Pasquale Florio

Corticotropin-releasing factor and its binding protein: maternal serum levels in term and preterm deliveries.

OBJECTIVE The primary objective of this investigation was to evaluate whether maternal serum corticotropin-releasing factor levels during pregnancy were predictive of spontaneous preterm delivery. STUDY DESIGN Maternal serum levels of corticotropin-releasing factor and its binding protein were measured from 20 weeks of gestation in a cross-sectional study of 396 asymptomatic women at high risk for preterm delivery. RESULTS Gestational age-specific corticotropin-releasing factor levels were not consistently or substantially increased for preterm compared with term deliveries, whether preterm delivery was due to preterm labor or preterm premature rupture of membranes. The binding protein for corticotropin-releasing factor did not vary according to gestational age until term, when it dropped substantially. CONCLUSION Serum corticotropin-releasing factor levels do not appear to be an important predictor of preterm birth in asymptomatic patients who subsequently have either preterm labor or preterm premature rupture of membranes. Nevertheless, the drop in the corticotropin-releasing factor binding protein level at term suggests that the bioavailability of corticotropin-releasing factor increases as parturition approaches.

Corticotropin-releasing hormone increases prostaglandin F2α activity on human myometrium in vitro

OBJECTIVE Our purpose was to study the capability of synthetic corticotropin-releasing hormone to directly stimulate human myometrium and to modulate the activity of prostaglandins F2 alpha and E2. STUDY DESIGN Strips from human myometrium were obtained from 127 elective cesarean sections at term. The in vitro effect of human rat corticotropin-releasing hormone on myometrial contractility has been studied in resting myometrial strips mounted in a two-chamber bath for isolated organs. Stimuli (corticotropin-releasing hormone, prostaglandins F2 alpha and E2, and oxytocin) were administered as one single dose in the perfusion chamber. In each experiment one myometrial strip was used as a control. RESULTS Corticotropin-releasing hormone significantly increases (p < 0.01) the myometrial response to prostaglandin F2 alpha. The hormone neither has a direct inotropic effect nor is it able to enhance the effect of prostaglandin E2 and oxytocin on myometrial strips. CONCLUSION The positive effect of corticotropin-releasing hormone on the myometrial response to prostaglandin F2 alpha adds new support to the theory that placental corticotropins may modulate the onset of labor.

Urocortins in human reproduction

Data on biological effects and localization of corticotropin-releasing factor (CRF), a neuropeptide structurally and biologically related to urocortins, have triggered the study on expression of urocortins and their function in human reproductive tissues. Ovary, endometrium, placenta and fetal membranes (amnion and chorion), myometrium, and prostate are sources of urocortin 1 and, they also express urocortin binding sites (receptors and CRF-binding protein), thus suggesting that these tissues are also targets of urocortin 1. The current concept thus is that urocortin 1 may affect the physiology of human reproduction through paracrine/autocrine actions. In particular, in vitro data have shown that urocortin 1 plays a major role in human placenta: it stimulates the secretion of ACTH, prostaglandins and activin A from cultured human placental cells, and regulates placental vessel resistance to blood flow. Furthermore, when incubated in myometrial strips, urocortins stimulate uterine contractility, by activating specific intracellular pathways. Taken together, these findings do suggest an important role of urocortins in the physiology of pregnancy and parturition.

Changes in inhibins and activin secretion in healthy and pathological pregnancies

Inhibin-related proteins are involved in the control of the feto-maternal communication required to maintain pregnancy. Human placenta, decidua, and fetal membranes are the major sites of production and secretion of activin A, inhibin A and inhibin B in maternal serum, amniotic fluid, and cord blood. The availability of suitable assays developed in the last years has enabled the measurement of inhibins and activin A in their dimeric forms, in order to investigate their role in physiological conditions of pregnancy. The studies conducted on inhibin-related proteins and human pregnancy suggested the possibility of an involvement of inhibin A and activin A in the pathogenesis of gestational diseases. In fact, several lines of evidence underline the potential role and the clinical usefulness of inhibin-related proteins measurement in the diagnosis, prevention, prognosis and follow-up of different gestational pathologies such as early pregnancy viability, Downs syndrome, fetal demise, pre-eclampsia, pregnancy-induced hypertension, preterm delivery and intrauterine growth restriction. The measurement of inhibin A and activin A into the biological fluids of pregnancy will offer in the future, further possibilities in the early diagnosis, prediction, and monitoring diseases of pregnancy.

Putative role of placental corticotropin-releasing factor in the mechanisms of human parturition.

