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51. Determination of the parental origin of sex-chromosome monosomy using restriction fragment length polymorphisms

Author

Hassold, T, Kumlin, E, Takaesu, N, and Leppert, M

Subjects
Genetic Markers, Male, Parents, Polymorphism, Genetic, X Chromosome, Genetic Linkage, Nucleic Acid Hybridization, DNA, DNA Restriction Enzymes, Abortion, Spontaneous, Monosomy, Pregnancy, Humans, Female, Chromosome Deletion, Research Article
Abstract

The parental origin of the single X chromosome in sex-chromosome monosomy was evaluated by comparing restriction fragment length polymorphisms (RFLPs) of 10 spontaneous aborted 45,X conceptions with those of their parents. Seven X-linked marker loci were used, and we were able to specify the origin of the X in nine cases, with six being maternally and three paternally derived. These results demonstrate the efficiency of the technique and show that the single X chromosome in 45,X spontaneous abortions can be derived from either parent.

Published
1985

52. Cytogenetic and molecular analysis of sex-chromosome monosomy

Author

Hassold, T, Benham, F, and Leppert, M

Subjects
Male, Monosomy, X Chromosome, Y Chromosome, Humans, Female, DNA, Chromosome Deletion, Polymorphism, Restriction Fragment Length, Sex Chromosome Aberrations, Research Article, Chromosome Banding
Abstract

X chromosome- and Y chromosome-specific DNA probes were used to study different aspects of the genesis of sex-chromosome monosomy. Using X-linked RFLPs, we studied the parental origin of the single X chromosome in 35 spontaneously aborted and five live-born 45,X conceptions. We determined the origin in 35 cases; 28 had a maternal X (Xm) and seven had a paternal X (Xp). There was a correlation between parental origin and parental age, with the Xp category having a significantly reduced mean maternal age by comparison with the Xm group. Studies aimed at detecting mosaicism demonstrated the presence of a Y chromosome or a second X chromosome in three of 33 spontaneous abortions, a level of mosaicism much lower than that reported for live-born Turner syndrome individuals.

Published
1988

53. Trisomy 21 (Down syndrome): studying nondisjunction and meiotic recombination by using cytogenetic and molecular polymorphisms that span chromosome 21

Author

Stewart, G D, Hassold, T J, Berg, A, Watkins, P, Tanzi, R, and Kurnit, D M

Subjects
Male, Parents, Recombination, Genetic, Chromosomes, Human, Pair 21, Chromosome Mapping, Chromosome Banding, Meiosis, Nondisjunction, Genetic, Karyotyping, Humans, Female, Down Syndrome, Polymorphism, Restriction Fragment Length, Research Article
Abstract

By combining molecular and cytogenetic techniques, we demonstrated the feasibility and desirability of a comprehensive approach to analysis of nondisjunction for chromosome 21. We analyzed the parental origin and stage of meiotic errors resulting in trisomy 21 in each of five families by successfully using cytogenetic heteromorphisms and DNA polymorphisms. The 16 DNA fragments used to detect polymorphisms spanned the length of the long arm and detected recombinational events on nondisjoined chromosomes in both maternal meiosis I and maternal meiosis II errors. The meiotic stage at which errors occurred was determined by sandwiching the centromere between cytogenetic heteromorphisms on 21p and an informative haplotype constructed using two polymorphic DNA probes that map to 21q just below the centromere. This study illustrates the necessity of combining cytogenetic polymorphisms on 21p with DNA polymorphisms spanning 21q to determine (1) the source and stage of meiotic errors that lead to trisomy 21 and (2) whether an association exists between nondisjunction and meiotic recombination.

Published
1988

54. Does the karyotype of a spontaneous abortion predict the karyotype of a subsequent abortion? Evidence from 273 women with two karyotyped spontaneous abortions

Author

Warburton, D, Kline, J, Stein, Z, Hutzler, M, Chin, A, and Hassold, T

Subjects
Adult, Chromosome Aberrations, Risk, Abortion, Habitual, Trisomy, Prognosis, Hawaii, Abortion, Spontaneous, Pregnancy, Karyotyping, embryonic structures, Humans, Female, New York City, reproductive and urinary physiology, Chromosomes, Human, Pair 16, Research Article, Maternal Age
Abstract

At least two spontaneous abortions were karyotyped in 273 women during cytogenetic surveys in New York City and Honolulu. These pairs were analyzed using maximum-likelihood logistic-regression analysis to adjust for maternal age and location. There was a significantly increased risk for a chromosomally normal spontaneous abortion after a previous abortion with a normal karyotype. There was no increased risk for trisomy in a second spontaneous abortion following either a previous trisomic abortion or an abortion with another abnormal karyotype. This is unexpected, given the increased risk for trisomy found among live births and at prenatal diagnosis in young women with a previous trisomic birth. The most likely explanation is that the increased recurrence risk for trisomy is restricted to trisomy for only one or a few chromosomes, for reasons such as parental trisomy mosaicism. These data predict no increased risk of chromosome abnormality in future pregnancies after either (1) spontaneous abortions with trisomies of a kind that are always lethal in utero or (2) multiple early abortions in the presence of normal parental karyotypes.

Published
1987

56. Correlations between Synaptic Initiation and Meiotic Recombination: A Study of Humans and Mice

Author

Jr, Gruhn, Al-Asmar N, Fasnacht R, Maylor-Hagen H, Peinado V, Rubio C, Karl Broman, Pa, Hunt, and Hassold T

Subjects
fungi
Abstract

Meiotic recombination is initiated by programmed double strand breaks (DSBs), only a small subset of which are resolved into crossovers (COs). The mechanism determining the location of these COs is not well understood. Studies in plants, fungi, and insects indicate that the same genomic regions are involved in synaptic initiation and COs, suggesting that early homolog alignment is correlated with the eventual resolution of DSBs as COs. It is generally assumed that this relationship extends to mammals, but little effort has been made to test this idea. Accordingly, we conducted an analysis of synaptic initiation sites (SISs) and COs in human and mouse spermatocytes and oocytes. In contrast to Our expectation, we observed remarkable sex- and species-specific differences, including,pronounced differences between human males and females in both the number and chromosomal location of SISs. Further, the combined data from our studies in mice and humans suggest that the relationship between SISs and COs in mammals is a complex one that is not dictated by the sites of synaptic initiation as reported in other organisms, although it is clearly influenced by them.

58. Maternal Meiosis I Non-Disjunction of Chromosome 15: Dependence of the Maternal Age Effect on Level of Recombination

Author

Robinson, W. P., Kuchinka, B. D., Bernasconi, F., Petersen, M. B., Schulze, A., Brøndum-Nielsen, K., Christian, S. L., Ledbetter, D. H., Schinzel, A. A., Horsthemke, B., Schuffenhauer, S., Michaelis, R. C., Langlois, S., Hassold, T. J., Robinson, W. P., Kuchinka, B. D., Bernasconi, F., Petersen, M. B., Schulze, A., Brøndum-Nielsen, K., Christian, S. L., Ledbetter, D. H., Schinzel, A. A., Horsthemke, B., Schuffenhauer, S., Michaelis, R. C., Langlois, S., and Hassold, T. J.

