Osamu Shinkawa scite author profile

We previously reported that immunoreactive corticotropin-releasing hormone (CRH) is present in human placenta and third trimester maternal plasma, and that such material is very similar to rat CRH and the predicted structure of human CRH. We suggested that maternal plasma immunoreactive CRH may be of placental origin. To further investigate this possibility, we measured plasma immunoreactive CRH in women during pregnancy, labor, and delivery and 1 and 2 h postpartum, and in nonpregnant women. Umbilical cord plasma and placental CRH concentrations were also measured. In the first trimester of pregnancy, the mean maternal plasma level was 5.9 +/- 1.0 pg (+/- SEM)/ml (n = 24), not significantly different from that in 10 nonpregnant women (5.8 +/- 0.8 pg/ml). Plasma CRH concentrations progressively increased during pregnancy (second trimester, 35.4 +/- 5.9 pg/ml (n = 39); early third trimester (28-34 weeks), 263 +/- 41 pg/ml (n = 14); late third trimester (35-40 weeks), 800 +/- 163 pg/ml (n = 20)]. There was a significant correlation between maternal plasma CRH levels and weeks of pregnancy. Plasma CRH concentrations were further elevated (2215 +/- 329 pg/ml; n = 9). During early labor, peaked at delivery (4409 +/- 591 pg/ml; n = 28), and declined rapidly after delivery [1 h postpartum, 1042 +/- (353 pg/ml (n = 13); 2 h postpartum, 346 +/- 91 pg/ml (n = 13)]. There was a significant correlation (r = 0.562; P less than 0.01) between matched maternal plasma and placental CRH concentrations. The mean umbilical cord plasma CRH level (50.6 +/- 6.1 pg/ml; n = 28) was much lower than that in the mother at the time of delivery. Umbilical venous plasma CRH levels were significantly greater than those in simultaneously obtained umbilical arterial plasma (70.8 +/- 11.3 and 41.8 +/- 4.9 pg/ml, respectively; n = 11). There was a significant correlation (r = 0.384; P less than 0.05) between maternal and fetal CRH concentrations. Gel filtration of plasma obtained from women during the third trimester, at delivery, and early postpartum and placental extracts revealed two major peaks of immunoreactive CRH: a high mol wt peak and one at the elution position of rat CRH. In contrast, only rat CRH-sized material was detected in plasma from nonpregnant women and umbilical cord plasma. Maternal plasma immunoreactive CRH-sized material stimulated ACTH release from anterior pituitary tissue in a dose-dependent manner and was equipotent with rat CRH.(ABSTRACT TRUNCATED AT 400 WORDS)

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Isolation and Characterization of a Corticotropin-Releasing Hormone-Like Peptide From Human Placenta

Sasaki¹,

Tempst²,

Liotta³

et al. 1988

The Journal of Clinical Endocrinology & Metabolism

108

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Immunoreactive CRH was detected in extracts of human term placentae [5.2 +/- 0.8 (+/- SE) pmol/g wet wt; n = 9]. Molecular sieve chromatography revealed three size classes of immunoreactive CRH. The major species eluted with the Kav of synthetic rat CRH; the minor species had apparent mol wt (MW) of 18,000 and 8,000. A placental CRH-(1-41)-sized peptide was isolated by fractional acetone precipitation, molecular sieve chromatography, and sequential reverse phase high performance liquid chromatography steps. This peptide had the same chromatographic behavior as did rat CRH in all high performance liquid chromatographic isolation steps as well as the same UV absorbance to immunoreactive CRH ratio after the final purification step. Purified placental CRH stimulated ACTH release from anterior pituitary tissue in a dose-dependent manner and was equipotent with synthetic rat CRH. Partial sequencing indicated that 32 amino acids of this peptide are identical to those of rat and human CRH (sequence deduced from genomic sequence), and comparative peptide mapping with rat CRH provided further evidence that the placental CRH-like peptide is very homologous if not identical to CRH. The high mol wt placental CRH fractions also were partially purified by acetone precipitation, immune affinity chromatography, and gel filtration. Neither of these materials [big form (MW, 18,000) or intermediate form (MWr, 8,000)] stimulated ACTH release from rat pituitary tissue in vitro. Limited trypsin digestion of the highest MW CRH, followed by gel filtration analysis, resulted in conversion to the smaller [8,000 MW-sized and CRH-(1-41)-sized] forms. The detection of a CRH-like peptide in placenta together with our previous demonstration of plasma immunoreactive CRH in pregnant women suggest that the placenta synthesizes and secretes CRH into the maternal circulation.

