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Autoimmunity Volume 33, 2001 - Issue 3
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Original Article

IgG2a and IgA Co-Expression by the Natural Autoantibody-producing Murine B Lymphoma T560

Julia M. Phillips-Quagliata Department of Pathology and Kaplan Cancer Center, New York University School of Medicine, New York, NY, 10016-6451
,
Ana M.C. Faria Department of Pathology and Kaplan Cancer Center, New York University School of Medicine, New York, NY, 10016-6451
,
Jingkang Han Department of Pathology and Kaplan Cancer Center, New York University School of Medicine, New York, NY, 10016-6451
,
Deborah H. Spencer Department of Microbiology and Immunology, University of North Carolina School of Medicine, Chapel Hill, NC, 27599-7290
,
Geoffrey Haughton Department of Microbiology and Immunology, University of North Carolina School of Medicine, Chapel Hill, NC, 27599-7290
&
Paolo Casali Division of Molecular Immunology, Department of Pathology, Cornell University Medical College, New York, NY, 10021-4891
Pages 181-197 | Received 09 Mar 2000, Published online: 07 Jul 2009

References

  • Rao T. D., Maghazachi A. A., Faria A. M. C, Basch R. S., Phillips-Quagliata J. M. T560: an (H-2b X H2a) F1 hybrid, phosphorylcholine (PC)-binding, murine B cell lymphoma that bears receptors for IgA and IgG, presents antigen and secretes 1L-4. Internal. Immunol. 1992; 4: 107–118
  • Phillips-Quagliata J. M., Faria A. M. C, Han J., Spencer D. H., Haughton G., Casali P. The IgG2a/IgA produced by the murine T560 B lymphoma that arose during a graft-versus-host reaction is polyreactive and somatically mutated. Autoimmunity 1999; 29: 215–233
  • Faria A. M. C, Rao T. D., Phillips-Quagliata J. M., McGhee J., Mestecky J., Tlaskalova H., Sterzl J. A new IgA receptor expressed on a highly activated murine B cell lymphoma. Advances in Mucosal Immunology. Plenum Press, New York 1995; 663–668
  • Stavnezer J., Sirlin S., Abbott J. Induction of immunoglobulin isotype switching in cultured 1.29 B lymphoma cells: Characterization of the accompanying rearrangements of heavy chain genes. J. Exp. Med. 1985; 161: 577–601
  • Stavnezer J., Radcliffe Y. C, Lin Y. C, Nietupski J., Berg-Gren L., Sitia R., Severinson E. Immunoglobulin heavy chain switching may be directed by prior induction of transcripts from constant region genes. Proc. Natl. Acad. Sci. U.S.A. 1988; 85: 7704–7708
  • Radcliffe G., Lin Y-C, Julius M, Marcu K. B., Stavnezer J. Structure of germ line immunoglobulin a heavy chain RNA and its location on polysomes. Mol. Cell. Biol. 1990; 10: 382–386
  • Lebman D. A., Nomura D. Y, Coffman R. L., Lee F. D. Molecular characterization of germ line immunoglobulin A transcripts produced during transforming growth factor type pi-induced isotype switching. Proc. Natl. Acad. Sci. U.S.A. 1990; 87: 3962–3966
  • Davis M M., Calame K., Early P., Livant D L., Joho R., Weisman I L., Hood L. An immunoglobulin heavy chain gene is formed by at least two recombinational events. Nature (London) 1980; 283: 733–739
  • Iwasato T., Shimizu A., Honjo T, Yamashigi H. Circular DNA is excised by immunoglobulin class switch recombination. Cell. 1990; 62: 143–149
  • Iwasato T., Arakawa H., Shimizu A., Honjo T., Yamashigi H. Biased distribution of recombination sites within a regions upon immunoglobulin class switch recombination induced by transforming growth factor p and lipopolysaccharide. J. Exp. Med. 1992; 175: 1539–1546
  • Matsuoka M., Yoshida K., Maeda X, Usuda S., Sakano H. Switch circular DNA formed in cytokine-treated mouse splenocytes: Evidence for intramolecular DNA deletion in immunoglobulin class switching. Cell 1990; 62: 135–142
  • Snapper CM, Finkelman F. D., Paul W E. Immunoglobulin class switching. Fundamental Immunology. Lip-pincott-Raven, Philadelphia 1999; 831–861
  • Moore K W., Rogers J., Hunkapiller T., Early P., Notten-Burg C., Weissman I., Bazin H., Wall R., Hood L. E. Expression of IgD may use both DNA rearrangement and RNA splicing mechanisms. Proe. Natl. Acad. Sci. USA 1981; 78: 1800–1804