Abstract

Non-disjoined chromosomes 15 from 115 cases of uniparental disomy (ascertained through Prader-Willi syndrome) and 13 cases of trisomy of maternal origin were densely typed for microsatellite loci spanning chromosome 15q. Of these 128 cases a total of 97 meiosis I (MI) errors, 19 meiosis II (MII) errors and 12 mitotic errors were identified. The genetic length of a map created from the MI errors was 101 cM, as compared with a maternal length of 137 cM based on CEPH controls. No significant differences were detected in the distribution of recombination events along the chromosome arm and a reduction was seen for most of the chromosome 15 intervals examined. It was estimated that 21% of tetrads leading to MI non-disjunction were achiasmate, which may account for most or all of the reduction in recombination noted. The mean age of mothers of cases involving MI errors which showed no transitions from heterodisomy to isodisomy was significantly lower (32.7) than cases showing one or more observable transitions (36.3) (P < 0.003, t-test). However, even among chiasmate pairs the highest mean maternal age was seen for multiple exchange tetrads. Chromosome-specific differences in maternal age effects may be related to the normal distribution of exchanges (and their individual susceptibilities) for each chromosome. However, they may also reflect the presence of multiple factors which act to ensure normal segregation, each affected by maternal age in a different way and varying in importance for each chromosome

60. A cytogenetic study of 1000 spontaneous abortions

Author

HASSOLD, T., primary, CHEN, N., additional, FUNKHOUSER, J., additional, JOOSS, T., additional, MANUEL, B., additional, MATSUURA, J., additional, MATSUYAMA, A., additional, WILSON, C., additional, Yamane, J. A., additional, and JACOBS, P. A., additional

Published
1980
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61. The origin of human triploids

Author

JACOBS, P. A., primary, ANGELL, R. R., additional, BUCHANAN, I. M., additional, HASSOLD, T. J., additional, MATSUYAMA, A. M., additional, and MANUEL, B., additional

Published
1978
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73. The Role of Genetic Counseling in Assisted Reproductive Technologies.

Author

Ilagan, A.B., Hunt, P., Hassold, T., Loret-DeMola, R., Syzanski, S., and Matthews, A.

Abstract

Discusses the abstract of the study 'The Role of Genetic Counseling in Assisted Reproductive Technologies,' presented at the 21st Annual Education Conference of the National Society of Genetic Counselors held in Phoenix, Arizona in November 2002.

Published
2002

74. A specific family of interspersed repeats (SINEs) facilitates meiotic synapsis in mammals

Author

Johnson Matthew E, Rowsey Ross A, Shirley Sofia, VandeVoort Catherine, Bailey Jeffrey, and Hassold Terry

Subjects
Meiosis, Synaptonemal complex, Chromatin Immunoprecipitation (ChIP), SINE, Synapsis, SYCP3, Mouse, Macaque, Genetics, QH426-470
Abstract

Abstract Background Errors during meiosis that affect synapsis and recombination between homologous chromosomes contribute to aneuploidy and infertility in humans. Despite the clinical relevance of these defects, we know very little about the mechanisms by which homologous chromosomes interact with one another during mammalian meiotic prophase. Further, we remain ignorant of the way in which chromosomal DNA complexes with the meiosis-specific structure that tethers homologs, the synaptonemal complex (SC), and whether specific DNA elements are necessary for this interaction. Results In the present study we utilized chromatin immunoprecipitation (ChIP) and DNA sequencing to demonstrate that the axial elements of the mammalian SC are markedly enriched for a specific family of interspersed repeats, short interspersed elements (SINEs). Further, we refine the role of the repeats to specific sub-families of SINEs, B1 in mouse and AluY in old world monkey (Macaca mulatta). Conclusions Because B1 and AluY elements are the most actively retrotransposing SINEs in mice and rhesus monkeys, respectively, our observations imply that they may serve a dual function in axial element binding; i.e., as the anchoring point for the SC but possibly also as a suppressor/regulator of retrotransposition.

Published
2013
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76. Why Public Health Agencies cannot depend on good laboratory practices as a criterion for selecting data: the case of bisphenol A

Author

Taisen Iguchi, Koji Arizono, Gilbert Schoenfelder, Michele Marcus, Frederick S. vom Saal, R. Thomas Zoeller, D. Andrew Crain, Carlos Sonnenschein, Nicolás Olea, Wade V. Welshons, Beverly S. Rubin, John Peterson Myers, Sarah Vogel, Susan Jobling, Cheryl S. Watson, Stefano Parmigiani, Ibrahim Chahoud, Shuk-Mei Ho, Chris E. Talsness, Angel Nadal, Paola Palanza, Theo Colborn, John G. Vandenbergh, Benson T. Akingbemi, Jörg Oehlmann, Hans Laufer, Louis J. Guillette, Patricia A. Hunt, Ana M. Soto, Terry J. Hassold, John A. McLachlan, Scott M. Belcher, Laura N. Vandenberg, Julia A. Taylor, Francesca Farabollini, Jun Kanno, [Myers,JP] Environmental Health Sciences, Charlottesville, Virginia, USA. [vom Saal,FS, Taylor,JA] Division of Biological Sciences, University of Missouri, Columbia, Missouri, USA. [Akingbemi,BT] Department of Anatomy, Physiology and Pharmacology, College of Veterinary Medicine, Auburn University, Auburn, Alabama, USA. [Arizono,K] Faculty of Environmental and Symbiotic Science, Prefectural University of Kumamoto, Tsukide, Kumamoto, Japan. [Belcher,S] Department of Pharmacology and Cell Biophysics, Center for Environmental Genetics, University of Cincinnati, Cincinnati, Ohio, USA. [Colborn,T] The Endocrine Disruption Exchange, Paonia, Colorado, USA. [Chahoud,I] Institut für Klinische Pharmakologie und Toxikologie Charité, Universitätsmedizin Campus Benjamin Franklin, Berlin, Germany Berlin. [Crain,DA] Department of Biology, Maryville College, Maryville, Tennessee, USA. [Farabollini,F] Dipartimento di Fisiologia, Università di Siena, Siena, Italy. [Guillette, LJ Jr] Department of Zoology, University of Florida, Gainesville, Florida, USA. [Hassold,T, Hunt,PA] School of Molecular Biosciences, Washington State University, Pullman, Washington, USA. [Ho,SM] Department of Environmental Health, University of Cincinnati, Cincinnati, Ohio, USA. [Iguchi,T] National Institutes of Natural Science, Okazaki Institute for Integrative Bioscience, Bioenvironmental Science, Okazaki, Japan. [Jobling,S] Department of Biological Sciences, Brunel University, Uxbridge, United Kingdom. [Kanno,J] Division of Cellular and Molecular Toxicology, National Institute of Health Sciences, Tokyo, Japan. [Laufer,H] Department of Molecular and Cell Biology, University of Connecticut, Storrs, Connecticut, USA. [Marcus,M] Department of Epidemiology, Rollins School of Public Health, Emory University, Atlanta, Georgia, USA. [McLachlan,JA] Center for Bioenvironmental Research, Tulane and Xavier Universities, New Orleans, Louisiana, USA. [Nadal,A] Instituto de Bioingeniería and CIBERDEM, Universidad Miguel Hernández de Elche, Alicante, Spain. [Oehlmann,J] Goethe University Frankfurt am Main, Department Aquatic Ecotoxicology, Frankfurt, Germany. [Olea,N] Hospital Clínico, CIBERESP, University of Granada, Granada, Spain. [Palanza,P, Parmigiani,S]Dipartimento di Biologia Evolutiva e Funzionale, Universita’ di Parma, Parma, Italy. [Rubin,BS, Soto,AM, Sonnenschein,C, Vandenberg,LN] Tufts Medical School, Boston, Massachusetts, USA. [Schoenfelder,G, and ] Institute of Pharmacology and Toxicology, University of Wuerzburg, Wuerzburg Germany. [Talsness,CE] Charité University Medical School Berlin, Berlin, Germany. [Vandenbergh,JG] Department of Biology, North Carolina State University, Raleigh, North Carolina, USA. [Vogel,S] Chemical Heritage Foundation, Philadelphia, Pennsylvania, USA. [Watson,CS] Biochemistry and Molecular Biology, University of Texas Medical Branch, Galveston, Texas, USA. [Welshons,WV] Department of Biomedical Sciences, University of Missouri, Columbia, Missouri, USA. [Zoeller,RT]Biology Department Univrsity of Massachusetts, Amhert, Massachusetts,USA.

