Alvin Djajadikerta scite author profile

 Autophagy delivers cytoplasmic cargoes to lysosomes for degradation  It degrades many aggregate-prone proteins responsible for neurodegenerative disease  Enhancing autophagy has therapeutic potential in common neurodegenerative diseases  Evidence in cells and in vivo demonstrates promising results in many disease models  Outcomes may depend on how autophagy impacts disease pathogenesis

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Microglial-to-neuronal CCR5 signaling regulates autophagy in neurodegeneration

Festa¹,

Siddiqi²,

Jimenez‐Sanchez³

et al. 2023

Neuron

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Compounds activating VCP D1 ATPase enhance both autophagic and proteasomal neurotoxic protein clearance

et al. 2022

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Enhancing the removal of aggregate-prone toxic proteins is a rational therapeutic strategy for a number of neurodegenerative diseases, especially Huntington’s disease and various spinocerebellar ataxias. Ideally, such approaches should preferentially clear the mutant/misfolded species, while having minimal impact on the stability of wild-type/normally-folded proteins. Furthermore, activation of both ubiquitin-proteasome and autophagy-lysosome routes may be advantageous, as this would allow effective clearance of both monomeric and oligomeric species, the latter which are inaccessible to the proteasome. Here we find that compounds that activate the D1 ATPase activity of VCP/p97 fulfill these requirements. Such effects are seen with small molecule VCP activators like SMER28, which activate autophagosome biogenesis by enhancing interactions of PI3K complex components to increase PI(3)P production, and also accelerate VCP-dependent proteasomal clearance of such substrates. Thus, this mode of VCP activation may be a very attractive target for many neurodegenerative diseases.

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