Theiler's Murine Encephalomyelitis Virus Leader Protein Is the Only Nonstructural Protein Tested That Induces Apoptosis When Transfected into Mammalian Cells

Theiler''s murine encephalomyelitis virus (TMEV) induces two distinct cell death programs, necrosis and apoptosis. The apoptotic pathway is of particular interest because TMEV persists in the central nervous system of mice, largely in infiltrating macrophages, which undergo apoptosis. Infection of murine macrophages in culture induces apoptosis that is Bax dependent through the intrinsic or mitochondrial pathway, restricting infectious-virus yields and raising the possibility that apoptosis represents a mechanism to attenuate TMEV yet promote macrophage-to-macrophage spread during persistent infection. To help define the cellular stressors and upstream signaling events leading to apoptosis during TMEV infection, we screened baby hamster kidney (BHK-21) cells transfected to express individual nonstructural genes (except 3B) of the low-neurovirulence BeAn virus strain for cell death. Only expression of the leader protein led to apoptosis, as assessed by fluorescence-activated cell sorting analysis of propidium iodide- and annexin V-stained transfected cells, immunoblot analysis of poly(ADP-ribose) polymerase and caspase cleavages, electron microscopy, and inhibition of apoptosis by the pancaspase inhibitor qVD-OPh. After transfection, Bak and not Bax expression increased, suggesting that the apical pathway leading to activation of these Bcl-2 multi-BH-domain proapoptotic proteins differs in BeAn virus infection versus L transfection. Mutation to remove the CHCC Zn finger motif from L, a motif required by L to mediate inhibition of nucleocytoplasmic trafficking, significantly reduced L-protein-induced apoptosis in both BHK-21 and M1-D macrophages.Theiler''s murine encephalomyelitis viruses (TMEV), members of the genus Cardiovirus in the family Picornaviridae, are highly cytolytic RNA viruses. Mice experimentally infected with a low-neurovirulence TMEV, such as BeAn virus, develop persistent infection in the central nervous system (CNS) and an inflammatory demyelinating disease, providing an experimental analogue for multiple sclerosis. BeAn virus persists primarily in macrophages in the CNS of infected mice. Schlitt et al. (34) found that 74% of TUNEL-positive cells in infected spinal cords (primarily in CNS lesions) were T and B lymphocytes and 8% were macrophages, although virus genomes were detected in <1% of apoptotic cells, consistent with infection of only a low percentage of macrophages and the fact that TMEV does not infect T or B lymphocytes in culture. Thus, some means other than direct infection was responsible for apoptosis of most CNS macrophages, including TMEV triggering apoptosis through tumor necrosis factor alpha or tumor necrosis factor alpha-related apoptosis-inducing ligand by binding death receptors on activated macrophages in vitro, as reported elsewhere (17).Infection of mouse macrophages induces apoptosis (16, 26) mediated by Bax through the intrinsic or mitochondrial pathway and severely restricts the yield of progeny virus (37). Thus, apoptosis may be a mechanism to attenuate the virus yet promote macrophage-to-macrophage spread through phagocytosis of infected apoptotic blebs during persistence (37). In contrast, TMEV infection in other rodent cells tested thus far, including baby hamster kidney (BHK-21) cells, produces necrotic cell death with high virus yields. The contrasting outcomes of TMEV infection point to the existence of two distinct virus-induced cell death programs.The genes of an increasing number of RNA viruses have been shown to encode proteins that trigger apoptosis. Among picornaviruses, coxsackievirus B3 1B (VP2) (12, 13), avian encephalomyocarditis virus 1C (VP3) (24) and 2C (25), enterovirus 71 2A (20), and poliovirus 2A (10) and 3C protease (3C^pro) (3) induce apoptosis, mostly through the intrinsic pathway. Coxsackievirus B3 VP2 has been shown to interact with the proapoptotic Siva protein in a yeast two-hybrid screen (12), but exactly how the VP2-Siva interaction or any of the other picornavirus proteins initiates the apoptotic cascade remains unknown.To gain insight into the upstream signaling events that lead to apoptosis, we tested the ability of individual BeAn virus nonstructural genes to induce apoptosis in uninfected BHK-21 cells. Only the leader (L) protein resulted in apoptosis and mutation of the CHCC Zn finger motif in L significantly reduced L protein-induced apoptosis.     

