Laura Goldsmith - Academia.edu (original) (raw)

Papers by Laura Goldsmith

American Journal of Obstetrics and Gynecology, Jul 1, 2014

American Journal of Obstetrics and Gynecology, 2014

Fertility and Sterility, 2005

Journal of Andrology

ABSTRACT: Relaxin is a 6‐kd polypeptide that exerts important hormonal effects in many female mam... more ABSTRACT: Relaxin is a 6‐kd polypeptide that exerts important hormonal effects in many female mammals. Relaxin is produced by the ovary, placenta, or uterus in many mammalian species. The functions of relaxin in the male mammal are not yet firmly established, but there is some evidence suggesting an exocrine effect on sperm motility and fertilizability. In the male mammals that have been studied, relaxin is produced by the prostate gland (human) or seminal vesicles (boar). However, in the bird, the testis is the likely source of relaxin. Among the elasmobranchs, ovaries obtained from dogfish sharks have been shown to contain a polypeptide hormone that is structurally, biologically, and immunologically similar to mammalian relaxins, but the male reproductive tract of this species has not previously been investigated as a potential source of relaxin. Extracts of testes obtained from mature dogfish sharks have now been tested by a specific relaxin bioassay and by a homologous porcine r...

Fertility and Sterility, Oct 1, 1985

Gynecologic and Obstetric Investigation, 1998

To determine whether the effect of endothelin upon in vitro uterine contractility requires estrog... more To determine whether the effect of endothelin upon in vitro uterine contractility requires estrogen, immature female Long Evans rats were subcutaneously injected daily for 3 days with either estradiol benzoate or vehicle. The uterine contractile response to endothelin (5 or 100 nM) was measured. A response to endothelin in vehicle-treated animals exposed to physiologic (5.6 mM) or high (70.6 mM) potassium levels was also noted. Vehicle-treated uteri did not respond to endothelin; the contractions in estrogen-treated uteri increased by 288%. With high potassium, and without estrogen, no response to endothelin was seen. These data indicate that the contractile effect of endothelin on the uterus requires estrogen.

Springer eBooks, 1979

Relaxin is a peptide hormone of pregnancy which plays a role in pregnancy maintenance and parturi... more Relaxin is a peptide hormone of pregnancy which plays a role in pregnancy maintenance and parturition in several mammalian species (1). Immunoassayable relaxin is present in women during pregnancy. Relaxin is produced solely by the human corpus luteum of pregnancy. The placenta does not directly contribute to its production (2). Relaxin extracted from the human corpus luteum of pregnancy is active in the guinea pig pubic symphysis palpation assay. The biological activity paralleled the immunoactivity of these extracts (3). The purpose of this study is to determine secretion patterns of relaxin at various times during normal pregnancies.

Endocrinology, Aug 1, 1981

To investigate the control mechanisms for the secretion of relaxin in pregnant rats, the effects ... more To investigate the control mechanisms for the secretion of relaxin in pregnant rats, the effects of the fetus, placenta, and uterus were studied. Plasma immunoreactive relaxin and progesterone were measured in pregnant rats, from days 8--1 post partum. On day 16 of pregnancy, groups of animals were subjected to removal of the fetuses, conceptuses (fetuses and placentae), or uteri. To determine whether there are extraovarian sources of circulating relaxin, a group of pregnant rats was ovariectomized on day 16. Immunoreactive relaxin was undetectable in the plasma of pregnant rats before day 10, and increased to a mean concentration of 0.52 +/- 0.01 (SEM) ng/ml on day 13. In control animals, immunoreactive relaxin levels remained at about this concentration throughout the remainder of pregnancy and declined rapidly post partum. The pattern of secretion of relaxin in fetectomized animals was similar to that in controls. In contrast, a significant decline in immunoreactive relaxin was seen, within 24 h after surgery, in those animals in which removal of the conceptuses or hysterectomy was performed. In these animals, immunoreactive relaxin was undetectable within 48 h after surgery and remained undetectable throughout the experimental period. In animals that were ovariectomized, immunoreactive relaxin was undetectable 24 h after surgery. Progesterone secretion in animals that had fetectomy or removal of the conceptuses performed was similar to that in controls. These groups showed a significant decline in progesterone on day 17 of pregnancy, and progesterone continued to decline until day 1 post partum. Progesterone in hysterectomized animals declined more abruptly than in either controls or other experimental groups. Ovariectomy resulted in a prompt fall in plasma progesterone. These results indicate that in the rat, the fetus is not needed for the maintenance of relaxin secretion throughout pregnancy, the placenta controls the ovarian secretion of relaxin. The uterus does not exert a tropic effect upon relaxin secretion, no extraovarian sources of circulating relaxin exist in the rat, and there is a divergence between progesterone and relaxin secretion during rat pregnancy.

