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    Neuroproteomics (2021)
    MDPI - Multidisciplinary Digital Publishing Institute
    Details
    Publication Date: 2024-03-30
    Description: The Neuroproteomics Special Issue overviews the unique challenges that must be addressed to carry out meaningful MS/proteomics analyses on neural tissues and the technologies that are available to meet these challenges. The articles on Alzheimer’s disease, addiction, and schizophrenia illustrate how MS/proteomics technologies can be used to improve our ability to diagnose and understand the molecular basis for neurological diseases. Several articles will be of interest to investigators beyond the field of neurological disorders. The review on the discovery of biofluid biomarkers of neurodegenerative dementias will be of interest to investigators searching for other disease biomarkers. Similarly, the review on the role of neuroproteomics in elucidating mechanisms of drug addiction provides an overview of the utility of MS/proteomics approaches for addressing critical questions in addiction neuroscience that should be applicable to investigators involved in virtually any area of biomedical research. Likewise, the article on developing targeted MS approaches for quantifying postsynaptic density proteins will be useful for any investigator who wishes to design targeted assays for virtually any protein. Finally, the peroxidase-mediated proximity labeling technology, described in the article on mapping the proteome of the synaptic cleft, will be of interest to investigators interested in mapping other spatially restricted proteomes.
    Keywords: R5-920 ; RC346-429 ; n/a ; analgesia ; quantitative phosphoproteomics ; neurodegeneration ; neuron ; neuronal circuits ; mating ; sex-specific differences ; AMPA receptor complex ; parallel reaction monitoring ; splicing ; phosphorylation ; peptidylglycine ?-amidating monooxygenase ; pherophorin ; Alzheimer’s disease ; neuroscience ; yohimbine ; synapses ; adolescence ; conformational antibody ; opioid receptors ; protein interaction networks ; Alzheimer’s Disease ; transmembrane AMPA receptor regulatory protein ; neuroproteome ; ethanol ; U1 snRNP ; mass spectroscopy ; morphine ; protein phosphatase-1 ; neuroproteomics ; axons ; reinstatement ; DIA ; voltage gated channels ; prohormone convertase ; postsynaptic density ; neuroimmune ; dendrites ; carboxypeptidase ; GPCR signaling ; CaMKII ; FGF14 ; SynCAM ; nicotinic receptor ; synaptic plasticity ; plasma ; serum ; corticosterone ; dopamine ; Receptor-type tyrosine-protein phosphatase zeta ; Ptprz1 ; PRM ; cell type ; schizophrenia ; laser capture microdissection ; synapse specificity ; LC-MS/MS ; mouse ; drug abuse ; synaptic cleft ; striatum ; Cadm ; cytokine ; spinophilin ; PSD ; trans-synaptic adhesion ; nicotine ; proximity labeling ; biomarkers ; addiction ; PKA ; synapse ; proteome ; signal peptide ; ventral tegmental area ; protein aggregation ; cerebrospinal fluid ; bioinformatics ; progressive ratio ; interactome ; subtilisin ; affinity chromatography ; basal ganglia ; cocaine ; targeted proteomics ; postsynaptic ; mass spectrometry ; connectome ; quantitative mass spectrometry ; biotinylation ; proteomics ; amphetamine ; autism ; data-independent acquisition ; excitatory/inhibitory tone ; neuropeptidomics ; matrix metalloproteinase ; cilia ; R-PTP-zeta ; cognitive impairment
    Language: English
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  • 2
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    Structural domains involved in the regulation of transmitter release by synapsins (2009)
    Society for Neuroscience
    Details
    Publication Date: 2022-05-25
    Description: Author Posting. © Society for Neuroscience, 2005. This article is posted here by permission of Society for Neuroscience for personal use, not for redistribution. The definitive version was published in Journal of Neuroscience 25 (2005): 2658-2669, doi:10.1523/JNEUROSCI.4278-04.2005.
    Description: Synapsins are a family of neuron-specific phosphoproteins that regulate neurotransmitter release by associating with synaptic vesicles. Synapsins consist of a series of conserved and variable structural domains of unknown function. We performed a systematic structure-function analysis of the various domains of synapsin by assessing the actions of synapsin fragments on neurotransmitter release, presynaptic ultrastructure, and the biochemical interactions of synapsin. Injecting a peptide derived from domain A into the squid giant presynaptic terminal inhibited neurotransmitter release in a phosphorylation-dependent manner. This peptide had no effect on vesicle pool size, synaptic depression, or transmitter release kinetics. In contrast, a peptide fragment from domain C reduced the number of synaptic vesicles in the periphery of the active zone and increased the rate and extent of synaptic depression. This peptide also slowed the kinetics of neurotransmitter release without affecting the number of docked vesicles. The domain C peptide, as well as another peptide from domain E that is known to have identical effects on vesicle pool size and release kinetics, both specifically interfered with the binding of synapsins to actin but not with the binding of synapsins to synaptic vesicles. This suggests that both peptides interfere with release by preventing interactions of synapsins with actin. Thus, interactions of domains C and E with the actin cytoskeleton may allow synapsins to perform two roles in regulating release, whereas domain A has an actin-independent function that regulates transmitter release in a phosphorylation-sensitive manner.
    Description: This work was supported by grants from The Fisher Center for Alzheimer’s Disease Research (P.G., F.B.), National Institutes of Health Grants NS-21624 (G.J.A.) and MH39327 (P.G.), the Italian Ministry of Education (F.B.), Consorzio Italiano Biotecnologie (F.B.), and a Ramon y Cajal fellowship (S.H.).
    Keywords: Synapsin ; Release ; Regulation ; Neurotransmitter ; Actin ; Cytoskeleton ; Depression
    Repository Name: Woods Hole Open Access Server
    Type: Article
    Format: application/pdf
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