The Effect of Glutathione Treatment on the Biochemical and Immunohistochemical Profile in Streptozotocin-Induced Diabetic Rats

This study investigated the possible role of glutathione (GSH) in diabetic complications and its biochemical safety in experimental diabetic rats. Serum biochemical parameters and the histology of the pancreas were investigated. Seven rats were separated as controls. To create the diabetes in rats, 45 mg/kg single-dose streptozotocin (STZ) was administered i.p. The treatment was continued for 1 month. STZ was administered to the diabetes + GSH group, then reduced GSH, dissolved in isotonic salt solution (200 mg/kg), was applied i.p. two times a week. The GSH group received i.p. GSH. Serum biochemical parameters were determined by autoanalyzer. Immunohistochemical procedures were used to determine the percentage of the insulin-immunoreactive β-cell area in the islets of Langerhans. The biochemical parameters changed to different degrees or did not change. Pancreatic cells of the control and GSH groups were healthy, but in the diabetic and GSH-treated diabetic groups we found damage in different numbers. The results from these analyses show that GSH supplementation can exert beneficial effects on pancreatic cells in STZ-induced diabetic rats and can safely be used for therapy in and protection from diabetes and complications of diabetes.     

Effects of dexfenfluramine on serotonin levels of mice ileum, contractility, glutathione and malondialdehyde level

Dexfenfluramine is one of the anorectic drugs that suppresses food intake which acts via inhibition of reuptake of serotonin into brain terminal. Gastrointestinal tract is the main source of peripheral serotonin which is involved in the regulation of gastrointestinal motility. During the use of anorectic drugs, the antioxidant defence is affected especially by reactive oxygen species. The purpose of this study to search: The effect of dexfenfluramine on serotonin levels of ileum and the effect of dexfenfluramine on ileal contractility and oxidative stress. Materials and Methods: Twenty-two adult male Swiss-albino mice were divided two groups (1) Control, (2) Dexfenfluramine treated (i.p. twice a day 0.2 mg kg⁻¹ in 0.2 ml saline solution for 7 days). Animal body weights were recorded at the beginning and at the end of the experimental period. Ileum tissues contractile responses to different concentrations of KCl and acethycholine were recorded on polygraph. In the meantime ileal tissue malondialdehyde, a product of lipid peroxidation, and glutathione, endogenous antioxidant levels were assessed by spectrophotometric methods. Ileal tissue serotonin level determined by immunohistochemical method. Body weights decrease and ileal contractile response of acethycholine increased significantly by dexfenfluramine treatment. Meanwhile, ileum glutathione levels decreased and malondialdehyde levels increased in dexfenfluramine treated group. Immunohistochemical detection showed that ileal serotonin levels increased by dexfenfluramine treatments. As a conclusion, there is a relationship between increased ileal contractility and oxidant status in dexfenfluramine treated animals. These effects can be related by increased serotonin levels which is induced by dexfenfluramine in ileum. (Mol Cell Biochem xxx: 151–157, 2005)     

Iontophoretic studies on rat hippocampus with some novel GABA antagonists

Twelve substances which appear to be GABA antagonists, judging by their ability to reverse the inhibitory effect of GABA on 35S-TBPS binding to rat brain membranes, were tested iontophoretically on population spikes in the rat hippocampus. Eight of them, including seven which completely reversed the inhibitory action of GABA on 35S-TBPS binding, caused a marked enhancement of population spikes, with slow onset and long duration and they antagonized the inhibition of population spikes by GABA. These effects were similar to those produced by bicuculline. Electrophysiologically, the most potent of the "complete reversers" were bathophenanthroline disulfonate and brucine. In vitro, amoxapine and brucine most effectively reversed the inhibitory action of GABA on 35S-TBPS binding. Of the five substances which only partly reversed the inhibitory effect of GABA on 35S-TBPS binding, four depressed the population spikes and potentiated the inhibitory action of GABA. The fifth "partial reverser", pipazethate, potently increased the population spikes, like the "complete reversers". Although other interpretations are possible the results are consistent with the existence of several GABA-A receptor types in brain, only some of which are blocked by certain partial reversers.     

