Your search keyword '"Scott A. Coonrod"' showing total 121 results

101. SAMP14, a novel, acrosomal membrane-associated, glycosylphosphatidylinositol-anchored member of the Ly-6/urokinase-type plasminogen activator receptor superfamily with a role in sperm-egg interaction

Author

Erin M. Farris, John C. Herr, Jagathpala Shetty, Scott A. Coonrod, V. Anne Westbrook, Charles J. Flickinger, Friederike L. Jayes, Alan B. Diekman, Kenneth L. Klotz, Michael J. Wolkowicz, Zhonglin Hao, and Laura Digilio

Subjects

Male, Glycosylphosphatidylinositols, Immunoelectron microscopy, Acrosome reaction, Blotting, Western, Molecular Sequence Data, Receptors, Cell Surface, Biology, Acrosomal matrix, Biochemistry, Antibodies, Rats, Sprague-Dawley, Mice, Species Specificity, Cricetinae, Animals, Antigens, Ly, Humans, Amino Acid Sequence, Microscopy, Immunoelectron, Molecular Biology, Sperm-Ovum Interactions, Membrane Glycoproteins, Base Sequence, Sequence Homology, Amino Acid, Membrane Proteins, Cell Biology, Acrosomal membrane, Molecular biology, Sperm, Urokinase-Type Plasminogen Activator, Rats, Urokinase receptor, Rats, Inbred Lew, Fertilization, Multigene Family, Female, Inner acrosomal membrane, Plasminogen activator, Acrosome

Abstract

We report a new member of the Ly-6/urokinase-type plasminogen activator receptor (uPAR) superfamily of receptors, SAMP14, which is retained on the inner acrosomal membrane of the human spermatozoan following the acrosome reaction and may play a role in fertilization. The SAMP14 sequence predicted a glycosylphosphatidylinositol (GPI)-anchored protein with a signal peptide, a transmembrane domain near the carboxyl terminus, and a putative transamidase cleavage site in the proprotein. Attachment of SAMP14 to the membrane by a lipid anchor was confirmed by its sensitivity to phosphatidylinositol phospholipase C. SAMP14 has a single functional domain similar to the Ly-6 and urokinase plasminogen activator receptor superfamily of proteins, and the gene mapped to 19q13.33, near the PLAUR locus for uPAR at 19q13.2. Northern and dot blotting showed that SAMP14 expression was testis-specific. Indirect immunofluorescence and immunoelectron microscopy with antisera to purified recombinant SAMP14 localized the protein to outer and inner acrosomal membranes as well as the acrosomal matrix of ejaculated human sperm. Acrosome-reacted sperm demonstrated SAMP14 immunofluorescence, indicating its retention on the inner acrosomal membrane following the acrosome reaction. However, SAMP14 localized to the entire sperm when unwashed swim-up sperm from the ejaculate were stained, indicating that some SAMP14 is loosely associated with the plasma membrane. Antibodies against recombinant SAMP14 inhibited both the binding and the fusion of human sperm to zona free hamster eggs, suggesting that SAMP14 may have a role in sperm-egg interaction. SAMP14 represents a GPI-anchored putative receptor in the Ly-6/uPAR family that is exposed on the inner acrosomal membrane after the acrosome reaction.

Published

2003

102. ePAD, an oocyte and early embryo-abundant peptidylarginine deiminase-like protein that localizes to egg cytoplasmic sheets

Author

Paul W. Wright, Laura C. Bolling, Olga F. Sarmento, Eileen Samy, Nicholas E. Sherman, Margaret C Shea, Margaretta Allietta, Prabhakara P. Reddi, Elizabeth V Berkeley, Leigh Ann Bush, Jagathpala Shetty, Kenneth S. K. Tung, Friederike C Jayes, Scott A. Coonrod, Amy N Shore, Meredith E. K. Calvert, Zhonglin Hao, and John C. Herr

Subjects

Male, DNA, Complementary, Hydrolases, Immunoelectron microscopy, Cleavage Stage, Ovum, Molecular Sequence Data, Egg protein, Biology, 03 medical and health sciences, Mice, 0302 clinical medicine, Protein-Arginine Deiminase Type 4, Antibody Specificity, Pregnancy, Complementary DNA, medicine, Animals, Amino Acid Sequence, Cloning, Molecular, Microscopy, Immunoelectron, Peptide sequence, Molecular Biology, In Situ Hybridization, 030304 developmental biology, 0303 health sciences, Mice, Inbred ICR, Base Sequence, Sequence Homology, Amino Acid, cDNA library, Ovary, Gene Expression Regulation, Developmental, Embryo, Cell Biology, Oocyte, Molecular biology, Recombinant Proteins, medicine.anatomical_structure, Solubility, 030220 oncology & carcinogenesis, Oocytes, Protein-Arginine Deiminases, Protein-Arginine Deiminase Type-4, Female, Developmental Biology

