The Role of T Cell Help in the Production of Antibodies Specific for Galα1–3Gal

Crétin, Nathalie; Bracy, Jennifer L.; Hanson, Krista; Iacomini, John

doi:10.4049/jimmunol.168.3.1479

Cited by 54 publications

(64 citation statements)

References 30 publications

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“…However, we previously showed that the MLN was not a major site for the production of either anti-Gal or total IgM Ab after rabbit RBC immunization i.p (13). Although evidence suggests that induced anti-Gal IgM Ab responses are largely T cell dependent in Gal knockout mice (36), this response appears to be dependent on the ␣␤ TCR-bearing class of T cells (37) and not on ␥␦ T cells (A. Thall, unpublished observations). Baseline anti-Gal IgM levels in Gal knockout mice are not fully dependent on T cells (A. Thall, unpublished observations), and T cell depletion seems to actually increase the baseline anti-Gal NAb levels (38).…”

Section: Discussionmentioning

confidence: 99%

Peritoneal Cavity B Cells Are Precursors of Splenic IgM Natural Antibody-Producing Cells

Kawahara

Ohdan

Zhao

et al. 2003

The Journal of Immunology

137

105

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Peritoneal cavity B-1 cells are believed to produce IgM natural Abs. We have used α1,3-galactosyltransferase-deficient (GalT−/−) mice, which, like humans, produce IgM natural Abs against the carbohydrate epitope Galα1,3Gal (Gal), to demonstrate that peritoneal cavity B-1b cells with anti-Gal receptors produce anti-Gal IgM Abs only after LPS stimulation. Likewise, peritoneal cavity cells of GalT−/− and wild-type mice do not produce IgM Abs of other specificities without LPS stimulation. Development of Ab-secreting capacity is associated with loss of CD11b/CD18 (Mac-1) expression. In contrast, there are large numbers of cells producing anti-Gal and other IgM Abs in fresh splenocyte preparations from GalT−/− and (for non-Gal specificities) wild-type mice. These cells are Mac-1− but otherwise B-1b-like in their phenotype. We therefore hypothesized a pathway wherein peritoneal cavity B cells migrate into the spleen after activation in vivo and lose Mac-1 expression to become IgM Ab-producing cells. Consistent with this possibility, splenectomy reduced anti-Gal Ab production after immunization of GalT−/− mice with Gal-positive rabbit RBC. Furthermore, splenectomized B6 GalT−/−, Ig μ-chain mutant (μ−/−) (both Gal- and B cell-deficient) mice produced less anti-Gal IgM than nonsplenectomized controls after adoptive transfer of peritoneal cavity cells from B6 GalT−/− mice. When sorted GalT−/− Mac-1+ peritoneal cavity B cells were adoptively transferred to B6 GalT−/−, μ−/− mice, IgM Abs including anti-Gal appeared, and IgM-producing and Mac1− B cells were present in the spleen 5 wk after transfer. These findings demonstrate that peritoneal cavity Mac-1+ B-1 cells are precursors of Mac-1− splenic IgM Ab-secreting cells.

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Section: Discussionmentioning

confidence: 99%

Peritoneal Cavity B Cells Are Precursors of Splenic IgM Natural Antibody-Producing Cells

Kawahara

Ohdan

Zhao

et al. 2003

The Journal of Immunology

137

105

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“…52,53 However, we observed similar frequencies of cells with anti-␣Gal receptors in GalT Ϫ/Ϫ Cr2 Ϫ/Ϫ compared with GalT Ϫ/Ϫ mice, and the same B-1b-cell population appeared to be responsible for anti-␣Gal production in both groups. The relationship between B-1a and B-1b cells has not been well defined.Although there is some controversy regarding NAb regulation by T cells, 54 we have observed that baseline anti-␣Gal NAb levels are increased by depletion of T cells. 55 In contrast, the induced anti-␣Gal IgM response is largely T-cell dependent.…”

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confidence: 78%

“…55 In contrast, the induced anti-␣Gal IgM response is largely T-cell dependent. 54,56 Both baseline and induced anti-␣Gal levels were enhanced by nonhematopoietic CR1/CR2 expression, suggesting a role for FDC CR1/CR2 expression in both T-independent and T-dependent Ab responses.Total serum IgM levels were unaffected by the presence or absence of CR1/CR2 on hematopoietic and/or nonhematopoietic cells in our model. Our previous studies showing that anti-␣Gal-and total IgM-producing cells belong to the same B-cell subset 9 led to the expectation that total IgM levels would be reduced in mice lacking nonhematopoietic cell CR1/CR2 expression.…”

