Malignant breast tissue contains a rare population of multi-potent cells with the capacity to self-renew; these cells are known as cancer stem-like cells (CSCs) or tumor-initiating cells. Primitive mammary CSCs/progenitor cells can be propagated in culture as floating spherical colonies termed ‘mammospheres'. We show here that the expression of the autophagy protein Beclin 1 is higher in mammospheres established from human breast cancers or breast cancer cell lines (MCF-7 and BT474) than in the parental adherent cells. As a result, autophagic flux is more robust in mammospheres. We observed that basal and starvation-induced autophagy flux is also higher in aldehyde dehydrogenase 1-positive (ALDH1+) population derived from mammospheres than in the bulk population. Beclin 1 is critical for CSC maintenance and tumor development in nude mice, whereas its expression limits the development of tumors not enriched with breast CSCs/progenitor cells. We found that decreased survival in autophagy-deficient cells (MCF-7 Atg7 knockdown cells) during detachment does not contribute to an ultimate deficiency in mammosphere formation. This study demonstrates that a prosurvival autophagic pathway is critical for CSC maintenance, and that Beclin 1 plays a dual role in tumor development.
IntroductionCD5 is a lymphoid marker-one of the earliest acquired during T-cell ontogeny. Its expression increases coordinately with that of cell surface CD3. 1 Although expressed on lymphoid-committed progenitors, its expression is lost following natural killer (NK) cell differentiation. 2 In contrast to its being a pan-T-cell marker, CD5 is only expressed on some B cells. Based on its coexpression with CD11b, immunogloublin M (IgMϩ) B cells in mouse and human are classically separated into different subsets, termed B-1a and B-1b, each of which expresses CD11b and B-2. 3 The B-1a subset expresses CD5, and at a functional level these CD5 ϩ B cells frequently produce polyreactive antibodies, mainly IgM, that recognize a variety of self-antigens and foreign antigens. 4 The reason for the expression of CD5 on a particular B-cell subsetsomething Wortis and Berland 5 call "one of many intriguing and seemingly idiosyncratic features of B-1a cells"-has remained obscure. Two hypotheses are proposed to explain the origin of B-1 cells. The lineage hypothesis holds that only certain fetal progenitors are destined to become B-1 cells. 6,7 In contrast, the differentiation hypothesis holds that every B cell is able to acquire B-1 cell characteristics. In brief, the notion of B-cell lineage based on differential CD5 expression is controversial because of the lack of clear identification of a fetal progenitor destined to become a B-1 B cell and the demonstration that CD5 Ϫ cells can acquire CD5 expression in vivo 8 or in vitro 9 after B-cell receptor (BCR) stimulation This up-regulation supports the initial view that CD5 is an activation marker 10 ; however, a definitive function for this antigen remains to be established.It has been shown that CD5 up-regulation in B cells plays a role in tolerance to autoantigens. By setting the threshold level for activation signals, CD5 prevents B cells from activation-induced cell death and maintains tolerance in anergic B cells in vivo. 11 The reason for keeping potentially autoreactive cells alive is that these cells are also necessary for an effective immune response to some pathogens. 12 This supported the role of CD5 as a negative regulator of BCR signaling, which was later demonstrated by the generation of CD5-null mice. 13 In these animals, peritoneal B cells, which are poorly responsive to BCR stimulation, restored their capacity to fully proliferate to anti-IgM. 13 The molecular basis for BCR inhibition by CD5 has been extensively investigated. The physical association of CD5 to the BCR was demonstrated, 14 and our recent work further documented the structural basis of CD5 inhibition of BCR-mediated signals. Using a reconstitution approach, in a murine lymphoma B cell line we showed that Ca 2ϩ response, extracellular signal-related kinase-2 (ERK-2) activation, and the production of interleukin-2 (IL-2) induced by BCR activation were antagonized by CD5. 15 The role of the src autophosphorylationlike motif within the cytoplasmic domain was demonstrated. 16 Of interest, this domain is...
Chronic lymphocytic leukemia (CLL) cells with aggressive clinical properties express lipoprotein lipase (LPL), which generates activating ligands for the nuclear receptor peroxisome proliferator activated receptor (PPAR)α and allows fatty acids to be used as fuel. However, the role of PPARα in CLL is unclear. PPARα was found to be expressed by circulating CLL cells and highly associated with advanced stage disease. Consistent with this observation, palmitate oxidation rates in circulating CLL cells were similar to more conventional fat-burning cells such as muscle. Transgenic expression of PPARα in CD5(+) Daudi cells increased both their expression of immunosuppressive factors (that is, interleukin (IL)10 and phospho-STAT3) and resistance to metabolic and cytotoxic stressors. In contrast, marked downregulation of PPARα expression accompanied immunogenic death of proliferating CLL cells. The PPARα antagonist MK886 killed circulating CLL cells directly, caused proliferating CLL cells to enter an immunogenic death pathway and cleared CLL xenografts from immunodeficient mice. These results suggest that PPARα is a biological mediator of CLL and MK886 is a clinically relevant agent with activity against CLL.
