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International Reviews of Immunology Volume 13, 1995 - Issue 1
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Original Article

Human Antibodies from Transgenic Mice

Nils Lonberg GenPharm International Inc., 297 North Bernardo Ave., Mountain View, CA, 94043, USA
&
Dennis Huszar GenPharm International Inc., 297 North Bernardo Ave., Mountain View, CA, 94043, USA; Millennium Pharmaceuticals Inc., 640 Memorial Drive, Cambridge, MA, 02139, USA
Pages 65-93 | Received 13 Jan 1995, Accepted 13 Jan 1995, Published online: 10 Jul 2009

References

  • Kitamura D., Roes J., Kuhn R., Rajewsky K. A B cell-deficient mouse by targeted disruption of the membrane exon of the immunoglobulin μ. chain gene. Nature 1991; 350: 423–426
  • Shinkai Y., Rathbun G., Lam K. P., Oltz E. M., Stewart V., Mendelsohn M., Charron J., Datta M., Young R., Stall A. M., Alt F. W. RAG-2 deficient mice lack mature lymphocytes owing to inability to initiate V(D)J rearrangement. Cell 1992; 68: 855–867
  • Mombaerts P., Iacomini J., Johnson R. S., Herrup K., Tonegawa S., Papaioannou V. E. RAG-1 deficient mice have no mature B and T lymphocytes. Cell 1992; 68: 869–877
  • Chen J., Trounstine M., Alt F. W., Young E., Kurahara C., Loring J. E., Huszar D. Immunoglobulin gene rearrangements in B cell deficient mice generated by targeted deletion of the JH locus. Int. Immunol 1993; 5: 647–656
  • Gu H., Zou Y. R., Rajewsky K. Independent control of immunoglobulin switch recombination at individual switch regions evidenced through cre-loxP-mediated gene targeting. Cell 1993; 73: 1155–1164
  • Jakobovits A., Vergara G. J., Kennedy J. L., Hales J. E., McGuinness R. P., Casentini-Borocz D. E., Brenner D. G., Otten G. R. Analysis of homozygous mutant chimeric mice: Deletion of the immunoglobulin heavy-chain joining region blocks B-cell development and antibody production. Proc. Natl. Acad. Sci. USA 1993; 90: 2551–2555
  • Bucchini D., Reynaud C. A., Ripoche M. -A., Grimal H., Jami J., Weill J. -C. Rearrangement of a chicken immunoglobulin gene occurs in the lymphoid lineage of transgenic mice. Nature 1987; 326: 409–411
  • Goodhardt M., Cavelier P., Akimenko M. A., Lutfalla G., Babinet C., Rougeon F. Rearrangement and expression of rabbit immunoglobulin K light chain gene in transgenic mice. Proc. Natl. Acad. Sci. USA 1987; 84: 4229–4233
  • Goodhardt M., Babinet C., Lutfalla G., Kallenbach S., Cavelier P., Rougeon F. Immunoglobulin K light chain gene promoter and enhancer are not responsible for B-cell restricted gene rearrangement. Nucleic Acids Res 1989; 17: 7403–7415
  • Brüggemann M., Caskey H. M., Teale C., Waldmann H., Williams G. T., Surani M. A., Neuberger M. S. A repertoire of monoclonal antibodies with human heavy chains from transgenic mice. Proc. Natl. Acad. Sci. USA 1989; 86: 6709–6713
  • Ferrier P., Kripple B., Blackwell T. K., Furley A. J. W., Suh H., Winoto A., Cook W. D., Hood L., Costantini F., Alt F. W. Separate elements control DJ and VDJ rearrangement in a transgenic recombination substrate. EMBO J 1990; 9: 117–125
  • Brüggemann M., Spicer C., Buluwela L., Rosewell I., Barton S., Surani M. A., Rabbits T. H. Human antibody production in transgenic mice: expression from 100 kb of the human IgH locus. Eur. J. Immunol 1991; 21: 1323–1326
  • Taylor L. D., Carmack C. E., Schramm S. R., Mashayekh R., Higgins K. M., Kuo C- C, Woodhouse C. S., Kay R. M., Lonberg N. A transgenic mouse that expresses a diversity of human sequence heavy and light chain immunoglobulins. Nucleic Acids Res 1992; 20: 6287–6295