Abstract

Selected for its high relative abundance, a protein spot of MW approximately 75 kDa, pI 5.5 was cored from a Coomassie-stained two-dimensional gel of proteins from 2850 zona-free metaphase II mouse eggs and analyzed by tandem mass spectrometry (TMS), and novel microsequences were identified that indicated a previously uncharacterized egg protein. A 2.4-kb cDNA was then amplified from a mouse ovarian adapter-ligated cDNA library by RACE-PCR, and a unique 2043-bp open reading frame was defined encoding a 681-amino-acid protein. Comparison of the deduced amino acid sequence with the nonredundant database demonstrated that the protein was approximately 40% identical to the calcium-dependent peptidylarginine deiminase (PAD) enzyme family. Northern blotting, RT-PCR, and in situ hybridization analyses indicated that the protein was abundantly expressed in the ovary, weakly expressed in the testis, and absent from other tissues. Based on the homology with PADs and its oocyte-abundant expression pattern, the protein was designated ePAD, for egg and embryo-abundant peptidylarginine deiminase-like protein. Anti-recombinant ePAD monospecific antibodies localized the molecule to the cytoplasm of oocytes in primordial, primary, secondary, and Graafian follicles in ovarian sections, while no other ovarian cell type was stained. ePAD was also expressed in the immature oocyte, mature egg, and through the blastocyst stage of embryonic development, where expression levels began to decrease. Immunoelectron microscopy localized ePAD to egg cytoplasmic sheets, a unique keratin-containing intermediate filament structure found only in mammalian eggs and in early embryos, and known to undergo reorganization at critical stages of development. Previous reports that PAD-mediated deimination of epithelial cell keratin results in cytoskeletal remodeling suggest a possible role for ePAD in cytoskeletal reorganization in the egg and early embryo.

Published

2003

103. SLLP1, a unique, intra-acrosomal, non-bacteriolytic, c lysozyme-like protein of human spermatozoa

Author

Arabinda, Mandal, Kenneth L, Klotz, Jagathpala, Shetty, Friederike L, Jayes, Michael J, Wolkowicz, Laura C, Bolling, Scott A, Coonrod, Michael B, Black, Alan B, Diekman, Timothy A J, Haystead, Charles J, Flickinger, and John C, Herr

Subjects

Adult, Male, Sperm-Ovum Interactions, Isoantigens, DNA, Complementary, Blotting, Western, Seminal Plasma Proteins, Oligosaccharides, In Vitro Techniques, Blotting, Northern, Spermatozoa, Antibodies, Recombinant Proteins, Acetylglucosamine, Molecular Weight, Microscopy, Electron, Escherichia coli, Humans, Electrophoresis, Polyacrylamide Gel, Female, Muramidase, Cloning, Molecular, Acrosome, Sperm Capacitation

Abstract

We report the presence of a unique, non-bacteriolytic, c (chicken or conventional type) lysozyme-like protein, SLLP1, in the acrosome of human sperm. C lysozymes are bacteriolytic and can also bind to N-acetylglucosamines linked by beta-1,4 glycosidic bonds. Most of the invariant residues (17 out of 20), including all the cysteines, were conserved in SLLP1, but the two catalytic residues E35 and D52 of c lysozymes were replaced with T and N, respectively. The full-length cDNA encodes a protein of 215 aa with a predicted protease cleavage site between A87 and K88. The processed form of SLLP1, which showed an exon-intron organization similar to human c lysozyme, was the major isoform in the acrosome of ejaculated sperm. As expected, based on its sequence, the mature protein secreted from yeast showed no bacteriolytic activity. A significant decrease (54%, Por = 0.001) in the number of sperm bound to zona-free hamster eggs was observed in the presence of antisera to recombinant SLLP1. SLLP1 mRNA (size, approximately 1 kb) appeared to be expressed only in the testis and in the Burkitt lymphoma Raji cell line. The gene SPACA3 encodes SLLP1 and contains five exons at locus 17q11.2. Because of its typical c lysozyme-like sequence, genomic organization, conservation of putative substrate-binding sites even in the absence of catalytic residues, and localization in the acrosomal matrix, we hypothesize that, after acrosome reaction, SLLP1 could be a potential receptor for the egg oligosaccharide residue N-acetylglucosamine, which is present in the extracellular matrix over the egg plasma membrane, within the perivitelline space, pores of zona pellucida, and cumulus layers.

