Abstract

Repetitive DNA sequences in the immunoglobulin switch mu region form RNA-containing secondary structures and undergo hypermutation by activation-induced deaminase (AID). To examine how DNA structure affects transcription and hypermutation, we mapped the position of RNA polymerase II molecules and mutations across a 5 kb region spanning the intronic enhancer to the constant mu gene. For RNA polymerase II, the distribution was determined by nuclear run-on and chromatin immunoprecipitation assays in B cells stimulated ex vivo. RNA polymerases were found at a high density in DNA flanking both sides of a 1 kb repetitive sequence that forms the core of the switch region. We propose that altered DNA structure in the switch region pauses RNA polymerase II. We are currently examining secondary structure and transcription patterns in the variable region, using knock-in mice containing one rearranged variable gene on both alleles.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute on Aging (NIA)
Type
Investigator-Initiated Intramural Research Projects (ZIA)
Project #
1ZIAAG000714-04
Application #
8335900
Study Section
Project Start
Project End
Budget Start
Budget End
Support Year
4
Fiscal Year
2011
Total Cost
$575,027
Indirect Cost

  Institution

Name
National Institute on Aging
Department
Type
DUNS #
City
State
Country
Zip Code

  Publications

Castiblanco, Diana P; Norton, Darrell D; Maul, Robert W et al. (2018) JH6 downstream intronic sequence is dispensable for RNA polymerase II accumulation and somatic hypermutation of the variable gene in Ramos cells. Mol Immunol 97:101-108
Maul, Robert W; Chon, Hyongi; Sakhuja, Kiran et al. (2017) R-Loop Depletion by Over-expressed RNase H1 in Mouse B Cells Increases Activation-Induced Deaminase Access to the Transcribed Strand without Altering Frequency of Isotype Switching. J Mol Biol 429:3255-3263
Gmeiner, William H; Gearhart, Patricia J; Pommier, Yves et al. (2016) F10 cytotoxicity via topoisomerase I cleavage complex repair consistent with a unique mechanism for thymineless death. Future Oncol 12:2183-8
Maul, Robert W; Saribasak, Huseyin; Cao, Zheng et al. (2015) Topoisomerase I deficiency causes RNA polymerase II accumulation and increases AID abundance in immunoglobulin variable genes. DNA Repair (Amst) 30:46-52
Gearhart, Patricia J; Castiblanco, Diana P; Russell Knode, Lisa M (2015) Exceptional Antibodies Produced by Successive Immunizations. PLoS Biol 13:e1002321
Maul, Robert W; Cao, Zheng; Venkataraman, Lakshmi et al. (2014) Spt5 accumulation at variable genes distinguishes somatic hypermutation in germinal center B cells from ex vivo-activated cells. J Exp Med 211:2297-306
Saribasak, Huseyin; Gearhart, Patricia J (2012) Does DNA repair occur during somatic hypermutation? Semin Immunol 24:287-92
Cole, Leah E; Mann, Barbara J; Shirey, Kari Ann et al. (2011) Role of TLR signaling in Francisella tularensis-LPS-induced, antibody-mediated protection against Francisella tularensis challenge. J Leukoc Biol 90:787-97
Rajagopal, Deepa; Maul, Robert W; Ghosh, Amalendu et al. (2009) Immunoglobulin switch mu sequence causes RNA polymerase II accumulation and reduces dA hypermutation. J Exp Med 206:1237-44
Gearhart, Patricia J; Sen, Ranjan (2008) Regulating antibody diversity: taming a mutagen. Mol Cell 31:615-6