Steroid Profiling in the Amniotic Fluid: Reference Range for 12 Steroids and Interest in 21-Hydroxylase Deficiency.

CONTEXT: Determination of steroid levels in the amniotic fluid gives some insight on fetal adrenal and gonadal functions. OBJECTIVE: Our objectives were to establish reference ranges of 12 steroid levels throughout pregnancy and to compare them with steroid levels from pregnancies with fetuses presenting with 21-hydroxylase deficiency (21OHD). METHODS: Liquid chromatography coupled with tandem mass spectrometry (LC-MS/MS) was applied to 145 "control" amniotic fluid samples from gynecology activity (12 + 6 to 32 + 4 gestational weeks, GW). The following steroids were analyzed according to gestational age and compared to 23 amniotic fluid samples from fetuses with classic 21OHD confirmed by molecular studies: delta-4-androstenedione (D4), dehydroepiandrosterone (DHEA), 17-hydroxyprogesterone (17OHP), 11-deoxycortisol (11OH), 21-deoxycortisol (21OH), corticosterone, deoxycorticosterone (DOC), testosterone, pregnenolone, 17-hydroxypregnenolone (17Pregn), cortisol, and cortisone. Chromosomal sex was determined by karyotype and gestational age by biometric measurements. RESULTS: Analysis of control samples showed a statistically significant difference for D4 and testosterone levels according to fetal sex. Cortisol, corticosterone, and DOC had lower concentrations before 20 GW than after 20 GW, whereas 17Pregn and pregnenolone had higher concentrations before 20 GW. This allowed us to establish age- and sex-dependent reference values. We observed higher 21OH, 17Pregn, D4, and testosterone levels in females with 21OHD than female controls. The ratios 17OHP/17Pregn, D4/DHEA, and 11OH/17OHP appeared discriminant for the diagnosis of 21OHD. CONCLUSION: Our study provides information on fetal steroidogenesis and suggests reference values for 12 steroids during pregnancy. This allows a prenatal diagnosis of 21OHD within 24 hours and might be useful in the diagnosis of other variations of sex development.

Evolution of steroids during pregnancy: Maternal, placental and fetal synthesis.

Progesterone, estrogens, androgens and glucocorticoids are involved in pregnancy from implantation to parturition. Their biosynthesis and their metabolism result from complex pathways involving the fetus, the placenta and the mother. The absence of expression of some steroïdogenic enzymes as CYP17 in placenta and in adrenal fetal zone and the better determination of the onset and variation of others especially HSD3B2 during the pregnancy explain the production of the steroid hormones. Moreover the consequences of some disorders of steroidogenesis (especially aromatase, POR, CYP11A1 and 21-hydroxylase deficiencies) in fetus and mother during the pregnancy have permit to elucidate these complex pathways. This better knowledge of steroid hormones production associated with their dosages in maternal plasma/urine or amniotic fluid using new specific assays as LC-MS MS could facilitate the follow-up of normal and pathological pregnancies. Moreover, these advances should be a basis to evaluate the impact of multiple pathologies of the pregnancy and pharmacologic and xenobiotic consequences on their metabolism.

Macroprolactinaemia: a biological diagnostic strategy from the study of 222 patients.

OBJECTIVES: Gel filtration chromatography (GFC), the gold standard for macroprolactinaemia (MPRL) diagnosis, is a slow, costly and labour-intensive method. To limit the number of GFC required, we evaluated two screening tests for MPRL: prolactin (PRL) recovery after polyethylene glycol (PEG) precipitation and PRL concentration ratio, derived from two assays, each having different big-big-PRL cross-reactivities.In some patients, MPRL is characterised by clinical symptoms which can be associated with an excess of monomeric PRL. We compared the monomeric PRL concentration obtained from GFC with the PRL concentration i) on a cobas e 601 analyser and ii) in the supernatant after PEG precipitation. DESIGN AND METHODS: We studied hyperprolactinaemic sera subjected to physician-ordered GFC, between February 2013 and July 2014. We performed PEG precipitation (to evaluate the PRL concentration and rate of recovery in the supernatant) and two PRL assays: RIA and electrochemiluminescent assay (ECLIA), on a Roche cobas e 601 analyser, and calculated the RIA/ECLIA ratio. RESULTS: Among the 222 sera, we were able to diagnose or exclude MPRL in 72.1% of cases, based solely on the ratio and/or recovery. In the remaining cases, GFC was necessary for making a diagnosis. Elevated monomeric PRL was present in 10.9% of macroprolactinaemic sera. In the case of MPRL, both PRL measurements on the cobas analyser and in the supernatant weakly correlated with monomeric PRL values obtained from GFC. CONCLUSIONS: The combination of PEG and RIA/ECLIA ratio analysis reduced the number of necessary GFC. However, GFC is essential in MPRL cases to evaluate the monomeric PRL concentration.

Genetic of gonadal determination.

Fetal sexual differentiation results from complex subsequent intracellular signaling and hormonal events that interact together in a definite timing. This process contributes to the setting of gonad determination, internal and external genitalia resulting in a female or male phenotype. Here, we review our current knowledge of gonadal determination drawing on insights from knock-out and transgenic mouse models and analysis of patients with disorders of sex development (DSD).