Subjects
Pathology, Bisphenol A, low-dose, Health, Toxicology and Mutagenesis, bisphenol A, Health Care::Environment and Public Health::Public Health::Epidemiologic Methods::Statistics as Topic::Probability::Risk::Risk Assessment [Medical Subject Headings], GLP, Positive control, Health Care::Environment and Public Health::Public Health::Public Health Practice [Medical Subject Headings], Disruptores Endocrinos, chemistry.chemical_compound, positive control, health care economics and organizations, digestive, oral, and skin physiology, Food and Drug Administration, Analytical, Diagnostic and Therapeutic Techniques and Equipment::Investigative Techniques::Clinical Laboratory Techniques [Medical Subject Headings], Fenoles, endocrine disruptors, Ecotoxicología, Food and Drug Administration (FDA), Risk assessment, FDA, hormones, hormone substitutes, and hormone antagonists, Técnicas de Laboratorio Clínico, medicine.medical_specialty, endocrine system, MEDLINE, Low-dose, Food and drug administration, Disciplines and Occupations::Health Occupations::Pharmacology::Toxicology::Ecotoxicology [Medical Subject Headings], Environmental health, good laboratory practices, nonmonotonic, medicine, Benzhydryl compounds, Endocrine disruptors, urogenital system, business.industry, Public health, Public Health, Environmental and Occupational Health, Chemicals and Drugs::Chemical Actions and Uses::Pharmacologic Actions::Physiological Effects of Drugs::Endocrine Disruptors [Medical Subject Headings], Chemicals and Drugs::Organic Chemicals::Phenols [Medical Subject Headings], Food safety, Práctica de Salud Pública, chemistry, Commentary, Good laboratory practices (GLP), Nonmonotonic, business, Medición de Riesgo
Abstract

This is an Open Access article: verbatim copying and redistribution of this article are permitted in all media for any purpose, provided this notice is preserved along with the article's original DOI., BACKGROUND In their safety evaluations of bisphenol A (BPA), the U.S. Food and Drug Administration (FDA) and a counterpart in Europe, the European Food Safety Authority (EFSA), have given special prominence to two industry-funded studies that adhered to standards defined by Good Laboratory Practices (GLP). These same agencies have given much less weight in risk assessments to a large number of independently replicated non-GLP studies conducted with government funding by the leading experts in various fields of science from around the world. OBJECTIVES We reviewed differences between industry-funded GLP studies of BPA conducted by commercial laboratories for regulatory purposes and non-GLP studies conducted in academic and government laboratories to identify hazards and molecular mechanisms mediating adverse effects. We examined the methods and results in the GLP studies that were pivotal in the draft decision of the U.S. FDA declaring BPA safe in relation to findings from studies that were competitive for U.S. National Institutes of Health (NIH) funding, peer-reviewed for publication in leading journals, subject to independent replication, but rejected by the U.S. FDA for regulatory purposes. DISCUSSION Although the U.S. FDA and EFSA have deemed two industry-funded GLP studies of BPA to be superior to hundreds of studies funded by the U.S. NIH and NIH counterparts in other countries, the GLP studies on which the agencies based their decisions have serious conceptual and methodologic flaws. In addition, the U.S. FDA and EFSA have mistakenly assumed that GLP yields valid and reliable scientific findings (i.e., “good science”). Their rationale for favoring GLP studies over hundreds of publically funded studies ignores the central factor in determining the reliability and validity of scientific findings, namely, independent replication, and use of the most appropriate and sensitive state-of-the-art assays, neither of which is an expectation of industry-funded GLP research. CONCLUSIONS Public health decisions should be based on studies using appropriate protocols with appropriate controls and the most sensitive assays, not GLP. Relevant NIH-funded research using state-of-the-art techniques should play a prominent role in safety evaluations of chemicals.

Published
2009

77. Failure to recombine is a common feature of human oogenesis.

Author

Hassold T, Maylor-Hagen H, Wood A, Gruhn J, Hoffmann E, Broman KW, and Hunt P

Subjects
Adolescent, Adult, Aneuploidy, Chromosomes, Human, Pair 21 genetics, Chromosomes, Human, Pair 22 genetics, Female, Humans, Meiosis genetics, MutL Protein Homolog 1 genetics, Nondisjunction, Genetic genetics, Oocytes physiology, Pregnancy, Young Adult, Oogenesis genetics, Recombination, Genetic genetics
Abstract

Failure of homologous chromosomes to recombine is arguably the most important cause of human meiotic nondisjunction, having been linked to numerous autosomal and sex chromosome trisomies of maternal origin. However, almost all information on these "exchangeless" homologs has come from genetic mapping studies of trisomic conceptuses, so the incidence of this defect and its impact on gametogenesis are not clear. If oocytes containing exchangeless homologs are selected against during meiosis, the incidence may be much higher in developing germ cells than in zygotes. To address this, we initiated studies of exchangeless chromosomes in fetal ovarian samples from elective terminations of pregnancy. In total, we examined more than 7,000 oocytes from 160 tissue samples, scoring for the number of foci per cell of the crossover-associated protein MLH1. We identified a surprisingly high level of recombination failure, with more than 7% of oocytes containing at least one chromosome pair that lacked an MLH1 focus. Detailed analyses indicate striking chromosome-specific differences, with a preponderance of MLH1-less homologs involving chromosomes 21 or 22. Further, the effect was linked to the overall level of recombination in the cell, with the presence of one or two exchangeless chromosomes in a cell associated with a 10%-20% reduction in the total number of crossovers. This suggests individuals with lower rates of meiotic recombination are at an increased risk of producing aneuploid offspring., (Copyright © 2020 American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.)