PubMed, 2013

Elucidating the role(s) of relaxin in women has been greatly hampered by its species specificity.... more Elucidating the role(s) of relaxin in women has been greatly hampered by its species specificity. Suitable experimental models of relaxin action in women are limited. We established a non-human primate model of early human pregnancy to study the effects of relaxin in vivo and used three well characterized in vitro models of human endometrial function for study of mechanisms involved. Results from these studies clearly demonstrate that relaxin is an import ant factor in human endometrium which causes accommodation to and maintenance of early pregnancy and uses multiple physiological and biochemical mediators.

Biology of Reproduction, 1994

To investigate the control of relaxin (Rlx) secretion in men, we studied seminal plasma Rlx conce... more To investigate the control of relaxin (Rlx) secretion in men, we studied seminal plasma Rlx concentrations after physiologic and supraphysiologic gonadal stimulation. In the first experiment, 14 men with idiopathic hypogonadotropic hypogonadism provided semen samples at various time points before and during therapy with pulsatile GnRH. These data were compared to seminal plasma Rlx values in 5 normal men. In a second experiment, pharmacologic doses of hCG were administered in a fashion similar to that previously shown to have stimulated Rlx secretion from the CL of women. In men with idiopathic hypogonadotropic hypogonadism, no relationship was detected by linear regression analysis between seminal plasma Rlx and testosterone, testicular volume, ejaculate volume, or the appearance of sperm in the ejaculate. Rlx concentrations varied considerably between subjects (6-120 ng/ml) but remained fairly consistent within the same individual over time. Supraphysiologic gonadal stimulation with hCG similarly failed to alter seminal plasma Rlx (n = 5, mean +/- SEM; 48 +/- 9 ng/ml, 42 +/- 7 ng/ml, and 56 +/- 9 ng/ml on Days 1, 3, and 6, respectively; p < 0.05) in normal men despite dramatic increases in serum testosterone (763 +/- 25 ng/dl, 1702 +/- 136 ng/dl, and 1494 +/- 97 ng/dl on Days 1, 3, and 6, respectively; p < 0.05 vs. Day 1). Taken together, these data suggest that Rlx in men is secreted independently from direct gonadotropin control.

PubMed, Nov 1, 1978

The purpose of this study was to determine by RIA the concentrations of relaxin in various compar... more The purpose of this study was to determine by RIA the concentrations of relaxin in various compartments and tissues in pregnant women. Ten pairs of maternal venous and cord blood were studied. The mean relaxin concentrations, in immunoreactive equivalents of porcine relaxin, were 0.683 ng/ml in maternal serum and 0.009 ng/ml in cord serum. Relaxin was undetectable in 8 of 9 samples of amniotic fluid. Mean concentrations of relaxin in pg immunoreactive equivalents of porcine hormone per mg protein, from maternal tissues at term pregnancy were as follows: fat 96 (N = 5), myometrium 47 (N = 4), skin 62 (N = 5), placenta 51 (N = 9), and corpus luteum 13,000 (N = 8). These data suggest that little relaxin crosses the placenta and little is produced in the fetus. Contrary to prior suggestions that relaxin may also be a placental product, relaxin appears to be solely produced in the corpus luteum, making it the only peripherally measured hormone that can be used as an index of luteal activity in pregnancy.