Published

2003

104. TACC3 expression and localization in the murine egg and ovary

Author

Scott A. Coonrod, Amy N Shore, Buer Sen, Zhonglin Hao, John C. Herr, Anne Westbrook, Charles J. Flickinger, and Mark H. Stoler

Subjects

Male, Proteome, Cytoplasmic polyadenylation element, Molecular Sequence Data, Biology, CPEB, Mice, Gene expression, Testis, Genetics, Animals, Protein Isoforms, Electrophoresis, Gel, Two-Dimensional, Northern blot, Amino Acid Sequence, Cellular localization, In Situ Hybridization, Ovum, Germinal vesicle, Base Sequence, cDNA library, Binding protein, Ovary, Cell Biology, Molecular biology, Alternative Splicing, biology.protein, Female, Microtubule-Associated Proteins, Sequence Alignment, Developmental Biology

Abstract

A protein spot cored from a silver-stained two dimensional (2D) gel of germinal vesicle stage immature mouse oocytes was identified as Transforming Acidic Coiled Coil containing protein (TACC3) by tandem mass spectrometry. PCR amplification revealed two alternatively spliced forms, Tacc3a and Tacc3b, in mouse ovarian cDNA libraries. TACC3a encoded a 630 aa protein with a predicted mass of 70 kDa. It contained seven 24 aa repeats at the N-terminus and two coiled-coil domains at the C-terminus. TACC3b encoded a 426 aa protein with a predicted mass of 49 kDa also containing two coiled coil domains, but lacking the 168 aa repeat region. In addition to homology to the TACC family members, murine TACC3 also showed 35.7% identity to the Xenopus protein, Maskin, a cytoplasmic polyadenylation element binding protein (CPEB)-associated factor. Northern blot analysis demonstrated that TACC3a is abundantly expressed in adult testis and spleen and is moderately expressed in the ovary, heart, and lung, suggesting a wide tissue distribution. Both myc-tagged TACC3a and TACC3b targeted to the cytoplasm of transiently transfected CV-1 cells. In situ hybridization of mouse ovarian tissue sections displayed abundant expression of TACC3 specifically in the cytoplasm of growing oocytes, but not in primordial or atretic follicles. This pattern of expression suggests that TACC3 is expressed in ovarian cells undergoing active growth and development.

Published

2002

105. Male Sexual Dysfunction in Mice Bearing Targeted Mutant Alleles of the PEA3 ets Gene

Author

Michael A. Laing, Michael A. Rudnicki, John A. Hassell, Scott A. Coonrod, Barry T. Hinton, John W. Downie, and Richard Tozer

Subjects

Male, Mutant, Mice, Transgenic, Biology, Genitalia, Male, In Vitro Techniques, Cell Line, Mice, Phenylephrine, Transcription (biology), Gene expression, Testis, Mammalian Genetic Models with Minimal or Complex Phenotypes, Animals, Humans, Molecular Biology, Transcription factor, Gene, Infertility, Male, Genetics, Epididymis, Chimera, Penile Erection, Stem Cells, Gene targeting, Promoter, Cell Biology, DNA-binding domain, Fibroblasts, Embryo, Mammalian, Spermatozoa, Acetylcholine, Cell biology, body regions, Blotting, Southern, Gene Targeting, Mutation, RNA, Female, Adrenergic alpha-Agonists, Penis, Transcription Factors