  • Choi T. K., Hollenbach P. W., Pearson B. E., Ueda R. M., Weddell G. N., Kurahara C. G., Woodhouse C. S., Kay R. M., Loring J. F. Transgenic mice containing a human heavy chain immunoglobulin gene fragment cloned in a yeast artificial chromosome. Nature Genetics 1993; 4: 117–123
  • Davies N. P., Rosewell I. R., Cook G. P., Neuberger M. S., Brownstein B. H., Norris M. L., Brüggemann M. Creation of mice expressing human antibody light chains by introduction of a yeast artificial chromosome containing the core region of the human immunoglobulin κ locus. Bio/Technology 1993; 11: 911–914
  • Taylor L. D., Carmack C. E., Huszar D., Higgins K. M., Mashayekh R., Sequar G., Schramm S. R., Kuo C- C, O'Donnell S. L., Kay R. M., Woodhouse C. S., Lonberg N. Human immunoglobulin transgenes undergo rearrangement, somatic mutation and class switching in mice that lack endogenous IgM. Int. Immunol 1994; 6: 579–591
  • Lonberg N., Taylor L. D., Harding F. A., Trounstine M., Higgins K. M., Schramm S. R., Kuo C. -C, Mashayekh R., Wymore K., McCabe J. G., Munoz-O'Regan D., O'Donnell S. L., Lapachet E. S. G., Bengoechea T., Fishwild D. M., Carmack C. E., Kay R. M., Huszar D. Antigen-specific human antibodies from mice comprising four distinct genetic modifications. Nature 1994; 368: 856–859
  • Green L. L., Hardy M. C., Maynard-Currie C. E., Tsuda H., Louie D. M., Mendez M. J., Abderrahim H., Noguchi M., Smith D. H., Zeng Y., David Y., Sasai H., Garza D., Brenner D. G., Hales J. F., McGuinness R. P., Capon D. J., Klapholz S., Jakobovitz A. Antigen-specific human monoclonal antibodies from mice engineered with human Ig heavy and light chain YACs. Nature Genetics 1994; 7: 13–21
  • Chen J., Lansford R., Stewart V., Young R., Alt F. W. RAG-2-deficient blastocyst complementation: An assay of gene function in lymphocyte development. Proc. Natl. Acad. Sci. USA 1993; 90: 4528–4532
  • Wagner S. D., Williams G. T., Larson T., Neuberger M. S., Kitamura D., Rajewsky K., Xian J., Brüggemann M. Antibodies generated from human immunoglobulin miniloci in transgenic mice. Nucleic Acids Res 1994; 22: 1389–1393
  • Hardy R. R., Carmack C. E., Shinton S. A., Kemp J. D., Hayakawa K. Resolution and characterization of pro-B and pre-pro-B cell states in normal mouse bone marrow. J. Exp. Med 1991; 173: 1213–1225
  • Ehlich A., Schaal S., Gu H., Kitamura D., Muller W., Rajewsky K. Immunoglobulin heavy and light chain genes rearrange independently at early stages of B cell development. Cell 1993; 72: 695–704
  • Alt F. W., Enea V., Bothwell A. L. M., Baltimore D. Activity of multiple light chain genes in murine myeloma cells producing a single, functional light chain. Cell 1980; 21: 1–12
  • Bernier G. M., Cebra J. J. Polypeptide chains of human gamma-globulin: cellular localization by fluorescent antibody. Science 1964; 144: 1590–1591
  • Railed S. L., Brodeur P. H. Utilization of VK families and VK exons. Implications for the available B cell repertoire. J. Immunol 1991; 147: 3194–3200
  • Storb U., Haasch D., Arp B., Sanchez P., Cazenave P. A., Miller J. Physical linkage of the mouse λ genes by pulsed field gel electrophoresis suggests that the rearrangement process favors proximate target sequences. Mol. Cell. Biol 1989; 9: 711–718
  • Chen J., Trounstine M., Kurahara C., Young E., Kuo C. C., Xu Y., Loring J. F., Alt F. W., Huszar D. B cell development in mice that lack one or both immunoglobulin K light chain genes. EMBO J 1993; 12: 821–830
  • Zou Y. R., Takeda S., Rajewsky K. Gene targeting in the IgK locus: efficient generation of X chain expressing B cells, independent of gene rearrangements in IgK. EMBO J 1993; 12: 811–820
