The inhibiting Fc receptor for IgG, FcγRIIB, is a modifier of autoimmune susceptibility
FcγRIIB-deficient mice generated in 129 background (FcγRIIB(129)(-/-)) if back-crossed into C57BL/6 background exhibit a hyperactive phenotype and develop lethal lupus. Both in mice and humans, the Fcγr2b gene is located within a genomic interval on chromosome 1 associated with lupus susceptibility....
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| Published in: | The Journal of immunology (1950) Vol. 187; no. 3; pp. 1304 - 1313 |
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| Main Authors: | , , , , , , , , , , , , , , , , , , |
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01-08-2011
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| Abstract | FcγRIIB-deficient mice generated in 129 background (FcγRIIB(129)(-/-)) if back-crossed into C57BL/6 background exhibit a hyperactive phenotype and develop lethal lupus. Both in mice and humans, the Fcγr2b gene is located within a genomic interval on chromosome 1 associated with lupus susceptibility. In mice, the 129-derived haplotype of this interval, named Sle16, causes loss of self-tolerance in the context of the B6 genome, hampering the analysis of the specific contribution of FcγRIIB deficiency to the development of lupus in FcγRIIB(129)(-/-) mice. Moreover, in humans genetic linkage studies revealed contradictory results regarding the association of "loss of function" mutations in the Fcγr2b gene and susceptibility to systemic lupus erythematosis. In this study, we demonstrate that FcγRIIB(-/-) mice generated by gene targeting in B6-derived ES cells (FcγRIIB(B6)(-/-)), lacking the 129-derived flanking Sle16 region, exhibit a hyperactive phenotype but fail to develop lupus indicating that in FcγRIIB(129)(-/-) mice, not FcγRIIB deficiency but epistatic interactions between the C57BL/6 genome and the 129-derived Fcγr2b flanking region cause loss of tolerance. The contribution to the development of autoimmune disease by the resulting autoreactive B cells is amplified by the absence of FcγRIIB, culminating in lethal lupus. In the presence of the Yaa lupus-susceptibility locus, FcγRIIB(B6)(-/-) mice do develop lethal lupus, confirming that FcγRIIB deficiency only amplifies spontaneous autoimmunity determined by other loci. |
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| AbstractList | FcγRIIB-deficient mice generated in 129 background (FcγRIIB(129)(-/-)) if back-crossed into C57BL/6 background exhibit a hyperactive phenotype and develop lethal lupus. Both in mice and humans, the Fcγr2b gene is located within a genomic interval on chromosome 1 associated with lupus susceptibility. In mice, the 129-derived haplotype of this interval, named Sle16, causes loss of self-tolerance in the context of the B6 genome, hampering the analysis of the specific contribution of FcγRIIB deficiency to the development of lupus in FcγRIIB(129)(-/-) mice. Moreover, in humans genetic linkage studies revealed contradictory results regarding the association of "loss of function" mutations in the Fcγr2b gene and susceptibility to systemic lupus erythematosis. In this study, we demonstrate that FcγRIIB(-/-) mice generated by gene targeting in B6-derived ES cells (FcγRIIB(B6)(-/-)), lacking the 129-derived flanking Sle16 region, exhibit a hyperactive phenotype but fail to develop lupus indicating that in FcγRIIB(129)(-/-) mice, not FcγRIIB deficiency but epistatic interactions between the C57BL/6 genome and the 129-derived Fcγr2b flanking region cause loss of tolerance. The contribution to the development of autoimmune disease by the resulting autoreactive B cells is amplified by the absence of FcγRIIB, culminating in lethal lupus. In the presence of the Yaa lupus-susceptibility locus, FcγRIIB(B6)(-/-) mice do develop lethal lupus, confirming that FcγRIIB deficiency only amplifies spontaneous autoimmunity determined by other loci. FcγRIIB-deficient mice generated in 129 background (FcγRIIB129−/−) if back-crossed into C57BL/6 background exhibit a hyperactive phenotype and develop lethal lupus. Both in mice and humans, the Fcγr2b gene is located within a genomic interval on chromosome 1 associated with lupus susceptibility. In mice, the 129-derived haplotype of this interval, named Sle16, causes loss of self-tolerance in the context of the B6 genome, hampering the analysis of the specific contribution of FcγRIIB deficiency to the development of lupus in FcγRIIB129−/− mice. Moreover, in humans genetic linkage studies revealed contradictory results regarding the association of “loss of function” mutations in the Fcγr2b gene and susceptibility to systemic lupus erythematosis. In this study, we demonstrate that FcγRIIB−/− mice generated by gene targeting in B6-derived ES cells (FcγRIIBB6−/−), lacking the 129-derived flanking Sle16 region, exhibit a hyperactive phenotype but fail to develop lupus indicating that in FcγRIIB129−/− mice, not FcγRIIB deficiency but epistatic interactions between the C57BL/6 genome and the 129-derived Fcγr2b flanking region cause loss of tolerance. The contribution to the development of autoimmune disease by the