Abstract

The ets genes, which currently comprise nearly 30 paralogs in mammals, encode transcription factors bearing conserved sequence-related DNA binding domains (the ETS domain) (16). Ets proteins are capable of regulating transcription by binding to sites in the promoters of their cognate target genes. DNA binding is achieved by interaction between the ETS domain and an ∼10-bp sequence element termed the Ets binding site (EBS) comprising a highly conserved core sequence, 5′-GGA(A/T)-3′. Individual Ets proteins demonstrate specificity for sequences flanking this core, but it is not uncommon for different Ets proteins to bind to the same EBS. PEA3 (36) is the founding member of a subfamily of Ets proteins, which also includes ER81 (6) and ERM (11, 26). Members of this subfamily possess nearly identical ETS domains and harbor additional regions of sequence similarity. Analyses of the transcriptional properties of individual PEA3 subfamily members reveal that they commonly activate transcription (6, 11, 26, 36). Whereas few bona fide PEA3 target genes have been identified, transient-transfection studies suggest that PEA3 is capable of regulating the transcription of genes whose products facilitate cell motility and invasion (reviewed in reference 13). PEA3 is expressed in a spatially and temporally restricted pattern during mouse development in cells derived from each of the three germ layers and in regions of the embryo undergoing cellular proliferation and migration (11). PEA3 appears to be preferentially expressed at sites of epithelium-mesenchyma interactions. In the developing chick, PEA3 is selectively expressed in specific classes of motor neurons and corresponding muscle afferent sensory neurons at limb levels of the spinal cord (24). PEA3 expression by both motor and sensory neurons is governed by signals derived from the limb muscle. In adult mice PEA3 RNA is most abundant in the brain and epididymis (36). Overexpression of PEA3 is associated with breast cancer in both humans and mice, suggesting a role for PEA3 in this malignancy (3, 34). Seventy-six percent of all human breast tumors contain elevated levels of PEA3 RNA; 93% of the c-ERB-B2 (also known as HER2)-positive subclass of these tumors overexpress PEA3 (3). PEA3 is also overexpressed in all mouse mammary tumors arising in transgenic mice engineered to overexpress murine c-Erb-B2 (also known as Her2) in their mammary glands (34). These findings suggest the possibility that PEA3 plays a role in mammary oncogenesis or its progression. To assess the role of the PEA3 gene in embryonic development, adult physiology, and oncogenesis, we introduced a loss-of-function mutation in this gene in the mouse germ line. PEA3 mutant mice were viable, but analyses of males revealed an unexpected role for the protein in male sexual function.

Published

2000

106. Role of the integrin-associated protein CD9 in binding between sperm ADAM 2 and the egg integrin α6β1: Implications for murine fertilization

Author

Yuji Takahashi, Scott A. Coonrod, Judith M. White, Dora Bigler, Alice Chang, Kenneth S. K. Tung, Yoshio Yamashita, John C. Herr, Paul W. Kincade, and Michellee S. Chen

Subjects

Male, endocrine system, Integrins, animal structures, Integrin, Uterus, Plasma protein binding, Models, Biological, Tetraspanin 29, Mice, Ovarian Follicle, Antigens, CD, Disintegrin, medicine, Animals, Ovum, Mice, Inbred ICR, Multidisciplinary, Membrane Glycoproteins, biology, Integrin alpha6beta1, urogenital system, Metalloendopeptidases, Biological Sciences, Sperm, ADAM Proteins, Molecular biology, Immunohistochemistry, Precipitin Tests, Spermatozoa, Epithelium, Mice, Inbred C57BL, medicine.anatomical_structure, Fertilins, Fertilization, embryonic structures, biology.protein, Oviduct, Female, Protein Binding

Abstract

CD9 is a tetraspan protein that associates with several beta1 integrins, including alpha6beta1. Because alpha6beta1 is present on murine eggs and interacts with the sperm-surface glycoprotein ADAM 2 (fertilin beta), we first asked whether CD9 is present on murine eggs and whether it functions in sperm-egg binding and fusion. CD9 is present on the plasma membrane of oocytes in the ovary as well as on eggs isolated from the oviduct. The anti-CD9 mAb, JF9, potently inhibits sperm-egg binding and fusion in vitro in a dose-dependent manner. JF9 also disrupts binding of fluorescent beads coated with native fertilin or a recombinant fertilin beta disintegrin domain. (Both ligands bind to the egg via alpha6beta1.) Immunohistochemistry showed that CD9 is undetectable in the uterine epithelium, appears basolaterally and as prominent apical patches on the epithelium in the region between the uterus and the oviduct, and then persists apically in the oviduct. The integrin alpha6A subunit is found in similar apical patches in the region between the uterus and oviduct, but is confined to the basal aspect of the epithelium in the uterus and oviduct. Hence, alpha6A and CD9 both are expressed on the apical epithelial surface at the uterine-oviduct junction. These findings correlate with the observation that fertilin beta "knockout" sperm traverse the uterus but do not progress into the oviduct, contributing to the infertility of fertilin beta(-/-) male mice. Our results suggest that high-avidity binding between fertilin beta (ADAM 2) and alpha6beta1 requires cooperation between alpha6beta1 and CD9. Such cooperation may assist sperm passage into the oviduct as well as sperm-egg interactions.