  • Takeda S., Zou Y. R., Bluethmann H., Kitamura D., Muller U., Rajewsky K. Deletion of the immunoglobulin K chain intron enhancer abolishes K chain rearrangement in cis, but not λ chain rearrangement in trans. EMBO J 1993; 12: 2329–2336
  • Pricop L., Brumeanu T., Elahi E., Moran T., Wang B. S., Trounstine M., Huszar D., Alt F., Bona C. Antibody response elicited by T-dependent and T-independent antigens in gene targeted K-deficient mice. Int. Immunol 1994; 6: 1839–1847
  • Matsuda F., Shin E. K., Nagoaka H., Matsumura R., Haino M., Gukita Y., Tak-isi S., Riley J., Anand R., Soeda E., Honjo T. Structure and physical map of 64 variable segments in the 3′ 0.8-megabase region of the human immunoglobulin heavy-chain locus. Nature Genetics 1993; 3: 88–94
  • Cook G. P., Tomlinson I. M., Walter G., Reithman H., Carter N. P., Buluwela L., Winter G., Rabbitts T. H. A map of the human immunoglobulin VH locus completed by analysis of the telomeric region of chromosome 14q. Nature Genetics 1994; 7: 162–168
  • Weichhold G. M., Ohnheiser R., Zachau H. G. The human immunoglobulin K locus consists of two copies that are organized in opposite polarity. Genomics 1993; 16: 503–511
  • Hofker M. H., Walter M. A., Cox D. W. Complete physical map of the human immunoglobulin heavy chain constant region gene complex. Proc. Natl. Acad. Sci. USA 1989; 86: 5567–5571
  • Palmiter R. D., Brinster R. L. Germ-line transformation of mice. Annu. Rev. Genet 1986; 20: 465–499
  • Hayday A. C., Gillies S. D., Saito H., Wood C., Wiman K., Hayward W. S., Tonegawa S. Activation of a translocated human c-myc gene by an enhancer in the immunoglobulin heavy-chain locus. Nature 1984; 307: 334–340
  • Cockerill L. K., Yuen M. -H., Garrard W. T. The enhancer of the immunoglobulin heavy chain locus is flanked by presumptive chromosomal loop anchorage elements. J. Biol. Chem 1987; 262: 5394–5397
  • Jenuwein T., Grosschedl R. Complex pattern of immunoglobulin JA gene expression in normal and transgenic mice: nonoverlapping regulatory sequences govern distinct tissue specificities. Genes Dev 1991; 5: 932–943
  • Serwe M., Sablitzky F. V(C)J recombination in B cells is impaired but not blocked by targeted deletion of the immunoglobulin heavy chain intron enhancer. EMBO J 1993; 12: 2321–2327
  • Chen J., Young F., Bottaro A., Stewart V., Smith R. K., Alt F. W. Mutations of the intronic IgH enhancer and its flanking sequences differentially affect accessibility of the JH locus. EMBO J 1993; 12: 4635–4645
  • Pettersson S., Cook G. P., Brüggemann M., Williams G. T., Neuberger M. S. A second B cell-specific enhancer 3′ of the immunoglobulin heavy-chain locus. Nature 1990; 344: 165–168
  • Dariavach P., Williams G. T., Campbell K., Pettersson S., Neuberger M. S. The mouse IgH 3 enhancer. Eur. J. Immunol 1991; 21: 1499–1504
  • Lieberson R., Giannini S. L., Birshtein B. K., Eckhardt L. A. An enhancer at the 3′ end of the mouse immunoglobulin heavy chain locus. Nucleic Acids Res 1991; 19: 933–937
  • Cogne M., Lansford R., Bottaro A., Zhang J., Gorman J., Young F., Cheng H- L., Alt F. W. A class switch control region at the 3′ end of the immunoglobulin heavy chain locus. Cell 1994; 77: 737–747
  • Callard R. E., Turner M. W. Cytokines and Ig switching: evolutionary divergence between mice and humans. Immunology Today 1990; 11: 200–202
  • Matthias P., Baltimore D. The immunoglobulin heavy chain locus contains another B-cell-specific 3′ enhancer close to the λ constant region. Mol Cell. Biol 1993; 13: 1547–1553
  • Kottmann A. H., Zevnik B., Welte M., Nielson P. J., Kohler G. A second promoter and enhancer element within the immunoglobulin heavy chain locus. Eur. J. Immunol 1994; 24: 817–821
