B cells lacking RelB are defective in proliferative responses, but undergo normal B cell maturation to Ig secretion and Ig class switching.

Snapper, Clifford M.; Rosas, F R; Żelazowski, Piotr; Moorman, Mark A.; Kehry, Marilyn R.; Bravo, Rodrigo; Weih, Falk

doi:10.1084/jem.184.4.1537

Cited by 97 publications

(64 citation statements)

References 30 publications

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“…Signaling through CD40 activates both canonical and non-canonical NF-κB pathways, although several lines of evidence suggest that the non-canonical pathway is not required in the response to TD antigens. Thus, B cells lacking p52 are fully capable of appropriate TD antigen responses when transferred [21], and B cells from relB −/− mice, although crippled in their proliferative response, undergo normal IgM secretion and class switching [179]. In contrast to these results, B cells lacking either functional NIK or IKKα, exhibit defective responses [180,181].…”

Section: B-cell Responses Mediated By Nf-κbcontrasting

confidence: 50%

NF-κB in immunobiology

2011

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NF-κB was first discovered and characterized 25 years ago as a key regulator of inducible gene expression in the immune system. Thus, it is not surprising that the clearest biological role of NF-κB is in the development and function of the immune system. Both innate and adaptive immune responses as well as the development and maintenance of the cells and tissues that comprise the immune system are, at multiple steps, under the control of the NF-κB family of transcription factors. Although this is a well-studied area of NF-κB research, new and significant findings continue to accumulate. This review will focus on these areas of recent progress while also providing a broad overview of the roles of NF-κB in mammalian immunobiology.

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Section: B-cell Responses Mediated By Nf-κbcontrasting

confidence: 50%

NF-κB in immunobiology

2011

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“…For example, whereas B cells from p52 À/À mice mount inadequate humoral responses to various T-dependent antigens, they exhibit a normal response following adoptive transfer into rag-1 À/À mice -indicating that this deficit is not intrinsic to B cells (Franzoso et al, 1998). Furthermore, B cells from relB À/À mice, although crippled in their proliferative response, undergo normal IgM secretion and class switching in response to various stimuli (Snapper et al, 1996a). Therefore, non-canonical NF-kB pathway activation downstream of CD40 is probably not required for class switching during T-dependent antigen responses.…”

Section: T-cell Responses Mediated By Nf-kbmentioning

confidence: 99%

NF-κB and the immune response

2006

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“…Preliminary results showed that specific inhibitors of the PI3K, ERK, and p38 pathways (LY294002, PD90859, and SB203580, respectively) did not have a significant effect on the ability of CD40 to increase Pim-1 protein levels (data not shown). Therefore, we focused on the NF-B pathway, which plays a key role in the ability of CD40 to promote the survival of WEHI-231 cells (34,(72)(73)(74) and the proliferation of normal murine B cells (75,76). To determine whether CD40 regulates Pim-1 levels via NF-B, we used two different approaches to inhibit the activation of NF-B.…”

Section: Up-regulation Of Pim-1 By Cd40 Involves the Nf-b Pathwaymentioning

confidence: 99%

CD40 Signaling in B Cells Regulates the Expression of the Pim-1 Kinase Via the NF-κB Pathway

Zhu

Ramirez

Lee

et al. 2002

The Journal of Immunology

109

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The ability of CD40 signaling to regulate B cell growth, survival, differentiation, and Ig class switching involves many changes in gene expression. Using cDNA expression arrays and Northern blotting, we found that CD40 signaling increased the mRNA levels for pim-1, a protooncogene that encodes a serine/threonine protein kinase. Subsequent experiments showed that CD40 engagement also increased both Pim-1 protein levels and Pim-1 kinase activity in B cells. We then investigated the signaling pathways by which CD40 regulates Pim-1 expression and found that CD40 up-regulates Pim-1 primarily via the activation of NF-κB. Inhibiting the activation of NF-κB, either by treating cells with a chemical inhibitor, BAY11-7082, or by inducibly expressing a superrepressor form of IκBα, significantly impaired the ability of CD40 to increase Pim-1 protein levels. Because Pim-1 expression is associated with cell proliferation and survival, we asked whether this correlated with the ability of CD40 signaling to prevent anti-IgM-induced growth arrest in the WEHI-231 murine B cell line, a model for Ag-induced clonal deletion. We found that the anti-IgM-induced growth arrest in WEHI-231 cells correlated with a substantial decrease in Pim-1 levels. In contrast, culturing WEHI-231 cells with either anti-CD40 Abs or with the B cell mitogen LPS, both of which prevent the anti-IgM-induced growth arrest, also prevented the rapid decline in Pim-1 levels. This suggests that Pim-1 could regulate the survival and proliferation of B cells.

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B cells lacking RelB are defective in proliferative responses, but undergo normal B cell maturation to Ig secretion and Ig class switching.

Cited by 97 publications

References 30 publications

NF-κB in immunobiology

NF-κB in immunobiology

NF-κB and the immune response

CD40 Signaling in B Cells Regulates the Expression of the Pim-1 Kinase Via the NF-κB Pathway

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