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RECIPROCAL REGULATION OF PAR-4 AND CASPASE-8 IN THE TRAIL SIGNALING PATHWAYRanganathan, Padhma 01 January 2008 (has links)
Par‐4 is a pro‐apoptotic tumor suppressor that is mutated, suppressed or inactivated in cancer. Par‐4 exploits components of the extrinsic pathway to cause apoptosis selectively of cancer cells. This study identified Par‐4 as an essential component of the apoptotic pathway induced by TRAIL, which selectively targets cancer cells. RNA interference‐mediated knockdown of Par‐4 rendered cancer cells unresponsive to TRAIL‐induced apoptosis. Cells with knocked‐down levels of Par‐4 were deficient in the activation of the apoptosis‐initiator caspase‐8 and the apoptosis‐effector caspase‐3 in response to TRAIL. Par‐4 was identified as a critical mediator of membrane translocation of caspase‐8 and the adapter protein FADD. Surprisingly, Par‐4 was also found to interact with caspase 8 in untreated cells, and was cleaved at the N‐terminus at aspartic acid residue 123 in response to TRAIL. This, along with another cleavage by caspase‐9 effectively generated a fragment containing the functional module of Par‐4, the SAC domain, which is sufficient for apoptosis of cancer cells. Moreover, TRAIL activated caspase‐8 was also found to be involved in nuclear translocation of Par‐4, a crucial step during apoptosis induction by Par‐4. Together, our findings suggest that Par‐ 4 is an essential downstream target of caspase‐8 that is activated by TRAIL signaling and that, in turn, activates caspase‐8 and the downstream apoptotic pathway in response to TRAIL.
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The combined role of amyloid precursor protein intracellular domain and amyloid-beta on synaptic transmissionProzorov, Arsenii 08 1900 (has links)
Ces dernières années, de nombreuses études ont prouvé que la protéine précurseur de l'amyloïde (APP) joue un rôle clé dans le processus de formation de la mémoire, le développement des connexions synaptiques et la régulation de la force synaptique. L’importance d’APP naît du fait que son clivage protéolytique produit le peptide bêta-amyloïde (Aβ), considéré comme l'un des facteurs cruciaux dans le développement de la maladie d'Alzheimer. Les recherches se sont donc concentrées sur Aβ plutôt que sur le domaine intracellulaire APP (APP-ICD).
Récemment, il a été démontré qu’APP-ICD affecte l'induction de la plasticité synaptique, et Aβ à haute concentration est connu pour induire une dépression synaptique. Ici, nous montrons qu’APP-ICD et Aβ fonctionnent ensemble et induisent une dépression synaptique en modifiant la transmission synaptique par effet additif. L’activation de la caspase-3 clivant APP-ICD est nécessaire pour la dépression à long terme. Nous constatons que l’activation de la caspase-3 et son site de clivage d’APP-ICD, ainsi que le clivage d’APP par la gamma-sécrétase sont nécessaires à la dépression synaptique dépendante d’Aβ. La microglie assure la clairance d’Aβ et certains effets de plasticité. Nous démontrons qu’elle médie partiellement la dépression synaptique dépendante d’Aβ.
Les mécanismes par lesquels APP-ICD et Aβ médient la dépression synaptique ne sont pas connus. Ici, nous discutons de pistes possibles pour la recherche future, notamment des changements dans l'homéostasie du calcium en tant que cible thérapeutique potentielle. Comprendre comment APP-ICD et Aβ travaillent ensemble pour induire une dépression synaptique aiderait à développer de meilleurs traitements pour la maladie d'Alzheimer. / In recent years, more and more evidence has proven that the amyloid precursor protein (APP) plays a key role in the process of memory formation, the development of synaptic connections, and the regulation of synaptic strength. APP rose to prominence since its proteolytic cleavage produces the amyloid-beta (Aβ) peptide, which is believed to be one of the crucial factors in the development of Alzheimer disease. Therefore, most of the research focused on Aβ, while APP intracellular domain (APP-ICD) received much less attention.
In a recent study, APP-ICD was shown to affect the induction of synaptic plasticity, and Aβ at high concentration is known to induce synaptic depression. Here we show that APP-ICD works together with Aβ to induce synaptic depression, meaning they have an additive effect that changes synaptic transmission. Caspase-3 cleaves APP-ICD, and its activation is required for long-term depression. We found that the caspase-3 cleavage site of APP-ICD and caspase-3 activation are needed for Aβ-dependent synaptic depression. We also show that cleavage of APP by gamma-secretase is needed for the effect. Microglia mediate clearance of Aβ as well as some plasticity effects. We demonstrate that microglia partially mediate Aβ-dependent synaptic depression.
The mechanisms of how APP-ICD and Aβ mediate synaptic depression are not known, here, we discuss possible avenues for future research, specifically changes in calcium homeostasis as a potential therapeutic target. Hence, understanding how APP-ICD and Aβ work together to induce synaptic depression would aid in developing better treatments for Alzheimer disease.
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