  • Lennon G. C., Perry R. P. Cu.-containing transcripts initiate heterogeneously within the IgH enhancer region and contain a novel 5′-nontranslatable exon. Nature 1985; 318: 475–478
  • Alessandrini A., Desiderio S. V. Coordination of immunoglobulin DJH transcription and D-to-JH rearrangement by promoter-enhancer approximation. Mol. Cell. Biol 1991; 11: 2096–2107
  • Schlissel M. S., Corcoran L. M., Baltimore D. Virus-transformed pre-B cells show ordered activation but not inactivation of immunoglobulin gene rearrangement and transcription. J. Exp. Med 1991; 173: 711–720
  • Chen J., Young F., Bottaro A., Stewart V., Smith R. K., Alt F. W. Mutations of the intronic IgH enhancer and its flanking sequences differentially affect accessibility of the JH locus. EMBO J 1993; 12: 4635–4645
  • Xu M., Stavnezer J. Regulation of transcription of immunoglobulin germ-line γI RNA: analysis of the promoter/enhancer. EMBO J 1992; 11: 145–155
  • Berton M. T., Uhr J. W., Vitetta E. S. Synthesis of germ-line -γI immunoglobulin heavy-chain transcripts in resting B cells: induction by interleukin 4 and inhibition by interferon 7. Proc. Nail. Acad. Sci. USA 1989; 86: 2829–2833
  • Esser C., Radbruch A. Rapid induction of transcription of unrearranged SγI switch regions in activated murine B cells by interleukin-4. EMBO J 1989; 8: 483–488
  • Goodman D. J., Gaff C., Gerondakis S. The IL-4 induced increase in the frequency of resting murine splenic B cells expressing germline Ig heavy chain γI transcripts correlates with subsequent switching to IgGl. Int. Immunol 1992; 5: 199–208
  • Jung S., Rajewsky K., Radbruch A. Shutdown of class switch recombination by deletion of a switch region control element. Science 1993; 259: 984–987
  • 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
  • Lutzker S., Alt F. W. Structure and expression of germ line immunoglobulin 72b transcripts. Mol. Cell. Biol 1988; 8: 1849–1852
  • Stavnezer J., Radcliff G., Lin Y. -C, Nietupski J., Berggren L., Sitia R., Severenson E. Immunoglobulin heavy-chain switching may be directed by prior induction of transcripts from constant-region genes. Proc. Natl. Acad. Sci. USA 1988; 85: 7704–7708
  • Gerondakis S. Structure and expression of murine germ-line immunoglobulin ε heavy chain transcripts induced by interleukin 4. Proc. Natl. Acad. Sci. USA 1988; 87: 1581–1585
  • Rothman P., Lutzker S., Gorham B., Stewart V., Coffman R., Alt F. W. Structure and expression of germline immunoglobulin γ3 heavy chain gene transcripts: implications for mitogen and lymphokine directed class-switching. Int. Immunol 1990; 2: 621–627
  • Collins J. T., Dunnick W. A. Germline transcripts of the murine immunoglobulin γ2a gene: structure and induction by IFN-γ. Int. Immunol 1993; 5: 885–891
  • Zhang J., Bottaro A., Li S., Stewart V., Alt F. W. A selective defect in IγG2b switching as a result of targeted mutation if the Iγ2b promoter and exon. EMBO J 1993; 12: 3529–3537
  • Xu L., Gorham B., Li S. C., Bottaro A., Alt F. W. Replacement of germ-line ε promoter by gene targeting alters control of immunoglobulin heavy chain class switching. Proc. Natl. Acad. Sci. USA 1993; 90: 3705–3709
  • Sideras P., Mizuta T. -R., Kanamori H., Suzuki N., Okamoto M., Kuze K., Ohno H., Doi S., Fukuhara S., Hassan M. S., Hammarstrom L., Smith E., Shimizu A., Honjo T. Production of sterile transcripts of Cγ genes in an IgM-producing human neoplastic B cell line that switches to IgG-producing cells. Int. Immunol 1989; 1: 631–642
