Association of Insulin Resistance,Arterial Stiffness and Telomere Length in Adults Free of Cardiovascular Diseases

Background

Chronic inflammation and oxidative stress might be considered the key mechanisms of aging. Insulin resistance (IR) is a phenomenon related to inflammatory and oxidative stress. We tested the hypothesis that IR may be associated with cellular senescence, as measured by leukocyte telomere length (LTL), and arterial stiffness (core feature of arterial aging), as measured by carotid-femoral pulse wave velocity (c-f PWV).

Methods

The study group included 303 subjects, mean age 51.8 ±13.3 years, free of known cardiovascular diseases and regular drug consumption. For each patient, blood pressure was measured, blood samples were available for biochemical parameters, and LTL was analyzed by real time q PCR. C-f PWV was measured with the help of SphygmoCor. SAS 9.1 was used for statistical analysis.

Results

Through multiple linear regression analysis, c-f PWV is independently and positively associated with age (p = 0.0001) and the homeostasis model assessment of insulin resistance (HOMA-IR; p = 0.0001) and independently negatively associated with LTL (p = 0.0378). HOMA-IR seems to have a stronger influence than SBP on arterial stiffness. In all subjects, age, HOMA-IR, LTL, and SBP predicted 32% of the variance in c-f PWV. LTL was inversely associated with HOMA-IR (p = 0.0001) and age (p = 0.0001). In all subjects, HOMA-IR, age, sex, and SBP predicted 16% of the variance in LTL.

Conclusions

These data suggest that IR is associated with cell senescence and arterial aging and could, therefore, become the main target in preventing accelerated arterial aging, besides blood pressure control. Research in telomere biology may reveal new ways of estimating cardiovascular aging and risk.     

Reversible mitochondrial uncoupling in the cold phase during liver preservation/reperfusion reduces oxidative injury in the rat model

Reversible uncoupling of the mitochondrial electron-transport chain may be one strategy to prevent intracellular oxidative stress during liver cold preservation/warm reperfusion (CP/WR) injury. 2,4-Dinitrophenol (DNP) is a potent water-soluble uncoupling agent for supplementation of the hepatic CP solution. The aim of this work was to investigate the possible influence of DNP in the CP solution on the isolated rat liver state during CP/WR. Livers were subjected to CP at 4 °C in sucrose–phosphate based solution (SPS) for 18 h, followed by WR for 60 min in vitro. The final concentration of DNP was 100 μM. DNP presence during the CP stage led to partial ATP level decrease accompanied by a significant diminution in liver TBARS and a prevention of antioxidant enzyme activity decrease (catalase, GSH-PO, GSH-Red) when compared with livers stored without DNP. After DNP wash-out during WR, an improvement in the mitochondrial functional state (higher respiratory control indices and ATP levels, and a decrease in V₄ respiration rates) were observed. This was concurrent with lower TBARS levels, higher antioxidant enzyme activities and significant increase of bile production. The results suggest that reversible uncoupling may be one way to influence oxidative stress associated with hepatic cold preservation.     

Natural penicillin resistance of Francisella tularensis

Altered viable forms of F. tularensis with spheroplast specific damages of the surface structures were isolated after the culture exposure to lithium chloride (0.5 and 1%). Study of natural penicillin resistance in the spheroplasts and bacterial forms of F. tularensis revealed their difference: the spheroplasts of the strains tested had a lower resistance to beta-lactam antibiotics than the bacterial forms while the activity of spheroplast beta-lactamase did not differ from that of the enzyme of the bacterial form and equalled 224 to 252 U/ml of the cell suspension. Therefore, on the model of the lithium-induced spheroplasts it appeared possible to show that the damages of the surface structures of the cell walls of F. tularensis changed the penicillin resistance level which was indicative of involvement of the F. tularensis cell walls in the phenomenon of the natural resistance to beta-lactams.     

Combination of Oncolytic Virotherapy and CAR T/NK Cell Therapy for the Treatment of Cancer

Molecular Biology - Multiple lines of evidence indicate that CAR-T cell based therapy and oncolytic virotherapy display robust performance in both immunocompetent and immunodeficient mouse models....