Effect of cytokines on switching to IgA and alpha germline transcripts in the B lymphoma I.29 mu. Transforming growth factor-beta activates transcription of the unrearranged C alpha gene
UMass Chan Affiliations
Department of Molecular Genetics and MicrobiologyDocument Type
Journal ArticlePublication Date
1991-12-15Keywords
AnimalsCells, Cultured
*Genes, Immunoglobulin
Immunoglobulin A
Immunoglobulin Constant Regions
Immunoglobulin Switch Region
Immunoglobulin alpha-Chains
Interferon Type II
Interleukin-4
Lipopolysaccharides
Lymphoma, B-Cell
Mice
Transcription, Genetic
Transforming Growth Factor beta
Life Sciences
Medicine and Health Sciences
Women's Studies
Metadata
Show full item recordAbstract
H chain isotype switch recombination is preceded by the appearance of RNA initiating 5' of the specific switch region that will undergo recombination. In an effort to understand the potential function of germline transcripts in switch recombination and whether the regulation of germline transcripts correlates with the regulation of switching, we are studying this process in the murine B lymphoma cell line I.29 mu, which switches, after treatment with bacterial LPS, primarily to IgA and less frequently to IgE. Levels of alpha germline transcripts initiating upstream of alpha switch (S alpha) sequences are elevated in clones of this line that switch well, compared with clones that switch less frequently. Transforming growth factor-beta (TGF-beta) has been shown to increase alpha germline transcripts and switching to IgA expression in LPS-stimulated murine splenic B cells. We now demonstrate that TGF-beta increases LPS-induced switching to IgA by 10-fold at optimal doses and increases the level of alpha germline transcripts 5- to 9-fold in I.29 mu cells. Nuclear run-on analysis shows that this increase is at the level of transcription. Thus, TGF-beta appears to direct switching to IgA by inducing transcription from the unrearranged S alpha-C alpha DNA segment. Germline alpha RNA is quite stable in I.29 mu cells, having a half-life of about 5 h, and we find no evidence for further stabilization in the presence of TGF-beta. Levels of epsilon germline transcripts are decreased by TGF-beta treatment. IL-4, which modestly increases switching in I.29 mu cells, slightly increases transcription of alpha germline RNA. IFN-gamma, which reduces switching to IgA in these cells, also reduces the level of alpha germline transcripts. IFN-gamma also reduces the level of epsilon germline transcripts induced by IL-4. Our results support the hypothesis that the regulation of transcription of particular switch sequences by cytokines regulates the specificity of recombination. We also present evidence that IL-4 may provide other signals, distinct from transcriptional targeting, that increase LPS-induced switching to IgA.Source
J Immunol. 1991 Dec 15;147(12):4374-83. Link to article on publisher's sitePermanent Link to this Item
http://hdl.handle.net/20.500.14038/50692PubMed ID
1753105Related Resources
Link to article in PubMedCollections
Related items
Showing items related by title, author, creator and subject.
-
Induction of immunoglobulin isotype switching in cultured I.29 B lymphoma cells. Characterization of the accompanying rearrangements of heavy chain genesStavnezer, Janet; Sirlin, S.; Abbott, J. (1985-03-01)The murine B cell lymphoma I.29 contains cells expressing surface IgM or IgA with identical heavy chain variable regions (9, 25, and D. Klein and J. Stavnezer, unpublished data). Purified IgM+ cells from the lymphoma have been adapted to culture and induced to switch to IgA, IgE, or IgG2 by treatment with lipopolysaccharide (LPS) or by treatment with a monoclonal anti-I.29 antiidiotype plus LPS. Clones of IgM+ cells have been obtained and induced to switch. Under optimal conditions, 30% of the cells in the culture expressed IgA 8 d after the inducers were added, and by 15 d 90% of the cells were IgA+. In actively switching cultures, up to 50% of the cells whose cytoplasm stained positively with anti-IgA stained simultaneously with anti-IgM, which indicates that the appearance of IgA+ cells in the cultures was due to isotype switching and not to clonal outgrowth. Examination by Southern blotting experiments of the Ig heavy chain genes in I.29 cells before and after switching revealed that isotype switching was accompanied by DNA recombinations that occurred within or immediately 5' to the tandemly repeated switch sequences. Within 3 d after the addition of inducers of switching, the nonexpressed chromosome underwent a variety of deletions or expansions within the S mu region, and a portion of the S alpha regions had undergone a 0.9-kb deletion. In cultures that contained at least 12% IgA+ cells, rearranged, expressed alpha genes, produced by recombination between the S mu region within the expressed mu gene and the S alpha region, were detected.
