Abstract

The objective of the In Vitro Assay Core is to assess the ability of antibodies to affect gamete function. The Core will evaluate antibodies generated at three different step in the immunocontraceptive development pathway. 1. Discovery phase: monoclona antibodies and antisera against novel gamete antigens. 2. Immunogenicity testing: antibodies raised against recombinant proteins or synthetic peptides. 3. Fertility trials: antisera from fertility trials in mice, non-human primates, and human clinical trials. The path from initial identification of a gamete antigen to use of the immunogen in a contraceptive vaccine formulation is both time consuming and expensive. The services offered by the In Vitro Assay Core will provide investigators with an important screening tool to evaluate each antigen's contraceptive vaccine potential at an early stage in the developmental pathway and to triage immunogens that do not affect gamete function. Additionally, the Core will monitor the effects of antibodies raised during fertility trials on gamete function. The assays which the Core will perform to achieve these objectives are: indirect immunofluorescence, flow cytometry, sperm agglutination, Tru-Trax cervical mucus penetration, sperm immobilization/motility, mouse in vitro fertilization (IVF), zona-free hamster egg penetration, and human sperm hemi-zona binding.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
Eunice Kennedy Shriver National Institute of Child Health & Human Development (NICHD)
Type
Specialized Center--Cooperative Agreements (U54)
Project #
2U54HD029099-06
Application #
6241166
Study Section
Project Start
1997-03-14
Project End
1998-02-28
Budget Start
1996-10-01
Budget End
1997-09-30
Support Year
6
Fiscal Year
1997
Total Cost
Indirect Cost

  Institution

Name
University of Virginia
Department
Type
DUNS #
001910777
City
Charlottesville
State
VA
Country
United States
Zip Code
22904

  Publications

Pires, Eusebio S; Hlavin, Callie; Macnamara, Ellen et al. (2013) SAS1B protein [ovastacin] shows temporal and spatial restriction to oocytes in several eutherian orders and initiates translation at the primary to secondary follicle transition. Dev Dyn 242:1405-26
Shumilin, Igor A; Cymborowski, Marcin; Chertihin, Olga et al. (2012) Identification of unknown protein function using metabolite cocktail screening. Structure 20:1715-25
Naaby-Hansen, Soren; Herr, John C (2010) Heat shock proteins on the human sperm surface. J Reprod Immunol 84:32-40
Naaby-Hansen, Soren; Diekman, Alan; Shetty, Jagathpala et al. (2010) Identification of calcium-binding proteins associated with the human sperm plasma membrane. Reprod Biol Endocrinol 8:6
Klotz, Kenneth L; Coppola, Michael A; Labrecque, Michel et al. (2008) Clinical and consumer trial performance of a sensitive immunodiagnostic home test that qualitatively detects low concentrations of sperm following vasectomy. J Urol 180:2569-76
Kurth, Barbara E; Digilio, Laura; Snow, Phillip et al. (2008) Immunogenicity of a multi-component recombinant human acrosomal protein vaccine in female Macaca fascicularis. J Reprod Immunol 77:126-41
Herr, John C; Chertihin, Olga; Digilio, Laura et al. (2008) Distribution of RNA binding protein MOEP19 in the oocyte cortex and early embryo indicates pre-patterning related to blastomere polarity and trophectoderm specification. Dev Biol 314:300-16
Shetty, Jagathpala; Bronson, Richard A; Herr, John C (2008) Human sperm protein encyclopedia and alloantigen index: mining novel allo-antigens using sera from ASA-positive infertile patients and vasectomized men. J Reprod Immunol 77:23-31
Xu, Bingfang; Hao, Zhonglin; Jha, Kula N et al. (2008) TSKS concentrates in spermatid centrioles during flagellogenesis. Dev Biol 319:201-10
Xu, Bingfang; Hao, Zhonglin; Jha, Kula N et al. (2008) Targeted deletion of Tssk1 and 2 causes male infertility due to haploinsufficiency. Dev Biol 319:211-22

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