Published
2021
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79. Germline and reproductive tract effects intensify in male mice with successive generations of estrogenic exposure.

Author

Horan TS, Marre A, Hassold T, Lawson C, and Hunt PA

Subjects
Animals, Environmental Exposure, Estrogens toxicity, Female, Germ Cells metabolism, Humans, Male, Meiosis drug effects, Meiosis genetics, Mice, Pregnancy, Prenatal Exposure Delayed Effects genetics, Recombination, Genetic drug effects, Recombination, Genetic genetics, Reproduction drug effects, Testis metabolism, Epigenesis, Genetic, Germ Cells growth & development, Reproduction genetics, Testis growth & development
Abstract

The hypothesis that developmental estrogenic exposure induces a constellation of male reproductive tract abnormalities is supported by experimental and human evidence. Experimental data also suggest that some induced effects persist in descendants of exposed males. These multi- and transgenerational effects are assumed to result from epigenetic changes to the germline, but few studies have directly analyzed germ cells. Typically, studies of transgenerational effects have involved exposing one generation and monitoring effects in subsequent unexposed generations. This approach, however, has limited human relevance, since both the number and volume of estrogenic contaminants has increased steadily over time, intensifying rather than reducing or eliminating exposure. Using an outbred CD-1 mouse model, and a sensitive and quantitative marker of germline development, meiotic recombination, we tested the effect of successive generations of exposure on the testis. We targeted the germline during a narrow, perinatal window using oral exposure to the synthetic estrogen, ethinyl estradiol. A complex three generation exposure protocol allowed us to compare the effects of individual, paternal, and grandpaternal (ancestral) exposure. Our data indicate that multiple generations of exposure not only exacerbate germ cell exposure effects, but also increase the incidence and severity of reproductive tract abnormalities. Taken together, our data suggest that male sensitivity to environmental estrogens is increased by successive generations of exposure.

Published
2017
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80. Inefficient Crossover Maturation Underlies Elevated Aneuploidy in Human Female Meiosis.

Author

Wang S, Hassold T, Hunt P, White MA, Zickler D, Kleckner N, and Zhang L

Subjects
Cell Nucleus genetics, Female, Gametogenesis, Humans, Male, Recombination, Genetic, Aneuploidy, Chromosomes, Human, Meiosis, Sex Characteristics
Abstract

Meiosis is the cellular program that underlies gamete formation. For this program, crossovers between homologous chromosomes play an essential mechanical role to ensure regular segregation. We present a detailed study of crossover formation in human male and female meiosis, enabled by modeling analysis. Results suggest that recombination in the two sexes proceeds analogously and efficiently through most stages. However, specifically in female (but not male), ∼25% of the intermediates that should mature into crossover products actually fail to do so. Further, this "female-specific crossover maturation inefficiency" is inferred to make major contributions to the high level of chromosome mis-segregation and resultant aneuploidy that uniquely afflicts human female oocytes (e.g., giving Down syndrome). Additionally, crossover levels on different chromosomes in the same nucleus tend to co-vary, an effect attributable to global per-nucleus modulation of chromatin loop size. Maturation inefficiency could potentially reflect an evolutionary advantage of increased aneuploidy for human females., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published
2017
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81. Correlations between Synaptic Initiation and Meiotic Recombination: A Study of Humans and Mice.

Author

Gruhn JR, Al-Asmar N, Fasnacht R, Maylor-Hagen H, Peinado V, Rubio C, Broman KW, Hunt PA, and Hassold T

Subjects
Animals, Female, Humans, Male, Mice, Meiosis genetics, Recombination, Genetic, Synapses physiology
Abstract

Meiotic recombination is initiated by programmed double strand breaks (DSBs), only a small subset of which are resolved into crossovers (COs). The mechanism determining the location of these COs is not well understood. Studies in plants, fungi, and insects indicate that the same genomic regions are involved in synaptic initiation and COs, suggesting that early homolog alignment is correlated with the eventual resolution of DSBs as COs. It is generally assumed that this relationship extends to mammals, but little effort has been made to test this idea. Accordingly, we conducted an analysis of synaptic initiation sites (SISs) and COs in human and mouse spermatocytes and oocytes. In contrast to our expectation, we observed remarkable sex- and species-specific differences, including pronounced differences between human males and females in both the number and chromosomal location of SISs. Further, the combined data from our studies in mice and humans suggest that the relationship between SISs and COs in mammals is a complex one that is not dictated by the sites of synaptic initiation as reported in other organisms, although it is clearly influenced by them., (Copyright © 2016 The American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.)

Published
2016
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82. Examining variation in recombination levels in the human female: a test of the production-line hypothesis.

Author

Rowsey R, Gruhn J, Broman KW, Hunt PA, and Hassold T

Subjects
Female, Genome-Wide Association Study, Humans, Oocytes ultrastructure, Genetic Variation, Recombination, Genetic
Abstract

The most important risk factor for human aneuploidy is increasing maternal age, but the basis of this association remains unknown. Indeed, one of the earliest models of the maternal-age effect--the "production-line model" proposed by Henderson and Edwards in 1968--remains one of the most-cited explanations. The model has two key components: (1) that the first oocytes to enter meiosis are the first ovulated and (2) that the first to enter meiosis have more recombination events (crossovers) than those that enter meiosis later in fetal life. Studies in rodents have demonstrated that the first oocytes to enter meiosis are indeed the first to be ovulated, but the association between the timing of meiotic entry and recombination levels has not been tested. We recently initiated molecular cytogenetic studies of second-trimester human fetal ovaries, allowing us to directly examine the number and distribution of crossover-associated proteins in prophase-stage oocytes. Our observations on over 8,000 oocytes from 191 ovarian samples demonstrate extraordinary variation in recombination within and among individuals but provide no evidence of a difference in recombination levels between oocytes entering meiosis early in fetal life and those entering late in fetal life. Thus, our data provide a direct test of the second tenet of the production-line model and suggest that it does not provide a plausible explanation for the human maternal-age effect, meaning that-45 years after its introduction-we can finally conclude that the production-line model is not the basis for the maternal-age effect on trisomy., (Copyright © 2014 The American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.)

Published
2014
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83. Variation in genome-wide levels of meiotic recombination is established at the onset of prophase in mammalian males.

