, Division of Transplantation Surgery, Genomics Core, Medical Biotechnology Center, Metabolism and Molecular Medicine, Department of Medicine, Northwestern University Feinberg School of Medicine, 303 East Chicago Avenue, Tarry 15, Chicago, Illinois 60611, USA

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W L Lowe Jr
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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.

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