Activity-Induced Cortical Glutamatergic Neuron Nascent Proteins

Abstract: Neuronal activity initiates signaling cascades that culminate in diverse outcomes including structural and functional neuronal plasticity, and metabolic changes. While studies have revealed activity-dependent neuronal cell type-specific transcriptional changes, unbiased quantitative analysis of cell-specific activity-induced dynamics in newly synthesized proteins (NSPs) synthesis in vivo has been complicated by cellular heterogeneity and a relatively low abundance of NSPs within the prot… Show more

“…Increased neuronal activity significantly increases protein synthesis in neurons compared with constitutive levels of protein synthesis ( 45 , 48 ). Based on the observation that NMPs preferentially degrade nascent proteins ( 13 ), one might expect that the total amount of nascent proteins degraded by NMPs would be higher under stimulated conditions than that under the basal condition because of increased substrate availability.…”

“…Synthesis of the proteasome subunit PSMD2 is up-regulated in the tadpole brain following 4 h of enhanced visual stimulation ( 11 ). The synthesis and degradation of proteasome components are known to be regulated by neuronal activity in the brain ( 19 , 48 ). In the brief pharmacological stimulation paradigm we employed here, we observed no change in nascent PSMD2 in the stimulated samples compared with the basal condition with normal NMP function.…”

Neuronal membrane proteasomes regulate neuronal circuit activity in vivo and are required for learning-induced behavioral plasticity

“…Increased neuronal activity significantly increases protein synthesis in neurons compared with constitutive levels of protein synthesis ( 45 , 48 ). Based on the observation that NMPs preferentially degrade nascent proteins ( 13 ), one might expect that the total amount of nascent proteins degraded by NMPs would be higher under stimulated conditions than that under the basal condition because of increased substrate availability.…”

“…Synthesis of the proteasome subunit PSMD2 is up-regulated in the tadpole brain following 4 h of enhanced visual stimulation ( 11 ). The synthesis and degradation of proteasome components are known to be regulated by neuronal activity in the brain ( 19 , 48 ). In the brief pharmacological stimulation paradigm we employed here, we observed no change in nascent PSMD2 in the stimulated samples compared with the basal condition with normal NMP function.…”

Neuronal membrane proteasomes regulate neuronal circuit activity in vivo and are required for learning-induced behavioral plasticity

“…The combination of MS-based proteomics and cell-selective labeling is emerging as a powerful strategy to further accelerate the knowledge gained about heterocellular processes driving the disease. Direct analyses of labeled peptides offer straightforward solutions for multiplexed cell type-resolved proteomics and the evaluation of enrichment specificity 87 . However, with thorough background interference controls, analyses of all peptides from labeled proteins yield increased sensitivity and protein quantification accuracy.…”

Cell-selective proteomics segregates pancreatic cancer subtypes by extracellular proteins in tumors and circulation

“…A Cre-inducible mouse line expressing a mutant methionyl-tRNA synthetase is currently available, opening up the possibility to specifically label newly synthesized proteins in a variety of cell types, limited by the Cre driver lines available ( 25 ). However, labeling times in the range of days (or weeks) have limited its application for tracking short-term changes in the proteome ( 24 , 26 ). More recently, owing to excellent temporal resolution and absence of bias toward amino acid composition of target proteins, PMY and its derivatives have found extended use for the efficient labeling of nascent peptides.…”

Cell type–specific labeling of newly synthesized proteins by puromycin inactivation