Molecular and functional profiling of memory CD8 T cell differentiation

How and when memory T cells form during an immune response are long-standing questions. To better understand memory CD8 T cell development, a time course of gene expression and functional changes in antigen-specific T cells during viral infection was evaluated. The expression of many genes continued to change after viral clearance in accordance with changes in CD8 T cell functional properties. Even though memory cell precursors were present at the peak of the immune response, these cells did not display hallmark functional traits of memory T cells. However, these cells gradually acquired the memory cell qualities of self-renewal and rapid recall to antigen suggesting the model that antigen-specific CD8 T cells progressively differentiate into memory cells following viral infection.     

Infant B cell memory differentiation and early gut bacterial colonization

Germ-free animal models have demonstrated that commensal bacterial colonization of the intestine induces B cell differentiation and activation. Whether colonization with particular bacterial species or groups is associated with B cell development during early childhood is not known. In a prospective newborn/infant cohort including 65 Swedish children, we examined the numbers and proportions of CD20(+), CD5(+), and CD27(+) B cells in blood samples obtained at several time points during the first 3 y of life using flow cytometry. Fecal samples were collected and cultured quantitatively for major facultative and anaerobic bacteria at 1, 2, 4, and 8 wk of life. We found that the numbers of CD20(+) B cells and CD5(+)CD20(+) B cells reached their highest levels at 4 mo, whereas CD20(+) B cells expressing the memory marker CD27 were most numerous at 18 and 36 mo of age. Using multivariate analysis, we show that early colonization with Escherichia coli and bifidobacteria were associated with higher numbers of CD20(+) B cells that expressed the memory marker CD27 at 4 and 18 mo of age. In contrast, we were unable to demonstrate any relation between bacterial colonization pattern and numbers of CD20(+) or CD5(+)CD20(+) B cells. These results suggest that the intestinal bacterial colonization pattern may affect the B cell maturation also in humans, and that an early gut microbiota including E. coli and bifidobacteria might promote this maturation.     

Stimulation of B cell growth and differentiation by murine recombinant interleukin 1

Purified splenic B cells from C57BL/6 mice were separated into high-density (resting) and low-density (activated) B cells. Separated B cell populations were cultured at low cell densities (1 X 10(4) cells/well) with recombinant interleukin 1 (r-IL 1) alone or in combination with dextran sulfate (DXS) or anti-IgM monoclonal antibodies (alpha IgM mab), respectively, and proliferative responses were determined. R-IL 1 alone, as well as in synergy with alpha IgM mab or DXS, respectively, stimulated the growth of low-density B cells. Moreover, r-IL 1 and alpha IgM mab costimulated replication of high-density B cells. Separated B cell populations (1 X 10(5) cells/well) were cultured with r-IL 1 alone or in combination with DXS or alpha IgM mab, respectively, and the generation of plaque-forming cells was determined. R-IL 1 alone, as well as in synergy with DXS, stimulated the differentiation of low-density B cells into Ig-secreting cells. These findings suggest that r-IL 1 has B cell growth and differentiation factor activity and is operative on high- and low-density B cells. Thus, IL 1 may play an important role in B cell growth and maturation.     

Transcriptional profiling of initial differentiation events in human embryonic stem cells

Currently, there are no differentiation strategies for human embryonic stem cells (hESCs) that efficiently produce one specific cell type, possibly because of lack of understanding of the genes that control signaling events prior to overt differentiation. sed HepG2 cell conditioned medium (MEDII), which induces early differentiation in mouse ES cells while retaining pluripotent markers, to query gene expression in hESCs. Treatment of adherent hESCs with 50% MEDII medium effected differentiation to a cell type with gene expression similar to primitive streak stage cells of mouse embryos. MEDII treatment up-regulates TDGF1 (Cripto), a gene essential for anterior-posterior axis and mesoderm formation in mouse embryos and a key component of the TGFB1/NODAL signaling pathway. LEFTYA, an antagonist of NODAL/TDGF1 signaling expressed in anterior visceral endoderm, is down-regulated with MEDII treatment, as is FST, an inhibitor of mesoderm induction via the related INHBE1 pathway. In summary, the TGFB1/NODAL pathway is important for primitive-streak and mesoderm formation and in using MEDII, we present a means for generating an in vitro cell population that maintains pluripotent gene expression (POU5F1, NANOG) and SSEA-4 markers while regulating genes in the TGFB1/NODAL pathway, which may lead to more uniform formation of mesoderm in vitro.     

