J J Cebra scite author profile

J J Cebra

5Publications

149Citation Statements Received

77Citation Statements Given

How they've been cited

222

137

How they cite others

138

Affiliations

Center for Biologics Evaluation and Research, University of Pennsylvania

Publications

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Special features of the priming process for a secretory IgA response. B cell priming with cholera toxin.

Fuhrman¹,

Cebra²

1981

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Administration of cholera toxin/toxoid by either intraduodenal or parenteral routes increases the frequency of antigen-sensitive B cells in Peyer's patches (PP) and in distant lymphoid tissues greater than 50-fold. The special feature of mucosal priming with toxin is its unique effectiveness at generating secondary B cells, whose progeny express IgA exclusively, and such cells appear in highest frequency in PP and in appreciable numbers in spleen. Thus, this deliberate intraduodenal immunization seems to mimic the natural priming process induced by enteric bacterial colonization, which we have postulated to account for the high frequencies of IgA-committed cells specific for bacterial determinants in the PP of conventionally reared mice. furthermore, as a result of intraduodenal immunization, antigen-specific memory B cells are disseminated to sites distant form that of antigen application, including the lymphoid follicles associated with the respiratory mucosa. Direct antigenic stimulation of cells in the PP therefore results in effective cross-priming among mucosal and systemic sites through division, differentiation, and disemination of antigen-sensitive secondary B cells.

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T cell control of the gut IgA response against commensal bacteria

Bos

Hq²,

Cebra³

2001

Gut

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Interactions of commensal gut microbes with subsets of B- and T-cells in the murine host

Thurnheer

Zuercher

et al. 2004

Vaccine

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Isotype commitment of B cells and dissemination of the primed state after mucosal stimulation with Mycoplasma pulmonis

Rose¹,

Cebra²

1985

Infect Immun

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Live Mycoplasma pulmonis organisms were used to examine the immune response in the bronchus-associated lymphoid tissue after primary and secondary challenge with M. pulmonis, to study the dissemination of the primed state to distal tissues (i.e., spleen, peripheral blood, and Peyer's patches), and to determine whether the chronic antigenic stimulation accompanying infection influences the isotype potential and commitment of the primed B cells recovered from the various tissues. We have shown that exposure to M. pulmonis by a variety of routes results in a generalized rise in frequency of T-dependent, antigen-sensitive B cells in all lymphoid tissues. The route of secondary exposure to M. pulmonis was found to markedly increase the frequency of M. pulmonis-specific B cells in the bronchus-associated lymphoid tissue relative to that in the Peyer's patches after intraduodenal but not intratracheal challenge. A substantial rise in the number of M. pulmonis-sensitive B cells in the peripheral blood suggests that the dissemination of the primed state, at least in part, is due to B-cell migration via lymph and blood from local sites exposed to M. pulmonis. The majority of T-dependent clones generated by M. pulmonis-specific B cells secrete exclusively immunoglobulin Gl (IgGl). We have demonstrated that the exaggerated IgGl response was not due to the accompanying viable donor T cells in the inoculum. The predominance of IgGl was also demonstrated in clones from the bronchus-associated lymphoid tissue of athymic BALB/c mice that were primed with M. pulmonis. Thus, we can infer that functional T cells are not required for the development of specific B cells with the potential for IgGl expression at the time of in vivo priming. When anti-trinitrophenyl-and anti-M. pulmonis-specific clones were generated in the same splenic fragment cultures stimulated by trinitrophenylated M. pulmonis, only the M. pulmonis-specific clones showed exaggerated IgGl expression. Therefore, we conclude that the exaggerated IgGl response accompanying M. pulmonis infection of euthymic mice seems to be dependent, at least in part, on an intrinsic property of the B cells that develop during this antigenic stimulation. 428 on August 4, 2020 by guest http://iai.asm.org/ Downloaded from

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Spleen cells from antigen‐minimized mice are superior to spleen cells from germ‐free and conventional mice in the stimulation of primary in vitro proliferative responses to nominal antigens

et al. 1995

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T lymphocytes from mice reared under conditions of differential exposure to food, environmental and microbial antigens were compared for phenotypic shifts that may be associated with prior exposure to antigens as well as functional variations in the ability to respond to antigens de novo. While the intra-epithelial CD8 T cell compartment was found to differ significantly in the type of T cell receptor predominantly expressed, CD4 T cells from various lymphoid organs of conventionally reared specific pathogen-free (CL-SPF) mice showed only subtle phenotypic differences from cells obtained from antigen-minimized germ-free (AF) and germ-free (GF) mice. Cells derived from mice exposed to a reduced antigen load exhibited primary in vitro proliferative responses to antigens such as dinitrophenyl-keyhole limpet hemocyanin which were significantly enhanced when compared with similar responses of cells from conventional mice. In cell mixing experiments, differences in the reactivity of T cells from the spleens of AF, GF and CL-SPF mice were dependent on the source of the spleen cells employed as antigen-presenting cells (APC). Experiments in which the T cell population was held constant revealed that, as APC, spleen cells from AF mice were most often superior to spleen cells from GF mice which were in turn considerably better than a similar population from SPF mice. We conclude that the enhanced primary reactivity of spleen cells from AF mice to nominal antigen in vitro is likely to be the result of a difference in the function and/or regulatory activities of the cell population employed as APC in this investigation.

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J J Cebra

Special features of the priming process for a secretory IgA response. B cell priming with cholera toxin.

T cell control of the gut IgA response against commensal bacteria

Interactions of commensal gut microbes with subsets of B- and T-cells in the murine host

Isotype commitment of B cells and dissemination of the primed state after mucosal stimulation with Mycoplasma pulmonis

Spleen cells from antigen‐minimized mice are superior to spleen cells from germ‐free and conventional mice in the stimulation of primary in vitro proliferative responses to nominal antigens

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