Gabriel del Río scite author profile

We have designed short peptides composed of two functional domains, one a tumor blood vessel 'homing' motif and the other a programmed cell death-inducing sequence, and synthesized them by simple peptide chemistry. The 'homing' domain was designed to guide the peptide to targeted cells and allow its internalization. The pro-apoptotic domain was designed to be nontoxic outside cells, but toxic when internalized into targeted cells by the disruption of mitochondrial membranes. Although our prototypes contain only 21 and 26 residues, they were selectively toxic to angiogenic endothelial cells and showed anti-cancer activity in mice. This approach may yield new therapeutic agents.

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Coupling Endoplasmic Reticulum Stress to the Cell Death Program

Rao¹,

Hermel²,

Castro-Obregón³

et al. 2001

Journal of Biological Chemistry

676

591

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The endoplasmic reticulum (ER) is the site of assembly of polypeptide chains destined for secretion or routing into various subcellular compartments. It also regulates cellular responses to stress and intracellular Ca 2؉ levels. A variety of toxic insults can result in ER stress that ultimately leads to apoptosis. Apoptosis is initiated by the activation of members of the caspase family and serves as a central mechanism in the cell death process. The present study was carried out to determine the role of caspases in triggering ER stress-induced cell death. Treatment of cells with ER stress inducers such as brefeldin-A or thapsigargin induces the expression of caspase-12 protein and also leads to translocation of cytosolic caspase-7 to the ER surface. Caspase-12, like most other members of the caspase family, requires cleavage of the prodomain to activate its proapoptotic form. Caspase-7 associates with caspase-12 and cleaves the prodomain to generate active caspase-12, resulting in increased cell death. We propose that any cellular insult that causes prolonged ER stress may induce apoptosis through caspase-7-mediated caspase-12 activation. The data underscore the involvement of ER and caspases associated with it in the ER stress-induced apoptotic process.

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Coupling Endoplasmic Reticulum Stress to the Cell Death Program

Rao¹,

Castro-Obregón²,

Frankowski³

et al. 2002

Journal of Biological Chemistry

498

434

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Accumulation of misfolded proteins and alterations in Ca2؉ homeostasis in the endoplasmic reticulum (ER) causes ER stress and leads to cell death. However, the signal-transducing events that connect ER stress to cell death pathways are incompletely understood. To discern the pathway by which ER stress-induced cell death proceeds, we performed studies on Apaf-1 ؊/؊ (null) fibroblasts that are known to be relatively resistant to apoptotic insults that induce the intrinsic apoptotic pathway. While these cells were resistant to cell death initiated by proapoptotic stimuli such as tamoxifen, they were susceptible to apoptosis induced by thapsigargin and brefeldin-A, both of which induce ER stress. This pathway was inhibited by catalytic mutants of caspase-12 and caspase-9 and by a peptide inhibitor of caspase-9 but not by caspase-8 inhibitors. Cleavage of caspases and poly(ADP-ribose) polymerase was observed in cell-free extracts lacking cytochrome c that were isolated from thapsigargin or brefeldin-treated cells. To define the molecular requirements for this Apaf-1 and cytochrome c-independent apoptosis pathway further, we developed a cell-free system of ER stress-induced apoptosis; the addition of microsomes prepared from ER stress-induced cells to a normal cell extract lacking mitochondria or cytochrome c resulted in processing of caspases. Immunodepletion experiments suggested that caspase-12 was one of the microsomal components required to activate downstream caspases. Thus, ER stress-induced programmed cell death defines a novel, mitochondrial and Apaf-1-independent, intrinsic apoptotic pathway.

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Coupling endoplasmic reticulum stress to the cell death program: role of the ER chaperone GRP78

et al. 2002

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Alterations in Ca 2+ homeostasis and accumulation of unfolded proteins in the endoplasmic reticulum (ER) lead to an ER stress response. Prolonged ER stress may lead to cell death. Glucose-regulated protein (GRP) 78 (Bip) is an ER lumen protein whose expression is induced during ER stress. GRP78 is involved in polypeptide translocation across the ER membrane, and also acts as an apoptotic regulator by protecting the host cell against ER stress-induced cell death, although the mechanism by which GRP78 exerts its cytoprotective effect is not understood. The present study was carried out to determine whether one of the mechanisms of cell death inhibition by GRP78 involves inhibition of caspase activation. Our studies indicate that treatment of cells with ER stress inducers causes GRP78 to redistribute from the ER lumen with subpopulations existing in the cytosol and as an ER transmembrane protein. GRP78 inhibits cytochrome c-mediated caspase activation in a cell-free system, and expression of GRP78 blocks both caspase activation and caspase-mediated cell death. GRP78 forms a complex with caspase-7 and -12 and prevents release of caspase-12 from the ER. Addition of (d)ATP dissociates this complex and may facilitate movement of caspase-12 into the cytoplasm to set in motion the cytosolic component of the ER stressinduced apoptotic cascade. These results define a novel protective role for GRP78 in preventing ER stress-induced cell death. ß 2002 Published by Elsevier Science B.V. on behalf of the Federation of European Biochemical Societies.