Published

1999

107. Correction for Stadler et al., Dysregulation of PAD4-mediated citrullination of nuclear GSK3β activates TGF-β signaling and induces epithelial-to-mesenchymal transition in breast cancer cells

Author

John S. Condeelis, Sunish Mohanan, Sonja C. Stadler, Brian D. Cherrington, Joseph J. Wakshlag, C. Theresa Vincent, Xuesen Zhang, Scott A. Coonrod, Anthony M. C. Brown, Benjamin A. Garcia, Barry M. Zee, Victor D. Fedorov, C. David Allis, and Antonia Patsialou

Subjects

Multidisciplinary, Tgf β signaling, Transition (genetics), business.industry, Immunology, Mesenchymal stem cell, Cancer research, Citrullination, Medicine, Breast cancer cells, business, Corrections

Published

2013

108. Regulation of Organelle Redistribution by PADI6 and the Cytoplasmic Lattices During Mouse Oocyte Maturation

Author

Rui Kan, Piraye Yurttas, and Scott A. Coonrod

Subjects

medicine.anatomical_structure, Reproductive Medicine, Cytoplasm, Organelle, medicine, Redistribution (chemistry), Cell Biology, General Medicine, Biology, Oocyte, Cell biology

Published

2010

109. Role for MATER in Cytoplasmic Lattice Formation in Murine Oocytes

Author

Lynne J. Anguish, Lawrence M. Nelson, Scott A. Coonrod, Boram Kim, and Rui Kan

Subjects

Crystallography, Reproductive Medicine, Cytoplasm, Lattice (order), Cell Biology, General Medicine, Biology

Published

2010

110. Potential Role for MATER in Cytoplasmic Lattice Formation in Murine Oocytes

Author

Scott A. Coonrod, Lynne J. Anguish, Lawrence M. Nelson, Boram Kim, and Rui Kan

Subjects

musculoskeletal diseases, Cytoplasm, Developmental Biology/Germ Cells, Hydrolases, Mutant, Egg protein, lcsh:Medicine, Protein-Arginine Deiminase Type 6, 03 medical and health sciences, 0302 clinical medicine, Developmental Biology/Developmental Molecular Mechanisms, medicine, Animals, Antigens, lcsh:Science, Developmental Biology/Embryology, 030304 developmental biology, 0303 health sciences, 030219 obstetrics & reproductive medicine, Multidisciplinary, Germinal vesicle, integumentary system, Chemistry, Egg Proteins, lcsh:R, Embryogenesis, Embryo, musculoskeletal system, Oocyte, Developmental Biology/Stem Cells, Transport protein, Cell biology, Protein Transport, medicine.anatomical_structure, nervous system, Immunology, Oocytes, Protein-Arginine Deiminases, Female, lcsh:Q, Research Article

Abstract

Background Mater and Padi6 are maternal effect genes that are first expressed during oocyte growth and are required for embryonic development beyond the two-cell stage in the mouse. We have recently found that PADI6 localizes to, and is required for the formation of, abundant fibrillar Triton X-100 (Triton) insoluble structures termed the oocyte cytoplasmic lattices (CPLs). Given their similar expression profiles and mutant mouse phenotypes, we have been testing the hypothesis that MATER also plays a role in CPL formation and/or function. Methodology/Findings Herein, we show that PADI6 and MATER co-localize throughout the oocyte cytoplasm following Triton extraction, suggesting that MATER co-localizes with PADI6 at the CPLs. Additionally, the solubility of PADI6 was dramatically increased in Matertm/tm oocytes following Triton extraction, suggesting that MATER is involved in CPL nucleation. This prediction is supported by transmission electron microscopic analysis of Mater+/+ and Matertm/tm germinal vesicle stage oocytes which illustrated that volume fraction of CPLs was reduced by 90% in Matertm/tm oocytes compared to Mater+/+ oocytes. Conclusions Taken together, these results suggest that, similar to PADI6, MATER is also required for CPL formation. Given that PADI6 and MATER are essential for female fertility, these results not only strengthen the hypothesis that the lattices play a critical role in mediating events during the oocyte-to-embryo transition but also increase our understanding of the molecular nature of the CPLs.

