The dependence receptor DCC (deleted in colorectal cancer) defines an alternative mechanism for caspase activation

Forcet, Christelle; Ye, Xin; Granger, Laure; Corset, Véronique; Shin, Hwain; Bredesen, Dale E.; Mehlen, Patrick

doi:10.1073/pnas.051378298

Cited by 187 publications

(210 citation statements)

References 31 publications

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“…Although very different in structure, dependence receptors share some functional similarities including, the ability to mediate negative signaling in the absence of the agonist and positive signaling in its presence. In many cases the negative signaling is due to a caspase-mediated cleavage of the receptor C-terminal domain (CTD) which either releases a pro-apoptotic C-terminal receptor fragment (Bordeaux et al, 2000;Llambi et al, 2001), or exposes a pro-apoptotic region that presumably remains bound to the cell membrane (Mehlen et al, 1998;Forcet et al, 2001;Thibert et al, 2003). While a specific cleavage of the mGlu1 CDT has not been described, it should be pointed out that a sequence analysis of the long CTD of the mGlu1a splice variant reveals six putative caspase cleavage sites, as well as multiple sequences that may potentially interact with a variety of intracellular proteins including: seven in absentia homolog-1A (Siah-1A) and calmodulin (Ishikawa et al, 1999;Kammermeier and Ikeda, 2001), G-proteincoupled receptor kinases (Dale et al, 2000), alpha-tubulin (Ciruela et al, 1999), tamalin/ cytohesin complex (Kitano et al, 2002), homer proteins (Brakeman et al, 1997;Tu et al, 1999), protein phosphatase 1C (Croci et al, 2003), protein kinase C, regulators of G-protein signaling (RGS) proteins, Src-family protein tyrosine kinase and arrestins (Valenti et al, 2002;Hermans and Challiss, 2001).…”

Section: Discussionmentioning

confidence: 99%

Dual neurotoxic and neuroprotective role of metabotropic glutamate receptor 1 in conditions of trophic deprivation – Possible role as a dependence receptor

et al. 2008

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Group-I metabotropic glutamate receptors have been often implicated in various models of neuronal toxicity, however, the role played by the individual receptors and their putative mechanisms of action contributing to neurotoxicity or neuroprotection remain unclear. Here, using primary cultures of rat cerebellar granule cells and mouse cortical neurons, we show that conditions of trophic deprivation increased mGlu1 expression which correlated with the developing cell death. The inhibition of mGlu1 expression by specific siRNA attenuated toxicity, while adenovirus-mediated overexpression of mGlu1 resulted in increased cell death, indicating a causal relationship between the level of receptor expression and neuronal survival. In pharmacological experiments selective mGlu1 antagonists failed to protect from mGlu1-induced cell death, instead, neuronal survival was promoted by glutamate acting at mGlu1 receptors. Such properties are characteristic of a novel heterogeneous family of dependence receptors which control neuronal apoptosis. Our findings indicate that increased expression of mGlu1 in neurons creates a state of cellular dependence on the presence of its endogenous agonist glutamate. We propose a new role and a new mechanism for mGlu1 action. This receptor may play a crucial role in determining the fate of individual neurons during the development of the nervous system.

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Section: Discussionmentioning

confidence: 99%

Dual neurotoxic and neuroprotective role of metabotropic glutamate receptor 1 in conditions of trophic deprivation – Possible role as a dependence receptor

et al. 2008

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“…In some cases, ADD recruits caspase-activating complexes that are different from those implicated in death receptors and in intrinsic mitochondrial classical apoptotic pathways. For example, in the absence of netrin-1, DCC recruits and activates caspase 9, thereby allowing caspase 3 activation, but this process does not require cytochrome c release and subsequent formation of an apoptosome (cytochrome c/apaf-1/caspase 9) complex, as is the case in the classic mitochondrial pathway (Forcet et al, 2001). DCC does not interact directly with caspase 9, hence it may recruit one or more adaptor proteins (Figure 3).…”

