4b, upper panel) By

4b, upper panel). By VX-770 molecular weight contrast, Ku70 staining was faint and nuclear staining was nearly undetectable in CD40L/IL-4-stimulated B cells (Fig. 4b, lower panel), a finding that coincided with the absence of proliferation

(Fig. 1b) and B-cell blast formation under these stimulatory conditions.[17] Full-blown proliferative responses as observed with CpG ODN stimulation might, therefore favour nuclear translocation of Ku70/80, but do not seem to be a prerequisite for RAG re-expression, because RAG-1 was detectable in CD40L/IL-4-stimulated B cells, whereas BCR stimulation failed to trigger RAG-1 expression (Fig. 2d). Having confirmed these molecular prerequisites for receptor revision we sought functional evidence for RAG activity. We postulated that re-expression of RAG in peripheral B cells enables Igκ/Igλ rearrangement in response to TLR9 ligation. To prove this hypothesis we purified Igκ+ B cells, and compared Igκ/Igλ expression in B cells stimulated with CpGPTO or CD40L/rhIL-4,

two stimuli that result in comparable cellular survival and autocrine Ceritinib IL-6 but that differ in the extent of proliferation. Despite the absence of Igλ+ cells in sorted Igκ+ B cells (Fig. 5a), unstimulated and CD40L/rhIL-4-stimulated B cells, a small population of Igκ-negative Igλ+ B cells became detectable after TLR9 stimulation for 4–6 days (Fig. 5b). Moreover, co-expression of Igκ and Igλ on a subset of B cells (Fig. 5b) was interpreted as indicative for ongoing Igκ/Igλ rearrangement. Staining with the isotype control proved the specificity of the anti-Igλ staining (Fig. 5c). Importantly, the low frequency of the evolving Igλ+ population (Fig. 5b), e.g. for CpGPTO: 0·4 ± 0·2% (n = 6) and for CD40L/IL4: 0·03 ± 0·04% (n = 4) makes Igκ/Igλ rearrangement a rare event, a finding that is compatible with the overall low expression of TLR9-induced RAG-1 and selective accumulation of RAG-1 and Ku70 in a small B-cell subfraction. Taken together, these results provided the notion this website that stimulation with TLR9-active ODN triggers RAG re-expression and consecutively catalyses LC rearrangements in a subfraction of B cells, so proving functional

integrity of TLR9-induced RAG proteins in these cells. The current understanding of receptor editing and revision implies that these processes must be initiated by binding of an autoantigen to the BCR. Of note, earlier reports described binding of CpGPTO to the BCR,[22] which raised the notion that CpGPTO could act as unselective BCR stimuli or might even mimic autoantigens. In a previous report we further demonstrated that stimulation of TLR9 with PTO-modified ODN selects IgM+ B cells for proliferation and differentiation.[17] As depicted in Fig. 6(a), CpGPTO-induced B-cell blasts originate from IgM+ CD27+ B cells because blast formation in response to CpGPTO is restricted to CD27+ and IgM+ B-cell fractions and is absent in CD27− and IgM− (class switched) B-cell fractions.

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