Abstract

This research project proposal is directed at the molecular and cellular mechanisms which control the qualitative and quantitative utilization of variable region genes during B cell development. The studies proposed are based on the premise that constraints in V gene use reflect the evolution of the rearrangement process to ensure the generation of a functional and protective pre-immune repertoire. Ongoing studies on V gene utilization focus on two well-characterized VK genes which are utilized at markedly different frequencies in BALB/c mice and for which there is evidence of rearrangement frequency differences, cellular selection, and intrinsic junctional bias. New studies are directed at identifying alterations of higher order chromatin structure within the Igh-V locus associated with VH gene rearrangement. These studies are based on the hypothesis that V gene rearrangement is tightly regulated by chromatin structure. Nuclease hypersensitivity studies will be used to determine the degree of VH gene exposure (accessibility) in different subregions throughout the Igh-V locus in non-rearranging and actively rearranging pre-B cell lines. Attempts will be made to identify a postulated cis-regulatory region responsible for regulating Igh-V locus rearrangement via VH exon accessibility. Other studies will identify regulatory elements associated with individual VH genes which function during V gene rearrangement. These studies on the molecular mechanisms and cellular mechanisms of antibody repertoire formation will provide insight into a process fundamental to the understanding of immune responsiveness. The available cell lines, molecular probes, and detailed mapping studies of the Igh locus provide a unique opportunity to examine the regulation of a large chromosomal region. These studies also impact directly on questions relating to V gene utilization biases of certain B cell neoplasms and the ability to reconstitute the antibody repertoire in bone marrow transplant patients.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Project (R01)
Project #
5R01GM036064-12
Application #
2391988
Study Section
Allergy and Immunology Study Section (ALY)
Project Start
1985-07-01
Project End
1999-03-31
Budget Start
1997-04-01
Budget End
1999-03-31
Support Year
12
Fiscal Year
1997
Total Cost
Indirect Cost

  Institution

Name
Tufts University
Department
Pathology
Type
Schools of Medicine
DUNS #
604483045
City
Boston
State
MA
Country
United States
Zip Code
02111

  Publications

Perlot, Thomas; Pawlitzky, Inka; Manis, John P et al. (2010) Analysis of mice lacking DNaseI hypersensitive sites at the 5' end of the IgH locus. PLoS One 5:e13992
Pawlitzky, Inka; Angeles, Christina V; Siegel, Andrea M et al. (2006) Identification of a candidate regulatory element within the 5' flanking region of the mouse Igh locus defined by pro-B cell-specific hypersensitivity associated with binding of PU.1, Pax5, and E2A. J Immunol 176:6839-51
Stanton, Michelle L; Brodeur, Peter H (2005) Stat5 mediates the IL-7-induced accessibility of a representative D-Distal VH gene. J Immunol 174:3164-8
Haines, B B; Angeles, C V; Parmelee, A P et al. (2001) Germline diversity of the expressed BALB/c VhJ558 gene family. Mol Immunol 38:9-18
Whitcomb, E A; Haines, B B; Parmelee, A P et al. (1999) Germline structure and differential utilization of Igha and Ighb VH10 genes. J Immunol 162:1541-50
Haines, B B; Brodeur, P H (1998) Accessibility changes across the mouse Igh-V locus during B cell development. Eur J Immunol 28:4228-35
Whitcomb, E A; Brodeur, P H (1998) Rearrangement and selection in the developing Vkappa repertoire of the mouse: an analysis of the usage of two Vkappa gene segments. J Immunol 160:4904-13
Mainville, C A; Sheehan, K M; Klaman, L D et al. (1996) Deletional mapping of fifteen mouse VH gene families reveals a common organization for three Igh haplotypes. J Immunol 156:1038-46
Sheehan, K M; Mainville, C A; Willert, S et al. (1993) The utilization of individual VH exons in the primary repertoire of adult BALB/c mice. J Immunol 151:5364-75
Osman, G E; Brodeur, P H; Rosenberg, N et al. (1992) The Ig VH repertoire of fetal liver-derived pre-B cells is influenced by the expression of a gene linked to X-linked immune deficiency. J Immunol 148:1928-33

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