Involvement of cathepsin D in chemotherapy-induced cytochrome <i>c</i> release, caspase activation, and cell death

Emert-Sedlak, Lori A.; Shangary, Sanjeev; Rabinovitz, Asaf; Miranda, Michelle B.; Delach, Scott; Johnson, Daniel E.

doi:10.1158/1535-7163.mct-04-0301

Cited by 86 publications

(70 citation statements)

References 47 publications

(41 reference statements)

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“…It is therefore open to question whether cath-D might be able to cleave cytosolic substrate(s) implicated in the apoptotic cascade. In accordance with this proposal, it was recently described that pepstatin A did not prevent the death of cells treated by etoposide, doxorubicin, anti-CD95 or TNF-alpha (Demoz et al, 2002;Tardy et al, 2003;Emert-Sedlak et al, 2005). Furthermore, pepstatin A did not suppress Bid cleavage or procaspases-9 and -3 activation by photodynamic therapy in murine hepatoma cells (Reiners et al, 2002).…”

Section: Introductionmentioning

confidence: 58%

“…More recently, cath-D has also been discovered as a key mediator of apoptosis induced by many apoptotic agents such as IFN-gamma, Fas/APO, TNF-alpha (Deiss et al, 1996), oxidative stress (Roberg and Ö llinger, 1998;Ö llinger, 2000;Kagedal et al, 2001;Roberg, 2001;Takuma et al, 2003), adriamycin and etoposide (Wu et al, 1998;Emert-Sedlak et al, 2005), as well as staurosporine (Johansson et al, 2003). The role of cath-D in apoptosis has been linked to the lysosomal release of mature 34 kDa cath-D into the cytosol leading in turn to the mitochondrial release of cytochrome c (cyt c) into the cytosol (Roberg and Ö llinger, 1998;Ö llinger, 2000;Kagedal et al, 2001;Roberg, 2001;Roberg et al, 2002;Johansson et al, 2003), activation of pro-caspases (Ö llinger, 2000;Roberg et al, 2002;Johansson et al, 2003;Heinrich et al, 2004), in vitro cleavage of Bid at pH 6.2 (Heinrich et al, 2004), or Bax activation independently of Bid cleavage (Bide`re et al, 2003).…”

Section: Introductionmentioning

confidence: 99%

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Overexpression of both catalytically active and -inactive cathepsin D by cancer cells enhances apoptosis-dependent chemo-sensitivity

et al. 2006

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The aspartic protease cathepsin D (cath-D) is a key mediator of induced-apoptosis and its proteolytic activity has been generally involved in this event. During apoptosis, cath-D is translocated to the cytosol. Because cath-D is one of the lysosomal enzymes that requires a more acidic pH to be proteolytically active relative to the cysteine lysosomal enzymes such as cath-B and -L, it is therefore open to question whether cytosolic cath-D might be able to cleave substrate(s) implicated in the apoptotic cascade. Here, we have investigated the role of wild-type cath-D and its proteolytically inactive counterpart overexpressed by 3Y1-Ad12 cancer cells during chemotherapeutic-induced cytotoxicity and apoptosis, as well as the relevance of cath-D catalytic function. We demonstrate that wild-type or mutated catalytically inactive cath-D strongly enhances chemo-sensitivity and apoptotic response to etoposide. Both wild-type and mutated inactive cath-D are translocated to the cytosol, increasing the release of cytochrome c, the activation of caspases-9 and -3 and the induction of a caspase-dependent apoptosis. In addition, pretreatment of cells with the aspartic protease inhibitor, pepstatin A, does not prevent apoptosis. Interestingly therefore, the stimulatory effect of cath-D on cell death is independent of its catalytic activity. Overall, our results imply that cytosolic cath-D stimulates apoptotic pathways by interacting with a member of the apoptotic machinery rather than by cleaving specific substrate(s).