-
Overexpression of BSAP/Pax-5 inhibits switching to IgA and enhances switching to IgE in the I.29 mu B cell lineQiu, G.; Stavnezer, Janet (1998-09-15)B cell-specific activator protein (BSAP)/Pax-5 is a paired domain DNA-binding protein expressed in the developing nervous system, testis, and in all B lineage cells, except terminally differentiated plasma cells. BSAP regulates transcription of several genes expressed in B cells and also the activity of the 3' IgH enhancer. As it has binding sites within or 5' to the switch regions of nearly all Ig heavy chain C region genes and also is known to increase transcription of the germline epsilon RNA, BSAP has been hypothesized to be involved in regulation of Ab class switch recombination. To directly examine the effects of BSAP on isotype switching, we use a tetracycline-regulated expression system to overexpress BSAP in the surface IgM+ I.29 mu B cell line, a mouse cell line that can be induced to undergo class switch recombination. We find that overexpression of BSAP inhibits switching to IgA in I.29 mu cells stimulated with LPS + TGF-beta 1 + nicotinamide, but enhances switching to IgE in cells stimulated with LPS + IL-4 + nicotinamide. Parallel to its effects on switching, overexpression of BSAP inhibits germline alpha RNA expression and the transcriptional activity of the germline alpha promoter, while enhancing activity of the germline epsilon promoter. Proliferation of I.29 mu cells is not affected in this system. The possible mechanisms and significance of the effect of BSAP on isotype switching are discussed.
-
Rearrangements and deletions of immunoglobulin heavy chain genes in the double-producing B cell lymphoma I.29Stavnezer, Janet; Marcu, K. B.; Sirlin, S.; Alhadeff, B.; Hammerling, U. (1982-08-01)The B cell lymphoma I.29 consists of a mixture of cells expressing membrane-bound immunoglobulin M (IgM) (lambda) and IgA (lambda) of identical idiotypes. Whereas most of the cells express either IgM or IgA alone, 1 to 5% of the cells in this tumor express IgM and IgA simultaneously within the cytoplasm and on the cell membrane (R. Sitia et al., J. Immunol. 127:1388-1394, 1981; R. Sitia, unpublished data). When IgM+ cells are purified from the lymphoma and passaged in mice or cultured, a portion of the cells convert to IgA+. These properties suggest that some cells of the I.29 lymphoma may undergo immunoglobulin heavy chain switching, although it is also possible that the mixed population was derived by a prior switching event in a clone of cells. We performed Southern blotting experiments on genomic DNAs isolated from populations of I.29 cells containing variable proportions of IgM+ and IgA+ cells and on a number of cell lines derived from the lymphoma. The results were consistent with the deletion model for heavy chain switching, as the IgM+ cells contained rearranged mu genes and alpha genes in the germ line configuration on both the expressed and nonexpressed heavy chain chromosomes, whereas the IgA+ cells had deleted both mu genes and contained one rearranged and one germ line alpha gene. In addition, segments of DNA located within the intervening sequence 5' to the mu gene, near the site of switch recombination, were deleted from both the expressed and the nonexpressed chromosomes. Although mu genes were deleted from both chromosomes in the IgA+ cells, the sites of DNA recombination differed on the two chromosomes. On the expressed chromosome, Smu sequences were recombined with S alpha sequences, whereas on the nonexpressed chromosome, Smu sequences were recombined with S gamma 3 sequences.