Published

2010

111. Role for PADI6 and the Cytoplasmic Lattices in Tubulin Storage and Meiotic Spindle Assembly in Mouse Oocytes

Author

Scott A. Coonrod, Boram Kim, Rui Kan, and Piraye Yurttas

Subjects

Tubulin, Reproductive Medicine, biology, Cytoplasm, biology.protein, Meiotic spindle assembly, Cell Biology, General Medicine, Cell biology

Published

2009

112. Histone hypercitrullination mediates chromatin decondensation and neutrophil extracellular trap formation

Author

Hyunsil Han, Sergei A. Grigoryev, Yanming Wang, Pingxin Li, Scott A. Coonrod, C. David Allis, Sonja C. Stadler, Lauriebeth Leonelli, Ming‐ming Li, Ryo Hayama, Danchen Wang, and Sarah Correll

Subjects

Hydrolases, Neutrophils, Immunology, HL-60 Cells, Chromatin remodeling, Histones, 03 medical and health sciences, 0302 clinical medicine, Protein-Arginine Deiminase Type 4, Histone H1, Report, Histone methylation, Histone H2A, Humans, Immunology and Allergy, Research Articles, 030304 developmental biology, 0303 health sciences, biology, Tumor Necrosis Factor-alpha, 030302 biochemistry & molecular biology, Cell Biology, Molecular biology, Chromatin, 3. Good health, Histone citrullination, Histone, 030220 oncology & carcinogenesis, Histone methyltransferase, Protein-Arginine Deiminases, biology.protein, Citrulline, Granulocytes

Abstract

Peripheral blood neutrophils form highly decondensed chromatin structures, termed neutrophil extracellular traps (NETs), that have been implicated in innate immune response to bacterial infection. Neutrophils express high levels of peptidylarginine deiminase 4 (PAD4), which catalyzes histone citrullination. However, whether PAD4 or histone citrullination plays a role in chromatin structure in neutrophils is unclear. In this study, we show that the hypercitrullination of histones by PAD4 mediates chromatin decondensation. Histone hypercitrullination is detected on highly decondensed chromatin in HL-60 granulocytes and blood neutrophils. The inhibition of PAD4 decreases histone hypercitrullination and the formation of NET-like structures, whereas PAD4 treatment of HL-60 cells facilitates these processes. The loss of heterochromatin and multilobular nuclear structures is detected in HL-60 granulocytes after PAD4 activation. Importantly, citrullination of biochemically defined avian nucleosome arrays inhibits their compaction by the linker histone H5 to form higher order chromatin structures. Together, these results suggest that histone hypercitrullination has important functions in chromatin decondensation in granulocytes/neutrophils.

Published

2009

113. Epigenetic Reprogramming in the Murine Egg and Early Embryo

Author

Scott A. Coonrod

Subjects

Reproductive Medicine, Embryo, Cell Biology, General Medicine, Biology, Reprogramming, Cell biology

Published

2008

114. Histone arginine methylation and its dynamic regulation

Author

Scott A. Coonrod, C.D. Allis, and Joanna Wysocka

Subjects

Transcriptional Activation, Protein-Arginine N-Methyltransferases, Transcription, Genetic, Hydrolases, Molecular Sequence Data, Biology, Arginine, Methylation, Models, Biological, Catalysis, Histones, Adenosine Triphosphate, Protein-Arginine Deiminase Type 4, Histone arginine methylation, Histone methylation, Histone H2A, Animals, Humans, Amino Acid Sequence, Protein Methyltransferases, Cancer epigenetics, Promoter Regions, Genetic, Epigenomics, Cell Nucleus, Histone deacetylase 2, EZH2, Cell biology, Gene Expression Regulation, Histone methyltransferase, Protein-Arginine Deiminases, Signal Transduction

Abstract

Methylation of histones by protein arginine methyltransferases (PRMTs) is increasingly being found to play an important and dynamic role in gene regulation. In mammals, PRMT1- and CARM1-catalyzed histone asymmetric dimethyl-arginine is involved in gene activation while PRMT5-catalyzed histone symmetric dimethyl-arginine is associated with gene repression. Insight into mechanisms by which histone arginine methylation can be dynamically regulated comes from recent reports demonstrating that conversion of histone methylarginine residues to citrulline by peptidylarginine deiminase 4 (PADI4) leads to transcriptional repression. While the downstream cellular effects of histone arginine methylation remain poorly understood, recent findings indicate that protein arginine methylation, in general, is required for mammalian development and is also likely important for cellular proliferation and differentiation. Given the surge of interest in histone arginine methylation, this review article will focus on recent progress in this area.

