38 research outputs found

    Relevance of fatty acid metabolism in proliferating CLL cells

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    Chronic lymphocytic leukemia (CLL) cells undergo, during their life, iterative cycles of re-activation and subsequent clonal expansion. We previously demonstrated that the antidiabetic drug metformin, known to also inhibit oxidative phosphorylation (OXPHOS), inhibits cell cycle entry of leukemic cells derived ex-vivo from the peripheral blood of CLL patients and stimulated in vitro by cell culture systems that recreate a microenvironment to drive their proliferation (Bruno et al, Oncotarget, 2015). However, overtly proliferating CLL cells were resistant to the cytostatic effects of metformin. Since metformin switched the energetic metabolism of activated, not yet proliferating, CLL cells from OXPHOS to accelerated glycolysis, in the present study we asked whether combining metformin with glycolysis impairment could inhibit also proliferating CLL cells. Still, CLL cells recovered from a transitory block and rescued in vitro proliferation. What kind of energetic reprogramming was involved in the resistance of proliferating CLL cells to glucose utilization? Recent studies highlight on the role of fatty acid utilization of CLL cells. We asked 1) whether inhibitors of lipid metabolism could impair proliferation of in vitro stimulated CLL cells; 2) whether impairing glucose energetic pathways could act synergistically with beta oxidation inhibitors.We found that inhibitors of critical steps of fatty acid metabolisms, such as carnitine-palmitoyl transferase 1A (CPT1A) -rate-limiting enzyme for fatty acid import into mitochondria- or Peroxisome Proliferator-Activated Receptor (PPAR)-alpha -regulator of beta-oxidation- administered at clinically achievable doses, were ineffective on quiescent CLL cells and on CLL cells stimulated by the microenvironment during the first stages of activation. Conversely, remarkable susceptibility to undergo apoptosis was observed at later stages of cell activation and during overt proliferation. Synergism with impairment of other energetic pathways occurred depending on the stage of activation of the in vitro stimulated CLL cells.The results suggest that energetic metabolic pathways could be relevant targets for CLL treatment, provided that the complex metabolic reprogramming network during the transition of leukemic cells from quiescence to proliferation, and back, are clearly elucidated. This work was supported by grants from AIRC IG15426

    SH3BGRL3 binds myosin 1c and is involved in MDA-MB-231 cell migration

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    SH3BGRL3 is a gene belonging to SH3BGR family, it is ubiquitously expressed and encodes for a 93 AA thiorerodoxin-like protein evolutionarily conserved. A proteomic study reported that SH3BGRL3 binds the cytoplasmatic domain of ERBB2 receptor. On this basis we performed immuno-staining experiments in FLAG-SH3BGRL3 transfected SKBR3 cell line that showed SH3BGRL3 and ERBB2 co-localization. Nonetheless, co-immunoprecipitation (Co-IP) of ERBB2 using FLAG-SH3BGRL3 as bait and vice versa was not achievable. Therefore, to investigate SH3BGRL3 potential interactors we performed Co-IP experiments from SKBR3 lysates transfected with FLAG-SH3BGRL3 followed by mass spectrometry analysis. The results revealed myosin 1c (Myo1c) as a candidate interactor. Subsequent Co-IP experiments followed by WB analysis validated the interaction between the two proteins. To map the interaction site we performed Co-IP experiments using SKBR3 cells co-transfected with FLAG-SH3BGRL3 and HA tagged deletion mutants of Myo1c that showed SH3BGRL3 binding to the neck region of Myo1c. Since Myo1c neck region binds calmodulin in a Ca2+ dependent way, we assessed if the binding was Ca2+ dependent also for SH3BGRL3. The experiments showed that SH3BGRL3 binds the Myo1c neck in presence of Ca2+, differently from calmodulin that binds it in absence of Ca2+. Myo1c is a motor protein involved, among its different functions, in cell membrane dynamics. Thus we investigated SH3BGRL3 involvement in cell migration using MDA-MB-231 cell line. We transfected MDA-MB-231 cells with FLAG-SH3BGRL3 and performed immuno-staining and Co-IP experiments that showed co-localization and interaction of Myo1c and SH3BGRL3. Accordingly, we performed migration assays using boyden chambers after silencing or not SH3BGRL3 expression by means siRNAs. The results showed a statistically significant decrease in migration capacity of silenced cells respect to controls. Our data show that SH3BGRL3 binds Myo1c neck region in a Ca2+ dependent way and that this interaction is involved in cell migration in our model

    Deciphering KRAS and NRAS mutated clone dynamics in MLL-AF4 paediatric leukaemia by ultra deep sequencing analysis

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    To induce and sustain the leukaemogenic process, MLL-AF4+ leukaemia seems to require very few genetic alterations in addition to the fusion gene itself. Studies of infant and paediatric patients with MLL-AF4+ B cell precursor acute lymphoblastic leukaemia (BCP-ALL) have reported mutations in KRAS and NRAS with incidences ranging from 25 to 50%. Whereas previous studies employed Sanger sequencing, here we used next generation amplicon deep sequencing for in depth evaluation of RAS mutations in 36 paediatric patients at diagnosis of MLL-AF4+ leukaemia. RAS mutations including those in small sub-clones were detected in 63.9% of patients. Furthermore, the mutational analysis of 17 paired samples at diagnosis and relapse revealed complex RAS clone dynamics and showed that the mutated clones present at relapse were almost all originated from clones that were already detectable at diagnosis and survived to the initial therapy. Finally, we showed that mutated patients were indeed characterized by a RAS related signature at both transcriptional and protein levels and that the targeting of the RAS pathway could be of beneficial for treatment of MLL-AF4+ BCP-ALL clones carrying somatic RAS mutations

