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Placental Growth Hormone (GH), GH-Binding Protein, and Insulin-Like Growth Factor Axis in Normal, Growth-Retarded, and Diabetic Pregnancies: Correlations with Fetal Growth¹

Co-operative Research Center for Diagnostic Technologies and School of Life Sciences, Queensland University of Technology (R.B., T.V.-L.), Brisbane, Queensland 4001; School of Biomolecular and Biomedical Science, Griffith University (R.S., D.C.), Nathan, Queensland 4111; Garvan Institute of Medical Research (K.-C.L., K.H.), Darlinghurst, New South Wales 2010; University of Liège, Laboratory of Endocrinology (A.I., M.B., G.H.) and Mater Mothers’ Hospital (H.D.M., F.-Y.C., D.C., A.C., A.P., S.J.), South Brisbane, Queensland 4101, Australia

Address all correspondence and requests for reprints to: Dr. Ross Barnard, Co-operative Research Center for Diagnostic Technologies and School of Life Sciences, Queensland University of Technology, Gardens Point, Brisbane, Queensland 4001, Australia; or Dr. David McIntyre, Mater Mothers’ Hospital, South Brisbane, Queensland 4101, Australia.

We previously described significant changes in GH-binding protein (GHBP) in pathological human pregnancy. There was a substantial elevation of GHBP in cases of noninsulin-dependent diabetes mellitus and a reduction in insulin-dependent diabetes mellitus. GHBP has the potential to modulate the proportion of free placental GH (PGH) and hence the impact on the maternal GH/insulin-like growth factor I (IGF-I) axis, fetal growth, and maternal glycemic status. The present study was undertaken to investigate the relationship among glycemia, GHBP, and PGH during pregnancy and to assess the impact of GHBP on the concentration of free PGH. We have extended the analysis of specimens to include measurements of GHBP, PGH, IGF-I, IGF-II, IGF-binding protein-1 (IGFBP-1), IGFBP-2, and IGFBP-3 and have related these to maternal characteristics, fetal growth, and glycemia. The simultaneous measurement of GHBP and PGH has for the first time allowed calculation of the free component of PGH and correlation of the free component to indexes of fetal growth and other endocrine markers. PGH, free PGH, IGF-I, and IGF-II were substantially decreased in IUGR at 28–30 weeks gestation (K28) and 36–38 weeks gestation (K36). The mean concentration (±SEM) of total PGH increased significantly from K28 to K36 (30.0 ± 2.2 to 50.7 ± 6.2 ng/mL; n = 40), as did the concentration of free PGH (23.4 ± 2.3 to 43.7 ± 6.0 ng/mL; n = 38). The mean percentage of free PGH was significantly less in IUGR than in normal subjects (67% vs. 79%; P < 0.01). Macrosomia was associated with an increase in these parameters that did not reach statistical significance. Multiple regression analysis revealed that PGH/IGF-I and IGFBP-3 account for 40% of the variance in birth weight. IGFBP-3 showed a significant correlation with IGF-I, IGF-II, and free and total PGH at K28 and K36. Noninsulin-dependent diabetes mellitus patients had a lower mean percentage of free PGH (65%; P < 0.01), and insulin-dependent diabetics had a higher mean percentage of free PGH (87%; P < 0.01) than normal subjects. Mean postprandial glucose at K28 correlated positively with PGH and free PGH (consistent with the hyperglycemic action of GH). GHBP correlated negatively with both postprandial and fasting glucose. Although GHBP correlated negatively with PGH (r = -0.52; P < .001), free PGH and total PGH correlated very closely (r = 0.98). The results are consistent with an inhibitory function for GHBP in vivo and support a critical role for placental GH and IGF-I in driving normal fetal growth.

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