Your search keyword '"Debra J. Wolgemuth"' showing total 5 results

1. Filamentous actin disorganization and absence of apical ectoplasmic specialization disassembly during spermiation upon interference with retinoid signaling†

Author

Debra J. Wolgemuth, Sanny S.W. Chung, and Nika Vizcarra

Subjects

Male, 0301 basic medicine, Phalloidin, medicine.drug_class, apical ectoplasmic specialization disassembly, Biology, Filamentous actin, Mice, Retinoids, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Testis, medicine, Animals, Retinoid, filamentous actin disorganization, Spermatogenesis, Cytoskeleton, targets for male contraception, Sertoli Cells, Spermatid, Cell Biology, General Medicine, Contraceptive Special Issue, Apical ectoplasmic specialization, AcademicSubjects/SCI01070, Sertoli cell, Spermatids, Actins, Cell biology, Actin Cytoskeleton, Seminiferous Epithelium, 030104 developmental biology, medicine.anatomical_structure, Reproductive Medicine, chemistry, Retinoic acid receptor alpha, AcademicSubjects/MED00773, 030217 neurology & neurosurgery, Signal Transduction

Abstract

Spermiation is a multiple-step process involving profound cellular changes in both spermatids and Sertoli cells. We have observed spermiation defects, including abnormalities in spermatid orientation, translocation and release, in mice deficient in the retinoic acid receptor alpha (RARA) and upon treatment with a pan-RAR antagonist. To elucidate the role of retinoid signaling in regulating spermiation, we first characterized the time course of appearance of spermiogenic defects in response to treatment with the pan-RAR antagonist. The results revealed that defects in spermiation are indeed among the earliest abnormalities in spermatogenesis observed upon inhibition of retinoid signaling. Using fluorescent dye-conjugated phalloidin to label the ectoplasmic specialization (ES), we showed for the first time that these defects involved improper formation of filamentous actin (F-actin) bundles in step 8–9 spermatids and a failure of the actin-surrounded spermatids to move apically to the lumen and to disassemble the ES. The aberrant F-actin organization is associated with diminished nectin-3 expression in both RARA-deficient and pan-RAR antagonist-treated testes. An abnormal localization of both tyrosinated and detyrosinated tubulins was also observed during spermatid translocation in the seminiferous epithelium in drug-treated testes. These results highlight a crucial role of RAR receptor-mediated retinoid signaling in regulating microtubules and actin dynamics in the cytoskeleton rearrangements, required for proper spermiation. This is critical to understand in light of ongoing efforts to inhibit retinoid signaling as a novel approach for male contraception and may reveal spermiation components that could also be considered as new targets for male contraception., A crucial role of RAR receptor-mediated retinoid signaling in regulating microtubule and actin dynamics in cytoskeleton rearrangements during spermiogenesis is demonstrated.

Published

2020

2. Retinoic acid receptor antagonists for male contraception: current status†

Author

Gunda I. Georg, Debra J. Wolgemuth, M. D. Abdullah Al Noman, Jillian L. Kyzer, and Sanny S.W. Chung

Subjects

0301 basic medicine, male contraception, Receptors, Retinoic Acid, medicine.drug_class, mouse model, retinoic acid receptor, Pharmacology, Male contraceptive agents, Biology, Mice, 03 medical and health sciences, 0302 clinical medicine, medicine, Animals, Humans, Spermatogenesis, Gene knockout, antagonists, 030219 obstetrics & reproductive medicine, selectivity, Dosing regimen, Cell Biology, General Medicine, Contraceptive Special Issue, AcademicSubjects/SCI01070, Receptor antagonist, stomatognathic diseases, Retinoic acid receptor, Contraception, 030104 developmental biology, Reproductive Medicine, Nuclear receptor, Retinoic acid receptor alpha, Murine model, AcademicSubjects/MED00773, structure–activity relationships, Signal Transduction

Abstract

Retinoic acid receptor alpha (RARA), a nuclear receptor protein, has been validated as a target for male contraception by gene knockout studies and also pharmacologically using a pan-retinoic acid receptor antagonist. Retinoic acid receptor alpha activity is indispensable for the spermatogenic process, and therefore its antagonists have potential as male contraceptive agents. This review discusses the effects of systematic dosing regimen modifications of the orally bioavailable and reversible pan-antagonist BMS-189453 as well as studies with the alpha-selective antagonists BMS-189532 and BMS-189614 in a murine model. We also provide an overview of structure–activity studies of retinoic acid receptor alpha antagonists that provide insight for the design of novel alpha-selective ligands., Fertility studies with retinoic acid receptor antagonists in male mice and the current state of RARA-selective antagonist development are reviewed.