  • Maki R., Roeder W., Traunecker A., Sidman C., Wabl M., Raschke W., Tonegawa S. The role of DNA rearrangement and alternative RNA processing in the expression of immunoglobulin delta genes. Cell 1981; 24: 353–365
  • Yaoita Y., Kumagai Y, Okumura K., Honjo T. Expression of lymphocyte surface IgE does not require switch recombination. Nature 1982; 297: 697–699
  • Perlmutter A P., Gilbert W. Antibodies of the secondary response can be expressed without switch recombination in normal mouse B cells. Proc. Natl. Acad. Sci. USA 1984; 81: 7189–7193
  • Chen Y W., Word C., Dev V., Uhr J W., Vitetta E S., Tucker P W. Double isotype production by a neoplastic B cell line. II. Allelically excluded production of p. and yl heavy chains without CH gene rearrangement. J. Exp. Med. 1986; 164: 562–579
  • Shimizu A., Nussenzweig M C., Mizuda T-R., Leder P., Honjo T. Immunoglobulin double isotype expression by trans-mRNA in a human immunoglobulin transgenic mouse. Proc. Natl. Acad. Sci. USA. 1989; 86: 8020–8023
  • Shimizu A., Nussenzweig M C., Han J., Sanchez M., Honjo T. Trans-splicing as a possible mechanism for the multiple isotype expression of the immunoglobulin gene. J. Exp. Med 1991; 173: 1385–1393
  • Arnold L. W., Grdina T. A., Whitmore A. C., Haughton G. Isotype switching in B lymphocytes. Isolation and characterization of clonal variants of the murine Ly-l+B cell lymphoma, CHI2, expressing isotypes other than IgM. J. Immunol. 1988; 140: 4355–4363
  • Whitmore A. C, Prowse D. M., Arnold L. W., Haughton G. Ig Isotype switching in B lymphocytes. A method for estimating isotype switch frequency in cloned B cell lymphomas. Int. Immunol. 1989; 1: 532–539
  • Whitmore A. C, Prowse D. M., Haughton G., Arnold L. W. Ig isotype switching in B lymphocytes. The effect of T cell-derived interleukins, cytokines, cholera toxin, and antigen on isotype switch frequency of a cloned B cell lymphoma. Int. Immunol. 1991; 3: 95–103
  • Kunimoto D. Y., Sneller M. C, Claflin L., Mushinski J. F., Strober W. Molecular analysis of double isotype expression in IgA switching. J. Immunol. 1993; 150: 1338–1347
  • Phillips-Quagliata J. M., Patel S., Han J-K., Arakelov S, Rao T. D., Shulman M. J., Fazel K., Corley R. B., Everett M., Klein M. H., Underdown B. J., Corthésy B. The IgA/IgM receptor expressed on a murine B cell lymphoma is poly-lg receptor. J. Immunol. 2000; 165: 2544–2555
  • Hirano X, Miyajima H., Kitagawa H., Watanabe N., Azuma M., Taniguchi O., Hashimoto H., Hirose S-I., Yag-Ita H., Furusawa S., Ovary Z., Okumura K. Studies on murine IgE with monoclonal antibodies. I. Characterization of rat monoclonal anti-IgE antibodies and the use of these antibodies for determinations of serum IgE levels and for anaphylactic reactions. Int. Archs. Allergy Appl. Immun. 1988; 85: 47–54
  • Rao T. D., Maghazachi A. A., Gonzalez A. A., Gonzalez A., Phillips-Quagliata J. M. A novel IgA receptor expressed on a murine B cell lymphoma. J. Immunol. 1992; 149: 143–153
  • Rabat E. A., Wu T. T, Perry H. M., Gottesman R. S., Foeller C. Sequences of proteins of immunological interest. Fifth Edition. U.S.P.H.S. NIH Publication. 1991; 91: 3242
  • Word C. J., Mushinski J. F., Tucker P. W. The murine immunoglobulin a gene expresses multiple transcripts from a unique membrane exon. EMBO J. 1983; 2: 887–898
  • Shparago N., Zelazowski P., Jin L., McLntyre T. M., Stuber E., Pecanha L. M. T, Kehry M. R., Mond J. J., Max E. E., Snapper C. M. IL-10 selectively regulates murine Ig isotype switching. Internal. Immunol. 1996; 8: 781–790
  • Kawakami T, Takahashi N., Honjo T. Complete nucleotide sequence of mouse immunoglobulin p. gene and comparison with other immunoglobulin heavy chain genes. Nucl. Acids Res. 1980; 8: 3933–3945
  • Wels J. A., Word C. J., Rimm D., Der-Balan G. P., Martinez H. M., Tucker P W., Blattner F. R. Structural analysis of the murine IgG3 constant region gene. EMBO J. 1984; 3: 2041–2046
  • Akahori Y. Genbank Accession No. D78344: mouse DNA for Ig gamma chain. Partial cds
