Characterization of the Phosphorylation Sites of Human High Molecular Weight Neurofilament Protein by Electrospray Ionization Tandem Mass Spectrometry and Database Searching

Abstract

Hyperphosphorylated high molecular weight neurofilament protein (NF-H) exhibits extensive phosphorylation on lysine-serine-proline (KSP) repeats in the C-terminal domain of the molecule. Specific phosphorylation sites in human NF-H were identified by proteolytic digestion and analysis of the resulting digests by a combination of microbore liquid chromatography, electrospray ionization tandem (MS/MS) ion trap mass spectrometry, and database searching. The computer programs utilized (PEPSEARCH and SEQUEST) are capable of identifying peptides and phosphorylation sites from uninterpreted MS/MS spectra, and by use of these methods, 27 phosphopeptides and their phosphorylated residues were identified. On the basis of these phosphopeptides, 38 phosphorylation sites in human NF-H were characterized. These include 33 KSP, lysine-threonine-proline (KTP) or arginine-serine-proline (RSP) sites and four unphosphorylated sites, all of which occur in the KSP repeat domain (residues 502−823); and one threonine phosphorylation site observed in a KVPTPEK motif. Six KSP sites were not characterized because of the failure to isolate and identify corresponding phosphopeptides. Heterogeneity in serine and threonine phosphorylation was observed at three sites or deduced to occur at three sites on the basis of enzyme specificity. As a result of the phosphorylated motifs identified (KSPAKEE, KSPVKEE, KS/TPEKAK, KSPEKEE, KSPVKAE, KSPAEAK, KSPPEAK, KSPEAKT, KSPAEVK, and KVPTPEK), human NF-H tail domain is postulated to be a substrate of proline-directed kinases. The threonine-phosphorylated KVPTPEK motif suggested the existence of a novel proline-directed kinase.