Transcriptional profiling of epigenetic regulators in somatic embryos during temperature induced formation of an epigenetic memory in Norway spruce

Planta - A significant number of epigenetic regulators were differentially expressed during embryogenesis at different epitype-inducing conditions. Our results support that methylation of DNA and...     

Cutting edge: Hierarchy of maturity of murine memory B cell subsets

The paucity of murine memory B cell markers has been a significant impediment to the study of memory. The most commonly used marker is IgG, which is neither sensitive nor specific, because activated nonmemory cells can be IgG(+), and memory cells can be IgM(+). In this article, we show that, together, PD-L2 (CD273), CD80, and CD73 define at least five phenotypic subsets of murine memory B cells. These subsets are generated from naive cells bearing a single BCR in response to a single T-dependent Ag. This diversity is independent of class switch, because IgG(1)- and IgM-bearing memory cells are found within each compartment. Memory subsets defined by PD-L2, CD80, and CD73 are biologically distinct from one another, because they differ in ontogeny and selection. Together, these distinctions suggest that there is a spectrum of memory B cells and progressive acquisition from more naive-like to more memory-like properties.     

Divergent effects of BAFF on human memory B cell differentiation into Ig-secreting cells

B cell-activating factor belonging to the TNF family (BAFF) plays a critical role in B cell maturation, yet its precise role in B cell differentiation into Ig-secreting cells (ISCs) remains unclear. In this study, we find that upon isolation human naive and memory B (MB) cells have prebound BAFF on their surface, whereas germinal center (GC) B cells lack detectable levels of prebound BAFF. We attribute their lack of prebound BAFF to cell activation, because we demonstrate that stimulation of naive and MB cells results in the loss of prebound BAFF. Furthermore, the absence of prebound BAFF on GC B cells is not related to a lack of BAFF-binding receptors or an inability to bind exogenous BAFF. Instead, our data suggest that accessibility to soluble BAFF is limited within GCs, perhaps to prevent skewing of the conventional B cell differentiation program. In support of this concept, whereas BAFF significantly enhances ISC differentiation in response to T cell-dependent activation, we report for the first time the ability of BAFF to considerably attenuate ISC differentiation of MB cells in response to CpG stimulation, a form of T cell-independent activation. Our data suggest that BAFF may be providing regulatory signals during specific T cell-independent events, which protect the balance between MB cells and ISCs outside GCs. Taken together, these data define a complex role for BAFF in humoral immune responses and show for the first time that BAFF can also play an inhibitory role in B cell differentiation.     

Expression of alkaline phosphatase in murine B lymphocytes. Correlation with B cell differentiation into Ig secretion

Alkaline phosphatases (ALPase) (orthophosphoric-monoester phosphohydrolase, EC 3.1.3.1) are implicated in many biologic phenomena including ossification and differentiation of human neutrophils and choriocarcinoma cells. Another trait, demonstrated by microinjection into Xenopus oocytes, is their ability to block the first mitotic division. Previous work in our laboratory has established that ALPase is also present on murine B lymphocytes activated by either polyclonal mitogens or Th cells. We have now characterized the ALPase present on murine B cells as belonging to the liver-bone-kidney isoenzyme and found it to be implicated in B cell differentiation into antibody secretion. Thus, B cell proliferative responses, elicited either by high concentrations of rabbit anti-IgM antibodies or by LPS in the presence of PMA, are characterized by the lack of both antibody secretion and expression of ALPase activity. In contrast, B cells stimulated to differentiate into Ig-secreting cells by B cell differentiation factors, nearly in the absence of a proliferative response, express high levels of ALPase activity, as did those that were LPS-stimulated. These data showing the association of the ALPase expression with the process of B cell differentiation into antibody-secreting cells are discussed in the context of the possible role that phosphorylation-dephosphorylation mechanism may play in controlling the growth/differentiation rate in the B cell lineage.