  • Gauchat J. -F, Lebman D. A., Coffman R. L., Gascan H., De Vries J. E. Structure and expression of germline ε transcripts in human B cells induced by interleukin 4 to switch to IgE production. J. Exp. Med 1990; 172: 463–473
  • Gram H., Zenke G., Geisse S., Kleauser B., Burki K. High-level expression of a human immunoglobulin γI transgene depends on switch region sequences. Eur. J. Immunol 1992; 22: 1185–1191
  • Humphries C. G., Shen A., Kuziel W. A., Capra J. D., Blattner F. R., Tucker P. W. A new human VH family preferentially rearranged in immature B-cell tumours. Nature 1988; 331: 446–449
  • Tomlinson I., Walter G., Marks J. D., Llewelyn M. B., Winter G. The repertoire of human germline VH sequences reveals about fifty groups of VH segments with different hypervariable loops. J. Mol. Biol 1992; 227: 776–798
  • Schroeder H. W., Hillson J. L., Perlmutter R. M. Early restriction of the human antibody repertoire. Science 1987; 238: 791–793
  • Pascual V., Victor K., Lelsz D., Spellerberg M. B., Hamblin T. J., Thompson K. M., Randen I., Natvig J., Capra J. D., Stevenson F. K. Nucleotide sequence of the V regions of two IgM cold agglutinins. J. Immunol 1991; 146: 4385–4391
  • Griffiths A. D., Williams S. C., Hartley O., Tomlinson I. M., Waterhouse P., Crosby W. L., Kontermann R. E., Jones P. T., Low N. M., Allison T. J., Prospero T. D., Hoogenboom H. R., Nissim A., Cox J. P. L., Harrison J. L., Zaccolo M., Gherardi E., Winter G. Isolation of high affinity human antibodies directly from large synthetic repertoires. EMBO J 1994; 13: 3245–3260
  • Klein R., Jaenichen R., Zachau H. G. Expressed human immunoglobulin V genes and their hypermutation. Eur. J. Immunol 1993; 23: 3248–3271
  • Meyer K. B., Neuberger M. S. The immunoglobulin K locus contains a second, stronger B-cell-specific enhancer which is located downstream of the constant region. EMBO J 1989; 8: 1959–1964
  • Judde J. -G., Max E. E. Characterization of the human immunoglobulin kappa gene 3′ enhancer: functional importance of three motifs that demonstrate B-cell-specific in vivo, footprints. Mol. Cell. Biol 1992; 12: 5206–5216
  • Tjandra J. J., Ramadi L., McKenzie I. F. C. Development of human anti-murine antibody (HAMA) response in patients. Immunol. Cell. Biol 1990; 68: 367–376
  • Goldstein G., et al. A randomized clinical trial of OKT3 monoclonal antibody for acute rejection of cadaveric renal transplants. N. Engl. J. Med 1985; 313: 337–342
  • Scheinberg D. A. Current applications of monoclonal antibodies for the therapy of hematopoietic cancers. Curr. Opin. Immunol 1991; 3: 679–684
  • Larrick J. W., Bourla J. M. Prospects for the therapeutic use of human monoclonal antibodies. J. Biol. Resp. Mod 1986; 5: 379–393
  • Cote R. L., Morrissey D. M., Houghton A. N., Thomson T. M., Daly M. E., Oettgen H. F., Old L. J. Specificity analysis of human monoclonal antibodies reactive with cell surface and intracellular antigens. Proc. Natl. Acad. Set. USA 1986; 83: 2959–2963
  • Houghton A. N., Brooks H., Cote R. J., Taormina M. C., Oettgen H. F., Old L. J. Detection of cell surface and intracellular antigens by human monoclonal antibodies. J. Exp. Med 1983; 158: 53–65
  • Durdik J., Gerstein R. M., Rath S., Robbins P. F., Nisonoff A., Seising E. Proc. Natl. Acad. Sci. USA 1989; 86: 2346–2350
  • Gerstein R. M., Frankel W. N., Hsieh C. L., Durdik J. M., Rath S., Coffin J. M., Nisonoff A., Seising E. Isotype switching of an immunoglobulin heavy chain transgene occurs by DNA recombination between different chromosomes. Cell 1990; 63: 537–548
  • Jung S., Rajewsky K., Radbruch A. Shutdown of class switch recombination by deletion of a switch region control element. Science 1993; 259: 984–987
