Abstract
Neurodegenerative diseases are associated with failed proteostasis and accumulation of insoluble protein aggregates that compromise neuronal function and survival. In Parkinson’s disease, a major pathological finding is Lewy bodies and neurites that are mainly composed of phosphorylated and aggregated α-synuclein and fragments of organelle membranes. Here, we analyzed a series of selective inhibitors acting on multidomain proteins CBP and p300 that contain both lysine acetyltransferase and bromodomains and are responsible for the recognition and enzymatic modification of lysine residues. By using high-affinity inhibitors, A-485, GNE-049, and SGC-CBP30, we explored the role of two closely related proteins, CBP and p300, as promising targets for selective attenuation of α-synuclein aggregation. Our data show that selective CBP/p300 inhibitors may alter the course of pathological α-synuclein accumulation in primary mouse embryonic dopaminergic neurons. Hence, drug-like CBP/p300 inhibitors provide an effective approach for the development of high-affinity drug candidates preventing α-synuclein aggregation via systemic administration.
Highlights
Neurodegenerative diseases are associated with failed proteostasis and accumulation of insoluble protein aggregates that compromise neuronal function and survival
Previous studies demonstrate that α-synuclein gene (SNCA) locus duplication or triplication and single-point mutations including A30P, E46K, H50Q, G51D, A53T, A53E, and A53V are associated with α-synuclein dysfunction and aggregation and lead to either familial or early onset of Parkinson’s disease (PD).[8−10] Various heterogeneous α-synuclein structural polymorphs have been identified by cryo-EM in artificial conditions, indicating a large variability of α-synuclein fibril topologies in cells
We systematically investigated the impact of lysine acetyltransferase (KAT) and bromodomain inhibitors on preformed fibril-induced α-synuclein aggregation in primary dopaminergic neurons
Summary
Neurodegenerative diseases are associated with failed proteostasis and accumulation of insoluble protein aggregates that compromise neuronal function and survival.
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