    Specific Recognition of the Viral Protein UL18 by CD85j/LIR-1/ILT2 on CD8+ T Cells Mediates the Non-MHC-Restricted Lysis of Human Cytomegalovirus-Infected Cells

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    Abstract Immune evasion mechanisms of human CMV are known; however, the immune control of infection remains poorly elucidated. We show that interaction between the viral protein UL18 on infected cells and the invariant receptor CD85j/LIR-1/ILT2 expressed on CTL is relevant for the control of infection. Resting and activated CD8+ T cells lysed UL18 expressing cells, whereas cells infected with CMV defective for UL18 were not killed. Lysis was not dependent on CD8+ T cell Ag specificity, MHC-unrestricted and specifically blocked by anti-CD85j and anti-UL18 mAb. Moreover, soluble recombinant UL18Fc immunoprecipitated CD85j from T cells. Activation is mediated by CD85j and its pathway is unrelated to CD3/TCR engagement. UL18 is detected in immunocompromised patients with productive infection and the mechanism used in vivo by human CMV to ensure survival of the immunocompetent host may be mediated by activation signals delivered by infected cells to T lymphocytes via UL18/CD85j interactions

    Unexpected effects of biphosphonates in in vitro models of activated CLL cells

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    Recent studies suggest that the commonly prescribed anti-osteoporosis drugs bisphosphonates (BPs) might also exhibit antitumor activity. We investigated a possible anticancer effect of BPs on B-chronic lymphocytic leukemia (CLL) cells obtained from peripheral blood of 26 CLL patients. Zoledronate, etidronate and clodronate were administered in vitro simultaneously to following activation stimuli: i) CD40L-expressing fibroblasts, ii) soluble recombinant CD40L produced in our laboratory +IL-4, iii) CpG ODN 2006+IL-15 with or without bone marrow stromal cells (BMSC). CLL cell viability, activation/proliferation were monitored by flow cytometry. We unexpectedly observed that BPs generated a protective effect from spontaneous apoptosis in 11/26 (42%) patients (viability + 18%-392%) and an augmentation in CLL cell activation/proliferation in 61% of the samples (S+G2M phase: +100%±25). Interestingly, protection from spontaneous apoptosis or increment of cell activation, required the presence of either fibroblasts, BMSC or autologous Nurse Like Cells (NLC). We thus hypothesized that supportive cells are involved in the BPs effects either through cell-cell interactions with leukemic cells or T cells, or through soluble factors release in the medium. Functional experiments with transwells suggest that stromal cells, in presence of Clodronate, release soluble factors in the medium that may probably concur to the unexpected Clodronate-mediated enhancement of CLL cell activation/proliferation. This work is in progress and several critical questions on the mechanisms are still unanswered. Nevertheless, the phenomenological data argue that caution should be taken when administering BPs against osteoporosis in elderly persons, who could have Monoclonal B Lymphocytosis or CLL

    Dependence of immunoglobulin class switch recombination in B Cells on vesicular release of ATP and CD73 ectonucleotidase activity

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    Immunoglobulin (Ig) isotype diversification by class switch recombination (CSR) is an essential process for mounting a protective humoral immune response. Ig CSR deficiencies in humans can result from an intrinsic B cell defect; however, most of these deficiencies are still molecularly undefined and diagnosed as common variable immunodeficiency (CVID). Here, we show that extracellular adenosine critically contributes to CSR in human naive and IgM memory B cells. In these cells, coordinate stimulation of B cell receptor and toll-like receptors results in the release of ATP stored in Ca2+-sensitive secretory vesicles. Plasma membrane ectonucleoside triphosphate diphosphohydrolase 1 CD39 and ecto-5′-nucleotidase CD73 hydrolyze ATP to adenosine, which induces CSR in B cells in an autonomous fashion. Notably, CVID patients with impaired class-switched antibody responses are selectively deficient in CD73 expression in B cells, suggesting that CD73-dependent adenosine generation contributes to the pathogenesis of this disease

    CX3CR1 Is Expressed by Human B Lymphocytes and Meditates CX3CL1 Driven Chemotaxis of Tonsil Centrocytes

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    Background: Fractalkine/CX(3)CL1, a surface chemokine, binds to CX(3)CR1 expressed by different lymphocyte subsets. Since CX(3)CL1 has been detected in the germinal centres of secondary lymphoid tissue, in this study we have investigated CX(3)CR1 expression and function in human naive, germinal centre and memory B cells isolated from tonsil or peripheral blood.Methodology/Principal Findings: We demonstrate unambiguously that highly purified human B cells from tonsil and peripheral blood expressed CX(3)CR1 at mRNA and protein levels as assessed by quantitative PCR, flow cytometry and competition binding assays. In particular, naive, germinal centre and memory B cells expressed CX(3)CR1 but only germinal centre B cells were attracted by soluble CX(3)CL1 in a transwell assay. CX(3)CL1 signalling in germinal centre B cells involved PI3K, Erk1/2, p38, and Src phosphorylation, as assessed by Western blot experiments. CX(3)CR1(+) germinal centre B cells were devoid of centroblasts and enriched for centrocytes that migrated to soluble CX(3)CL1. ELISA assay showed that soluble CX(3)CL1 was secreted constitutively by follicular dendritic cells and T follicular helper cells, two cell populations homing in the germinal centre light zone as centrocytes. At variance with that observed in humans, soluble CX(3)CL1 did not attract spleen B cells from wild type mice. OVA immunized CX(3)CR1-/- or CX(3)CL1-/- mice showed significantly decreased specific IgG production compared to wild type mice.Conclusion/Significance: We propose a model whereby human follicular dendritic cells and T follicular helper cells release in the light zone of germinal centre soluble CX(3)CL1 that attracts centrocytes. The functional implications of these results warrant further investigation
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