  • Zhang J., Bottaro A., Li S., Stewart V., Alt F. W. A selective defect in IgG2b switching as a result of targeted mutation of the Iγ2b, promoter and exon. EMBO J 1993; 12: 3529–3537
  • Sideras P., Mizuta T. -R., Kanamori H., Suzuki N., Okamoto M., Kuze K., Ohno H., Doi S., Fukuhara S., Hassan M. S., Hammarstrom L., Smith E., Shimizu A., Honjo T. Production of sterile transcripts of C-y genes in an IgM-producing human neoplastic B cell line that switches to IgG-producing cells. Int. Immunol 1989; 1: 631–642
  • Rothman P., Lutzker S., Gorham B., Stewart V., Coffman R., Alt F. W. Structure and expression of germline immunoglobulin γ3 heavy chain gene transcripts: implications for mitogen and lymphokine directed class-switching. Int. Immunol 1990; 2: 621–627
  • Mills F. C., Brooker J. S., Camerini-Otero R. D. Sequences of human immunoglobulin switch regions: implications for recombination and transcription. Nucleic Acids Res 1990; 18: 7305–7316
  • Xu M., Stavnezer J. Regulation of transcription of immunoglobulin germ-line γl RNA: analysis of the promoter/enhancer. EMBO J 1992; 11: 145–155
  • Cai J., Humphries C., Richardson A., Tucker P. W. Extensive and selective mutation of a rearranged VH5 gene in human B cell chronic lymphocytic leukemia. J. Exp. Med 1992; 176: 1073–1081
  • Ebeling S. B., Schutte M. E. M., Logtenberg T. Peripheral human CD5+ and CDS-B cells may express somatically mutated VH5- and VH6- encoded IgM receptors. J. Immunol 1993; 151: 6891–6899
  • Rassenti L. Z., Kipps T. J. Lack of extensive mutations in the VH5 genes used in common B cell chronic lymphocytic leukemia. J. Exp. Med 1993; 177: 1039–1046
  • van der Stoep N., van der Linden J., Logtenberg T. Molecular evolution of the human immunoglobulin E response: high incidence of shared mutations and clonal relatedness among ε VH5 transcripts from three unrelated patients with atopic dermatitis. J. Exp. Med 1993; 177: 99–107
  • Xu M., Stavnezer J. Structure of germline immunoglobulin heavy-chain gamma 1 transcripts in interleukin 4 treated spleen cells. Dev. Immunol 1990; 1: 11–17
  • Mowatt M. R., Dunnick W. A. DNA sequence of the murine γI switch segment reveals novel structural elements. J. Immunol 1986; 136: 2674–2683
  • Goodman D. J., Gaff C., Gerondakis S. The IL-4 induced increase in the frequency of resting murine splenic B cells expressing germline Ig heavy chain γI transcripts correlates with subsequent switching to IgG1. Int. Immunol 1993; 5: 199–208
  • Harding F. A., Lonberg N. Class switching in human immunoglobulin transgenic mice. Immunoglobulin Gene Expression in Development and Disease, P. Casali, L. E. Silberstein. Ann. NY Acad. Sci., 1995, in press
  • Schultz C. L., Coffman R. L. IL-4 Structure and Function, H. Spitz. CRC Press, Boca Raton, Fla 1992; 76–88
  • Snapper C. M., Paul W. E. Interferon-γ and β cell stimulatory factor-1 reciprocally regulate Ig isotype production. Science 1987; 236: 944–947
  • Coffman R. L., Lebman D. A., Shrader B. Transforming growth factor β specifically enhances IgA production by lipopolysaccharide-stimulated murine B lymphocytes. J. Exp. Med 1989; 170: 1039–1044
  • Kotowicz K., Callard R. E. Human immunoglobulin class and IgG subclass regulation: dual action of interleukin-4. Eur. J. Immunol 1993; 23: 2250–2256
  • Defrance T., Vanervliet B., Briere F., Durand I., Rousset F., Banchereau J. Interleukin 10 and transforming growth factor β cooperate to induce anti-CD40-activated naive human B cells to secrete immunoglobulin. Am. J. Exp. Med 1992; 175: 671–682

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