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confidence: 96%

B-cell extrinsic CR1/CR2 promotes natural antibody production and tolerance induction of anti-αGAL–producing B-1 cells

Shimizu

Kawahara

Haspot

et al. 2006

Blood

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B-1b cells produce IgM natural antibodies against ␣1-3Gal␤1-4GlcNAc (␣Gal). These can be tolerized by nonmyeloablative induction of mixed chimerism using ␣Gal-positive (␣Gal؉) donor marrow. We assessed the role of CR1/2 in this model for induction of tolerance of B-1b cells. Mixed hematopoietic chimerism was induced in ␣1-3galactosyltransferase (GalT ؊/؊ ) and GalT ؊/؊ Cr2 ؊/؊ mice with ␣Gal؉ BALB/c marrow donors. Anti-␣Gal Ab and anti␣Gal Ab-producing B cells became undetectable in GalT ؊/؊ chimeras, whereas they persisted in chimeric GalT ؊/؊ Cr2 ؊/؊ mice. To determine whether CR1/2 expression on stromal cells and/or hematopoietic cells was critical for B-1-cell tolerance, we generated GalT ؊/؊ radiation chimeras in which CR1/CR2 was expressed on either stromal cells, hematopoietic cells, neither, or both. After induction of mixed chimerism from ␣Gal؉ IntroductionHumans and old-world primates lack functional ␣1-3galactosyltrans-ferase (GalT) and produce natural antibodies (NAbs) that recognize Gal␣1-3Gal␤1-4GlcNAc (␣Gal). Pigs express high levels of ␣Gal antigen on their cell surfaces, and hyperacute rejection is induced by anti-␣Gal NAb in pig-to-primate xenotransplantation. 1 GalT Ϫ/Ϫ mice lack the ability to produce ␣Gal and, like humans, produce anti-␣Gal NAb. These mutant mice thereby provide a model for the investigation of anti-␣Gal B-cell responses and tolerance. 2,3 Using myeloablative and nonmyeloablative conditioning regimens, we have previously shown that NAb-producing B cells in GalT Ϫ/Ϫ mice can be tolerized via mixed chimerism induction. [4][5][6] Both pre-existing and newly developing B cells producing anti␣Gal Ab are tolerized by the achievement of chimerism from ␣Gal-positive (␣Galϩ) donors. Using nonmyeloablative bone marrow transplantation (BMT), permanent acceptance of ␣Galϩ heart allografts and xenografts was achieved in GalT Ϫ/Ϫ mice. 7 We have observed that B-1b cells bearing anti-␣Gal receptors in the peritoneal cavity (PerC), which are IgM high CD5 Ϫ CD43 ϩ Mac1 ϩ and lack CD21 (CR2) expression, are the main progenitors of anti-␣Gal Ab-producing cells. These PerC cells lose Mac1 expression in association with migration into the spleen and transition to Ab-secreting cells. 8,9 Complement receptor 1 (CR1, CD35), the receptor for C3b and C4b, and CR2 (CD21), the receptor for iC3b and C3d, g, are coexpressed on B cells and follicular dendritic cells (FDCs) in both humans and mice. [10][11][12] CD21 is a splice variant of CD35, and Cr2 Ϫ/Ϫ mice therefore lack both CD21 and CD35. Coupled with CR1 or CD19, CR2 regulates B-cell activation and differentiation and promotes memory generation and immunoglobulin class switching. 13 CR1/CR2 on marginal zone B cells also contributes an initial step toward adaptive immunity by transporting immune complexes onto FDCs. 14-17 Impaired B-cell responses to T-dependent and T-independent antigens have been observed using Cr2 Ϫ/Ϫ mice. 13,[17][18][19][20][21][22] Complement and complement receptors have also been implicated in self-tolerance of B cells in a...

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“…To determine the extent to which a preformed immune response was a barrier to the induction of molecular chimerism, aGT knockout mice were immunized with aGal-expressing pig cells. Since aGal is a T-dependent antigen 28 this immunization resulted in T-cell priming and increased titers of antiGal antibodies. Despite high titers of serum aGal-specific antibodies in immunized hosts, molecular chimerism could be established by increasing the dose of transduced bone marrow used for reconstitution of lethally irradiated recipient.…”

Section: Induction Of Tolerance In Sensitized Recipientsmentioning

confidence: 99%