The principal interferon-alpha/beta (IFN-I)-producing cells are plasmacytoid dendritic cell (PDC) precursors belonging to the lymphoid lineage. Monocytes that can differentiate into dendritic cells (DC) also produce IFN-I, although much less than PDC, after interaction with infectious agents. We show that whereas viruses trigger these cells to produce IFN-I, the amount of IFN is tightly controlled by cytokines. Monocytes produced IFN-I in response to Sendai virus (SV) infection, and PDC responded to both SV and herpes simplex virus (HSV). All cytokines tested failed to induce production of IFN-I in the absence of infection. However, among 18 relevant cytokines, incubation of PDC with interleukin-4 (IL-4), IL-15, and IL-7 alone or in combination with IL-3 before infection, enhanced IFN-I secretion. At variance, IL-12 alone or in synergy with granulocyte-macrophage colony-stimulating factor (GM-CSF) was active on SV-infected but not on HSV-infected monocytes. Tumor necrosis factor-alpha (TNF-alpha) and IL-4 inhibited IFN-I production by PDC and monocytes, respectively, and IL-10 strongly inhibited IFN-I production in both cell lineages. The response of PDC to IL-7 and IL-15, which also activate natural killer (NK) cell maturation, further emphasizes the cooperation between these two cell subsets in the control of innate immunity.
Genetic studies revealed that CD5 could be a negative regulator of the B-cell antigen receptor (BCR). We explore here the effect of human CD5 on BCR-triggered responses. B cells were obtained expressing a chimera composed of extracellular and transmembrane domains of Fc␥ type IIB receptor fused to CD5 cytoplasmic domain (CD5cyt). Coligation of the chimera with the BCR induces CD5cyt tyrosine phosphorylation. A rapid inhibition of BCR-induced calcium response is observed, as well as a partial but delayed inhibition of phospholipase C␥-1 phosphorylation. Activation of extracellular regulated kinase-2 is also severely impaired. Moreover, at the functional level, interleukin-2 production is abolished. Src homology 2 domain-bearing tyrosine phosphatase SHP-1 and Src homology 2 domain-bearing inositol 5-phosphatase SHIP usually participate in negative regulation of the BCR. We show that they do not associate with the phosphorylated CD5 chimera. We finally demonstrate that the pseudo-immunoreceptor tyrosine based activation motif present in CD5cyt is involved because its deletion eliminates the inhibitory effect of the chimera, both at biochemical and functional levels. These results demonstrate the inhibitory role of CD5 pseudo-immunoreceptor tyrosine based activation motif tyrosine phosphorylation on BCR signaling. They further support the idea that CD5 uses mechanisms different from those already described to negatively regulate the BCR pathway.
CD5 is a cell surface receptor that negatively regulates B cell function, but whose relationship to the immunoreceptor tyrosine-based inhibitory motif (ITIM) family of B cell inhibitory receptors is unclear. Using Fcγ type IIB receptor-CD5 chimeras encompassing the cytoplasmic domain of CD5, we previously showed that a particular region of the molecule containing two tyrosine residues, Y429 and Y441, in an amino acid stretch similar to the Src autophosphorylation motif and a putative ITIM, respectively, antagonized early signaling events triggered through the B cell receptor (BCR). In this study, we provide evidences that only Y429 is mandatory for the inhibition by CD5 of the calcium response activated via the BCR. This residue also efficiently controls inhibition of the Ras/extracellular signal-related kinase-2 pathway. Analyzing the membrane translocation of the AKT protooncogene using its 3′-phosphoinositide-specific pleckstrin homology domain fused to the green fluorescent protein as a probe, we also show that CD5 strongly impairs its cellular redistribution and demonstrate the role played by Y429 in this process. We finally report that Y429 controls almost exclusively CD5 phosphorylation as well as inhibition of BCR-triggered IL-2 production upon coaggregation of the two receptors. Thus, CD5 uses an ITIM-independent strategy, centered on Y429, the major tyrosine-phosphorylated residue in its cytoplasmic domain, to inhibit BCR activation.
Chronic lymphocytic leukemia (CLL)-B-cells are quiescent differentiated cells that produce interleukin (IL)-10 and accumulate due to resistance to apoptosis. The mechanisms underlying such resistance are poorly understood. Herein we show that all CLL B-cells tested (30/30) display high mRNA and protein expression of the tumor suppressor Mda-7/IL-24, an IL-10 family member, in comparison to normal B cells. A downstream Mda-7 signaling target, p38 mitogen-activated protein kinase (MAPK) was highly phosphorylated in all CLL cells but not in normal B-cells. Mda-7 expression and p38 MAPK phosphorylation diminished in culture and the latter could be reinduced by recombinant (r)-IL-24 or LPS and Mda-7 transfection. Mda-7/IL-24 siRNA specifically inhibited p38 MAPK phosphorylation in CLL without affecting p38 MAPK, bcl2, or Lyn expression, further demonstrating the direct role of Mda-7/ IL-24 in p38 MAPK activation. Both pharmacological inhibition of p38 MAPK and Mda-7 silencing augmented spontaneous apoptosis by three-fold in CLL cells cultured in autologous serum, which was reversed by LPS and r-IL-24. We established the role of p38 MAPK in CLL cell survival and demonstrated a paradoxical effect, whereby Mda-7 and IL-24, inducers of apoptosis in diverse cancer cells, promote the survival of CLL B-cells through p38 MAPK activation.
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