Non-apoptotic FAS signaling controls mTOR activation and extrafollicular maturation in human B cells.

Defective FAS (CD95/Apo-1/TNFRSF6) signaling causes autoimmune lymphoproliferative syndrome (ALPS). Hypergammaglobulinemia is a common feature in ALPS with FAS mutations (ALPS-FAS), but paradoxically, fewer conventional memory cells differentiate from FAS-expressing germinal center (GC) B cells. Resistance to FAS-induced apoptosis does not explain this phenotype. We tested the hypothesis that defective non-apoptotic FAS signaling may contribute to impaired B cell differentiation in ALPS. We analyzed secondary lymphoid organs of patients with ALPS-FAS and found low numbers of memory B cells, fewer GC B cells, and an expanded extrafollicular (EF) B cell response. Enhanced mTOR activity has been shown to favor EF versus GC fate decision, and we found enhanced PI3K/mTOR and BCR signaling in ALPS-FAS splenic B cells. Modeling initial T-dependent B cell activation with CD40L in vitro, we showed that FAS competent cells with transient FAS ligation showed specifically decreased mTOR axis activation without apoptosis. Mechanistically, transient FAS engagement with involvement of caspase-8 induced nuclear exclusion of PTEN, leading to mTOR inhibition. In addition, FASL-dependent PTEN nuclear exclusion and mTOR modulation were defective in patients with ALPS-FAS. In the early phase of activation, FAS stimulation promoted expression of genes related to GC initiation at the expense of processes related to the EF response. Hence, our data suggest that non-apoptotic FAS signaling acts as molecular switch between EF versus GC fate decisions via regulation of the mTOR axis and transcription. The defect of this modulatory circuit may explain the observed hypergammaglobulinemia and low memory B cell numbers in ALPS.

Phenotypic and functional evaluation of CD3+CD4-CD8- T cells in human CD8 immunodeficiency.

BACKGROUND: Human CD8 immunodeficiency is characterized by undetectable CD8(+) lymphocytes and an increased population of CD4(-)CD8(-) (double negative) T lymphocytes. DESIGN AND METHODS: We hypothesized that the double negative subset corresponds to the cellular population that should express CD8 and is committed to the cytotoxic T lymphocyte lineage. To assess this, we determined the phenotype and function of peripheral blood mononuclear cells and/or magnetically isolated double negative T lymphocytes from two CD8-deficient patients. To analyze the expression and co-localization with different organelles, 293T cells were transfected with plasmids bearing wild-type or mutated CD8α. RESULTS: CD8α mutated protein was retained in the cytoplasm of transfected cells. The percentages of double negative cells in patients were lower than the percentages of CD8(+) T cells in healthy controls. Double negative cells mostly had an effector or effector memory phenotype whereas naïve T cells were under-represented. A low concentration of T-cell receptor excision circles together with a skewed T-cell receptor-V repertoire were observed in the double negative population. These data suggest that, in the absence of CD8 co-receptor, the thymic positive selection functions suboptimally and a limited number of mature T-cell clones would emerge from the thymus. In vitro, the double negative cells showed a mild defect in cytotoxic function and decreased proliferative capacity. CONCLUSIONS: It is possible that the double negative cells are major histocompatibility complex class-I restricted T cells with cytolytic function. These results show for the first time in humans that the presence of the CD8 co-receptor is dispensable for cytotoxic ability, but that it affects the generation of thymic precursors committed to the cytotoxic T lymphocyte lineage and the proliferation of mature cytotoxic T cells.

Identification of male cardiomyocytes of extracardiac origin in the hearts of women with male progeny: male fetal cell microchimerism of the heart.

BACKGROUND: Fetal progenitor cells may cross the placenta during pregnancy, persist for decades in the maternal bloodstream, and find a microenvironment conducive to colonization in a variety of maternal solid organs. Whether extracardiac fetal progenitors are present in the heart of women with male issue is unknown. METHODS: The hearts from 2 non-pregnant women who had given birth to 2 and 3 male children, respectively, were studied. Myocardial specimens from 2 men and 2 women (without history of pregnancies) were used as controls. Real time polymerase chain reaction was performed to amplify the SRY gene located at the Y chromosome. Fluorescence in situ hybridization (FISH) with probes specific for X and Y chromosomes was combined with alpha-actin immunohistochemistry to identify cardiac muscle cells. Histocompatibility studies were conducted in both patients and their male relatives. RESULTS: The SRY gene was amplified in the myocardium of both patients. FISH analysis showed clear evidence of male cells with the typical cardiomyocyte phenotype within the myocardium. X- and Y-chromosome bodies in the nuclei were found in 0.25% and 0.20% of cells, respectively. Increased human leukocyte antigen compatibility was observed between patients and their sons. CONCLUSIONS: This study identified male cardiomyocytes of extracardiac origin, presumably fetal, in the hearts of 2 women with male progeny. Fetal progenitor cells may colonize the heart and under appropriate microenvironmental stimuli, differentiate into cardiomyocytes.