Published

2006

115. Destruction of zona pellucida of ovulated oocytes by anti-ZP3 antibodies: a potential mechanism of ZP-based contraceptive vaccine

Author

Scott A. Coonrod, Kenneth S. K. Tung, Yahuan Lou, and Wick Kramer

Subjects

Andrology, medicine.anatomical_structure, Reproductive Medicine, biology, Immunology, medicine, biology.protein, Obstetrics and Gynecology, Immunology and Allergy, Antibody, Zona pellucida, Potential mechanism

Published

1997

116. A bi-stable feedback loop between GDNF, EGR1, and ERα contribute to endocrine resistant breast cancer.

Author

Sachi Horibata, Edward J Rice, Hui Zheng, Chinatsu Mukai, Tinyi Chu, Brooke A Marks, Scott A Coonrod, and Charles G Danko

Subjects

Medicine, Science

Abstract

Discovering regulatory interactions between genes that specify the behavioral properties of cells remains an important challenge. We used the dynamics of transcriptional changes resolved by PRO-seq to identify a regulatory network responsible for endocrine resistance in breast cancer. We show that GDNF leads to endocrine resistance by switching the active state in a bi-stable feedback loop between GDNF, EGR1, and the master transcription factor ERα. GDNF stimulates MAP kinase, activating the transcription factors SRF and AP-1. SRF initiates an immediate transcriptional response, activating EGR1 and suppressing ERα. Newly translated EGR1 protein activates endogenous GDNF, leading to constitutive GDNF and EGR1 up-regulation, and the sustained down-regulation of ERα. Endocrine resistant MCF-7 cells are constitutively in the GDNF-high/ ERα-low state, suggesting that the state in the bi-stable feedback loop may provide a 'memory' of endocrine resistance. Thus, we identified a regulatory network switch that contributes to drug resistance in breast cancer.

Published

2018

117. ER-positive breast cancer cells are poised for RET-mediated endocrine resistance.

Author

Sachi Horibata, Edward J Rice, Chinatsu Mukai, Brooke A Marks, Kelly Sams, Hui Zheng, Lynne J Anguish, Scott A Coonrod, and Charles G Danko

Subjects

Medicine, Science

Abstract

The RET tyrosine kinase signaling pathway is involved in the development of endocrine resistant ER+ breast cancer. However, we know little about how ER+ cells activate RET signaling and initiate an endocrine resistant phenotype. Here we show that both ER+ endocrine resistant and sensitive breast cancers have a functional RET tyrosine kinase signaling pathway, but that endocrine sensitive breast cancer cells lack RET ligands that are necessary to drive endocrine resistance. Transcription of one RET ligand, GDNF, is necessary and sufficient to confer resistance in the ER+ MCF-7 cell line. Endogenous GDNF produced by endocrine resistant cells is translated, secreted into the media, and activates RET signaling in nearby cells. In patients, RET ligand expression predicts responsiveness to endocrine therapies and correlates with survival. Collectively, our findings show that ER+ tumor cells are "poised" for RET mediated endocrine resistance, expressing all components of the RET signaling pathway, but endocrine sensitive cells lack high expression of RET ligands that are necessary to initiate the resistance phenotype.

Published

2018

118. Targeted H3R26 deimination specifically facilitates estrogen receptor binding by modifying nucleosome structure.

Author

Michael J Guertin, Xuesen Zhang, Lynne Anguish, Sohyoung Kim, Lyuba Varticovski, John T Lis, Gordon L Hager, and Scott A Coonrod

Subjects

Genetics, QH426-470

Abstract

Transcription factor binding to DNA in vivo causes the recruitment of chromatin modifiers that can cause changes in chromatin structure, including the modification of histone tails. We previously showed that estrogen receptor (ER) target gene activation is facilitated by peptidylarginine deiminase 2 (PAD2)-catalyzed histone H3R26 deimination (H3R26Cit). Here we report that the genomic distributions of ER and H3R26Cit in breast cancer cells are strikingly coincident, linearly correlated, and observed as early as 2 minutes following estradiol treatment. The H3R26Cit profile is unlike that of previously described histone modifications and is characterized by sharp, narrow peaks. Paired-end MNase ChIP-seq indicates that the charge-neutral H3R26Cit modification facilitates ER binding to DNA by altering the fine structure of the nucleosome. Clinically, we find that PAD2 and H3R26Cit levels correlate with ER expression in breast tumors and that high PAD2 expression is associated with increased survival in ER+ breast cancer patients. These findings provide insight into how transcription factors gain access to nucleosomal DNA and implicate PAD2 as a novel therapeutic target for ER+ breast cancer.

