22 research outputs found

    Measuring apoptosis at the single cell level

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    The use of live cell microscopy has made a number of contributions to the study of apoptosis. Many of the tools and techniques are available that allow us to image the key events that occur during cell death including mitochondrial outer membrane permeabilization, mitochondrial transmembrane potential changes, translocation of Bcl-2 family members, caspase activation, phosphatidylserine flip and plasma membrane rupture. We discuss these techniques here and highlight the advantages and drawbacks of using such approaches to study apoptosis. (C) 2007 Elsevier Inc. All rights reserved

    NPM1 directs PIDDosome-dependent caspase-2 activation in the nucleolus

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    The PIDDosome (PIDD–RAIDD–caspase-2 complex) is considered to be the primary signaling platform for caspase-2 activation in response to genotoxic stress. Yet studies of PIDD-deficient mice show that caspase-2 activation can proceed in the absence of PIDD. Here we show that DNA damage induces the assembly of at least two distinct activation platforms for caspase-2: a cytoplasmic platform that is RAIDD dependent but PIDD independent, and a nucleolar platform that requires both PIDD and RAIDD. Furthermore, the nucleolar phosphoprotein nucleophosmin (NPM1) acts as a scaffold for PIDD and is essential for PIDDosome assembly in the nucleolus after DNA damage. Inhibition of NPM1 impairs caspase-2 processing, apoptosis, and caspase-2–dependent inhibition of cell growth, demonstrating that the NPM1-dependent nucleolar PIDDosome is a key initiator of the caspase-2 activation cascade. Thus we have identified the nucleolus as a novel site for caspase-2 activation and function

    On the role of caspase-recruitment domain proteins in apoptosis and NFkB activation

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    THESIS 6844Apoptosis and NFkB activation are two physiological processes that are essential for host mediated response to cellular injury. Apoptosis is a mechanism that removes damaged or unwanted cells. NFkB is a transcription factor that controls the expression of a number of cytokines and other mediators of inflammation. Recent studies have revealed that the molecular pathways that result in apoptosis or NFkB activation share a number of common elements. Pathways leading to apoptosis converge on the caspase cascade while pathways leading to NFkB activation converge on the IKK complex. Moreover, many of the steps in these pathways are controlled by a series of specific protein-protein interactions. A number of conserved protein modules such as the CARD and DED motifs mediate these interactions. To further characterise the role of CARD-containing proteins in apoptosis and NFkB actiyation this thesis focuses on the molecular characterisation of two CARD proteins CARDINAL and Nod1

    Direct pro-apoptotic role for NPM1 as a regulator of PIDDosome formation

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    Despite being frequently mutated or deregulated in acute myeloid leukemia (AML) and many other cancers, the mechanisms by which nucleophosmin (NPM1) regulates oncogenesis remain elusive. We found that NPM1 plays a direct and conserved role in DNA damage-induced assembly of the PIDDosome complex, the activating platform for caspase-2. This function is carried in the nucleolus and is essential for caspase-2-mediated apoptosis in response to a variety of DNA injuries

    Lethal and Non-Lethal Functions of Caspases in the DNA Damage Response

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    Members of the caspase family are well known for their roles in the initiation and execution of cell death. Due to their function in the removal of damaged cells that could otherwise become malignant, caspases are important players in the DNA damage response (DDR), a network of pathways that prevent genomic instability. However, emerging evidence of caspases positively or negatively impacting the accumulation of DNA damage in the absence of cell death demonstrates that caspases play a role in the DDR that is independent of their role in apoptosis. This review highlights the apoptotic and non-apoptotic roles of caspases in the DDR and how they can impact genomic stability and cancer treatment

    Mitochondria: pharmacological manipulation of cell death

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    Cell death by apoptosis or necrosis is often important in the etiology and treatment of disease. Since mitochondria play important roles in cell death pathways, these organelles are potentially prime targets for therapeutic intervention. Here we discuss the mechanisms through which mitochondria participate in the cell death process and also survey some of the pharmacological approaches that target mitochondria in various ways

    CARD games in apoptosis and immunity

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    A bewildering array of proteins containing the caspase recruitment domain (CARD) have now been identified. Previously, CARD–CARD interactions have been shown to be involved in the assembly of protein complexes that promote caspase processing and activation in the context of apoptosis. However, as the family of CARD-containing proteins has grown, it has become apparent that the majority of these proteins do not recruit caspases or promote caspase activation. Instead, many participate in NF-ÎșB signalling pathways associated with innate or adaptive immune responses. Here, we suggest a simplified classification of the CARD proteins based upon their domain structures and discuss the divergent roles of these proteins in the context of host defence

    Measuring apoptosis at the single cell level

    No full text
    The use of live cell microscopy has made a number of contributions to the study of apoptosis. Many of the tools and techniques are available that allow us to image the key events that occur during cell death including mitochondrial outer membrane permeabilization, mitochondrial transmembrane potential changes, translocation of Bcl-2 family members, caspase activation, phosphatidylserine flip and plasma membrane rupture. We discuss these techniques here and highlight the advantages and drawbacks of using such approaches to study apoptosis. (C) 2007 Elsevier Inc. All rights reserved
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