Biology of Reproduction, Apr 1, 1992

Journal of Assisted Reproduction and Genetics, Nov 6, 2014

PubMed, 1989

Serum concentrations of relaxin and progesterone were measured by specific radioimmunoassays in p... more Serum concentrations of relaxin and progesterone were measured by specific radioimmunoassays in pregnant, pseudopregnant, or ovariectomized (between gestation weeks 4 and 5) pregnant Labrador Retriever bitches. Daily administration of 17 alpha-ethyl-19-nortestosterone was performed to maintain gestation in the ovariectomized pregnant bitches. This synthetic gestagen was selected because it did not interfere with the assay for endogenously secreted progesterone concentration in serum. Serum progesterone concentration was high in ovarian-intact pregnant or pseudopregnant bitches, but the mean progesterone concentration in pseudopregnant bitches (evaluated at 4 weeks after mating) was only 56% of the concentration in pregnant bitches. After ovariectomy, serum progesterone concentration decreased to undetectable values. Unlike progesterone, serum relaxin concentration increased during the latter half of pregnancy in the ovarian-intact and in the ovariectomized pregnant bitches, but relaxin was not detectable at any time in the pseudopregnant bitches. The amount of relaxin measured in the ovariectomized pregnant bitches was less (P less than 0.05) than that in ovarian-intact bitches, suggesting that the ovaries may have contributed to the total circulating relaxin concentration in the latter. Placental production of relaxin might have accounted for the serum relaxin concentration after ovariectomy; thus, the ovary and placenta each may secrete relaxin during gestation in bitches. Regardless of its source, measurement of serum relaxin concentration may offer a useful way of distinction between pregnancy and pseudopregnancy in dogs.

Fertility and Sterility, Sep 1, 1985

In an attempt to improve the motility of thawed spermatozoa after 1 week of its being frozen, we ... more In an attempt to improve the motility of thawed spermatozoa after 1 week of its being frozen, we treated ten normal semen samples with 16.7 nmol relaxin and 6 mmol caffeine. Motility and grade of forward progression were examined after thawing. Caffeine significantly improved motility of spermatozoa. Relaxin, when added to semen at the time of thawing, improved motility and grade of forward progression significantly. This effect was not seen if relaxin was added before freezing. These results suggest that the biologic activity of relaxin is adversely affected by freezing and thawing in seminal plasma. These observations may have clinical importance for the improvement of motility of frozen spermatozoan samples at the time of artificial insemination and for the possible improvement of pregnancy rates.

American Journal of Obstetrics and Gynecology, Mar 1, 1980

Relaxin is a peptide hormone secreted by the human corpus luteum of pregnancy . Aqueous extracts ... more Relaxin is a peptide hormone secreted by the human corpus luteum of pregnancy . Aqueous extracts of relaxin-rich pregnancy corpora lutea decreased the amplitude of spontaneous human myometrial strip contractions in vitro. Relaxin-poor extracts of menstrual cycle corpora lutea did not affect contractions. Antibody precipitation of relaxin from pregnancy luteal extracts eliminated the effect on myometrial strips. Relaxin removal was confirmed by bioassay. This demonstrates an inhibiting action of human relaxin on human myometrial tissue in vitro. This action suggests a mechanism for maintaining uterine quiesence in early pregnancy.

The Journal of Clinical Endocrinology and Metabolism, Mar 1, 1989

To determine whether the human corpus luteum is a source of relaxin and oxytocin, we measured the... more To determine whether the human corpus luteum is a source of relaxin and oxytocin, we measured the concentrations of these peptides in plasma obtained from the ovarian veins of ovaries with and without a corpus luteum and compared these to peripheral plasma levels. Peripheral and ovarian venous blood samples were obtained from 34 nonpregnant women, 13 during the luteal phase and 21 during the follicular phase of their cycles, and from a 6-week pregnant woman. Plasma relaxin, oxytocin, and progesterone concentrations were determined by sensitive and specific RIAs. Plasma relaxin levels were not detectable (less than 0.16 microgram/L) in peripheral or ovarian venous plasma not draining a corpus luteum. The mean relaxin concentration in plasma draining an ovary with a corpus luteum was 0.41 +/- 0.09 (+/- SE) microgram/L. Oxytocin levels also were significantly higher in plasma draining an ovary with a corpus luteum (6.70 +/- 1.86 pmol/L) than in that draining the ovary with no corpus luteum (1.58 +/- 0.09 pmol/L; P less than 0.01) or in peripheral plasma (1.58 +/- 0.09 pmol/L; P less than 0.025). The mean progesterone concentration also was highest in plasma draining an ovary with a corpus luteum (210.2 +/- 50.5 nmol/L) compared with those in plasma from the contralateral ovarian vein (40.3 +/- 16.5 nmol/L P less than 0.005) and peripheral plasma (30.2 +/- 5.7 nmol/L; P less than 0.005) during the luteal phase. In a woman who was 6 weeks pregnant, plasma draining the ovary with a corpus luteum had 1.9 micrograms relaxin/L, but only 0.49 pmol/L oxytocin; the latter was similar to concentrations in noncorpus luteum-bearing ovarian venous plasma. These findings indicate that the human corpus luteum secretes relaxin, oxytocin, and progesterone. Both ovarian oxytocin and relaxin may function as paracrine or autocrine modulators of luteal function.

