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ABSTRACT: This study was undertaken to assay the effect of lovastatin on the glycogen synthase kinase-3 beta (GSK-3β) and collapsin responsive mediator protein-2 (CRMP-2) signaling pathway and mossy fiber sprouting (MFS) in epileptic rats. MFS in the dentate gyrus (DG) is an important feature of temporal lobe epilepsy (TLE) and is highly related to the severity and the frequency of spontaneous recurrent seizures. However, the molecular mechanism of MFS is mostly unknown. GSK-3β and CRMP-2 are the genes responsible for axonal growth and neuronal polarity in the hippocampus, therefore this pathway is a potential target to investigate MFS. Pilocarpine-induced status epilepticus animal model was taken as our researching material. Western blot, histological and electrophysiological techniques were used as the studying tools. The results showed that the expression level of GSK-3β and CRMP-2 were elevated after seizure induction, and the administration of lovastatin reversed this effect and significantly reduced the extent of MFS in both DG and CA3 region in the hippocampus. The alteration of expression level of GSK-3β and CRMP-2 after seizure induction proposes that GSK-3β and CRMP-2 are crucial for MFS and epiletogenesis. The fact that lovastatin reversed the expression level of GSK-3β and CRMP-2 indicated that GSK-3β and CRMP-2 are possible to be a novel mechanism of lovatstain to suppress MFS and revealed a new therapeutic target and researching direction for studying the mechanism of MFS and epileptogenesis.
PLoS ONE 01/2012; 7(6):e38789. · 4.09 Impact Factor
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ABSTRACT: Formation of copulatory plugs by male animals is a common means of reducing competition with rival males. In mice, copulatory plugs are formed by the coagulation of seminal vesicle secretion (SVS), which is a very viscous and self-clotting fluid containing high concentration of proteins. In its native state, mouse SVS contains a variety of disulfide-linked high-molecular-weight complexes (HMWCs) composed of mouse SVS I-III, which are the major components of mouse SVS. Further, mouse SVS I-III are the substrates for transglutaminase 4 (TGM4), a cross-linking enzyme secreted from the anterior prostate. According to activity assays, mouse TGM4 prefers a mild reducing and alkaline environment. However, under these conditions, the activity of mouse TGM4 toward SVS I-III was much lower than that of a common tissue-type TGM, TGM2. On the other hand, mouse TGM4 exhibited much higher cross-linking activity than TGM2 when native HMWCs containing SVS I-III were used as substrates under non-reducing condition. By the action of TGM4, the clot of SVS became more resistant to proteolysis. This indicates that the activity of TGM4 can further rigidify the copulatory plug and extend its presence in the female reproductive tract. Together with the properties of TGM4 and the nature of its disulfide-linked SVS protein substrates, male mice can easily transform the semen into a rigid and durable copulatory plug, which is an important advantage in sperm competition.
Amino Acids 08/2011; 42(2-3):951-60. · 3.25 Impact Factor
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ABSTRACT: SVS I was exclusively expressed in seminal vesicle in which the protein was immunolocalized primarily to the luminal epithelium of mucosal folds. The developmental profile of its mRNA expression was shown to be androgen-dependent, manifesting a positive correlation with the animal's maturation. There are 43 glutamine and 43 lysine residues in one molecule of SVS I, which is one of the seven major monomer proteins tentatively assigned on reducing SDS-PAGE during the resolution of mouse seminal vesicle secretion. Based on the fact that SVS I-deduced protein sequence consists of 796 amino acid residues, we produced 7 recombinant polypeptide fragments including residues 1-78/F1, residues 79-259/F2, residues 260-405/F3, residues 406-500/F4, residues 501-650/F5, residues 651-715/F6, and residues 716-796/F7, and measured the covalent incorporation of 5-(biotinamido)pentylamine (BPNH(2)) or biotin-TVQQEL (A25 peptide) to each of F1-to-F7 by type 4 transglutaminase (TG(4)) from the coagulating gland secretion. F2 was active to a greater extent than the other fragments during the BPNH(2)-glutamine incorporation, and a relatively low extent of A25-lysine cross link was observed with all of the seven fragments. The MS analysis of BPNH(2)-F2 conjugate identified Q(232) and Q(254) as the two major TG(4) cross-linking sites. This was substantiated by the result that much less BPNH(2) was cross-linked to any one of the three F2 mutants, including Q232G and Q254G obtained from single-site mutation, and Q232G/Q254G from double-site mutation.
Journal of Cellular Biochemistry 06/2009; 107(5):899-907. · 2.87 Impact Factor
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ABSTRACT: A 75-kDa protein secreted from mouse coagulating gland was purified to homogeneity by a series of isolation steps including ion exchange chromatography on a DEAE-Sephacel column and ion exchange high-performance liquid chromatography on a sulfopropyl column. It was identified to be Type IV transglutaminase (TG(4)), based on the establishment of N-terminal sequences by automated Edman degradation together with partial sequences by MS analysis. Its cross-linking activity was tested on the reduced sample of mouse seminal secretion which contained seven major monomer proteins tentatively designated as SVS I-VII. The enzyme was able to cross-link any of SVS I-III but failed to cross-link the other SVS proteins with a M(r) value less than 14 kDa. SVS I and SVS III showed comparable substrate activity, but were much weaker than SVS II during the TG(4) catalysis.
Journal of Chromatography B 11/2008; 876(2):198-202. · 2.89 Impact Factor
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Analytical Biochemistry 06/2006; 352(2):296-8. · 3.00 Impact Factor