  • Chu C. C, Paul W. E., Max E. E. Quantitation of immunoglobulin p-yl heavy chain switch region recombination by a digestion-circulari/ation polymerase chain reaction method. Proc. Nat. Acad. Sci. USA. 1992; 89: 6978–6982
  • Sambrook J., Fritsch E. F., Maniatis T. Molecular Cloning. A laboratory manual. Cold Spring Harbor Laboratory Press. 1989
  • Ausubel R, Brent R., Kingston R. E., Moore D. D., Sei-Dman J. G., Smith J. A., Struhl K. Short protocols in molecular biology.Third Ed. J. Wiley and Sons. Inc. 1995
  • Devereux J., Haeberli P., Smithies O. A comprehensive set of sequence analysis programs for the VAX. Nucl. Acids Res. 1984; 12: 387–395
  • Pearson W. R., Lipman D. J. Improved tools for biological sequence comparison. Proc. Natl. Acad. Sci. USA. 1988; 85: 2444–2448
  • Marck C. “DNA Strider”: a “C” program for the fast analysis of DNA and protein sequences on the Apple Macintosh family of computers. Nucl. Acids Res. 1988; 16: 1829–1836
  • Sakano H., Kurosawa Y, Weigert M., Tonegawa S. Identification and nucleotide sequence of a diversity DNA segment (D) of immunoglobulin heavy-chain genes. Nature 1981; 290: 562–565
  • Tucker P. W., Slightom J. L., Blattner F. R. Mouse IgA heavy chain gene sequence: implications for evolution of immunoglobulin hinge exons. Proc. Natl. Acad. Sci. USA. 1981; 78: 7684–7688
  • Auffray C, Nageotte R., Sikorav J-L., Heidmann O., Rougeon F. Mouse immunoglobulin A: nucleotide sequence of the structural gene for the a heavy chain derived from cloned cDNAs. Gene 1981; 13: 365–374
  • Osborne B. A., Golde T. E., Schwartz R. L., Rudikoff S. Evolution of the IgA heavy chain gene in the genus Mus. Genetics 1988; 119: 925–931
  • Phillips-Quagliata J. M. Allelic differences in the hinge region of murine IgAs, In preparation
  • Coffman R., Lebman D A., Schrader B. Transforming growth factor β specifically enhances IgA production by lipopolysaccharide-stimulated murine B lymphocytes. J. Exp. Med. 1989; 170: 1039–1044
  • Sonoda E., Matsumoto R., Hitoshi E., Ishii T., Sugimoto M., Araki S., Toninaga A., Yamaguchi N., Takatsu K. Transforming growth factor p induces IgA production and acts additively with interlcukin 5 for IgA production. Exp. Med. 1989; 170: 1415–1420
  • Coft'man R. L., Shrader B., Carty J., Mosmann T R., Bond M W. A mouse T cell product that preferentially enhances IgA production. I. Biologic characterization. J. Immunol. 1987; 139: 3685–3690
  • Murray P. D., McKenzie D. T., Swain S. L., Kagnoff M. F. Interleukin 5 and interleukin 4 produced by Peyer's patch T cells selectively enhance immunoglobulin A expression. J. Immunol. 1987; 149: 2669–2674
  • Kunimoto D. Y., Harriman G. R., Strober W. Regulation of IgA differentiation in CH12.LX B cells by lymphokincs. IL-4 induces membrane IgM-positive CH12LX cells to express membrane IgA and IL-5 induces membrane IgA-pos-itive CHI2LX cells to secrete IgA. J. Immunol. 1988; 141: 713–720
  • Stavnezer-Nordgren J., Sirlin S. Specificity of immunoglobulin heavy chain switch correlates with activity of germline heavy chain genes prior to switching. EMBO J. 1986; 5: 95–102
  • Zan H., Cerutti A., Dramitinos P., Schaffer A., Casali P. CD40 engagement triggers switching to IgA 1 and IgA2 in human B cells through induction of endogenous TGF-p: evidence for TGF-β but not lL-10-dependent direct Sμ->Sα and sequential Sμ>Sγ,>Sα DNA recombination. J. Immunol. 1998; 161: 5217–5225
  • Matsuoka M., Yoshida K., Maeda T., Usuda S., Sakano H. Switch circular DNA formed in cytokine-treated mouse splenocytes: evidence for intramolecular DNA deletion in immunoglobulin class switching. Cell 1990; 62: 135–142
  • Cerutti A., Zan H., Schaffer A., Bergsagel L., Harin-Dranath N., Max E. E., Casali P. CD40 ligand and appropriate cytokines induce switching to IgG. IgA and IgE and coordinated germinal center and plasmacytoid differentiation in a human monoclonal IgM+IgD+ B cell line. J. Immunol. 1998; 160: 2145–2157
  • Kushiro A., Sato T. Polymeric immunoglobulin receptor gene of mouse: sequence, structure and chromosomal location. Gene 1997; 204: 277–282

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