Conversely, loss of the PTEN phosphatase that opposes PI3K signaling expands the MZ subset and overcomes the loss of CD19 31. Like the MZ-cell increase in Foxo1f/fCd19Cre mice, the MZ cell decreases in mice lacking

PI3K, Akt1/Akt2 or CD19 are B-cell intrinsic 6, 7, 32. We therefore considered the possibility that Foxo1 inactivation is central to MZ lineage choice promoted by CD19/PI3K. It was convenient to test this possibility for CD19 in our system, since LBH589 mw breeding of the Cd19Cre knock-in allele to homozygosity generates mice lacking CD19 expression. As expected, homozygous Cd19Cre/Cre mice had a profound reduction in the MZ population as determined by CD21/CD23 staining (Fig. 3A and B) and immunofluorescent staining of spleen sections (Fig. 3C). In CD19/Foxo1 double-deficient mice (genotype=Foxo1f/fCd19Cre/Cre),

the frequency of MZ B cells was restored to the levels seen in Foxo1f/fCd19Cre mice, again elevated relative to Foxo1f/f mice (Fig. 3A and B). Therefore, loss of Foxo1 has a dominant effect on MZ lineage choice and is sufficient to complement the MZ B-cell defect arising in CD19-deficient mice. Interestingly, https://www.selleckchem.com/products/epacadostat-incb024360.html CD19/Foxo1 double-deficient mice had a greater reduction of FO B cells than either Foxo1f/fCd19Cre or Cd19Cre/Cre mice (Fig. 3A and B). Further study is required to investigate whether this phenomenon results from impaired development or survival of CD19/Foxo1 double-deficient FO

cells. CD19 is essential for proper B-cell development and activation, and most of these functions require the PI3K binding sites in the cytoplasmic tail of CD19 5 and are opposed by PTEN 31. One phenotype shared by mice lacking CD19 or PI3K/AKT signaling components is a near absence of MZ B cells. Other studies have shown that the MZ lineage choice is promoted by a low level next of self-antigen 33 and that CD19 associates with BCR signaling clusters and promotes activation even in the absence of complement fragments and co-receptor action 4. Together, these observations suggest a model in which CD19 promotes MZ development by enhancing self-antigen-triggered BCR signaling and PI3K activation. CD19 and PI3K augment Ca2+ mobilization, in part through membrane recruitment and activation of the tyrosine kinase BTK 34. However, mice lacking BTK have a normal MZ B-cell compartment 29, 35. Recent findings indicate that AKT, a well-known downstream target of PI3K, is a relevant effector for MZ B-cell lineage choice 6. The results presented here suggest that of the many downstream sequelae of AKT activation, the inactivation of Foxo1 is integral to the developmental choice between FO and MZ B-cell lineages.

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