Published

2020

3. Functions of cyclins and CDKs in mammalian gametogenesis†

Author

P. Jeremy Wang, Debra J. Wolgemuth, and Jessica Y Chotiner

Subjects

Male, 0301 basic medicine, Cell division, Reviews, Gametogenesis, Mice, 03 medical and health sciences, 0302 clinical medicine, Meiosis, Cyclin-dependent kinase, Cyclins, Animals, Humans, Mitosis, Cyclin, Mammals, Cyclin-dependent kinase 1, biology, Cell Biology, General Medicine, Cell cycle, Embryo, Mammalian, Cyclin-Dependent Kinases, Cell biology, Germ Cells, 030104 developmental biology, Reproductive Medicine, 030220 oncology & carcinogenesis, biology.protein, Female

Abstract

Cyclins and cyclin-dependent kinases (CDKs) are key regulators of the cell cycle. Most of our understanding of their functions has been obtained from studies in single-cell organisms and mitotically proliferating cultured cells. In mammals, there are more than 20 cyclins and 20 CDKs. Although genetic ablation studies in mice have shown that most of these factors are dispensable for viability and fertility, uncovering their functional redundancy, CCNA2, CCNB1, and CDK1 are essential for embryonic development. Cyclin/CDK complexes are known to regulate both mitotic and meiotic cell cycles. While some mechanisms are common to both types of cell divisions, meiosis has unique characteristics and requirements. During meiosis, DNA replication is followed by two successive rounds of cell division. In addition, mammalian germ cells experience a prolonged prophase I in males or a long period of arrest in prophase I in females. Therefore, cyclins and CDKs may have functions in meiosis distinct from their mitotic functions and indeed, meiosis-specific cyclins, CCNA1 and CCNB3, have been identified. Here, we describe recent advances in the field of cyclins and CDKs with a focus on meiosis and early embryogenesis.

Published

2019

4. Distinct Regions of the Mouse Cyclin A1 Gene, Ccna1, Confer Male Germ-Cell Specific Expression and Enhancer Function1

Author

Debra J. Wolgemuth and Karen M. Lele

Subjects

Regulation of gene expression, Reporter gene, Reproductive Medicine, Consensus sequence, Promoter, Cell Biology, General Medicine, Biology, Enhancer, Molecular biology, Gene, Cyclin A1, Transcription factor

Abstract

The gene encoding mouse cyclin A1, Ccna1, is expressed at highest levels in late pachytene-diplotene spermatocytes, where it is required for meiotic cell division. To begin to understand the mechanisms responsible for its highly restricted pattern of expression, transgenic mouse lines carrying constructs consisting of the cyclin A1 regulatory region fused with the reporter gene lacZ were generated. Analysis of tissue-specific and testicular cell-type-specific transgene expression indicated that sequences within -1.3 kilobases (kb) of the cyclin A1 putative transcriptional start site were sufficient to direct transgene expression uniquely to late spermatocytes while maintaining repression in other tissues. However, sequences located between -4.8 kb and -1.3 kb of the putative transcriptional start site were apparently required to transcribe the reporter at levels needed for consistent X-gal staining. Comparison of the mouse, rat, and human proximal promoters revealed regions of high sequence conservation and consensus sequences both for known transcription factors, some of which are coexpressed with Ccna1, such as A-myb and Hsf2, and for elements that control expression of genes in somatic cell cycles, such as CDE, CHR, and CCAAT elements. Thus, the promoter region within 1.3 kb upstream of the putative Ccna1 transcriptional start can direct expression of lacZ to spermatocytes, while sequences located between -4.8 kb and -1.3 kb of the putative transcriptional start site may enhance expression of lacZ.

Published

2004

5. Distinct regions of the mouse cyclin A1 gene, Ccna1, confer male germ-cell specific expression and enhancer function

Author

Karen M, Lele and Debra J, Wolgemuth

Subjects

Male, Base Sequence, Transcription, Genetic, Cell Cycle, Molecular Sequence Data, Mice, Transgenic, Cyclin A, beta-Galactosidase, Meiosis, Mice, Germ Cells, Gene Expression Regulation, Organ Specificity, Testis, Animals, Cyclin A1, Spermatogenesis, Sequence Alignment

Abstract

The gene encoding mouse cyclin A1, Ccna1, is expressed at highest levels in late pachytene-diplotene spermatocytes, where it is required for meiotic cell division. To begin to understand the mechanisms responsible for its highly restricted pattern of expression, transgenic mouse lines carrying constructs consisting of the cyclin A1 regulatory region fused with the reporter gene lacZ were generated. Analysis of tissue-specific and testicular cell-type-specific transgene expression indicated that sequences within -1.3 kilobases (kb) of the cyclin A1 putative transcriptional start site were sufficient to direct transgene expression uniquely to late spermatocytes while maintaining repression in other tissues. However, sequences located between -4.8 kb and -1.3 kb of the putative transcriptional start site were apparently required to transcribe the reporter at levels needed for consistent X-gal staining. Comparison of the mouse, rat, and human proximal promoters revealed regions of high sequence conservation and consensus sequences both for known transcription factors, some of which are coexpressed with Ccna1, such as A-myb and Hsf2, and for elements that control expression of genes in somatic cell cycles, such as CDE, CHR, and CCAAT elements. Thus, the promoter region within 1.3 kb upstream of the putative Ccna1 transcriptional start can direct expression of lacZ to spermatocytes, while sequences located between -4.8 kb and -1.3 kb of the putative transcriptional start site may enhance expression of lacZ.

Published

2004