Functional Myc-Max heterodimer is required for activation-induced apoptosis in T cell hybridomas.
01 Dec 1994-Journal of Experimental Medicine (Rockefeller University Press)-Vol. 180, Iss: 6, pp 2413-2418
TL;DR: It is shown that coexpression of a reciprocally mutant Myc protein capable of forming functional heterodimers with the mutant Max can compensate for the dominant negative activity and restore activation-induced apoptosis.
Abstract: T cell hybridomas respond to activation signals by undergoing apoptotic cell death, and this is likely to represent comparable events related to tolerance induction in immature and mature T cells in vivo. Previous studies using antisense oligonucleotides implicated the c-Myc protein in the phenomenon of activation-induced apoptosis. This role for c-Myc in apoptosis is now confirmed in studies using a dominant negative form of its heterodimeric binding partner, Max, which we show here inhibits activation-induced apoptosis. Further, coexpression of a reciprocally mutant Myc protein capable of forming functional heterodimers with the mutant Max can compensate for the dominant negative activity and restore activation-induced apoptosis. These results imply that Myc promotes activation-induced apoptosis by obligatory heterodimerization with Max, and therefore, by regulating gene transcription.
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TL;DR: This work shows that the Fas/CD95 receptor, which can transduce a potent apoptotic signal when ligated, is rapidly expressed following activation of T-cell hybridomas, as is its functional, membrane-bound ligand8.
Abstract: A number of murine T-cell hybridomas undergo apoptosis within a few hours of activation by specific antigens, mitogens, antibodies against the T-cell antigen receptor, or a combination of phorbol ester and calcium ionophore. This phenomenon has been extensively studied as a model for clonal deletion in the immune system, in which potentially autoreactive T cells eliminate themselves by apoptosis after activation, either in the thymus or in the periphery. Here we show that the Fas/CD95 receptor, which can transduce a potent apoptotic signal when ligand, is rapidly expressed following activation of T-cell hybridomas, as is its functional, membrane-bound ligand. Interference with the ensuing Fas/Fas-ligand interaction inhibits activation-induced apoptosis. Because T-cell receptor ligation can induce apoptosis in a single T hybridoma cell, we suggest that the Fas/Fas-ligand interaction can induce cell death in a cell-autonomous manner.
1,329 citations
TL;DR: This chapter focuses on c-Myc's role as a transcription factor in the regulation of cell growth, apoptosis, and transformation and suggests that the most exciting recent findings suggest that the Myc network not only includes proto-oncoproteins but, with the Mad family proteins, also potential tumor suppressors.
Abstract: Publisher Summary This chapter focuses on the proteins of the Myc network that are essential regulators of cell growth and differentiation. The identification of the Myc partner, Max, in 1991 and the subsequent realization that this protein is the essential dimeric partner for all known c-Myc functions was a major boost to the field and led to a number of very interesting observations and findings. The chapter focuses on c-Myc's role as a transcription factor in the regulation of cell growth, apoptosis, and transformation. The most exciting recent findings suggest that the Myc network not only includes proto-oncoproteins (c-, N-, and L-Myc) but, with the Mad family proteins, also potential tumor suppressors. This together with the fact that Myc proteins as well as Max are essential, as deduced from homozygous disruption of the genes in mice, places the Myc network in a central position in the regulation of cell growth and homeostasis. Genes that have been generated by the duplication of and divergence from an ancestral gene(s) are grouped into families. The myc family of protooncogenes has most likely arisen through such duplications. It currently consists of three well-characterized members; c-myc, N-myc, and L-myc. Two additional genes, B-myc and S-myc, have been identified only in rodents. The c-, N-, and L-myc genes share similar genomic organization and the corresponding proteins contain several regions of high sequence homology. The identification of the Myc dimerization partner Max has significantly advanced our understanding of the molecular function of c-Myc.
787 citations
TL;DR: This review addresses the phenomenon of activation‐induced cell death (AICD) in T lymphocytes, in which activation through the T‐cell receptor results in apoptosis.
Abstract: A properly functioning immune system is dependent on programmed cell death at virtually every stage of lymphocyte development and activity. This review addresses the phenomenon of activation-induced cell death (AICD) in T lymphocytes, in which activation through the T-cell receptor results in apoptosis. AICD can occur in a cell-autonomous manner and is influenced by the nature of the initial T-cell activation events. It plays essential roles in both central and peripheral deletion events involved in tolerance and homeostasis, although it is likely that different forms of AICD proceed via different mechanisms. For example, while AICD in peripheral T cells is often caused by the induction of expression of the death ligand, Fas ligand (CD95 ligand, FasL), it does not appear to be involved in AICD in thymocytes. This and other mechanisms of AICD are discussed. One emerging model that may complement other forms of AICD involves the inducible expression of FasL by nonlymphoid tissues in response to activated T lymphocytes. Induction of nonlymphoid FasL in this manner may serve as a sensing mechanism for immune cell infiltration, which contributes to peripheral deletion.
616 citations
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TL;DR: It is demonstrated that cleavage of α-fodrin (non-erythroid spectrin) accompanies apoptosis, induced by activation via the CD3/T cell receptor complex in a murine T cell hybridoma, ligation of the Fas molecule on a human T cell lymphoma line and other Fas-expressing cells, or treatment of cells with staurosporine, dexamethasone, or synthetic ceramide.
