Marcia G. Burch scite author profile

Marcia G. Burch

4Publications

93Citation Statements Received

60Citation Statements Given

How they've been cited

118

How they cite others

126

Affiliations

Eastern Virginia Medical School, University of Mary, University of Maryland, Baltimore

Publications

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Up-Regulation of α-Inhibin Expression in the Fetal Ovary of Estrogen-Suppressed Baboons Is Associated with Impaired Fetal Ovarian Folliculogenesis1

Billiar

Zachos

Burch

et al. 2003

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We recently demonstrated that the number of primordial follicles was significantly reduced in the ovaries of near-term baboon fetuses deprived of estrogen in utero and restored to normal in animals administered estradiol. Although the baboon fetal ovary expressed estrogen receptors alpha and beta, the mechanism(s) of estrogen action remains to be determined. It is well established that inhibin and activins function as autocrine/paracrine factors that impact adult ovarian function. However, our understanding of the expression of these factors in the primate fetal ovary is incomplete. Therefore, we determined the expression of alpha-inhibin, activin beta(A), activin beta(B), and activin receptors in fetal ovaries obtained at mid and late gestation from untreated baboons and at late gestation from animals in which fetal estrogen levels were reduced by >95% by maternal administration of the aromatase inhibitor CGS 20267 or restored to 30% of normal by treatment with CGS 20267 and estradiol benzoate. Immunocytochemical expression of alpha-inhibin was minimal to nondetectable in fetal ovaries from untreated baboons. In contrast, in baboons depleted of estrogen, alpha-inhibin was abundantly expressed in pregranulosa cells of interfollicular nests and granulosa cells of primordial follicles. Thus, the number (mean +/- SEM) per 0.08 mm2 of fetal ovarian cells expressing alpha-inhibin, determined by image analysis, was similar at mid and late gestation and increased approximately 8-fold (P < 0.01) near term in baboons treated with CGS 20267 and was restored (P < 0.01) to normal in baboons treated with CGS 20267 plus estradiol. Activin beta(A) was detected in oocytes and pregranulosa cells at midgestation and in oocytes and granulosa cells of primordial follicles at late gestation. Activin beta(B) was also expressed in pregranulosa cells and granulosa cells at mid and late gestation, respectively, but was not detected in oocytes. Neither the pattern nor the apparent level of expression of activin beta(A) or beta(B) were altered in fetal ovaries of baboons treated with CGS 20267 or CGS 20267 and estrogen. Activin receptors IA, IB, IIA, and IIB were detected by Western blot analysis in fetal ovaries at mid and late gestation, and expression was not altered by treatment with CGS 20267 or CGS 20267 and estrogen. Activin receptors IB and IIA were localized to oocytes and pregranulosa cells at midgestation and to granulosa cells and oocytes of primordial follicles at late gestation. Thus, the decrease in the number of follicles in the primate fetal ovary of baboons deprived of estrogen in utero was associated with increased expression of alpha-inhibin. Therefore, we propose that estrogen regulates fetal ovarian follicular development by controlling alpha-inhibin expression and, thus, the intraovarian inhibin:activin ratio.

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Expression of the 11β-Hydroxysteroid Dehydrogenase Types 1 and 2 Proteins in Human and Baboon Placental Syncytiotrophoblast

1999

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Localization and Developmental Expression of the Activin Signal Transduction Proteins Smads 2, 3, and 4 in the Baboon Fetal Ovary1