Author

Baier B, Hunt P, Broman KW, and Hassold T

Subjects
Animals, Cell Cycle Proteins genetics, Chromatin genetics, Crossing Over, Genetic, DNA Breaks, Double-Stranded, Endodeoxyribonucleases genetics, Genome, Male, Mice, MutL Protein Homolog 1, Phosphate-Binding Proteins, Rad51 Recombinase genetics, Synaptonemal Complex genetics, Adaptor Proteins, Signal Transducing genetics, DNA, Cruciform genetics, Meiosis genetics, Nuclear Proteins genetics, Prophase genetics, Recombination, Genetic
Abstract

Segregation of chromosomes during the first meiotic division relies on crossovers established during prophase. Although crossovers are strictly regulated so that at least one occurs per chromosome, individual variation in crossover levels is not uncommon. In an analysis of different inbred strains of male mice, we identified among-strain variation in the number of foci for the crossover-associated protein MLH1. We report studies of strains with "low" (CAST/EiJ), "medium" (C3H/HeJ), and "high" (C57BL/6J) genome-wide MLH1 values to define factors responsible for this variation. We utilized immunofluorescence to analyze the number and distribution of proteins that function at different stages in the recombination pathway: RAD51 and DMC1, strand invasion proteins acting shortly after double-strand break (DSB) formation, MSH4, part of the complex stabilizing double Holliday junctions, and the Bloom helicase BLM, thought to have anti-crossover activity. For each protein, we identified strain-specific differences that mirrored the results for MLH1; i.e., CAST/EiJ mice had the lowest values, C3H/HeJ mice intermediate values, and C57BL/6J mice the highest values. This indicates that differences in the numbers of DSBs (as identified by RAD51 and DMC1) are translated into differences in the number of crossovers, suggesting that variation in crossover levels is established by the time of DSB formation. However, DSBs per se are unlikely to be the primary determinant, since allelic variation for the DSB-inducing locus Spo11 resulted in differences in the numbers of DSBs but not the number of MLH1 foci. Instead, chromatin conformation appears to be a more important contributor, since analysis of synaptonemal complex length and DNA loop size also identified consistent strain-specific differences; i.e., crossover frequency increased with synaptonemal complex length and was inversely related to chromatin loop size. This indicates a relationship between recombination and chromatin compaction that may develop as DSBs form or earlier during establishment of the meiotic axis.

Published
2014
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84. Cytological studies of human meiosis: sex-specific differences in recombination originate at, or prior to, establishment of double-strand breaks.

Author

Gruhn JR, Rubio C, Broman KW, Hunt PA, and Hassold T

Subjects
Adaptor Proteins, Signal Transducing genetics, Adaptor Proteins, Signal Transducing metabolism, Cytological Techniques, DNA Breaks, Double-Stranded, Female, Genetic Markers genetics, Humans, In Situ Hybridization, Fluorescence, Male, MutL Protein Homolog 1, Nuclear Proteins genetics, Nuclear Proteins metabolism, Synaptonemal Complex ultrastructure, Aneuploidy, Meiosis physiology, Recombination, Genetic physiology, Sex Characteristics
Abstract

Meiotic recombination is sexually dimorphic in most mammalian species, including humans, but the basis for the male:female differences remains unclear. In the present study, we used cytological methodology to directly compare recombination levels between human males and females, and to examine possible sex-specific differences in upstream events of double-strand break (DSB) formation and synaptic initiation. Specifically, we utilized the DNA mismatch repair protein MLH1 as a marker of recombination events, the RecA homologue RAD51 as a surrogate for DSBs, and the synaptonemal complex proteins SYCP3 and/or SYCP1 to examine synapsis between homologs. Consistent with linkage studies, genome-wide recombination levels were higher in females than in males, and the placement of exchanges varied between the sexes. Subsequent analyses of DSBs and synaptic initiation sites indicated similar male:female differences, providing strong evidence that sex-specific differences in recombination rates are established at or before the formation of meiotic DSBs. We then asked whether these differences might be linked to variation in the organization of the meiotic axis and/or axis-associated DNA and, indeed, we observed striking male:female differences in synaptonemal complex (SC) length and DNA loop size. Taken together, our observations suggest that sex specific differences in recombination in humans may derive from chromatin differences established prior to the onset of the recombination pathway.

Published
2013
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85. Germline mosaicism does not explain the maternal age effect on trisomy.

Author

Rowsey R, Kashevarova A, Murdoch B, Dickenson C, Woodruff T, Cheng E, Hunt P, and Hassold T

Subjects
Aneuploidy, Down Syndrome genetics, Female, Germ Cells metabolism, Humans, In Situ Hybridization, Fluorescence, Meiotic Prophase I genetics, Mosaicism, Oocytes metabolism, Maternal Age, Trisomy genetics
Abstract

A variety of hypotheses have been proposed to explain the association between trisomy and increasing maternal age in humans, virtually all of which assume that the underlying mechanisms involve meiotic errors. However, recently Hultén and colleagues [Hulten et al., 2010b] proposed a provocative model-the Oocyte Mosaicism Selection Model (OMSM)-that links age-dependent trisomy 21 to pre-meiotic errors in the ovary. Specifically, they propose that nondisjunctional events occur in a proportion of germ cells as they mitotically proliferate, resulting in mosaicism for trisomy 21. Assuming that the presence of an additional chromosome 21 delays meiotic progression, these cells would be ovulated later in reproductive life, resulting in an age-dependent increase in aneuploid eggs. Because this model has important clinical implications, we initiated studies to test it. We first analyzed oocytes from two trisomy 21 fetuses, combining immunostaining with FISH to determine the likelihood of detecting the additional chromosome 21 at different stages of meiosis. The detection of trisomy was enhanced during the earliest stage of prophase (leptotene), before homologs synapsed. Accordingly, in subsequent studies we examined the chromosome content of leptotene oocytes in seven second trimester female fetuses, analyzing three chromosomes commonly associated with human trisomies (i.e., 13, 16, and 21). In contrast to the prediction of the OMSM, we found no evidence of trisomy mosaicism for any chromosome. We conclude that errors in pre-meiotic germ cells are not a major contributor to human aneuploidy and do not provide an explanation for the age-related increase in trisomic conceptions., (Copyright © 2013 Wiley Periodicals, Inc.)

Published
2013
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86. Altered cohesin gene dosage affects Mammalian meiotic chromosome structure and behavior.

Author

Murdoch B, Owen N, Stevense M, Smith H, Nagaoka S, Hassold T, McKay M, Xu H, Fu J, Revenkova E, Jessberger R, and Hunt P

Subjects
Animals, Cell Cycle Proteins metabolism, Chromosomal Proteins, Non-Histone metabolism, Chromosome Pairing genetics, Female, Gene Dosage, Humans, Mice, Mutation, Nuclear Proteins genetics, Nuclear Proteins metabolism, Phosphoproteins genetics, Phosphoproteins metabolism, Recombination, Genetic, Synaptonemal Complex genetics, Cohesins, Cell Cycle Proteins genetics, Chromosomal Proteins, Non-Histone genetics, Chromosome Segregation genetics, Chromosomes genetics, Chromosomes ultrastructure, Meiosis genetics
Abstract

Based on studies in mice and humans, cohesin loss from chromosomes during the period of protracted meiotic arrest appears to play a major role in chromosome segregation errors during female meiosis. In mice, mutations in meiosis-specific cohesin genes cause meiotic disturbances and infertility. However, the more clinically relevant situation, heterozygosity for mutations in these genes, has not been evaluated. We report here evidence from the mouse that partial loss of gene function for either Smc1b or Rec8 causes perturbations in the formation of the synaptonemal complex (SC) and affects both synapsis and recombination between homologs during meiotic prophase. Importantly, these defects increase the frequency of chromosomally abnormal eggs in the adult female. These findings have important implications for humans: they suggest that women who carry mutations or variants that affect cohesin function have an elevated risk of aneuploid pregnancies and may even be at increased risk of transmitting structural chromosome abnormalities., Competing Interests: The authors have declared that no competing interests exist.

