Early in an immune response, the predominant immunoglobulin heavy chain produced is mu, later in the immune response the predominant immunoglobulin heavy chain is gamma, alpha, or epsilon. This change in heavy chain usage is accomplished by a DNA rearrangement that moves the heavy chain variable region gene from the mu constant region to the alpha constant region, epsilon constant region, or to one of the four gamma gamma1, gamma2b, gamma2a, or gamma3 in mouse) constant regions. This DNA rearrangement involves segments of DNA (called switch segments) upstream of each constant region gene. Immunoglobulin producing cells have a choice of six different switch rearrangements. This choice is an important one; the seven different heavy chain constant regions mediate very different effector functions and so handle an infectious organism or its toxic products in very different ways. Previous results have demonstrated that this choice is not random in the immunoglobulin producing cell, but rather is regulated. Furthermore, it seems likely that the regulation is mediated by changes in the local structure of chromatin of specific switch regions. The overall goal of the proposed experiments is to understand the molecular mechanisms by which switch recombination is regulated in a gene specific way. We plan to identify nuclear proteins that might control heavy chain gene-specific rearrangement and to identify the DNA sequences to which they bind. The candidate regulatory DNA sequences will be tested for their ability to alter chromatin/DNA structure by measuring changes in transcription mediated by the DNA sequences. The DNA sequences will be tested by transient transfection of cells that produce and do not produce immunoglobulin, and by transient transfection of cells that will be treated in various ways to induce gene-specific recombination. We will test the ability of the same sequences to regulate transcription from DNA molecules inserted into transgenic mice. Finally, we will attempt to test the ability of the sequences to regulate switch recombination from DNA molecules introduced into transgenic mice. We will study two murine heavy chain genes, gamma1 and gamma2a, and two inducers of switch recombination, IL4 for gamma1 and interferon-gamma for gamma2a.

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
2R01CA039068-12
Application #
3177817
Study Section
Allergy and Immunology Study Section (ALY)
Project Start
1984-09-01
Project End
1997-08-31
Budget Start
1992-09-01
Budget End
1993-08-31
Support Year
12
Fiscal Year
1992
Total Cost
Indirect Cost
Name
University of Michigan Ann Arbor
Department
Type
Schools of Medicine
DUNS #
791277940
City
Ann Arbor
State
MI
Country
United States
Zip Code
48109
Collins, John T; Shi, Jian; Burrell, Bryna E et al. (2006) Induced expression of murine gamma2a by CD40 ligation independently of IFN-gamma. J Immunol 177:5414-9
Dunnick, Wesley A; Shi, Jian; Graves, Kevin A et al. (2005) The 3' end of the heavy chain constant region locus enhances germline transcription and switch recombination of the four gamma genes. J Exp Med 201:1459-66
Gao, Ning; Dang, Tam; Dunnick, Wesley A et al. (2005) Receptors and counterreceptors involved in NK-B cell interactions. J Immunol 174:4113-9
Dunnick, Wesley A; Shi, Jian; Graves, Kevin A et al. (2004) Germline transcription and switch recombination of a transgene containing the entire H chain constant region locus: effect of a mutation in a STAT6 binding site in the gamma 1 promoter. J Immunol 173:5531-9
Berton, Michael T; Linehan, Leslie A; Wick, Kerilyn R et al. (2004) NF-kappaB elements associated with the Stat6 site in the germline gamma1 immunoglobulin promoter are not necessary for the transcriptional response to CD40 ligand. Int Immunol 16:1741-9
Williams, Bret R; Mirzoeva, Olga K; Morgan, William F et al. (2002) A murine model of Nijmegen breakage syndrome. Curr Biol 12:648-53
Adams, K; Ackerly, H; Cunningham, K et al. (2000) A DNase I hypersensitive site near the murine gamma1 switch region contributes to insertion site independence of transgenes and modulates the amount of transcripts induced by CD40 ligation. Int Immunol 12:1705-13
Collins, J T; Dunnick, W A (1999) Cutting edge: IFN-gamma regulated germline transcripts are expressed from gamma2a transgenes independently of the heavy chain 3' enhancers. J Immunol 163:5758-62
Cunningham, K; Ackerly, H; Claflin, L et al. (1998) Germline transcription and recombination of a murine VDJmudeltagamma1 transgene. Int Immunol 10:1027-37
Cunningham, K; Ackerly, H; Alt, F et al. (1998) Potential regulatory elements for germline transcription in or near murine Sgamma1. Int Immunol 10:527-36

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