American Journal of Obstetrics and Gynecology, Jul 1, 2014

American Journal of Obstetrics and Gynecology, 2014

Fertility and Sterility, 2005

Journal of Andrology

ABSTRACT: Relaxin is a 6‐kd polypeptide that exerts important hormonal effects in many female mam... more ABSTRACT: Relaxin is a 6‐kd polypeptide that exerts important hormonal effects in many female mammals. Relaxin is produced by the ovary, placenta, or uterus in many mammalian species. The functions of relaxin in the male mammal are not yet firmly established, but there is some evidence suggesting an exocrine effect on sperm motility and fertilizability. In the male mammals that have been studied, relaxin is produced by the prostate gland (human) or seminal vesicles (boar). However, in the bird, the testis is the likely source of relaxin. Among the elasmobranchs, ovaries obtained from dogfish sharks have been shown to contain a polypeptide hormone that is structurally, biologically, and immunologically similar to mammalian relaxins, but the male reproductive tract of this species has not previously been investigated as a potential source of relaxin. Extracts of testes obtained from mature dogfish sharks have now been tested by a specific relaxin bioassay and by a homologous porcine r...

Fertility and Sterility, Oct 1, 1985

Gynecologic and Obstetric Investigation, 1998

To determine whether the effect of endothelin upon in vitro uterine contractility requires estrog... more To determine whether the effect of endothelin upon in vitro uterine contractility requires estrogen, immature female Long Evans rats were subcutaneously injected daily for 3 days with either estradiol benzoate or vehicle. The uterine contractile response to endothelin (5 or 100 nM) was measured. A response to endothelin in vehicle-treated animals exposed to physiologic (5.6 mM) or high (70.6 mM) potassium levels was also noted. Vehicle-treated uteri did not respond to endothelin; the contractions in estrogen-treated uteri increased by 288%. With high potassium, and without estrogen, no response to endothelin was seen. These data indicate that the contractile effect of endothelin on the uterus requires estrogen.

Springer eBooks, 1979

Relaxin is a peptide hormone of pregnancy which plays a role in pregnancy maintenance and parturi... more Relaxin is a peptide hormone of pregnancy which plays a role in pregnancy maintenance and parturition in several mammalian species (1). Immunoassayable relaxin is present in women during pregnancy. Relaxin is produced solely by the human corpus luteum of pregnancy. The placenta does not directly contribute to its production (2). Relaxin extracted from the human corpus luteum of pregnancy is active in the guinea pig pubic symphysis palpation assay. The biological activity paralleled the immunoactivity of these extracts (3). The purpose of this study is to determine secretion patterns of relaxin at various times during normal pregnancies.

Endocrinology, Aug 1, 1981

To investigate the control mechanisms for the secretion of relaxin in pregnant rats, the effects ... more To investigate the control mechanisms for the secretion of relaxin in pregnant rats, the effects of the fetus, placenta, and uterus were studied. Plasma immunoreactive relaxin and progesterone were measured in pregnant rats, from days 8--1 post partum. On day 16 of pregnancy, groups of animals were subjected to removal of the fetuses, conceptuses (fetuses and placentae), or uteri. To determine whether there are extraovarian sources of circulating relaxin, a group of pregnant rats was ovariectomized on day 16. Immunoreactive relaxin was undetectable in the plasma of pregnant rats before day 10, and increased to a mean concentration of 0.52 +/- 0.01 (SEM) ng/ml on day 13. In control animals, immunoreactive relaxin levels remained at about this concentration throughout the remainder of pregnancy and declined rapidly post partum. The pattern of secretion of relaxin in fetectomized animals was similar to that in controls. In contrast, a significant decline in immunoreactive relaxin was seen, within 24 h after surgery, in those animals in which removal of the conceptuses or hysterectomy was performed. In these animals, immunoreactive relaxin was undetectable within 48 h after surgery and remained undetectable throughout the experimental period. In animals that were ovariectomized, immunoreactive relaxin was undetectable 24 h after surgery. Progesterone secretion in animals that had fetectomy or removal of the conceptuses performed was similar to that in controls. These groups showed a significant decline in progesterone on day 17 of pregnancy, and progesterone continued to decline until day 1 post partum. Progesterone in hysterectomized animals declined more abruptly than in either controls or other experimental groups. Ovariectomy resulted in a prompt fall in plasma progesterone. These results indicate that in the rat, the fetus is not needed for the maintenance of relaxin secretion throughout pregnancy, the placenta controls the ovarian secretion of relaxin. The uterus does not exert a tropic effect upon relaxin secretion, no extraovarian sources of circulating relaxin exist in the rat, and there is a divergence between progesterone and relaxin secretion during rat pregnancy.