Published
2013
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87. Bisphenol A alters early oogenesis and follicle formation in the fetal ovary of the rhesus monkey.

Author

Hunt PA, Lawson C, Gieske M, Murdoch B, Smith H, Marre A, Hassold T, and VandeVoort CA

Subjects
Administration, Oral, Animals, Benzhydryl Compounds, Dose-Response Relationship, Drug, Female, Macaca mulatta, Maternal Exposure, Meiosis drug effects, Mice, Mitosis drug effects, Ovarian Follicle embryology, Phenols administration & dosage, Oogenesis drug effects, Ovarian Follicle drug effects, Phenols pharmacology
Abstract

Widespread use of the endocrine disrupting chemical bisphenol A (BPA) in consumer products has resulted in nearly continuous human exposure. In rodents, low-dose exposures have been reported to adversely affect two distinct stages of oogenesis in the developing ovary: the events of prophase at the onset of meiosis in the fetal ovary and the formation of follicles in the perinatal ovary. Because these effects could influence the reproductive longevity and success of the exposed individual, we conducted studies in the rhesus monkey to determine whether BPA induces similar disturbances in the developing primate ovary. The routes and levels of human exposure are unclear; hence, two different exposure protocols were used: single daily oral doses and continuous exposure via subdermal implant. Our analyses of second trimester fetuses exposed at the time of meiotic onset suggest that, as in mice, BPA induces subtle disturbances in the prophase events that set the stage for chromosome segregation at the first meiotic division. Our analyses of third-trimester fetuses exposed to single daily oral doses during the time of follicle formation revealed an increase in multioocyte follicles analogous to that reported in rodents. However, two unique phenotypes were evident in continuously exposed animals: persistent unenclosed oocytes in the medullary region and small, nongrowing oocytes in secondary and antral follicles. Because effects on both stages of oogenesis were elicited using doses that yield circulating levels of BPA analogous to those reported in humans, these findings raise concerns for human reproductive health.

Published
2012
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88. Gene expression in the fetal mouse ovary is altered by exposure to low doses of bisphenol A.

Author

Lawson C, Gieske M, Murdoch B, Ye P, Li Y, Hassold T, and Hunt PA

Subjects
Animals, Benzhydryl Compounds, Environmental Pollutants toxicity, Female, Gene Expression Regulation, Developmental physiology, Gestational Age, Male, Meiosis physiology, Mice, Mitosis physiology, Pregnancy, Prenatal Exposure Delayed Effects, Protein Array Analysis, Estrogens, Non-Steroidal toxicity, Gene Expression Regulation, Developmental drug effects, Ovary drug effects, Ovary embryology, Phenols toxicity
Abstract

Evidence from experimental studies suggests that fetal exposure to the endocrine-disrupting chemical bisphenol A (BPA) has adverse reproductive effects in both males and females. Studies from our laboratory suggest that exposure to the developing female fetus produces a unique, multigenerational effect. Specifically, maternal exposure affects the earliest stages of oogenesis in the developing fetal ovary, and the resulting subtle meiotic defects increase the likelihood that embryos produced by the exposed female in adulthood (i.e., the grandchildren) will be chromosomally abnormal. To understand the impact of BPA on the developing ovary, we conducted expression studies to characterize gene expression changes in the fetal ovary that result from BPA exposure. We first tested the validity of the approach, asking whether we could reliably detect temporal changes in expression levels of meiotic genes in controls. As anticipated, we were able to identify appropriate increases in expression in meiotic, but in few other, genes. Intriguingly, this analysis provided data on a small set of genes for which timing and expression changes suggest that they may have important and heretofore unrecognized meiotic roles. After verifying the utility of our approach, we focused our analysis on BPA-exposed animals. We found modest, but significant, changes in gene expression in the fetal ovaries from exposed fetuses. The first changes were evident within 24 h of exposure, and the most extensive changes correlated with the onset of meiosis. Furthermore, gene ontology analysis suggested that BPA acts to down-regulate mitotic cell-cycle genes, raising the possibility that fetal BPA exposure may act to limit expansion of the primordial germ cell population.

Published
2011
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89. Patterns of recombination activity on mouse chromosome 11 revealed by high resolution mapping.

Author

Billings T, Sargent EE, Szatkiewicz JP, Leahy N, Kwak IY, Bektassova N, Walker M, Hassold T, Graber JH, Broman KW, and Petkov PM

Subjects
Alleles, Animals, Crosses, Genetic, Female, Genome, Genotype, Male, Meiosis, Mice, Mice, Inbred C57BL, Models, Genetic, Chromosome Mapping, Crossing Over, Genetic, Recombination, Genetic
Abstract

The success of high resolution genetic mapping of disease predisposition and quantitative trait loci in humans and experimental animals depends on the positions of key crossover events around the gene of interest. In mammals, the majority of recombination occurs at highly delimited 1-2 kb long sites known as recombination hotspots, whose locations and activities are distributed unevenly along the chromosomes and are tightly regulated in a sex specific manner. The factors determining the location of hotspots started to emerge with the finding of PRDM9 as a major hotspot regulator in mammals, however, additional factors modulating hotspot activity and sex specificity are yet to be defined. To address this limitation, we have collected and mapped the locations of 4829 crossover events occurring on mouse chromosome 11 in 5858 meioses of male and female reciprocal F1 hybrids of C57BL/6J and CAST/EiJ mice. This chromosome was chosen for its medium size and high gene density and provided a comparison with our previous analysis of recombination on the longest mouse chromosome 1. Crossovers were mapped to an average resolution of 127 kb, and thirteen hotspots were mapped to <8 kb. Most crossovers occurred in a small number of the most active hotspots. Females had higher recombination rate than males as a consequence of differences in crossover interference and regional variation of sex specific rates along the chromosome. Comparison with chromosome 1 showed that recombination events tend to be positioned in similar fashion along the centromere-telomere axis but independently of the local gene density. It appears that mammalian recombination is regulated on at least three levels, chromosome-wide, regional, and at individual hotspots, and these regulation levels are influenced by sex and genetic background but not by gene content.

Published
2010
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90. Multiple loci contribute to genome-wide recombination levels in male mice.

Author

Murdoch B, Owen N, Shirley S, Crumb S, Broman KW, and Hassold T

Subjects
Adaptor Proteins, Signal Transducing genetics, Alleles, Animals, Crosses, Genetic, Female, Genotype, Male, Mice, Mice, Inbred C57BL, MutL Protein Homolog 1, Nuclear Proteins genetics, Spermatocytes, Chromosomes, Mammalian, Genetic Association Studies methods, Meiosis, Quantitative Trait Loci, Recombination, Genetic
Abstract

Recent linkage-based studies in humans suggest the presence of loci that affect either genome-wide recombination rates, utilization of recombination hotspots, or both. We have been interested in utilizing cytological methodology to directly assess recombination in mammalian meiocytes and to identify recombination-associated loci. In the present report we summarize studies in which we combined a cytological assay of recombination in mouse pachytene spermatocytes with QTL analyses to identify loci that contribute to genome-wide levels of recombination in male meiosis. Specifically, we analyzed MLH1 foci, a marker of crossovers, in 194 F2 male mice derived from a subspecific cross between CAST/EiJ and C57BL/6J parental strains. We then used these data to uncover loci associated with individual variation in mean MLH1 values. We identified seven recombination-associated loci across the genome (on chromosomes 2, 3, 4, 14, 15, 17, and X), indicating that there are multiple recombination "setting" loci in mammalian male meiosis.