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Section: Introductionmentioning

confidence: 58%

Section: Introductionmentioning

confidence: 99%

Overexpression of both catalytically active and -inactive cathepsin D by cancer cells enhances apoptosis-dependent chemo-sensitivity

et al. 2006

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“…36 In each of these studies, proapoptotic concentrations of the different toxicants induced an autophagic response in wild-type cultures that preceded or paralleled the initiation of apoptosis. Although analyses of autophagic flux were not reported in these studies, it is worth noting that apoptotic concentrations of etoposide, 37 induce endosomal/lysosomal permeabilization or rupture in a variety of cellular systems. In doing so, the effects of these agents on lysosomes may be analogous to lysosomal photosensitizers, and contribute to autophagosome accumulation and the development of autophagic stress.…”

Section: Methodsmentioning

confidence: 99%

ATG7 deficiency suppresses apoptosis and cell death induced by lysosomal photodamage

2012

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“…While some studies reported that CD can directly induce apoptosis [118][119][120], many studies demonstrated that CD is a mediator of apoptosis induced by several stimuli, such as staurosporine, IFN-gamma, Fas/CD95/APO-1, TNF, etoposide, 5-fluorouracil, cisplatin [118,121,122], adriamycin [122], resveratrol [123], doxorubicin [124], growth factor deprivation [125], oxidative stress [109,126,127], and sphingosine [113]. These data suggests that CD promote apoptosis induced by cytotoxic and stress agents.…”

Section: Apoptosismentioning

confidence: 99%

“…It has been shown that higher doses of pepstatin A inhibit MAPK signaling [133]. In a similar fashion, pharmacological inhibitors of caspases have been shown to nonspecifically inhibit cathepsins, raising the possibility that the role of cathepsins may have been overlooked in defining many "caspase-dependent" processes [121,134]. The design, synthesis and use of new specific CD inhibitors is therefore of great interest and may have important research and therapeutical consequences [19,135].…”

Section: Apoptosismentioning

confidence: 99%

Cathepsin D—Many functions of one aspartic protease

Beneš

Větvička

Fusek

2008

Critical Reviews in Oncology/Hematology

522

474

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For years, it has been held that cathepsin D (CD) is involved in rather nonspecific protein degradation in a strongly acidic milieu of lysosomes. Studies with CD knock-out mice revealed that CD is not necessary for embryonal development but it is indispensable for postnatal tissue homeostasis. Mutation that abolishes CD enzymatic activity causes neuronal ceroid lipofuscinosis (NCL) characterized by severe neurodegeneration, developmental regression, visual loss and epilepsy in both animals and humans.In the last decade, however, an increasing number of studies demonstrated that enzymatic function of CD is not restricted solely to acidic milieu of lysosomes with important consequences in regulation of apoptosis. In addition to CD enzymatic activity, it has been shown that apoptosis is also regulated by catalytically inactive mutants of CD which suggests that CD interacts with other important molecules and influences cell signaling.Moreover, procathepsin D, secreted from cancer cells, acts as a mitogen on both cancer and stromal cells and stimulates their pro-invasive and pro-metastatic properties. Numerous studies found that pCD/CD level represents an independent prognostic factor in a variety of cancers and is therefore considered to be a potential target of anti-cancer therapy.Studies dealing with functions of cathepsin D are complicated by the fact that there are several simultaneous forms of CD in a cell -pCD, intermediate enzymatically active CD and mature heavy and light chain CD. It became evident that these forms may differently regulate the above mentioned processes.In this article, we review the possible functions of CD and its various forms in cells and organisms during physiological and pathological conditions.

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Involvement of cathepsin D in chemotherapy-induced cytochrome c release, caspase activation, and cell death

Cited by 86 publications

References 47 publications

Overexpression of both catalytically active and -inactive cathepsin D by cancer cells enhances apoptosis-dependent chemo-sensitivity

Overexpression of both catalytically active and -inactive cathepsin D by cancer cells enhances apoptosis-dependent chemo-sensitivity

ATG7 deficiency suppresses apoptosis and cell death induced by lysosomal photodamage

Cathepsin D—Many functions of one aspartic protease

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