PubMed, 2013

Elucidating the role(s) of relaxin in women has been greatly hampered by its species specificity.... more Elucidating the role(s) of relaxin in women has been greatly hampered by its species specificity. Suitable experimental models of relaxin action in women are limited. We established a non-human primate model of early human pregnancy to study the effects of relaxin in vivo and used three well characterized in vitro models of human endometrial function for study of mechanisms involved. Results from these studies clearly demonstrate that relaxin is an import ant factor in human endometrium which causes accommodation to and maintenance of early pregnancy and uses multiple physiological and biochemical mediators.

Biology of Reproduction, 1994

To investigate the control of relaxin (Rlx) secretion in men, we studied seminal plasma Rlx conce... more To investigate the control of relaxin (Rlx) secretion in men, we studied seminal plasma Rlx concentrations after physiologic and supraphysiologic gonadal stimulation. In the first experiment, 14 men with idiopathic hypogonadotropic hypogonadism provided semen samples at various time points before and during therapy with pulsatile GnRH. These data were compared to seminal plasma Rlx values in 5 normal men. In a second experiment, pharmacologic doses of hCG were administered in a fashion similar to that previously shown to have stimulated Rlx secretion from the CL of women. In men with idiopathic hypogonadotropic hypogonadism, no relationship was detected by linear regression analysis between seminal plasma Rlx and testosterone, testicular volume, ejaculate volume, or the appearance of sperm in the ejaculate. Rlx concentrations varied considerably between subjects (6-120 ng/ml) but remained fairly consistent within the same individual over time. Supraphysiologic gonadal stimulation with hCG similarly failed to alter seminal plasma Rlx (n = 5, mean +/- SEM; 48 +/- 9 ng/ml, 42 +/- 7 ng/ml, and 56 +/- 9 ng/ml on Days 1, 3, and 6, respectively; p < 0.05) in normal men despite dramatic increases in serum testosterone (763 +/- 25 ng/dl, 1702 +/- 136 ng/dl, and 1494 +/- 97 ng/dl on Days 1, 3, and 6, respectively; p < 0.05 vs. Day 1). Taken together, these data suggest that Rlx in men is secreted independently from direct gonadotropin control.

PubMed, Nov 1, 1978

The purpose of this study was to determine by RIA the concentrations of relaxin in various compar... more The purpose of this study was to determine by RIA the concentrations of relaxin in various compartments and tissues in pregnant women. Ten pairs of maternal venous and cord blood were studied. The mean relaxin concentrations, in immunoreactive equivalents of porcine relaxin, were 0.683 ng/ml in maternal serum and 0.009 ng/ml in cord serum. Relaxin was undetectable in 8 of 9 samples of amniotic fluid. Mean concentrations of relaxin in pg immunoreactive equivalents of porcine hormone per mg protein, from maternal tissues at term pregnancy were as follows: fat 96 (N = 5), myometrium 47 (N = 4), skin 62 (N = 5), placenta 51 (N = 9), and corpus luteum 13,000 (N = 8). These data suggest that little relaxin crosses the placenta and little is produced in the fetus. Contrary to prior suggestions that relaxin may also be a placental product, relaxin appears to be solely produced in the corpus luteum, making it the only peripherally measured hormone that can be used as an index of luteal activity in pregnancy.