resulting autoreactive B cells is amplified by the absence of FcγRIIB, culminating in lethal lupus. In the presence of the Yaa lupus-susceptibility locus, FcγRIIBB6−/− mice do develop lethal lupus, confirming that FcγRIIB deficiency only amplifies spontaneous autoimmunity determined by other loci. Fc gamma RIIB-deficient mice generated in 129 background (Fc gamma RIIB129-/-) if back-crossed into C57BL/6 background exhibit a hyperactive phenotype and develop lethal lupus. Both in mice and humans, the Fc gamma r2b gene is located within a genomic interval on chromosome 1 associated with lupus susceptibility. In mice, the 129-derived haplotype of this interval, named Sle16, causes loss of self-tolerance in the context of the B6 genome, hampering the analysis of the specific contribution of Fc gamma RIIB deficiency to the development of lupus in Fc gamma RIIB129-/- mice. Moreover, in humans genetic linkage studies revealed contradictory results regarding the association of "loss of function" mutations in the Fc gamma r2b gene and susceptibility to systemic lupus erythematosis. In this study, we demonstrate that Fc gamma RIIB-/- mice generated by gene targeting in B6-derived ES cells (Fc gamma RIIBB6-/-), lacking the 129-derived flanking Sle16 region, exhibit a hyperactive phenotype but fail to develop lupus indicating that in Fc gamma RIIB129-/- mice, not Fc gamma RIIB deficiency but epistatic interactions between the C57BL/6 genome and the 129-derived Fc gamma r2b flanking region cause loss of tolerance. The contribution to the development of autoimmune disease by the resulting autoreactive B cells is amplified by the absence of Fc gamma RIIB, culminating in lethal lupus. In the presence of the Yaa lupus-susceptibility locus, Fc gamma RIIBB6-/- mice do develop lethal lupus, confirming that Fc gamma RIIB deficiency only amplifies spontaneous autoimmunity determined by other loci. |
| Author | Salvatori, Daniela Verbeek, J Sjef Boross, Peter Santiago-Raber, Marie-Laure Carlucci, Francesco Lubberts, Erik Flierman, Roelof Martin-Ramirez, Javier Claassens, Jill W C Camps, Marcel Rastaldi, Maria Pia Daha, Mohamed R Arandhara, Victoria L Ossendorp, Ferry Cook, H Terence Botto, Marina Breukel, Cor Izui, Shozo van der Kaa, Jos |
| Author_xml | – sequence: 1 givenname: Peter surname: Boross fullname: Boross, Peter organization: Department of Human Genetics, Leiden University Medical Center, 2333 ZA Leiden, The Netherlands – sequence: 2 givenname: Victoria L surname: Arandhara fullname: Arandhara, Victoria L – sequence: 3 givenname: Javier surname: Martin-Ramirez fullname: Martin-Ramirez, Javier – sequence: 4 givenname: Marie-Laure surname: Santiago-Raber fullname: Santiago-Raber, Marie-Laure – sequence: 5 givenname: Francesco surname: Carlucci fullname: Carlucci, Francesco – sequence: 6 givenname: Roelof surname: Flierman fullname: Flierman, Roelof – sequence: 7 givenname: Jos surname: van der Kaa fullname: van der Kaa, Jos – sequence: 8 givenname: Cor surname: Breukel fullname: Breukel, Cor – sequence: 9 givenname: Jill W C surname: Claassens fullname: Claassens, Jill W C – sequence: 10 givenname: Marcel surname: Camps fullname: Camps, Marcel – sequence: 11 givenname: Erik surname: Lubberts fullname: Lubberts, Erik – sequence: 12 givenname: Daniela surname: Salvatori fullname: Salvatori, Daniela – sequence: 13 givenname: Maria Pia surname: Rastaldi fullname: Rastaldi, Maria Pia – sequence: 14 givenname: Ferry surname: Ossendorp fullname: Ossendorp, Ferry – sequence: 15 givenname: Mohamed R surname: Daha fullname: Daha, Mohamed R – sequence: 16 givenname: H Terence surname: Cook fullname: Cook, H Terence – sequence: 17 givenname: Shozo surname: Izui fullname: Izui, Shozo – sequence: 18 givenname: Marina surname: Botto fullname: Botto, Marina – sequence: 19 givenname: J Sjef surname: Verbeek fullname: Verbeek, J Sjef |
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| Snippet | FcγRIIB-deficient mice generated in 129 background (FcγRIIB(129)(-/-)) if back-crossed into C57BL/6 background exhibit a hyperactive phenotype and develop... FcγRIIB-deficient mice generated in 129 background (FcγRIIB129−/−) if back-crossed into C57BL/6 background exhibit a hyperactive phenotype and develop lethal... Fc gamma RIIB-deficient mice generated in 129 background (Fc gamma RIIB129-/-) if back-crossed into C57BL/6 background exhibit a hyperactive phenotype and... |
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| SubjectTerms | Animals Cells, Cultured Crosses, Genetic Disease Models, Animal Embryonic Stem Cells - immunology Embryonic Stem Cells - metabolism Female Gene Targeting Genetic Predisposition to Disease - prevention & control Humans Immunoglobulin G - metabolism Immunophenotyping Lupus Nephritis - genetics Lupus Nephritis - immunology Lupus Nephritis - prevention & control Male Mice Mice, 129 Strain Mice, Inbred C57BL Mice, Knockout Mice, Transgenic Receptors, IgG - deficiency Receptors, IgG - genetics Receptors, IgG - physiology |
| Title | The inhibiting Fc receptor for IgG, FcγRIIB, is a modifier of autoimmune susceptibility |
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