Section: Proapoptotic Signaling By Drsmentioning

confidence: 99%

“…Another view could be that caspases are never completely inactive, even in nonapoptotic cells, and that this residual caspase activity is sufficient to detect receptors disengaged from their ligand. Interestingly, caspase 3 was observed to interact with DCC, downstream of its cleavage site, only in nonapoptotic conditions, that is, in the presence of netrin-1, or when the DCC caspase cleavage site is mutated (Forcet et al, 2001). It is tempting to speculate that, when dimerized in the presence of its ligand, DCC adopts a conformation that prevents its cleavage by caspases, whereas it can be efficiently cleaved as a monomer in the absence of ligand.…”

Section: Amplification Of Receptor Cleavagementioning

confidence: 99%

Dependence receptors: a new paradigm in cell signaling and cancer therapy

2010

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Dependence receptors (DRs) now form a family of more than a dozen membrane receptors that are not linked by their structure, but by common functional traits. The most notable is their ability to trigger two opposite signaling pathways: in the presence of ligand, these receptors activate classic signaling pathways implicated in cell survival, migration and differentiation. In the absence of ligand, they do not stay inactive, rather they elicit an apoptotic signal. Thus, cells expressing this kind of receptor are dependent on the presence of ligand in the extracellular environment to survive. This review will recapitulate the increasing data regarding the molecular mechanisms associated with DRs, their potential implication during development, as well as their deregulation during tumorigenesis and, finally, their emergence as new possible therapeutic targets for cancer treatment.

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“…3 Although such positive survival signals are clearly extremely important, data obtained over the past 10 years argue for a complementary and novel form of signal transduction that is proapoptotic, and is activated or propagated by stimulus withdrawal. [4][5][6][7][8][9][10][11][12][13][14][15][16] Moreover, whereas positive survival signals -such as those mediated by RTKs that bind trophic factors -involve classical signal transduction (i.e., ligand-receptor interaction initiates the signal), negative survival signals (i.e., ligand withdrawal initiates the signal), such as those mediated by the netrin-1 receptors, deleted in colorectal cancer (DCC) and uncoordinated gene 5 (Unc5)H1-3 (see below for a more detailed description), involve nonclassical signal transduction, in which typically the unbound receptor (or possibly the receptor bound by a hypothetical 'antitrophin') is activated to induce cell death by proteolytic processing, generating proapoptotic fragments ( Figure 1). In this latter case, ligand binding blocks the proapoptotic effect of the fragments, at least in some cases by inhibiting the proteolytic processing of the receptor.…”

Section: Introductionmentioning

confidence: 99%

“…9 Point mutation of this caspase site completely suppressed the proapoptotic effect of DCC, resulting in a modestly antiapoptotic effect of the mutant. 9,13 Functionally, therefore, DCC may amplify cellular caspase activity in the absence of ligand, via exposure of a proapoptotic domain lying in the amino-terminal region of the intracellular domain, proximal to Asp1290. Whether DCC may also initiate apoptosis -as opposed to functioning simply as an amplifier -is a subject of current studies.…”

Section: Introductionmentioning

confidence: 99%

Receptors that mediate cellular dependence

2005

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Cells depend for their survival on stimulation by trophic factors and other prosurvival signals, the withdrawal of which induces apoptosis, both via the loss of antiapoptotic signaling and the activation of proapoptotic signaling via specific receptors. These receptors, dubbed dependence receptors, activate apoptotic pathways following the withdrawal of trophic factors and other supportive stimuli. Such receptors may feature in developmental cell death, carcinogenesis (including metastasis), neurodegeneration, and possibly subapoptotic events such as neurite retraction and somal atrophy. Mechanistic studies of dependence receptors suggest that these receptors form ligand-dependent complexes that include specific caspases. Complex formation in the absence of ligand leads to caspase activation by a mechanism that is typically dependent on caspase cleavage of the receptor itself, releasing proapoptotic peptides. Cellular dependence receptors, considered in the aggregate, may thus form a system of molecular integration, analogous to the electrical integration system provided by dendritic arbors in the nervous system.

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The dependence receptor DCC (deleted in colorectal cancer) defines an alternative mechanism for caspase activation

Cited by 187 publications

References 31 publications

Dual neurotoxic and neuroprotective role of metabotropic glutamate receptor 1 in conditions of trophic deprivation – Possible role as a dependence receptor

Dual neurotoxic and neuroprotective role of metabotropic glutamate receptor 1 in conditions of trophic deprivation – Possible role as a dependence receptor

Dependence receptors: a new paradigm in cell signaling and cancer therapy

Receptors that mediate cellular dependence

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