Effect of Lycopene Application in Rats with Experimental Diabetes Using Lipoprotein, Paraoxonase and Cytokines

This study was conducted with the purpose of researching the effect of lycopene application on lipoprotein, paraoxonase (PON) and cytokines that are projected to be used in the diagnosis and treatment of diabetes by making experimental diabetes. At the end of a 1-month trial period, under ether anesthesia with jelly tubes, blood samples were taken from rat hearts. Blood samples were centrifuged and serum was obtained. From the serum samples, HbA_1c, paraoxonase activity, lipoprotein levels and cytokines were determined. HbA_1c levels and PON activity were found to be p < 0.001. At the triglyceride level, with regard to the control group, in all the groups a significant rise occurred (p ≤ 0.001). At the cholesterol level, with regard to the control group, a decline was observed in the other groups (p < 0.05). At the VLDL level, with regard to the control group, a significant rise was observed in the other groups (p < 0.05). At the HDL (p < 0.001) and LDL (p < 0.05) levels, with regard to the control group, a significant decline was observed in the other groups. At the TNF-α, IL-2, IL-6 and IL-10 levels no difference was found (p > 0.05). Experimental diabetes models have an important place in analyzing diabetes complications and determining treatment approaches.     

Accumulation of weathered pp'-DDE in xylem sap of grafted watermelon

Movement of weathered p,p'-dichlorodiphenyldichloroethane (p,p'-DDE) from contaminated soil to the rhizosphere pore water to the xylem sap of grafted watermelon was studied under green house conditions. p,p'-DDE concentrations in pore water and xylem sap was compared in intact plants, homografted, and compatible heterografts of Cucurbita pepo spp. pepo and Citrullus lanatus plants. An average p,p'-DDE concentrations in pore water of contaminated soil ranged from 0.36 microg/L to 0.55 microg/L and there were no statistically significant among the cultivars. Conversely, the xylem sap p,p'-DDE concentration of heterografted watermelon having a zucchini rootstock and watermelon scion was 71 microg/L and it was greater than intact watermelon plants (0.49 microg/L) but less than that of intact plants of zucchini (141 microg/L). Homografting showed no effect on xylem sap p,p'-DDE concentrations of the identical cultivars. The bio-concentration factors (BCFs) which is an average p,p'-DDE concentration in xylem sap over average p,p'-DDE in pore water were 344, 325, 197, 1.28, and 0.89 for intact plant of zucchini, homografted zucchini, heterografted watermelon, homografted watermelon, and intact plant of watermelon, respectively. Xylem sap p,p'-DDE concentrations of the heterografted watermelon plants were clearly influenced by plant phylogeny and enhanced by the zucchini rootstock compared to intact watermelon plants.     

The SUMO pathway is required for selective degradation of DNA topoisomerase IIbeta induced by a catalytic inhibitor ICRF-193(1)

DNA topoisomerase I and II have been shown to be modified with a ubiquitin-like protein SUMO in response to their specific inhibitors called 'poisons'. These drugs also damage DNA by stabilizing the enzyme-DNA cleavable complex and induce a degradation of the enzymes through the 26S proteasome system. A plausible link between sumoylation and degradation has not yet been elucidated. We demonstrate here that topoisomerase IIbeta, but not its isoform IIalpha, is selectively degraded through proteasome by exposure to the catalytic inhibitor ICRF-193 which does not damage DNA. The beta isoform immunoprecipitated from ICRF-treated cells was modified by multiple modifiers, SUMO-2/3, SUMO-1, and polyubiquitin. When the SUMO conjugating enzyme Ubc9 was conditionally knocked out, the ICRF-induced degradation of topoisomerase IIbeta did not occur, suggesting that the SUMO modification pathway is essential for the degradation.     

Prevalence of sleep disorders in the Turkish adult population epidemiology of sleep study

Sleep and Biological Rhythms - Sleep disorders constitute an important public health problem. Prevalence of sleep disorders in Turkish adult population was investigated in a nationwide...     

Structural Characterization and Drug Delivery System of Natural Growth-Modulating Peptide Against Glioblastoma Cancer

International Journal of Peptide Research and Therapeutics - The aim of the current study was to design a drug delivery nano-system of natural growth-modulating peptide known as GHK that naturally...