Published
2010
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91. Female meiosis: coming unglued with age.

Author

Hunt P and Hassold T

Subjects
Aging genetics, Female, Humans, Oocytes cytology, Aging physiology, Meiosis
Abstract

Chromosome abnormalities in humans are strikingly associated with increasing maternal age. Studies in mice implicate loss of chromosome cohesion as an important cause of age-related meiotic errors in the oocyte., (Copyright © 2010 Elsevier Ltd. All rights reserved.)

Published
2010
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92. Global gene expression in the human fetal testis and ovary.

Author

Houmard B, Small C, Yang L, Naluai-Cecchini T, Cheng E, Hassold T, and Griswold M

Subjects
Analysis of Variance, Databases, Genetic, Female, Gestational Age, Humans, Male, Meiosis genetics, Models, Biological, Oligonucleotide Array Sequence Analysis, Ovary metabolism, Phenotype, Pregnancy, RNA, Messenger metabolism, Reverse Transcriptase Polymerase Chain Reaction, Sex Characteristics, Sex Determination Processes, Software, Testis metabolism, Gene Expression physiology, Gene Expression Profiling, Ovary embryology, Testis embryology
Abstract

This study describes a temporal profile of gene expression from normal human fetal testes and ovaries. Gonads from 34 fetuses between 9 wk and 20 wk of gestation were obtained from the Department of Pathology and the Birth Defects Research Laboratory at the University of Washington. Relative transcript levels were determined using the Affymetrix Human Genome U133A Plus 2.0 arrays. Sex determination occurs in the human gonad at approximately 6 wk of gestation with development of the testis driven by expression of SRY. In this study, SRY transcript was present and elevated at 9 wk of gestation in the testis but was absent in the ovary. The transcript levels of other testis-specific factors SOX9 and AMH and the steroidogenic genes CYP17A1, CYP11A1, STAR, and HSD17B3 were all significantly higher in the testis. In contrast, transcripts known to be involved in meiosis, including STRA8, SPO11, SYCP3, TEX11, TEX14, and STAG3, showed highest expression in the fetal ovary beginning at Week 12. These gene expression profiles will be a resource for understanding and defining normal gonad development and provide the opportunity to dissect abnormal development.

Published
2009
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93. Bisphenol A effects on the growing mouse oocyte are influenced by diet.

Author

Muhlhauser A, Susiarjo M, Rubio C, Griswold J, Gorence G, Hassold T, and Hunt PA

Subjects
Aneuploidy, Animal Feed analysis, Animals, Benzhydryl Compounds, Endocrine Disruptors administration & dosage, Endocrine Disruptors toxicity, Estrogens, Non-Steroidal administration & dosage, Female, Isoflavones administration & dosage, Meiosis drug effects, Meiosis genetics, Mice, Mice, Inbred C57BL, Oocytes growth & development, Oocytes ultrastructure, Phytoestrogens administration & dosage, Diet, Estrogens, Non-Steroidal toxicity, Oocytes drug effects, Phenols toxicity
Abstract

Growing evidence suggests that exposure to bisphenol A (BPA) has the ability to disrupt several different stages of oocyte development. To date, most attention has focused on the effects of BPA on the periovulatory oocyte, and considerable variation is evident in the results of these studies. In our own laboratory, variation in the results of BPA studies conducted at different times appeared to correlate with changes in mill dates of animal feed. This observation, coupled with reports by others that dietary estrogens in feed are a confounding variable in studies of endocrine-disrupting chemicals, prompted us to evaluate the effect of diet on the results of BPA studies of the periovulatory oocyte. Genetically identical females were placed on a high- or low-phytoestrogen diet prior to mating. Their female offspring were exposed to BPA, oocytes collected, and meiotic spindle and chromosome characteristics compared between control and BPA-treated females. We observed significant diet-related variation in both the frequency of abnormalities in oocytes from untreated females and in the response to BPA. Our results demonstrate that the impact of BPA on meiosis depends, at least in part, on diet. We suggest that variation in the conclusions of recent BPA studies reflects differences in the diets used, as well as other methodological differences. Because meiotic disturbances are a feature of all studies to date, however, we conclude that low levels of BPA adversely affect the meiotic process.

Published
2009
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94. Why public health agencies cannot depend on good laboratory practices as a criterion for selecting data: the case of bisphenol A.

Author

Myers JP, vom Saal FS, Akingbemi BT, Arizono K, Belcher S, Colborn T, Chahoud I, Crain DA, Farabollini F, Guillette LJ Jr, Hassold T, Ho SM, Hunt PA, Iguchi T, Jobling S, Kanno J, Laufer H, Marcus M, McLachlan JA, Nadal A, Oehlmann J, Olea N, Palanza P, Parmigiani S, Rubin BS, Schoenfelder G, Sonnenschein C, Soto AM, Talsness CE, Taylor JA, Vandenberg LN, Vandenbergh JG, Vogel S, Watson CS, Welshons WV, and Zoeller RT

Subjects
Benzhydryl Compounds, Risk Assessment methods, Risk Assessment standards, Clinical Laboratory Techniques standards, Ecotoxicology methods, Ecotoxicology standards, Endocrine Disruptors toxicity, Phenols toxicity, Public Health Practice standards
Abstract

Background: In their safety evaluations of bisphenol A (BPA), the U.S. Food and Drug Administration (FDA) and a counterpart in Europe, the European Food Safety Authority (EFSA), have given special prominence to two industry-funded studies that adhered to standards defined by Good Laboratory Practices (GLP). These same agencies have given much less weight in risk assessments to a large number of independently replicated non-GLP studies conducted with government funding by the leading experts in various fields of science from around the world., Objectives: We reviewed differences between industry-funded GLP studies of BPA conducted by commercial laboratories for regulatory purposes and non-GLP studies conducted in academic and government laboratories to identify hazards and molecular mechanisms mediating adverse effects. We examined the methods and results in the GLP studies that were pivotal in the draft decision of the U.S. FDA declaring BPA safe in relation to findings from studies that were competitive for U.S. National Institutes of Health (NIH) funding, peer-reviewed for publication in leading journals, subject to independent replication, but rejected by the U.S. FDA for regulatory purposes., Discussion: Although the U.S. FDA and EFSA have deemed two industry-funded GLP studies of BPA to be superior to hundreds of studies funded by the U.S. NIH and NIH counterparts in other countries, the GLP studies on which the agencies based their decisions have serious conceptual and methodologic flaws. In addition, the U.S. FDA and EFSA have mistakenly assumed that GLP yields valid and reliable scientific findings (i.e., "good science"). Their rationale for favoring GLP studies over hundreds of publically funded studies ignores the central factor in determining the reliability and validity of scientific findings, namely, independent replication, and use of the most appropriate and sensitive state-of-the-art assays, neither of which is an expectation of industry-funded GLP research., Conclusions: Public health decisions should be based on studies using appropriate protocols with appropriate controls and the most sensitive assays, not GLP. Relevant NIH-funded research using state-of-the-art techniques should play a prominent role in safety evaluations of chemicals.

