Looking beneath the surface: the cell death pathway of Fas/APO-1 (CD95). |
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Authors: | B. Z. Stanger |
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Affiliation: | Department of Genetics, Harvard Medical School and Howard Hughes Medical Institute, Boston, Massachusetts 02115, USA. |
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Abstract: | SUMMARY: The biochemical basis of programmed cell death is poorly understood in mammals. The cell surface receptor Fas/APO-1 (CD95) is one molecule known to be central to a number of mammalian cell death processes. Several studies in the past year have led to insights about the role of Fas/APO-1 in vivo and have also given some clues about the biochemical components of the Fas/APO-1 death pathway. This article reviews those studies and discuss models of Fas/APO-1 signaling and function. BACKGROUND: Cell death occurs as a normal process in a wide variety of developmental and homeostatic contexts in metazoan organisms (1); it represents the timely and appropriate fate for many or even the majority of cells born in certain organ systems. Despite the importance and ubiquitous nature of such physiologic, or "programmed", cell death, little is known about the molecular events that mediate this process. That a conserved biochemical pathway exists is suggested by the observation that programmed cell death is almost always accompanied by a consistent set of morphologic changes, an appearance known as apoptosis (2). The identification of the genes that control programmed cell death in higher eukaryotes has been hampered by several inherent difficulties. First, the genetic tools so useful in dissecting cell death pathways in Caenorhabditis elegans (3) and Drosophila (4) have not been available in higher eukaryotes. Second, the death-inducing properties of such genes makes genetic selection an impractical means of identification. Third, it appears that many cell death genes are constitutively expressed and present in an inactive form (5), making it unlikely that they could be discovered by techniques relying upon differential gene expression. Finally, genes identified by virtue of an ability to induce death when overexpressed must be subjected to rigorous criteria to determine whether the cell death is of physiologic importance, since it is likely that overexpression of certain proteins may lead to toxic effects that are distinct from the in vivo roles of those proteins. Two approaches to date have yielded the most information about cell death processes: (i) identification of cell death genes by classical genetic means coupled with characterization of their mammalian homologs and (ii) screening for proteins capable of inducing cell death directly in mammalian cells. The Fas antigen/APO-1 is an example of a protein discovered using the latter approach, as it was first discovered as an inducer of cell death and later shown to be necessary and sufficient for certain programmed deaths in vivo. More recent studies have connected Fas to elements of cell death pathways in other species. It has been proposed that Fas is related to the Drosophila cell death protein Reaper, and that in signaling cell death Fas relies upon a relative of the C. elegans cell death protein CED-3. Fas may therefore represent an evolutionarily conserved component of a universal cell death pathway. |
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