Published

2014

119. Potential role for PAD2 in gene regulation in breast cancer cells.

Author

Brian D Cherrington, Xuesen Zhang, John L McElwee, Eric Morency, Lynne J Anguish, and Scott A Coonrod

Subjects

Medicine, Science

Abstract

The peptidylarginine deiminase (PAD) family of enzymes post-translationally convert positively charged arginine residues in substrate proteins to the neutral, non-standard residue citrulline. PAD family members 1, 2, 3, and 6 have previously been localized to the cell cytoplasm and, thus, their potential to regulate gene activity has not been described. We recently demonstrated that PAD2 is expressed in the canine mammary gland epithelium and that levels of histone citrullination in this tissue correlate with PAD2 expression. Given these observations, we decided to test whether PAD2 might localize to the nuclear compartment of the human mammary epithelium and regulate gene activity in these cells. Here we show, for the first time, that PAD2 is specifically expressed in human mammary gland epithelial cells and that a portion of PAD2 associates with chromatin in MCF-7 breast cancer cells. We investigated a potential nuclear function for PAD2 by microarray, qPCR, and chromatin immunoprecipitation analysis. Results show that the expression of a unique subset of genes is disregulated following depletion of PAD2 from MCF-7 cells. Further, ChIP analysis of two of the most highly up- and down-regulated genes (PTN and MAGEA12, respectively) found that PAD2 binds directly to these gene promoters and that the likely mechanism by which PAD2 regulates expression of these genes is via citrullination of arginine residues 2-8-17 on histone H3 tails. Thus, our findings define a novel role for PAD2 in gene expression in human mammary epithelial cells.

Published

2012

120. Genome-wide analysis reveals PADI4 cooperates with Elk-1 to activate c-Fos expression in breast cancer cells.

Author

Xuesen Zhang, Matthew J Gamble, Sonja Stadler, Brian D Cherrington, Corey P Causey, Paul R Thompson, Mark S Roberson, W Lee Kraus, and Scott A Coonrod

Subjects

Genetics, QH426-470

Abstract

Peptidylarginine deiminase IV (PADI4) catalyzes the conversion of positively charged arginine and methylarginine residues to neutrally charged citrulline, and this activity has been linked to the repression of a limited number of target genes. To broaden our knowledge of the regulatory potential of PADI4, we utilized chromatin immunoprecipitation coupled with promoter tiling array (ChIP-chip) analysis to more comprehensively investigate the range of PADI4 target genes across the genome in MCF-7 breast cancer cells. Results showed that PADI4 is enriched in gene promoter regions near transcription start sites (TSSs); and, surprisingly, this pattern of binding is primarily associated with actively transcribed genes. Computational analysis found potential binding sites for Elk-1, a member of the ETS oncogene family, to be highly enriched around PADI4 binding sites; and coimmunoprecipitation analysis then confirmed that Elk-1 physically associates with PADI4. To better understand how PADI4 may facilitate gene transactivation, we then show that PADI4 interacts with Elk-1 at the c-Fos promoter and that, following Epidermal Growth Factor (EGF) stimulation, PADI4 catalytic activity facilitates Elk-1 phosphorylation, histone H4 acetylation, and c-Fos transcriptional activation. These results define a novel role for PADI4 as a transcription factor co-activator.

Published

2011

121. Potential role for MATER in cytoplasmic lattice formation in murine oocytes.

Author

Boram Kim, Rui Kan, Lynne Anguish, Lawrence M Nelson, and Scott A Coonrod

Subjects

Medicine, Science

Abstract

Mater and Padi6 are maternal effect genes that are first expressed during oocyte growth and are required for embryonic development beyond the two-cell stage in the mouse. We have recently found that PADI6 localizes to, and is required for the formation of, abundant fibrillar Triton X-100 (Triton) insoluble structures termed the oocyte cytoplasmic lattices (CPLs). Given their similar expression profiles and mutant mouse phenotypes, we have been testing the hypothesis that MATER also plays a role in CPL formation and/or function.Herein, we show that PADI6 and MATER co-localize throughout the oocyte cytoplasm following Triton extraction, suggesting that MATER co-localizes with PADI6 at the CPLs. Additionally, the solubility of PADI6 was dramatically increased in Mater(tm/tm) oocytes following Triton extraction, suggesting that MATER is involved in CPL nucleation. This prediction is supported by transmission electron microscopic analysis of Mater(+/+) and Mater(tm/tm) germinal vesicle stage oocytes which illustrated that volume fraction of CPLs was reduced by 90% in Mater(tm/tm) oocytes compared to Mater(+/+) oocytes.Taken together, these results suggest that, similar to PADI6, MATER is also required for CPL formation. Given that PADI6 and MATER are essential for female fertility, these results not only strengthen the hypothesis that the lattices play a critical role in mediating events during the oocyte-to-embryo transition but also increase our understanding of the molecular nature of the CPLs.

Published

2010