H2S protects hippocampal neurons from anoxia-reoxygenation through cAMP-mediated PI3K/Akt/p70S6K cell-survival signaling pathways.

The study aims to investigate the effect of hydrogen sulfide (H(2)S) on the phosphatidylinositol 3-kinase (PI3K)/Akt/p70 ribosomal S6 kinase (p70S6K) signal transduction pathway after oxygen glucose deprivation/reoxygenation (OGD/R) in the rat hippocampus. Newborn Wister rats were decapitated under anesthesia, and hippocampal tissue was dissected. Cells were plated at 1.0 × 10(5) cells/mL on polylysine-treated 96-well and 6-well plates. After 7 days in culture, cells were randomly assigned to six groups: control, OGD/R, sodium hydrosulfide (NaHS) following OGD/R, NaHS/triciribine following OGD/R, NaHS/rapamycin following OGD/R, and NaHS/triciribine/rapamycin following OGD/R. Neuronal purity and cell viability were assessed in each group, as well as apoptosis and expression of cyclic adenosine 3', 5'-monophosphate (cAMP), PI3K, Akt, and p70S6K. NaHS enhanced cAMP concentration and expression of PI3K, Akt, and p70S6K. In addition, neuronal viability was increased and apoptotic neuronal numbers decreased (P<0.01). Triciribine inhibited Akt and p70S6K, as well as decreased cell survival and viability compared with the NaHS group (P<0.05 or P<0.01). Rapamycin resulted in decreased p70S6K expression and neuronal viability, as well as increased number of apoptotic neurons compared with the NaHS group (P<0.05 or P<0.01). H(2)S acted via cAMP-mediated PI3K/Akt/p70S6K signal transduction pathways to inhibit hippocampal neuronal apoptosis and protect neurons from OGD/R-induced injury.

Betagamma-CAT, a non-lens betagamma-crystallin and trefoil factor complex from amphibian skin secretions, caused endothelium-dependent myocardial depression in isolated rabbit hearts.

Previous in vivo study demonstrated that betagamma-CAT, a newly identified non-lens betagamma-crystallin and trefoil factor complex from frog Bombina maxima skin secretions, possessed potent lethal toxicity on mammals resulted from hypotension and cardiorespiratory arrest. However, the mechanism of cardiac dysfunction induced by the protein is unknown. Here, we report that betagamma-CAT, with dosages of 0.8-3.0 nM, elicited an acute negative inotropic effect in isolated rabbit heart Langendorff preparations, which mimicked acute heart failure. In addition, the effect of betagamma-CAT on the hearts was mediated by endothelium-dependent coronary vasoconstriction (P<0.01, compared between endothelium-intact and removal hearts). After betagamma-CAT (3.0 nM) treatment, the positive signal of tumor necrosis factor-alpha (TNF-alpha) was detected mainly around the endothelial cell layer as detected by in situ indirect immunofluorescence, indicating that the release of TNF-alpha occurred. At the same time, a rapid TNF-alpha release was detected in primary cultured rabbit endocardial endothelial cells (REECs) treated with betagamma-CAT. After addition of betagamma-CAT (3.0 nM) for 10 min and 30 min, the TNF-alpha levels were increased to 57.33+/-3.22 pg/ml and 60.00+/-5.35 pg/ml (P<0.05, compared with the control values of 21.67+/-3.45 pg/ml and 33.70+/-6.24 pg/ml, respectively). At high concentrations, betagamma-CAT interfered with the cell viability of REECs (CC(50) about 25 nM). Taken together, betagamma-CAT was able to induce acute myocardial depression and the toxic effect might be partially explained by the release of TNF-alpha. The finding provides new information to understand the patho-physiological roles of non-lens betagamma-crystallins and trefoil factors.

Acute toxicity of betagamma-CAT, a naturally existing non-lens betagamma-crystallin and trefoil factor complex from frog Bombina maxima skin secretions.