Billiar¹,

Clair²,

Zachos³

et al. 2004

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We recently demonstrated that the reduction in the number of primordial follicles in ovaries of near-term baboon fetuses deprived of estrogen in utero was associated with increased expression of alpha-inhibin, but not activin betaA and betaB or the activin receptors. Therefore, we proposed that estrogen regulates fetal ovarian follicular development by controlling the intraovarian inhibin:activin ratio. As a prelude to conducting experiments to test this hypothesis, in the current study we determined whether the primate fetal ovary expressed Smads 2/3 and 4 and whether expression of these activin-signaling proteins was altered in fetal ovaries of baboons in which estrogen production was suppressed. Western blot analyses demonstrated that the 59 kDa Smad 2, 54 kDa Smad 3, and 64 kDa Smad 4 proteins were expressed in fetal ovaries of untreated baboons at both mid and late gestation and that the level of expression was not significantly altered in late gestation by in vivo treatment with CGS 20267 or CGS 20267 and estrogen. Immunocytochemistry localized Smads 2/3 and 4 to cytoplasm of oocytes and pregranulosa cells at midgestation and oocytes and granulosa cells of primordial follicles in late gestation. Smad 4 was also detected in granulosa cell nuclei in late gestation, and nuclear expression appeared to be decreased in fetal ovaries of baboons deprived of estrogen. The site of localization of Smads correlated with localization of the activin receptors IA and IIB, which we previously showed were abundantly expressed in oocytes and (pre)granulosa cells at both mid and late gestation and unaltered by estrogen deprivation. In summary, the results of the current study are the first to show that the intracellular signaling molecules required to transduce an activin signal are expressed in the baboon fetal ovary and that expression was not altered by estrogen deprivation in utero. These findings, coupled with our previous observations showing that estrogen deprivation reduced follicle numbers and upregulated/induced expression of inhibin but not activin or the activin receptors, lend further support to the hypothesis that estrogen regulates fetal ovarian folliculogenesis by controlling the intraovarian activin:inhibin ratio.

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Expression of the mRNAs and Proteins for the Na+/H+ Exchangers and Their Regulatory Factors in Baboon and Human Placental Syncytiotrophoblast

Pepe

Burch

Sibley

et al. 2001

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In polarized epithelial cells of several organ systems, e.g. the kidney, a family of Na(+)/H(+) exchangers (e.g. Na(+)/H(+) exchanger-1 and -3) and their regulatory proteins, Na(+)/H(+) exchanger regulatory factor and Na(+)/H(+) exchanger-3 kinase A regulatory protein play a major role in regulating Na(+)/H(+) exchange integral to cellular homeostasis. Because the primate placenta regulates exchange of Na(+) and H(+) between the mother and fetus critical to fetal-placental homeostasis, the current study determined whether Na(+)/H(+) exchanger-1 and -3 were compartmentalized and associated with expression of Na(+)/H(+) exchanger regulatory factor and Na(+)/H(+) exchanger-3 kinase A regulatory protein in baboon and human syncytiotrophoblast. Using RT-PCR, single 413-bp Na(+)/H(+) exchanger-1 and 190-bp Na(+)/H(+) exchanger-3 products were expressed by baboon and human syncytiotrophoblasts. The 104-kDa Na(+)/H(+) exchanger-1 protein was detected by Western blot in microvillus membranes and to a much lesser extent in the basal membranes of the baboon and human syncytiotrophoblasts. In contrast, the 85-kDa Na(+)/H(+) exchanger-3 protein was detected primarily in membranes contiguous with the basal membranes of the syncytiotrophoblast of both species. Differential localization of Na(+)/H(+) exchanger-1 and -3 was confirmed by immunocytochemistry. The Na(+)/H(+) exchanger-3 regulatory protein, Na(+)/H(+) exchanger-3 kinase A regulatory protein, resided almost exclusively in the basal membranes, whereas Na(+)/H(+) exchanger regulatory factor was localized primarily to the microvillus membranes in the baboon and human syncytiotrophoblast. Collectively, these results are the first to show that the baboon and human term placental syncytiotrophoblast expressed the mRNAs and proteins for Na(+)/H(+) exchanger-1 and -3 and their regulatory factors and that Na(+)/H(+) exchanger-1 and Na(+)/H(+) exchanger regulatory factor resided primarily in the microvillus membranes, whereas Na(+)/H(+) exchanger-3 and Na(+)/H(+) exchanger-3 kinase A regulatory protein were localized to membranes contiguous with the basal membranes and to the basal membranes, respectively. We conclude that a complete Na(+)/H(+) exchange system is present in the baboon and human term placental syncytiotrophoblast and suggest that the primate placenta exhibits polarity with respect to the capacity for regulation of Na(+)/H(+) exchange between the placenta and the maternal and fetal circulations.

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Marcia G. Burch

Up-Regulation of α-Inhibin Expression in the Fetal Ovary of Estrogen-Suppressed Baboons Is Associated with Impaired Fetal Ovarian Folliculogenesis1

Expression of the 11β-Hydroxysteroid Dehydrogenase Types 1 and 2 Proteins in Human and Baboon Placental Syncytiotrophoblast

Localization and Developmental Expression of the Activin Signal Transduction Proteins Smads 2, 3, and 4 in the Baboon Fetal Ovary1

Expression of the mRNAs and Proteins for the Na+/H+ Exchangers and Their Regulatory Factors in Baboon and Human Placental Syncytiotrophoblast

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