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Changes of Serum Gonadotropin Levels and Sex Differences in Premature and Mature Infant during Neonatal Life

Shinkawa

Furuhashi

Fukaya

et al. 1983

The Journal of Clinical Endocrinology & Metabolism

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We measured FSH and LH concentrations by RIA in 130 cord sera and 213 peripheral sera obtained as serially as possible from 67 infants who were 5-75 days old and were born between the 28th and 42nd gestational weeks. Cord serum FSH and LH (+hCG) levels were 3.9-13.6 mIU/ml and 43.3-88.6 mIU/ml, respectively; they decreased with advancing gestational age. Postnatal FSH levels in male infants maintained low levels (3.7-8.7 mIU/ml). However, those in female infants increased with peak levels (51.8-270.3 mIU/ml) between 11 and 30 days after delivery, and then decreased; the surge was more marked and prolonged in preterm infants than in term infants. Postnatal LH levels in both sexes decreased rapidly after birth, which may be due to a decrease of placental hCG, and thereafter displayed patterns similar to FSH levels. We found a significant sex difference of serum gonadotropin levels in newborn infants and differences between term and preterm infants. Our results suggest that the sex difference of pituitary gonadal function exists and that the function matures during the fetal and neonatal life.

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Serologic study of human parvovirus B19 infection in pregnancy in Japan

Yaegashi¹,

Niinuma²,

Chisaka³

et al. 1999

Journal of Infection

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Placental corticotropin-releasing hormone may be a stimulator of maternal pituitary adrenocorticotropic hormone secretion in humans.

Sasaki¹,

Shinkawa²,

Yoshinaga³

1989

J. Clin. Invest.

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To clarify the physiological role of placental corticotropin-releasing hormone (CRH), we measured plasma CRH, ACTH, and cortisol throughout pregnancy. Cerebrospinal fluid (CSF) CRH levels and ACTH responsiveness to synthetic CRH were also quantified in pregnant and nonpregnant women. Maternal plasma CRH levels, which increased progressively during pregnancy, correlated well with both ACTH and cortisol in early labor, delivery, and postpartum samples, and also with cortisol levels in samples before labor. CSF CRH levels in term pregnant women did not differ from those of nonpregnant women. CRH infusion that attained similar plasma CRH levels to those found in late pregnancy elicited significant ACTH release in vivo and regular CRH test provoked normal ACTH response during early pregnancy but no response during late pregnancy. We concluded that: (a) maternal pituitary-adrenal axis correlates well with plasma CRH levels, which are high enough to provoke ACTH release from maternal pituitary; (b) hypothalamic CRH secretion in term pregnant women is not exaggerated; and (c) maternal pituitary is responsive to synthetic CRH in early but not late pregnancy, suggesting that maternal pituitary-adrenal axis is already activated by high circulating CRH. Placental CRH may be an important stimulator of the maternal pituitary-adrenal axis during pregnancy.

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Osamu Shinkawa

Immunoreactive Corticotropin-Releasing Hormone in Human Plasma During Pregnancy, Labor, and Delivery*

Isolation and Characterization of a Corticotropin-Releasing Hormone-Like Peptide From Human Placenta

Changes of Serum Gonadotropin Levels and Sex Differences in Premature and Mature Infant during Neonatal Life

Serologic study of human parvovirus B19 infection in pregnancy in Japan

Placental corticotropin-releasing hormone may be a stimulator of maternal pituitary adrenocorticotropic hormone secretion in humans.

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