538 citations
TL;DR: Findings link two apoptotic pathways previously thought to be independent and establish the dependency of Myc on CD95 signaling for its killing activity and suppress c-myc-induced apoptosis by also acting downstream of CD95.
Abstract: Induction of apoptosis by oncogenes like c-myc may be important in restraining the emergence of neoplasia. However, the mechanism by which c-myc induces apoptosis is unknown. CD95 (also termed Fas or APO-1) is a cell surface transmembrane receptor of the tumor necrosis factor receptor family that activates an intrinsic apoptotic suicide program in cells upon binding either its ligand CD95L or antibody. c-myc-induced apoptosis was shown to require interaction on the cell surface between CD95 and its ligand. c-Myc acts downstream of the CD95 receptor by sensitizing cells to the CD95 death signal. Moreover, IGF-I signaling and Bcl-2 suppress c-myc-induced apoptosis by also acting downstream of CD95. These findings link two apoptotic pathways previously thought to be independent and establish the dependency of Myc on CD95 signaling for its killing activity.
391 citations
References
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TL;DR: The data suggest that CAM or other topoisomerase I inhibitors may be effective in some myelogenous leukemias, especially in combination with treatments synchronizing cells in S phase, as well as the sensitivity of the whole cell population to CAM.
196 citations
Journal Article•
TL;DR: It is hypothesized that activation-driven cell death may be involved in vivo in the clonal deletion of auto-reactive T cells during T cell ontogeny.
Abstract: We have observed that stimuli that are mitogenic for normal T cells can induce cell death in transformed T cell hybridomas. "Activation-driven cell death" can be triggered by the presentation of appropriate Ag as well as by treatment with lectins and antibodies specific for the T cell Ag receptor complex and other activation structures on the T cell surface, such as Thy-1 and Ly-6. The activation-driven lethal process is cell autonomous, is associated with a fragmentation of the cell's genome characteristic of the "suicide process" induced in immature T cells by glucocorticoids and in target cells by cytotoxic T lymphocytes, and is dependent upon transcription and translation, presumably associated with the expression of new gene products. We hypothesize that activation-driven cell death may be involved in vivo in the clonal deletion of auto-reactive T cells during T cell ontogeny.
188 citations
TL;DR: Effect of expression of human c-myc and both mutated (T24) and normal forms of human Ha-ras-1 were studied in an aneuploid rat fibroblast line and Expression of human oncogene mRNA was constant during growth in vivo, similar to that sometimes observed in human neoplasms.
Abstract: The effects of expression of human c-myc and both mutated (T24) and normal forms of human Ha-ras-1 were studied in an aneuploid rat fibroblast line (208F). Mutated T24 Ha-ras was also studied in a near-diploid cell derived from early passage Chinese hamster lung fibroblasts (CHL). In contrast to the parental fibroblasts, cells expressing any of the human oncogenes engendered rapidly growing tumours in immune-suppressed animals. Blood- and lymph-borne metastases were observed from both ras- and myc-expressing cells. In general ras-expressing cells were more aggressive than those expressing myc. In the 208F background, expression of c-myc was associated with an incidence of mitosis similar to that in tumours expressing T24 Ha-ras, but incidence of single cell death by apoptosis was higher. Quantitatively, expression of human oncogene mRNA was constant during growth in vivo, and similar to that sometimes observed in human neoplasms. Of 9 endogenous proto-oncogenes, 7 showed no change in expression from the parental fibroblasts, but c-abl and c-fos were strongly expressed in all cells expressing human ras or myc. Thus these tumorigenic cells, although transfected with single human oncogenes, all expressed oncogenes with both nuclear- and membrane-associated products.
184 citations
Journal Article•
TL;DR: Data suggest that one downstream pathway for Myc-directed cell cycle control is the induction of ODC expression, which is the first and rate-limiting enzyme involved in the synthesis of the polyamines and required for entry into and progression through the cell cycle.
Abstract: The role of the produd of the c-myc protooncogene in the regulation of cellular proliferation and differentiation is well established. Recent reports that c-Myc can serve
162 citations
TL;DR: It is demonstrated that exogenously expressed Myc is capable of activating transcription in vivo through its specific DNA-binding site and a functional antagonism between Myc and Max which is mediated by their relative levels in the cells is suggested.
Abstract: The c-Myc oncoprotein, which is required for cellular proliferation, resembles in its structure a growing number of transcription factors. However, the mechanism of its action in vivo is not yet clear. The discovery of the specific cognate DNA-binding site for Myc and its specific heterodimerization partner, Max, enabled the use of direct experiments to elucidate how Myc functions in vivo and how this function is modulated by Max. Here we demonstrate that exogenously expressed Myc is capable of activating transcription in vivo through its specific DNA-binding site. Moreover, transcriptional activation by Myc is dependent on the basic region, the integrity of the helix-loop-helix and leucine zipper dimerization motifs located in the carboxy-terminal portion of the protein, and the regions in the amino terminus conserved among Myc family proteins. In contrast to Myc, exogenously expressed Max elicited transcriptional repression and blocked transcriptional activation by Myc through the same DNA-binding site. Our results suggest a functional antagonism between Myc and Max which is mediated by their relative levels in the cells. A model for the activity of Myc and Max in vivo is presented.
126 citations