Urinary and Plasma Metabolomics Identify the Distinct Metabolic Profile of Disease State in Chronic Mouse Model of Multiple Sclerosis.

Identification of non-invasive biomarkers of disease progression in multiple sclerosis (MS) is critically needed for monitoring the disease progression and for effective therapeutic interventions. Urine is an attractive source for non-invasive biomarkers because it is easily obtained in the clinic. In search of a urine metabolite signature of progression in chronic experimental autoimmune encephalomyelitis (EAE), we profiled urine at the chronic stage of the disease (day 45 post immunization) by global untargeted metabolomics. Using a combination of high-throughput liquid-and-gas chromatography with mass spectrometry, we found 105 metabolites (P < 0.05) significantly altered at the chronic stage, indicating a robust alteration in the urine metabolite profile during disease. Assessment of altered metabolites against the Kyoto Encyclopedia of Genes and Genomes revealed distinct non-overlapping metabolic pathways and revealed phenylalanine-tyrosine and associated metabolism being the most impacted. Combined with previously performed plasma profiling, eight common metabolites were significantly altered in both of the biofluids. Metaboanalyst analysis of these common metabolites revealed that phenylalanine metabolism and Valine, leucine, and isoleucine biosynthetic pathways are central metabolic pathways in both bio-fluids and could be analyzed further, either for the discovery of therapeutics or biomarker development. Overall, our study suggests that urine and plasma metabolomics may contribute to the identification of a distinct metabolic fingerprint of EAE disease discriminating from the healthy control which may aid in the development of an objective non-invasive monitoring method for progressive autoimmune diseases like MS. Graphical Abstract Untargeted urinary metabolomics of a chronic mouse model of multiple sclerosis identified Phenylalanine, tyrosine & tryptophan metabolism as the significantly altered metabolic pathway. Eight common metabolites were identified when we combined urinary and plasma metabolic signature, which revealed a perturbation of Phenylalanine metabolism and valine, leucine & isoleucine metabolic pathways, involved in CNS dysfunction during diseases. The identified eight metabolic signature of urine and plasma may be of clinical relevance as potential biomarkers and guide towards the identification of specific metabolic pathways as novel drug targets.

The emering role of helminths in treatment of the inflammatory bowel disorders.

The problem of immune-mediated diseases, such as inflammatory bowel disorders (IBDs), still remains a significant clinical and therapeutic problem. Therefore, the tendency to search for safer and more effective methods of reducing their incidence and increasing the efficiency of therapy of this group of diseases is understandable. Recently, attention has been drawn to the potential therapeutic influence of intestinal helminths on the inflammatory process induced by the immune response, as well as the observed significant potential of these organisms for modulating the host immune response, which is beneficial both for the dwelling parasite and the host with an IBD. It has been proven that the effects of certain intestinal helminths on the host immune system are complex and omni-directional. They involve the modulation of TLRs expression, causing proliferation and activation of TH2 lymphocytes, leading to proliferation of regulatory T cells (TREG), and production of immunomodulatory proteins, such as cystatins and glycoprotein ES-62. In the developing countries of Africa, South America and Asia, where the level of personal and environmental hygiene is relatively low, the incidence of autoimmune diseases is also significantly lower. Limited exposure to common bacterial and parasitic pathogens in populations of very highly developed countries has probably contributed to depletion of immunological memory and the development of hypersensitivity mechanisms. Thus, reasonable suggestions have been made that the host-parasite biocenotic relationship between humans and nematodes of the gastrointestinal tract can be considered as a mutualism, rather than a typical parasitism, and may in the future be used as an alternative therapeutic model for IBD patients.

Highly organized nanostructures for brain drug delivery--new hope or just a fad?

The blood-brain barrier significantly impedes treatment of central nervous system disorders by preventing drug entry into the brain. Several strategies have been developed to overcome this problem, but progress has been hampered due to a lack of efficacious drug delivery systems (DDS). Now, owing to DDS, therapeutic compounds can be transported to the site of action and accumulate there. This modern approach allows one to decrease the required dose of drug and, therefore, minimize toxicity and side effects. Also, treatment efficiency is increased. Highly organized nanostructures made of biological, polymeric or carbon-based materials are promising carriers in drug delivery to the brain, due to their unique and easily tailorable properties. The drug can be either attached to or entrapped in a carrier. To achieve greater site specificity and selectivity, DDS can be also modified with suitable ligands, providing identification of the molecular site of action. This review illustrates recent advances in using highly-organized structures: dendrimers, fullerenes, liposomes, micelles, nanogels, nanoparticles and nanotubes for this purpose. We also discuss advantages and limitations of each system.

Concentrations and activities of metalloproteinases 2 and 9 and their inhibitors (TIMPS) in chronic pancreatitis and pancreatic adenocarcinoma.