Published
2009
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95. Rescuing distal crossovers.

Author

Hassold T and Hunt P

Subjects
Animals, Chromosome Segregation, Chromosomes, Fungal, Humans, Meiosis, Models, Genetic, Schizosaccharomyces metabolism, Crossing Over, Genetic
Published
2007
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96. The origin of trisomy 22: evidence for acrocentric chromosome-specific patterns of nondisjunction.

Author

Hall HE, Surti U, Hoffner L, Shirley S, Feingold E, and Hassold T

Subjects
Chromosome Mapping, Fetus, Humans, Meiosis, Recombination, Genetic, Chromosomes, Human, Pair 22, Nondisjunction, Genetic, Trisomy
Abstract

Trisomy 22 is one of the most common trisomies in clinically recognized pregnancies, yet relatively little is known about the origin of nondisjunction for chromosome 22. Accordingly, we initiated studies to investigate the origin of the extra chromosome in 130 trisomy 22 cases. Our results indicate that the majority of trisomy 22 errors (>96%) arise during oogenesis with most of these errors ( approximately 90%) occurring during the first meiotic division. As with other trisomies, failure to recombine contributed to nondisjunction of chromosome 22. Taken together with data available for other trisomies, our results suggest patterns of nondisjunction that are shared among the acrocentric, but not all nonacrocentric, chromosomes., (2007 Wiley-Liss, Inc)

Published
2007
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97. Synaptic defects at meiosis I and non-obstructive azoospermia.

Author

Topping D, Brown P, Judis L, Schwartz S, Seftel A, Thomas A, and Hassold T

Subjects
Adaptor Proteins, Signal Transducing, Adult, Carrier Proteins genetics, Carrier Proteins metabolism, Chromosomes, Human, Y, Humans, Immunohistochemistry, Male, Middle Aged, MutL Protein Homolog 1, Nuclear Proteins genetics, Nuclear Proteins metabolism, Oligospermia genetics, Recombination, Genetic, Spermatogenesis, Azoospermia genetics, Chromosome Pairing, Genetic Predisposition to Disease, Meiosis
Abstract

Background: Recent advances in immunofluorescence methodology have made it possible to directly monitor protein localization patterns in germ cells undergoing meiosis. We used this technology to examine the early stages of meiosis in testicular material obtained from men presenting for evaluation at infertility clinics., Methods: Specifically, we compared meiotic progression, synapsis and recombination in 34 individuals with obstructive azoospermia ('controls') to 26 individuals with non-obstructive azoospermia (NOA) ('cases')., Results: In 9 of the 26 cases, no germ cells were identified, but in the remaining 17, there was at least some progression through meiosis. Most of these individuals appeared to have normal levels of spermatogenic activity, with little evidence of meiotic impairment. However, in three individuals, we observed either complete or partial meiotic arrest associated with abnormalities in synapsis., Conclusions: This suggests that >10% of cases of unexplained NOA may be attributable to severe meiotic defects. The characterization of these meiotic arrest phenotypes may guide further research into the molecular basis of unexplained infertility.

Published
2006
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98. Meiosis and sex chromosome aneuploidy: how meiotic errors cause aneuploidy; how aneuploidy causes meiotic errors.

Author

Hall H, Hunt P, and Hassold T

Subjects
Animals, DNA, Recombinant genetics, Humans, Spermatogenesis, Aneuploidy, Meiosis, Sex Chromosomes genetics
Abstract

As a group, sex chromosome aneuploidies - the 47,XXY, 47,XYY, 47,XXX and 45,X conditions - constitute the most common class of chromosome abnormality in human live-births. Considerable attention has been given to the somatic abnormalities associated with these conditions, but less is known about their meiotic phenotypes; that is, how does sex chromosome imbalance influence the meiotic process. This has become more important with the advent of assisted reproductive technologies, because individuals previously thought to be infertile can now become biological parents. Indeed, there are several recent reports of successful pregnancies involving 47,XXY fathers, and suggestions that cryopreservation of ovarian tissue might impart fertility to at least some Turner syndrome individuals. Thus, the possible consequences of sex chromosome aneuploidy on meiotic chromosome segregation need to be explored.

Published
2006
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99. Sex, not genotype, determines recombination levels in mice.

Author

Lynn A, Schrump S, Cherry J, Hassold T, and Hunt P

Subjects
Animals, Female, Genotype, Male, Mice, Mice, Inbred C57BL, X Chromosome, Y Chromosome, Recombination, Genetic, Sex Factors
Abstract

Recombination, the precise physical breakage and rejoining of DNA between homologous chromosomes, plays a central role in mediating the orderly segregation of meiotic chromosomes in most eukaryotes. Despite its importance, the factors that control the number and placement of recombination events within a cell remain poorly defined. The rate of recombination exhibits remarkable species specificity, and, within a species, recombination is affected by the physical size of the chromosome, chromosomal location, proximity to other recombination events (i.e., chiasma interference), and, intriguingly, the sex of the transmitting parent. To distinguish between simple genetic and nongenetic explanations of sex-specific recombination differences in mammals, we compared recombination in meiocytes from XY sex-reversed and XO females with that in meiocytes from XX female and XY male mice. The rate and pattern of recombination in XY and XO oocytes were virtually identical to those in normal XX females, indicating that sex, not genotype, is the primary determinant of meiotic recombination patterns in mammals.

Published
2005
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100. Meiosis I arrest and azoospermia in an infertile male explained by failure of formation of a component of the synaptonemal complex.

Author

Judis L, Chan ER, Schwartz S, Seftel A, and Hassold T

Subjects
Adult, Cell Cycle Proteins, DNA-Binding Proteins, Humans, In Situ Hybridization, Fluorescence, Infertility, Male etiology, Male, Nuclear Proteins analysis, Nuclear Proteins metabolism, Phosphoprotein Phosphatases analysis, Phosphoprotein Phosphatases metabolism, Spermatocytes physiology, Meiosis, Oligospermia etiology, Synaptonemal Complex metabolism
Abstract

Objective: To characterize the early stages of meiosis in a male with unexplained azoospermia., Design: Case report., Setting: Case Western Reserve University and University Hospitals of Cleveland., Patient(s): A 30-year-old male with nonobstructive azoospermia., Intervention(s): Immunostaining for components of the synaptonemal complex and recombination-associated proteins, fluorescence in situ hybridization (FISH) for specific chromosomes., Main Outcome Measure(s): Progression to and through pachytene of meiosis I in controls and in the patient., Result(s): We observed complete meiosis I arrest in the patient, associated with failure of formation of the mature, tripartite synaptonemal complex., Conclusion(s): Abnormalities in synaptonemal complex formation are responsible for a proportion of cases of unexplained male infertility.

Published
2004
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