In vertebrates, non-lens betagamma-crystallins are widely expressed in various tissues, but their functions are unknown. The molecular mechanisms of trefoil factors, initiators of mucosal healing and being greatly involved in tumorigenesis, have remained elusive. betagamma-CAT is the first example of a naturally existing multifunctional protein complex of a non-lens betagamma-crystallin and a trefoil factor from frog Bombina maxima skin secretions. Here we report the investigation of its in vivo toxic effects on mice and rabbits. The LD(50) values of betagamma-CAT on mice were determined to be 0.4 mg/kg and 20 microg/kg under intraperitoneal (i.p.) and intravenous (i.v.) injection, respectively. The mice subcutaneously injected with betagamma-CAT (6 microg/g body weight) showed strong hyperaemia of subcutaneous capillary vessel, but no hemorrhagic spots were observed. Intravenous injection of betagamma-CAT in rabbits (8-22 microg/kg body weight) caused a rapidly hypotensive effect and followed with cardiovascular collapse. Injection with betagamma-CAT (22 microg/kg, i.v.) significantly decreased hematocrit (P<0.05) and mean corpuscular volume (P<0.05) of the rabbits in 5 min. At the same time, the counts of platelets and white blood cells were significantly decreased (P<0.05), while the blood levels of glucose, lactate dehydrogenase and serum glutamic-oxaloacetic transaminase were significantly increased (P<0.05). Furthermore, serials of tissues edema and damages were also observed. These results indicate that betagamma-CAT rapidly caused several in vivo toxic effects on mammals and its lethal toxic potency was mainly contributed by hypotension and cardiovascular collapse, providing new clues for the understanding of the patho-physiological roles of non-lens betagamma-crystallins and trefoil factors.

Isolation, expression and characterization of a novel dual serine protease inhibitor, OH-TCI, from king cobra venom.

Snake venom Kunitz/BPTI members are good tools for understanding of structure-functional relationship between serine proteases and their inhibitors. A novel dual Kunitz/BPTI serine proteinase inhibitor named OH-TCI (trypsin- and chymotrypsin-dual inhibitor from Ophiophagus hannah) was isolated from king cobra venom by three chromatographic steps of gel filtration, trypsin affinity and reverse phase HPLC. OH-TCI is composed of 58 amino acid residues with a molecular mass of 6339Da. Successful expression of OH-TCI was performed as the maltose-binding fusion protein in E. coli DH5alpha. Much different from Oh11-1, the purified native and recombinant OH-TCI both had strong inhibitory activities against trypsin and chymotrypsin although the sequence identity (74.1%) between them is very high. The inhibitor constants (K(i)) of recombinant OH-TCI were 3.91 x 10(-7) and 8.46 x10(-8)M for trypsin and chymotrypsin, respectively. To our knowledge, it was the first report of Kunitz/BPTI serine proteinase inhibitor from snake venom that had equivalent trypsin and chymotrypsin inhibitory activities.

A novel non-lens betagamma-crystallin and trefoil factor complex from amphibian skin and its functional implications.

BACKGROUND: In vertebrates, non-lens betagamma-crystallins are widely expressed in various tissues, but their functions are unknown. The molecular mechanisms of trefoil factors, initiators of mucosal healing and being greatly involved in tumorigenesis, have remained elusive. PRINCIPAL FINDINGS: A naturally existing 72-kDa complex of non-lens betagamma-crystallin (alpha-subunit) and trefoil factor (beta-subunit), named betagamma-CAT, was identified from frog Bombina maxima skin secretions. Its alpha-subunit and beta-subunit (containing three trefoil factor domains), with a non-covalently linked form of alphabeta(2), show significant sequence homology to ep37 proteins, a group of non-lens betagamma-crystallins identified in newt Cynops pyrrhogaster and mammalian trefoil factors, respectively. betagamma-CAT showed potent hemolytic activity on mammalian erythrocytes. The specific antiserum against each subunit was able to neutralize its hemolytic activity, indicating that the two subunits are functionally associated. betagamma-CAT formed membrane pores with a functional diameter about 2.0 nm, leading to K(+) efflux and colloid-osmotic hemolysis. High molecular weight SDS-stable oligomers (>240-kDa) were detected by antibodies against the alpha-subunit with Western blotting. Furthermore, betagamma-CAT showed multiple cellular effects on human umbilical vein endothelial cells. Low dosages of betagamma-CAT (25-50 pM) were able to stimulate cell migration and wound healing. At high concentrations, it induced cell detachment (EC(50) 10 nM) and apoptosis. betagamma-CAT was rapidly endocytosed via intracellular vacuole formation. Under confocal microscope, some of the vacuoles were translocated to nucleus and partially fused with nuclear membrane. Bafilomycin A1 (a specific inhibitor of the vacuolar-type ATPase) and nocodazole (an agent of microtuble depolymerizing), while inhibited betagamma-CAT induced vacuole formation, significantly inhibited betagamma-CAT induced cell detachment, suggesting that betagamma-CAT endocytosis is important for its activities. CONCLUSIONS/SIGNIFICANCE: These findings illustrate novel cellular functions of non-lens betagamma-cyrstallins and action mechanism via association with trefoil factors, serving as clues for investigating the possible occurrence of similar molecules and action mechanisms in mammals.