UNLABELLED: Pancreatic cancer (PC) and chronic pancreatitis (CP) are still significant problems. The aim of this study was a comparative analysis of the activity and concentrations of matrix metalloproteinases 2 and 9 and the concentrations of their tissue inhibitors (TIMP 1 and 2) in the PC compared to CP tissue homogenates. The study was performed in a group of 63 patients with pancreatic cancer or chronic pancreatitis selected for resection procedures. Group 1 consisted of 31 patients with CP, group 2 consisted of 32 patients with PC. There was no coincidence of pancreatic cancer in CP group. The pancreatic tumor samples have been properly prepared in order to perform electrophoresis and immunoassay testing. The activity of MMPs and the concentrations of MMPs and TIMPs were evaluated. RESULTS: the revealed activities of gelatinases and concentrations levels of the gelatinases and their inhibitors were significantly higher in the PC tissue samples compared to CP. In both groups, higher concentrations of MMP9 compared to MMP2 and TIMP2 compared to TIMP1 were shown. High potential for tumor invasiveness demonstrated by the formation of lymph node metastases was characterized by the higher concentrations of MMP9 and TIMP2. However, in the case of infiltration of the nerve fibers, a decrease in the concentration of MMP2 was found. CONCLUSIONS: gelatinases and their inhibitors play important role in the pathogenesis of the CP as well as PC. The activity and concentration of gelatinases and the concentration of their inhibitors were all significantly higher in the PC group.

Flupentixol and trifluperidol reduce interleukin-1 beta and interleukin-2 release by rat mixed glial and microglial cell cultures.

Neuroleptics penetrate into the brain, where they act not only on neurons but probably also on glial cells. In the available literature, there are no reports on the effect of neuroleptics on cytokine release in glia cultures. The aim of this study was to evaluate the effect of neuroleptics on the release of proinflammatory cytokines (IL-1beta and IL-2) by mixed glial and microglial cell cultures. Trifluperidol at 20 and 2 muM reduced IL-beta secretion by mixed glial cultures after 3 days of exposure. Trifluperidol at 20, 2 and 0.2 muM diminished IL-beta secretion after 1 day of incubation. Trifluperidol at 20 and 2 muM reduced IL-2 release after 1 and 3 days of exposure. Flupentixol at 20 and 2 muM reduced IL-1beta by mixed glial cell cultures after 3 days of exposure. Flupentixol at 20, 2 and 0.2 muM caused diminution of IL-1beta release after 1 day of exposure. Flupentixol at 20 and 2 muM reduced IL-2 release after 1 day of incubation. Flupentixol at 20, 2 and 0.2 muM diminished IL-2 release after 3 days of exposure. Flupentixol at 20, 10, 2 and 0.2 muM reduced IL-1beta release by microgial cell cultures. Flupentixol at 20, 10 and 2 muM reduced release of IL-2 by microglial cells after 1 day of exposure. The results of the present study suggest that neuroleptics have an inhibiting effect on the release of glial cytokines, but clinical significance this results remains to be elucidated.

Plasma cytokines as predictors of coronary heart disease.

BACKGROUND AND OBJECTIVE: Growing body of evidence explicitly suggests the significant role of inflammatory processes in vascular diseases related to atherosclerosis. Monocytes, present in every phase of atherogenesis, are the principal cells accumulating in atherosclerotic plaque. Monocyte Chemotactic Protein 1 (MCP-1) seems to influence firm adherence of rolling monocytes and infiltration into the artery wall. Although the significant meaning of inflammation in atherogenesis has been proved, potential role of antiinflammatory cytokines remains unknown. Interleukin 10 (IL-10) is a major cytokine of pleiotropic antiinflammatory function known to exert inhibitory effects on monocytes. Recent data emerging from clinical and pathological studies suggest important role of thrombosis and fibrinolytic disorders in atherosclerosis complications especially in coronary heart disease (CHD). Individuals with greater Plasminogen Activator Inhibitor 1 (PAI-1) level are believed to be more susceptible to cardiovascular disease. METHODS: In our study we measured the plasma levels of MCP-1, IL-10 and PAI-1 in 10 patients with stable angina and 10 healthy subjects. We also estimated its mutual correlations. The plasma levels of MCP-1, IL-10 and PAI-1 were determined with R&D kits (ELISA). RESULTS: Plasma levels of MCP-1 were significantly higher (261.5+/-40.7 pg/mL vs 73.3+/-3.05 pg/mL; p<0.0002) and also levels of PAI-1 were higher (79.36+/-5.8 ng/mL vs 35.88+/-1.38 ng/mL; p<0.0001) in patients with SA compared with the healthy control subjects. Whereas plasma levels of IL-10 were lower (11.6+/-0.5 pg/mL vs 16.5+/-0.4 pg/mL; p<0.0001) compared with control group and correlated with both MCP-1 plasma level (r=-0.67; p<0.0015) and PAI-1 concentration (r=-0.69; p<0.0008). CONCLUSION: The data obtained confirm the predictive role of cytokines in patients with stable coronary heart disease. The negative correlation of anti-inflammatory IL-10 and PAI-1 was also found.