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The dependence receptor UNC5H2 mediates apoptosis through DAP-kinase

Llambi

Lourenço

Gözüaçık

et al. 2005

EMBO J

143

137

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Netrin-1 receptors UNC5H (UNC5H1-4) were originally proposed to mediate the chemorepulsive activity of netrin-1 during axonal guidance processes. However, UNC5H receptors were more recently described as dependence receptors and, as such, able to trigger apoptosis in the absence of netrin-1. They were also proposed as putative tumor suppressors. Here, we show that UNC5H2 physically interacts with the serine/threonine kinase death-associated protein kinase (DAP-kinase) both in cell culture and in embryonic mouse brains. This interaction occurs in part through the respective death domains of UNC5H2 and DAP-kinase. Moreover, part of UNC5H2 proapoptotic activity occurs through this interaction because UNC5H2-induced cell death is partly impaired in the presence of dominant-negative mutants of DAP-kinase or in DAP-kinase mutant murine embryonic fibroblast cells. In the absence of netrin-1, UNC5H2 reduces DAP-kinase autophosphorylation on Ser308 and increases the catalytic activity of the kinase while netrin-1 blocks UNC5H2-dependent DAP-kinase activation. Thus, the pair netrin-1/UNC5H2 may regulate cell fate by controlling the proapoptotic kinase activity of DAP-kinase.

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Molecular Components of a Cell Death Pathway Activated by Endoplasmic Reticulum Stress

Rao¹,

Poksay²,

Castro-Obregón³

et al. 2004

Journal of Biological Chemistry

134

112

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Alterations in Ca2؉ homeostasis and accumulation of misfolded proteins in the endoplasmic reticulum (ER) cause ER stress that ultimately leads to programmed cell death. Recent studies have shown that ER stress triggers programmed cell death via an alternative intrinsic pathway of apoptosis that, unlike the intrinsic pathway described previously, is independent of Apaf-1 and cytochrome c. In the present work, we have used a set of complementary approaches, including two-dimensional gel electrophoresis coupled with matrix-assisted laser desorption ionization-time-of-flight mass spectrometry and nano-liquid chromatography-electrospray ionization mass spectrometry with tandem mass spectrometry, RNA interference, co-immunoprecipitation, immunodepletion of candidate proteins, and reconstitution studies, to identify mediators of the ER stress-induced cell death pathway. Our data identify two molecules, valosin-containing protein and apoptosis-linked gene-2 (ALG-2), that appear to play a role in mediating ER stress-induced cell death.

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A ligand-receptor pair that triggers a non-apoptotic form of programmed cell death

et al. 2002

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Several receptors that mediate apoptosis have been identified, such as Fas and tumor necrosis factor receptor I. Studies of the signal transduction pathways utilized by these receptors have played an important role in the understanding of apoptosis. Here we report the first ligand-receptor pair ± the neuropeptide substance P and its receptor, neurokinin-1 receptor (NK 1 R) ± that mediates an alternative, non-apoptotic form of programmed cell death. This pair is widely distributed in the central and peripheral nervous systems, and has been implicated in pain mediation and depression, among other effects. Here we demonstrate that substance P induces a nonapoptotic form of programmed cell death in hippocampal, striatal, and cortical neurons. This cell death requires gene expression, displays a non-apoptotic morphology, and is independent of caspase activation. The same form of cell death is induced by substance P in NK 1 R-transfected human embryonic kidney cells. These results argue that NK 1 R activates a death pathway different than apoptosis, and provide a signal transduction system by which to study an alternative, non-apoptotic cell death program.

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Gabriel del Río

Guidelines for the use and interpretation of assays for monitoring autophagy (4th edition)¹

Anti-cancer activity of targeted pro-apoptotic peptides

Coupling Endoplasmic Reticulum Stress to the Cell Death Program

Coupling Endoplasmic Reticulum Stress to the Cell Death Program

Coupling endoplasmic reticulum stress to the cell death program: role of the ER chaperone GRP78

The dependence receptor UNC5H2 mediates apoptosis through DAP-kinase

Molecular Components of a Cell Death Pathway Activated by Endoplasmic Reticulum Stress

A ligand-receptor pair that triggers a non-apoptotic form of programmed cell death

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Gabriel del Río

Guidelines for the use and interpretation of assays for monitoring autophagy (4th edition)1

Anti-cancer activity of targeted pro-apoptotic peptides

Coupling Endoplasmic Reticulum Stress to the Cell Death Program

Coupling Endoplasmic Reticulum Stress to the Cell Death Program

Coupling endoplasmic reticulum stress to the cell death program: role of the ER chaperone GRP78

The dependence receptor UNC5H2 mediates apoptosis through DAP-kinase

Molecular Components of a Cell Death Pathway Activated by Endoplasmic Reticulum Stress

A ligand-receptor pair that triggers a non-apoptotic form of programmed cell death

Contact Info

Product

Resources

About

Guidelines for the use and interpretation of assays for monitoring autophagy (4th edition)¹