Abstract
Control of V(D)J recombination is critical for the generation of a fully developed immune repertoire. The molecular mechanisms underlying the regulation of antigen receptor gene assembly are beginning to be revealed. Here we studied the influence of chromatin modifications on V(D)J cleavage of a polynucleosomal substrate, in which V(D)J cleavage is greatly reduced compared with naked DNA. ATP-dependent remodeling by human SWI/SNF (hSWI/SNF) in the presence of HMG1 led to a substantial increase of cleavage by the recombination activation gene (RAG) proteins. Either BRG1, the ATPase subunit of hSWI/SNF, or SNF2h, the ATPase of human ISWI complexes, was capable of stimulating V(D)J cleavage of the array, although these remodelers act by different mechanisms. No effect of histone hyperacetylation was detectable in this system. As is observed on naked DNA, in the presence of core RAG1, the full-length RAG2 protein proved to be more active than core RAG2 on these polynucleosomal arrays, reinforcing the importance of the RAG2 C-terminal domain for efficient recombination. Comparison of 5 S array cleavage by the RAG proteins or by the restriction enzyme HhaI after remodeling by hSWI/SNF suggested that RAG proteins and HhaI might have different requirements for maximal accessibility of the substrate.
Highlights
Functional antigen receptor genes are assembled from germ line gene segments by V(D)J recombination [1]
We show that hSWI/SNF has a profound effect on the accessibility of polynucleosomal arrays to the recombination activation gene (RAG) proteins
Besides the SWI/SNF family of chromatin-remodeling enzymes, proteins of the ISWI family of ATP-dependent remodeling enzymes are involved in a variety of different processes, including transcriptional activation, transcriptional repression, and chromatin assembly [26]
Summary
Functional antigen receptor genes are assembled from germ line gene segments by V(D)J recombination [1]. Subsequent joining of two corresponding coding ends and two signal ends is achieved by the ubiquitously expressed DNA double strand repair machinery of the nonhomologous endjoining pathway [7]. In order to express the correct antigen receptor gene in the appropriate cell and to ensure chromosomal integrity, tight control of V(D)J recombination is required Antigen receptor assembly is restricted to developing lymphocytes and occurs in a lineage-specific manner, with T cell receptor genes being fully assembled only in T cells and Ig genes fully rearranged only in B cells. To explain lineage specific receptor gene assembly and the temporal order of rearrangement, other mechanisms to control the accessibility of the gene loci to the recombinase, probably requiring changes in chromatin structure, must be invoked [10]. BRG1, the ATPase subunit of human SWI/SNF, was found in vivo across loci that are poised to undergo V(D)J recombination [22]
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