Freeze-thaw lysates of Plasmodium falciparum-infected red blood cells induce differentiation of functionally competent regulatory T cells from memory T cells.

In addition to naturally occurring regulatory T (nTreg) cells derived from the thymus, functionally competent Treg cells can be induced in vitro from peripheral blood lymphocytes in response to TCR stimulation with cytokine costimulation. Using these artificial stimulation conditions, both naïve as well as memory CD4(+) T cells can be converted into induced Treg (iTreg) cells, but the cellular origin of such iTreg cells in vivo or in response to more physiologic stimulation with pathogen-derived antigens is less clear. Here, we demonstrate that a freeze/thaw lysate of Plasmodium falciparum schizont extract (PfSE) can induce functionally competent Treg cells from peripheral lymphocytes in a time- and dose-dependent manner without the addition of exogenous costimulatory factors. The PfSE-mediated induction of Treg cells required the presence of nTreg cells in the starting culture. Further experiments mixing either memory or naïve T cells with antigen presenting cells and CFSE-labeled Treg cells identified CD4(+) CD45RO(+) CD25(-) memory T cells rather than Treg cells as the primary source of PfSE-induced Treg cells. Taken together, these data suggest that in the presence of nTreg cells, PfSE induces memory T cells to convert into iTreg cells that subsequently expand alongside PfSE-induced effector T cells.

Generation and characterization of stromal cell independent IL-7 dependent B cell lines.

In-vitro B cell cultures have played a significant role in the study of B cell development. Their utility in developmental and biochemical studies, however, has been limited by the challenges associated with obtaining and maintaining adequate cell numbers of pure and/or rare populations. Although B cell lines allow for circumvention of some of these issues, they have traditionally been generated via viral infection or genetic transformation and are thus less representative of in-vivo cells. In order to avoid such alterations in cell state, we have designed a procedure for the creation of B cell lines directly from murine bone marrow. In this study, we describe the generation and characterization of these IL-7 dependent cell lines. Our lines, established from both wild type and mutant mice, do not require stromal cell support for generation or maintenance. In addition, clones survive repeated freeze/thaw cycles and, in the presence of IL-7, can be kept in culture indefinitely. Phenotypically, our lines resemble pro/pre-B cells and exhibit IL-7 and preBCR signaling profiles that mimic ex-vivo B cells. These lines promise to be useful in the study of the signaling pathways that regulate B cell development.