Summary
The microRNA pathway has been implicated in the regulation of synaptic protein synthesis and ultimately dendritic spine morphogenesis, a phenomenon associated with long-lasting forms of memory. However, the particular microRNAs (miRNAs) involved are largely unknown. We performed a functional screen to identify specific miRNAs that function at synapses to control dendritic spine structure. One of the identified miRNAs, miR-138, is highly enriched in the brain, localized within dendrites and negatively regulates the size of dendritic spines in rat hippocampal neurons. miR-138 controls the expression of Acyl protein thioesterase 1 (APT1), an enzyme regulating the palmitoylation status of proteins that are known to function at the synapse, including G protein alpha subunits (Gα). RNAi-mediated knockdown of APT1 and expression of membrane-localized Gα both suppress spine enlargement caused by miR-138 inhibition, suggesting that APT1-regulated depalmitoylation of Gα might be an important downstream event of miR-138 function. Our results uncover a novel miRNA-dependent mechanism in neurons and demonstrate a previously unrecognized complexity of miRNA-dependent control of dendritic spine morphogenesis.
In biology-oriented synthesis, the scaffolds of biologically relevant compound classes inspire the synthesis of focused compound collections enriched in bioactivity. This criterion is, in particular, met by the scaffolds of natural products selected in evolution. The synthesis of natural product-inspired compound collections calls for efficient reaction sequences that preferably combine multiple individual transformations in one operation. Here we report the development of a one-pot, twelve-step cascade reaction sequence that includes nine different reactions and two opposing kinds of organocatalysis. The cascade sequence proceeds within 10-30 min and transforms readily available substrates into complex indoloquinolizines that resemble the core tetracyclic scaffold of numerous polycyclic indole alkaloids. Biological investigation of a corresponding focused compound collection revealed modulators of centrosome integrity, termed centrocountins, which caused fragmented and supernumerary centrosomes, chromosome congression defects, multipolar mitotic spindles, acentrosomal spindle poles and multipolar cell division by targeting the centrosome-associated proteins nucleophosmin and Crm1.
The best of 40 000: Detailed structure–activity‐relationship studies revealed key structural elements of indolin‐2‐on‐3‐spirothiazolidinones (see example) and their appropriate configuration for strong inhibitory activity against the pathophysiologically relevant title protein.
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