Biology of Reproduction, Apr 1, 1992

Journal of Assisted Reproduction and Genetics, Nov 6, 2014

PubMed, 1989

Serum concentrations of relaxin and progesterone were measured by specific radioimmunoassays in p... more Serum concentrations of relaxin and progesterone were measured by specific radioimmunoassays in pregnant, pseudopregnant, or ovariectomized (between gestation weeks 4 and 5) pregnant Labrador Retriever bitches. Daily administration of 17 alpha-ethyl-19-nortestosterone was performed to maintain gestation in the ovariectomized pregnant bitches. This synthetic gestagen was selected because it did not interfere with the assay for endogenously secreted progesterone concentration in serum. Serum progesterone concentration was high in ovarian-intact pregnant or pseudopregnant bitches, but the mean progesterone concentration in pseudopregnant bitches (evaluated at 4 weeks after mating) was only 56% of the concentration in pregnant bitches. After ovariectomy, serum progesterone concentration decreased to undetectable values. Unlike progesterone, serum relaxin concentration increased during the latter half of pregnancy in the ovarian-intact and in the ovariectomized pregnant bitches, but relaxin was not detectable at any time in the pseudopregnant bitches. The amount of relaxin measured in the ovariectomized pregnant bitches was less (P less than 0.05) than that in ovarian-intact bitches, suggesting that the ovaries may have contributed to the total circulating relaxin concentration in the latter. Placental production of relaxin might have accounted for the serum relaxin concentration after ovariectomy; thus, the ovary and placenta each may secrete relaxin during gestation in bitches. Regardless of its source, measurement of serum relaxin concentration may offer a useful way of distinction between pregnancy and pseudopregnancy in dogs.

Fertility and Sterility, Sep 1, 1985

In an attempt to improve the motility of thawed spermatozoa after 1 week of its being frozen, we ... more In an attempt to improve the motility of thawed spermatozoa after 1 week of its being frozen, we treated ten normal semen samples with 16.7 nmol relaxin and 6 mmol caffeine. Motility and grade of forward progression were examined after thawing. Caffeine significantly improved motility of spermatozoa. Relaxin, when added to semen at the time of thawing, improved motility and grade of forward progression significantly. This effect was not seen if relaxin was added before freezing. These results suggest that the biologic activity of relaxin is adversely affected by freezing and thawing in seminal plasma. These observations may have clinical importance for the improvement of motility of frozen spermatozoan samples at the time of artificial insemination and for the possible improvement of pregnancy rates.

American Journal of Obstetrics and Gynecology, Mar 1, 1980

Relaxin is a peptide hormone secreted by the human corpus luteum of pregnancy . Aqueous extracts ... more Relaxin is a peptide hormone secreted by the human corpus luteum of pregnancy . Aqueous extracts of relaxin-rich pregnancy corpora lutea decreased the amplitude of spontaneous human myometrial strip contractions in vitro. Relaxin-poor extracts of menstrual cycle corpora lutea did not affect contractions. Antibody precipitation of relaxin from pregnancy luteal extracts eliminated the effect on myometrial strips. Relaxin removal was confirmed by bioassay. This demonstrates an inhibiting action of human relaxin on human myometrial tissue in vitro. This action suggests a mechanism for maintaining uterine quiesence in early pregnancy.

The Journal of Clinical Endocrinology and Metabolism, Mar 1, 1989

To determine whether the human corpus luteum is a source of relaxin and oxytocin, we measured the... more To determine whether the human corpus luteum is a source of relaxin and oxytocin, we measured the concentrations of these peptides in plasma obtained from the ovarian veins of ovaries with and without a corpus luteum and compared these to peripheral plasma levels. Peripheral and ovarian venous blood samples were obtained from 34 nonpregnant women, 13 during the luteal phase and 21 during the follicular phase of their cycles, and from a 6-week pregnant woman. Plasma relaxin, oxytocin, and progesterone concentrations were determined by sensitive and specific RIAs. Plasma relaxin levels were not detectable (less than 0.16 microgram/L) in peripheral or ovarian venous plasma not draining a corpus luteum. The mean relaxin concentration in plasma draining an ovary with a corpus luteum was 0.41 +/- 0.09 (+/- SE) microgram/L. Oxytocin levels also were significantly higher in plasma draining an ovary with a corpus luteum (6.70 +/- 1.86 pmol/L) than in that draining the ovary with no corpus luteum (1.58 +/- 0.09 pmol/L; P less than 0.01) or in peripheral plasma (1.58 +/- 0.09 pmol/L; P less than 0.025). The mean progesterone concentration also was highest in plasma draining an ovary with a corpus luteum (210.2 +/- 50.5 nmol/L) compared with those in plasma from the contralateral ovarian vein (40.3 +/- 16.5 nmol/L P less than 0.005) and peripheral plasma (30.2 +/- 5.7 nmol/L; P less than 0.005) during the luteal phase. In a woman who was 6 weeks pregnant, plasma draining the ovary with a corpus luteum had 1.9 micrograms relaxin/L, but only 0.49 pmol/L oxytocin; the latter was similar to concentrations in noncorpus luteum-bearing ovarian venous plasma. These findings indicate that the human corpus luteum secretes relaxin, oxytocin, and progesterone. Both ovarian oxytocin and relaxin may function as paracrine or autocrine modulators of luteal function.