Rapid Cue-Specific Remodeling of the Nascent Axonal Proteome

Rapid Cue-Specific Remodeling of the Nascent Axonal Proteome

Axonal protein synthesis and degradation are rapidly regulated by extrinsic signals during neural wiring, but the full landscape of proteomic changes remains unknown due to limitations in axon sampling and sensitivity. By combining pulsed stable isotope labeling of amino acids in cell culture with s...

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Bibliographic Details
Published in:Neuron (Cambridge, Mass.) Mass.), 2018-07, Vol.99 (1), p.29-46.e4
Main Authors: Cagnetta, Roberta, Frese, Christian K., Shigeoka, Toshiaki, Krijgsveld, Jeroen, Holt, Christine E.
Format: Article
Language:eng
Subjects:
Amino acids
Animals
Ataxia
axon
axon guidance
Axons
Axons - drug effects
Axons - metabolism
Brain-derived neurotrophic factor
Brain-Derived Neurotrophic Factor - pharmacology
Cell culture
Cells, Cultured
chemotropic response
Congenital diseases
Embryo, Nonmammalian
extrinsic cues
Gene Expression Regulation
growth cone
Intellectual disabilities
Isotope Labeling
local protein synthesis
Mass Spectrometry
Netrin-1
Netrin-1 - pharmacology
neural wiring
Neuronal Outgrowth - drug effects
Protein biosynthesis
Proteins
Proteome - drug effects
Proteome - metabolism
Proteomes
Proteomics
pSILAC-SP3
Retina
retinal ganglion cell
Retinal Ganglion Cells - drug effects
Retinal Ganglion Cells - metabolism
Semaphorin-3A - pharmacology
Semaphorins
Xenopus laevis
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Summary:Axonal protein synthesis and degradation are rapidly regulated by extrinsic signals during neural wiring, but the full landscape of proteomic changes remains unknown due to limitations in axon sampling and sensitivity. By combining pulsed stable isotope labeling of amino acids in cell culture with single-pot solid-phase-enhanced sample preparation, we characterized the nascent proteome of isolated retinal axons on an unparalleled rapid timescale (5 min). Our analysis detects 350 basally translated axonal proteins on average, including several linked to neurological disease. Axons stimulated by different cues (Netrin-1, BDNF, Sema3A) show distinct signatures with more than 100 different nascent protein species up- or downregulated within the first 5 min followed by further dynamic remodeling. Switching repulsion to attraction triggers opposite regulation of a subset of common nascent proteins. Our findings thus reveal the rapid remodeling of the axonal proteomic landscape by extrinsic cues and uncover a logic underlying attraction versus repulsion. [Display omitted] •pSILAC-SP3 reveals the newly synthesized axonal proteome within minutes•Extrinsic cues rapidly up- and downregulate large subsets of nascent proteins•Different repulsive cues generate distinct proteomic signatures•Switch from repulsion to attraction elicits opposite changes in nascent proteome Cagnetta et al. establish a highly sensitive proteomics approach to characterize the nascent proteome of a subcellular compartment (axon) on a rapid timescale (minutes). Remarkably, different extrinsic cues trigger distinct signatures of up- and downregulated nascent protein changes within 5 min.
ISSN:0896-6273
1097-4199