Corticotropin-releasing factor is a 41-amino-aic neuropeptide synthesized in the paraventicular nucleus of the hypothalamus and released in response to stress. Its major role is the regulation of the hypothalamus-pituitary-adrenal axis by stimulation of ACTh release from the anterior pituitary gland. In addition, corticotropin-releasing factor modulates behavioral, vascular, and immune responses to stress. Corticotropin-releasing factor was first detected in the extracts of human placentas obtained at full term from spontaneous deliveries. Placental corticotropin-releasing factor content and messenger RNA expression progressively increase during normal pregnancy, and corticotropin-releasing factor levels in maternal plasma have a similar time course. The addition of corticotropin-releasing factor to primary trophoblast cell cultures stimulates ACTH secretion in a dose-dependent manner, and its action is mediated by cyclic adenosine monophosphate as second messenger. In addition, corticotropin-releasing factor is a potent local regulator of myometrial contractility and of membrane prostaglandin release. The effects of corticotropin-releasing factor in these various tissues are mediated by specific receptors. Placental corticotropin-releasing factor is also secreted into the fetal circulation and the stimulation of fetal pituitary ACTH and fetal adrend gland dehydroepiandrosterone sulfate release in vitro has been shown. Recently, urocortin, a new peptide related to corticotropin-releasing factor, has been found in human placenta. Corticotropin-releasing factor and urocortin share some of their biologic effects, acting on the same receptors. A large-molecular-weight corticotropin-releasing factor-binding protein modulates the activity of both these peptides. Plasma corticotropin-releasing factor levels are low in nonpregnant women and become higher during the second trimester of pregnancy, rising steadily until about 35 weeks, and then increasing more rapidly until term. Vaginal delivery is a condition associated with the highest values of maternal corticotropin-releasing factor levels. Corticotropin-releasing factor is also measurable in fetal plasma (20-fold lower than in maternal circulation) and in amniotic fluid. Increased maternal plasma corticotropin-releasing factor levels characterize some gestational diseases. Women with chronic hypertension and preeclampsia have high corticotropin-releasing factor levels, and intrauterine growth retardation is associated with an activation of the hypothalamus-pituitary-adrenal axis, reflected by increased fetal plasma concentrations of ACTH, cortisol, and corticotropin-releasing factor. The role of corticotropin-releasing factor in preterm labor is uncertain, but midgestational plasma corticotropin-releasing factor levels may be higher in women delivering preterm. In these various pathologic states, maternal plasma corticotropin-releasing factor-binding proten levels undergo opposite changes, decreasing to very low levels. The endocrine-paracrine corticotropin-releasing factor/corticotropin-releasing factor-binding protein pathways may play a major role in the mechanism of human parturition.

Frequency of Factor V, Prothrombin and Methylenetetrahydrofolate Reductase Gene Variants in Preeclampsia

Background: The association between thrombophilic variants (Leiden mutation of the factor V gene, G20210A mutation of the prothrombin gene and C677T polymorphism of the methylenetetrahydrofolate reductase (MTHFR) gene) with preeclampsia was investigated in a north-eastern Italian population. Methods: Fifty-eight preeclamptic (PE) women and 74 normal pregnancies were evaluated. Genotypes were determined by polymerase chain reaction. Results: The frequency of heterozygous carriers of the factor V Leiden was similar between PE women (5.2%) compared to the control subjects (4.1%; p 0.76). Also the frequencies of G20210A and C677T mutations were similar between PE and control subjects. Conclusions: In this population, we found no difference in the prevalence of genetic risk factors for thrombosis in women with preeclampsia compared with control subjects.

New markers of neonatal neurology

Hypoxia–ischemia (H–I) constitutes the main phenomenon responsible for brain–blood barrier permeability modifications leading to cerebral vascular auto-regulation loss in newborns. Hypotension, cerebral ischemia, and reperfusion are the main events involved in vascular auto-regulation loss leading to cell death and tissue damage. Reperfusion could be critical since organ damage, particularly of the brain, may be amplified during this period. An exaggerated activation of vasoactive agents, of calcium mediated effects could be responsible for reperfusion injury (R-I), which, in turns, leads to cerebral hemorrhage and damage. These phenomena represent a common repertoire in newborns complicated by perinatal acute or chronic hypoxia treated by risky procedures such as mechanical ventilation, nitric oxide supplementation, brain cooling, and extracorporeal membrane oxygenation (ECMO). Despite accurate monitoring, the post-insult period is crucial, as clinical symptoms and standard monitoring parameters may be silent at a time when brain damage is already occurring and the therapeutic window for pharmacological intervention is limited. Therefore, the measurement of circulating biochemical markers of brain damage, such as vasoactive agents and nervous tissue peptides is eagerly awaited in clinical practice to detect high risk newborns. The present review is aimed at investigating the role of biochemical markers such as adrenomedullin, a vasoactive peptide; S100B, a calcium binding protein, activin A, a glycoprotein, in the cascade of events leading to I-R injury in newborns complicated by perinatal asphyxia.

