Mesial temporal lobe epilepsy (MTLE), the most common form of epilepsy, is characterised by cytoarchitectural abnormalities including neuronal cell loss and reactive gliosis in hippocampus. Determination of aberrant cytoskeleton protein expression by proteomics techniques may help to understand pathomechanism that is still elusive. We searched for differential expression of hippocampal proteins by an analytical method based on two-dimensional gel electrophoresis (2-DE) coupled with mass spectrometry unambiguously identifying 77 proteins analysed in eight control and eight MTLE hippocampi. Proteins were quantified and we observed 18 proteins that were altered in MTLE. Cytoskeleton proteins tubulin alpha-1 chain, beta-tubulin, profilin II, neuronal tropomodulin were significantly reduced and one actin spot was missing, whereas ezrin and vinculin were significantly increased in MTLE. Proteins of several classes as e.g. antioxidant proteins (peroxiredoxins 3 and 6), chaperons (T-complex protein 1-alpha, stress-induced-phosphoprotein 1), signaling protein MAP kinase kinase 1, synaptosomal proteins (synaptotagmin I, alpha-synuclein), NAD-dependent deacetylase sirtuin-2 and 26S protease regulatory subunit 7 protein, neuronal-specific septin 3 were altered in MTLE. Taken together, the findings may represent or lead to cytoskeletal impairment; aberrant antioxidant proteins, chaperons, MAP kinase kinase 1 and NAD-dependent deacetylase sirtuin-2 may have been involved in pathogenetic mechanisms and altered synaptosomal protein expression possibly reflects synaptic impairment in MTLE.
Controlled intracellular protein degradation is crucial for the maintenance of normal cell functions. An evolving concept claims that alterations in the exact timely degradation of proteins involved in growth control, apoptosis, signaling and differentiation contribute to carcinogenesis. This tightly regulated process is facilitated by the ubiquitin-26S proteasome system, a multi-enzyme complex, and inhibitors of this pathway have already been developed as potential anticancer agents. In order to generate proteasomal protein expression patterns of tumor cells and to provide an analytical tool we applied two-dimensional electrophoresis (2-DE) followed by mass spectrometry (MALDI-TOF-TOF with LIFT technology) in ten individual tumor cell lines (Saos-2; SK-N-SH; HCT-116; Caov3; A-549; HL60; A-673; A-375; MCF-7; HeLa) widely used in tumor research. A series of 39 proteasomal/proteolytic proteins was unambiguously identified by this proteomic approach, comprising proteins of the 20S core complex, the 19S regulatory complex, the 11S regulator, components of the ubiquitin pathway and proteases. Construction of individual protein maps by 2-DE and mass spectrometry provides an analytical tool and reference base for studying the pivotal importance of the proteasome and other proteolytic enzymes in tumor cells, independent of antibody availability and specificity. This preliminary database enables for designing studies in this area of research and reveals proteins that can be used as targets for new therapeutic strategies.
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