Protein kinase C-mediated phosphorylation of a 25-kDa synaptosome-associated protein (SNAP-25) was examined in living PC12 cells. Phorbol 12-myristate 13-acetate treatment enhanced high potassium-induced [3H]-norepinephrine release, and a 28-kDa protein recognized by an anti-SNAP-25 antibody was phosphorylated on Ser residues. The molecular size of the phosphorylated band decreased slightly following treatment with Clostridium botulinum type A neurotoxin, whereas the band disappeared after treatment with botulinum type E neurotoxin, indicating that the 28-kDa protein was SNAP-25. A phosphorylation is likely to occur at Ser187, as this is the only Ser residue located between the cleavage sites of botulinum type A and E neurotoxins. SNAP-25 of PC12 cells was phosphorylated by purified protein kinase C in vitro, and the amount of syntaxin co-immunoprecipitated with SNAP-25 was decreased by phosphorylation. These results suggest that the phosphorylation of SNAP-25 may be involved in protein kinase C-mediated regulation of catecholamine release from PC12 cells.
Phorbol ester treatment induces the phosphorylation of SNAP-25 at Ser(187) and the potentiation of Ca(2+)-induced dopamine (DA) and acetylcholine (Ach) release from PC12 cells. In order to evaluate the functional consequences of phosphorylation, quantitative analysis was carried out using an anti-phosphopeptide antibody that specifically recognizes SNAP-25 phosphorylated at Ser(187). DA and ACh release, assayed in low-K(+) as well as high-K(+) solution, increased by treating the cells with phorbol-12-myristate-13-acetate (PMA); however, the stimulation of high-K(+)-dependent release occurred at lower concentrations and with shorter exposures to PMA than that of the basal release in low-K(+)-solution. The PMA-induced phosphorylation of SNAP-25 did not correlate with the potentiation of high-K(+)-dependent neurotransmitter release. The potentiation of high-K(+)-dependent DA release by phorbol 12,13-diacetate (PDA), a water soluble phorbol ester, almost completely disappeared within 1 min after washing PDA in the presence of okadaic acid, conditions under which the phosphorylation of SNAP-25 persisted for at least 15 min. PMA-induced phosphorylation of SNAP-25 was inhibited by staurosporine, however, the potentiation of high-K(+)-dependent DA release was suppressed only partially. These results indicate that protein kinase activation does not account for a large fraction of the phorbol ester-induced potentiation of depolarization-dependent neurotransmitter release from PC12 cells.
Enzyme activities such as of fructose bisphosphatase, malate dehydrogenase and carbonic anhydrase were analyzed after cytosol proteins in the mouse liver and were separated using nondenaturing two-dimensional electrophoresis (2-DE). The activities of both fructose bisphosphatase and malate dehydrogenase were inhibited by thyroxine, and fructose bisphosphatase activity was specifically inhibited by adenosine monophosphate in nondenaturing 2-DE. Furthermore, polypeptides of the separated proteins were analyzed by peptide mass fingerprinting using matrix-assisted laser desorption/ionization time-of-flight mass spectrometry or by peptide sequencing using electrospray ionization-tandem mass spectrometry, or both. Proteins separated by 2-DE were identified. These results indicate that the function of proteins such as enzyme activity, and their sequence structure can be analyzed, for example by peptide mapping and peptide sequencing, after the proteins have been separated by nondenaturing 2-DE. Present results also indicate analysis of enzyme activity using nondenaturing 2-DE can be applied to screen substances which affect enzyme activity.
To separate and extract the native states of lysozyme from chicken egg white, a hybrid method for the mobilization of proteins after non-denaturing gel isoelectric focusing (IEF) combined with detection of lysozyme activity was developed. When the proteins in the chicken egg white were first separated using non-denaturing gel IEF, a lysozyme was obtained at the top of the gel column at the cathode end of the IEF. And, when the IEF-separated proteins of the egg white were mobilized by replacing the cathodic sodium hydroxide solution with phosphoric acid solution, an additional active state of the lysozyme that could be bound to proteins, such as ovotransferrin, was extracted from the solution. Furthermore, it was shown that the addition of lysozyme, obtained via IEF, to pure ovotransferrin generated a complex manifesting lysozyme activity, clearly indicating a successful reconstruction of the lysozyme-ovotransferrin complex in vitro. Therefore, the obtained results demonstrated that the native states of lysozymes, such as lysozyme and the lysozyme-ovotransferrin complex, can be effectively separated and extracted using non-denaturing gel IEF. Thus, this method can be applied to separate and extract different charge states of native proteins that retain their biological activities.
After cytosol proteins in the mouse liver were separated by nondenaturing two-dimensional electrophoresis (2-DE), activities of several enzymes, such as fructose bisphosphatase, sorbitol dehydrogenase and malate dehydrogenase, transferase and sorbitol dehydrogenase, or several dehydrogenases, were analyzed on the same 2-D gel. Further, peptidase (or protease) activity can be examined by matrix-assisted laser desorption/ionization-time of flight-mass spectrometry (MALDI-TOF-MS) when peptides such as angiotensin and adenocorticotropic hormone are incubated in the presence of the cytosol protein separated by nondenaturing 2-DE. Sequence structures of proteins on the 2-D gel were analyzed by peptide mass fingerprinting using MALDI-TOF-MS or by peptide sequencing using electrospray ionization-tandem mass spectrometry (ESI-MS/MS). The combination of activity and sequence structure accurately verified the position and activity range of the separated enzymes on the nondenaturing 2-D gel. From these results, we created a nondenaturing 2-D enzyme profile involving activities and sequence structure of cytosol proteins from mouse liver. This profile can be used for checking whether activities of enzymes were specifically or nonspecifically inhibited by inhibitors.
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