Low levels of serum inhibin A and inhibin B in women with hypergonadotropic amenorrhea and evidence of high levels of activin A in women with hypothalamic amenorrhea

OBJECTIVE To examine serum levels of inhibin A, inhibin B, and activin A in women with secondary hypergonadotropic or hypothalamic amenorrhea. DESIGN Retrospective study. SETTING Universities of Udine, Pisa, and Modena in Italy, and of Wien in Austria. PATIENT(S) Forty women with idiopathic premature ovarian failure (POF), 23 women with hypogonadotropic hypothalamic amenorrhea, 40 healthy postmenopausal women, and 40 age-matched women with normal ovarian function (controls). INTERVENTION(S) Blood samples were collected between 8 and 9 AM. MAIN OUTCOME MEASURE(S) Serum levels of inhibin A, inhibin B, and activin A. RESULT(S) Women with POF had lower concentrations of serum inhibin A and inhibin B than women with hypothalamic amenorrhea and fertile controls, and the difference between these concentrations was statistically significant. Levels of inhibin A and inhibin B were low in postmenopausal women and were no different than in women with POF. Serum levels of activin A were not significantly different among women with POF, fertile controls, and postmenopausal women. Women with hypogonadotropic hypothalamic amenorrhea had higher activin A values than did controls. No significant correlation was found between the level of inhibin A or inhibin B and the length of amenorrhea or the level of FSH. CONCLUSION(S) Low levels of circulating inhibins A and B, but not activin A, reflect ovarian failure in women with POF, whereas women with hypogonadotropic hypothalamic amenorrhea have normal levels of inhibins A and B and high levels of activin A.

Maternal plasma and placental immunoreactive corticotrophin-releasing factor concentrations in infection-associated term and pre-term delivery

The present study aimed to investigate whether microbial invasion of the amniotic cavity affects maternal plasma or placental immunoreactive corticotrophin releasing factor (ir-CRF) concentrations in pregnant women with pre-term or term labour. A cross-sectional study was conducted collecting blood samples in: (1) women with pre-term labour and intact membranes (25-36 weeks), with or without microbial invasion of the amniotic cavity (subdivided into three groups: 1A, no microbial invasion of the amniotic cavity, delivery at term, n = 54; group 1B, delivery < 48 h, no microbial invasion of the amniotic cavity, n = 10; group 1C, delivery < 48 h, microbial invasion of the amniotic cavity, n = 8); (2) women at term, not in labour and without microbial invasion of the amniotic cavity (n = 15); (3) women in spontaneous active labour at term without (A) (n = 55) or with (B) (n = 16) microbial invasion of the amniotic cavity; and (4) healthy women not in labour at 25-36 weeks of gestation (n = 25). Specimens of trophoblast tissue were collected from pregnant women with pre-term labour (no microbial invasion of the amniotic cavity, n = 6; microbial invasion of the amniotic cavity, n = 4) or delivering at term (no microbial invasion of the amniotic cavity, n = 8; microbial invasion of the amniotic cavity, n = 4). A specific radioimmunoassay on acidic extracts of plasma or placental specimens was used.(ABSTRACT TRUNCATED AT 250 WORDS)

Inhibins and activins in pregnancy

Human placenta, decidua, and fetal membranes are the major sites of production and secretion of inhibin A and activin A in maternal serum, amniotic fluid, and umbilical cord blood. These tissues also express follistatin-related gene and betaglycan, the binding proteins of activin A and inhibin A, respectively, recently identified. They show a different expression throughout pregnancy, suggesting new functional roles into gestational tissues. The availability of suitable assays for measuring inhibin A and activin A lead us the possibility to investigate their secretion in healthy pregnancy. In addition, several evidences underline the potential role and the clinical usefulness of their measurement in the diagnosis, prevention, prognosis and follow-up of different gestational pathologies such as: threatened abortion, placental tumors, hypertensive disorders of pregnancy, intrauterine growth restriction, fetal hypoxia. The measurement of inhibin A and activin A into the biological fluids of pregnancy will offer in the future further possibilities in early diagnosis, prediction, and monitoring pregnancy diseases.