期刊
JOURNAL OF PROTEOME RESEARCH
卷 9, 期 8, 页码 4028-+出版社
AMER CHEMICAL SOC
DOI: 10.1021/pr100223n
关键词
dynamin; synaptic vesicle endocytosis; phosphorylation; isoforms; iTRAQ; mass spectrometry; phosphoproteomics; nerve terminals
资金
- National Health and Medical Research Council of Australia
- Cancer Institute New South Wales
Large-scale comparative phosphoproteomics studies have frequently been done on whole cells or organs by conventional bottom-up mass spectrometry approaches, that is, at the phosphopeptide level. Using this approach, there is no way to know which protein isoforms the phosphopeptide signal originated from. Also, as a consequence of the scale of these studies, important information on the localization of phosphorylation sites in subcellular compartments is not surveyed. As a case study, we investigated whether the isoforms of dynamin I (dynI), at the whole brain and subcellular level, had differential phosphorylation. We first established that the dynl isoforms xa, xb, and xd were expressed in nerve terminals. Our investigation revealed that dynl xa was constitutively phosphorylated to a higher extent than the other isoforms despite identical sequences in the phosphorylated subdomains. DynI xa had a 10-fold higher stoichiometry of diphosphorylation at Ser-774 and Ser-778 than dynl xb and xd combined. Diphosphorylation was 2-fold enriched in nerve terminals relative to whole brain and was preferentially targeted for stimulus-dependent dephosphorylation. Phospho-Ser-851 and Ser-857 were depleted from nerve terminals. Our data reveals major differential phosphorylation of dynl phosphosites in different variants and in different neuronal compartments that would be completely imperceptible to a large-scale phosphoproteomics approach.
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