Jörg Klein scite author profile

Mice deficient for the transcriptional coactivator BOB.1/OBF.1 show several defects in B cell differentiation. Numbers of immature transitional B cells in the bone marrow are reduced and fewer B cells reach the periphery. Furthermore, germinal center B cells are absent and marginal zone (MZ) B lymphocytes are markedly reduced. Increased levels of B cell apoptosis in these mice prompted us to analyze expression and function of antiapoptotic proteins. Bcl2 expression is strongly reduced in BOB.1/OBF.1-deficient pre–B cells. When BOB.1/OBF.1-deficient mice were crossed with Bcl2-transgenic mice, B cell development in the bone marrow and numbers of B cells in peripheral lymphoid organs were normalized. However, neither germinal center B cells nor MZ B cells were rescued. Additionally, Bcl2 did not rescue the defects in signaling and affinity maturation found in BOB.1/OBF.1-deficient mice. Interestingly, Bcl2-transgenic mice by themselves show an MZ B cell defect. Virtually no functional MZ B cells were detected in these mice. In contrast, mice deficient for Bcl2 show a relative increase in MZ B cell numbers, indicating a previously undetected function of Bcl2 for this B cell compartment.

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B Cell-Specific Deficiency for Smad2 In Vivo Leads to Defects in TGF-β-Directed IgA Switching and Changes in B Cell Fate

Klein

Heyer

et al. 2006

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Smad2 is a member of the intracellular mediators that transduce signals from TGF-β receptors and activin receptors. Targeted inactivation of Smad2 in mice leads to early lethality before gastrulation. It was shown previously that TGF-βRII deficiency in vivo leads to defects in B cell homeostasis, Ag responsiveness, and IgA class switch recombination of B cells. To investigate the importance of Smad2-mediated signaling in B lymphocytes, we generated a B cell-specific inactivation of Smad2 in mice (bSmad2−/−). bSmad2−/− mice had normal B cell numbers in the spleen but showed a reduced population of marginal zone B cells. In contrast, B cells in Peyer’s patches and peritoneal B-1a cells of bSmad2−/− mice were increased in numbers. bSmad2−/− mice showed a reduced number of surface-IgA+ B cells and of IgA-secreting cells in Peyer’s patches, decreased levels of IgA in serum, and, after immunization with a T cell-dependent Ag, a reduced IgA response. Class switch recombination to IgA was impaired in Smad2-deficient B cells, when stimulated in vitro with LPS in the presence of TGF-β. The growth-inhibitory effects of TGF-β in LPS-stimulated B cells were not affected in Smad2-deficient B cells. In summary, our data indicate a crucial role of Smad2 in mediating signals for the TGF-β-directed class switch to IgA and the induction of IgA responses in vivo. Other B cell functions like growth-inhibitory signaling, which are known to be regulated by signals via the TGF-βR, are not affected in Smad2-deficient B cells.

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Mapping and genomic characterization of the gene encoding diacylglycerol kinase γ ( DAGK3 ): assessment of its role in dominant optic atrophy ( OPA1 )

et al. 1999

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The family of diacylglycerol kinases (DAGKs) is known to play an important role in signal transduction linked to phospholipid turnover. In the fruitfly Drosophila melanogaster, a human DAGK ortholog, DGK2, was shown to underlie the phenotype of the visual mutant retinal degeneration A (rdgA). Previously, the gene encoding a novel member of the human DAGK family, termed DAGK3, was cloned and demonstrated to be abundantly expressed in the human retina. Based on these findings we reasoned that DAGK3 might be an excellent candidate gene for a human eye disease. In the present study, we report the genomic organization of the human DAGK3 gene, which spans over 30 kb of genomic DNA interrupted by 23 introns. In addition, we have mapped the gene locus by fluorescence in situ hybridization to 3q27-28, overlapping the chromosomal region known to contain the gene underlying dominant optic atrophy (OPA1), the most common form of hereditary atrophy of the optic nerve. Mutational analysis of the entire coding region of DAGK3 in 19 unrelated German OPA1 patients has not revealed any disease-causing mutations, therefore excluding DAGK3 as a major cause underlying OPA1.

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IL-12 expression in AIDS-related lymphoma B cell lines.

Benjamin

Sharma

Kubin

et al. 1996

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IL-12 is a 70-kDa heterodimer formed by the 40-kDa heavy chain (p40) and the 35-kDa light chain (p35). Twenty-five Burkitt's lymphoma cell lines (CL) and seven normal lymphoblastoid B CL were studied. The Burkitt's CL included AIDS-associated B CL (AABCL) (7 EBV+/2 EBV-) and non-AABCL (8 EBV+/8 EBV-). Reverse transcription-PCR detected p40 in EBV+ AABCL (7 of 7), EBV+ non-AABCL (3 of 8), and normal lymphoblastoid B CL (6 of 6) but not in EBV- CL (0 of 10). p35 mRNA was detected in 30 of 30 CL. Constitutive secretion of p40 was found in 7 of 7 EBV+ AABCL (range, 341-18,086 pg/ml) and p70 in 3 of 7 EBV+ AABCL (range, 25-197 pg/ml), but in only 1 of 8 EBV+ non-AABCL and 0 of 7 normal lymphoblastoid CL. PMA stimulated p40 secretion in 7 of 7 EBV+ AABCL and p70 secretion in 5 of 7 EBV+ AABCL. PMA also triggered p40 and p70 secretion in 2 EBV+ non-AABCL and in 3 of 7 normal lymphoblastoid CL. No IL-12 secretion was detected in 10 EBV- CL, including EBV- AABCL. The CL produced IL-10, a known inhibitor of IL-12, but anti-IL-10 Abs did not neutralize IL-12. Similarly, neutralizing anti-IFN gamma Abs or IFN gamma did not affect B cell IL-12. For IL-12R studies, reverse transcription-PCR and 125I-IL-12 binding assays were performed. Although all CL tested showed mRNA accumulation for one of the IL-12R components, IL-12 binding sites were detected in only 1 of 30 CL. Our data suggest that: 1) AABCL constitutively secrete large amounts of IL-12, contrasting with low IL-12 production by HIV-1 infected PBMC; 2) lack of IL-12 expression in EBV- AABCL suggests that in vivo exposure of B cells to HIV-1 only does not induce IL-12 secretion and that both HIV-1 and EBV are required; 3) the autocrine-negative effect of IL-10 on IL-12 in monocytes and the enhancing effect of IFN gamma on IL-12 secretion do not apply to B cells derived from AIDS patients.

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Jörg Klein

B Cell–specific Transgenic Expression of Bcl2 Rescues Early B Lymphopoiesis but Not B Cell Responses in BOB.1/OBF.1-deficient Mice

B Cell-Specific Deficiency for Smad2 In Vivo Leads to Defects in TGF-β-Directed IgA Switching and Changes in B Cell Fate

Mapping and genomic characterization of the gene encoding diacylglycerol kinase γ ( DAGK3 ): assessment of its role in dominant optic atrophy ( OPA1 )

IL-12 expression in AIDS-related lymphoma B cell lines.

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