23Na NMR detects protection by glycine and alanine against hypoxic injury in the isolated perfused rat kidney.

Protection against hypoxic injury by supraphysiological glycine and alanine concentrations was investigated in the isolated perfused rat kidney (IPRK). 23Na NMR detects consistent increases in total renal Na in IPRK during hypoxic perfusion. Increasing the concentration of glycine and alanine to 5 mM each produced a 34% (p < 0.001) reduction in the increase in total renal Na following 30 minutes of hypoxia compared to a matched control group supplemented with 5 mM each of serine and glutamine. There was also a trend (p = 0.067) to improvement in the fractional excretion of sodium (FENa) in the glycine plus alanine treated group. Hypoxic alterations of other physiological parameters were not prevented by supraphysiological glycine plus alanine. This suggests that monitoring total renal Na is a more sensitive method of defining renal injury and protection than monitoring changes in FENa, fractional excretion of potassium (FEK) and inulin clearance.

23Na-NMR detects hypoxic injury in intact kidney: increases in sodium inhibited by DMSO and DMTU.

Hypoxic injury in the isolated perfused rat kidney (IPRK) was monitored using 23Na-NMR in the presence or absence of 1.5 and 15 mM dimethylthiourea (DMTU) or 15 mM dimethylsulphoxide (DMSO) before and after inducing hypoxia. Hypoxia induced a prompt exponential increase in total renal 23Na+, renal vascular resistance, and sodium excretion and decreased inulin clearance and adenine nucleotides and reduced glutathione concentrations. Lipid peroxide metabolites were unaltered. The increase in 23Na+ was significantly reduced (P < 0.001) by both DMTU and DMSO although hypoxic perturbations of function and biochemical parameters were not. Posthypoxic increases in renal 23Na+ include approximately 10% from the intratubular compartment, but principally reflect the intracellular and interstitial compartments. The results demonstrate that 23Na-NMR is a sensitive indicator of hypoxic renal injury in intact kidney and suggest that DMTU and DMSO protect against hypoxic injury by a mechanism independent of free radical-binding.

Effects of four cryoprotectants in combination with two vehicle solutions on cultured vascular endothelial cells.

The necessary first step in successful organ cryopreservation will be the maintenance of endothelial cell integrity during perfusion of high concentrations of cryoprotective agents (CPAs). In this report we compare the effects of incubation on cultured porcine endothelial cells at 10 degrees C for 1 h with the CPAs glycerol, dimethyl sulfoxide (Me2SO), ethanediol (EG), and propane-1,2-diol (PG) in the vehicle solutions RPS-2 (high potassium, high glucose) and HP-5NP (low potassium, high sodium), both with and without added colloids. Tritiated adenine uptake and acid phosphatase estimation of cell number were used as indicators of cell viability. HP-5NP was superior to RPS-2 except with Me2SO when the differences in viability were not significant. Adding Haemaccel to HP-5NP improved the results, but adding albumin to RPS-2 was of no significant benefit. Osmotic stress appeared to be the major problem with glycerols use. Beyond 3.0 M the toxicity of Me2SO increased dramatically but it could not be determined if this was osmotic or chemical toxicity. PG was remarkably well tolerated to 3.0 M but a sharp decrease in cell viability beyond this concentration suggests that PG may be most useful with mixtures of other CPAs. Overall, EG appeared to be the least toxic CPA and in the context of vascular preservation warrants further investigation.

Chronic alcoholic cardiomyopathy. Protection of the isolated ischaemic working heart by ribose.

The effects of ribose on the pre- and post-ischaemic functional performance of the isolated working heart from 24 month old chronically alcoholic animals was investigated. The improved perfusion model permitted the isolated heart to perform work analogous to that of the normal physiological load, in a system where systemic pressure and atrial pressure could be altered over a wide range and oxygen loss from the perfusion fluid was a minimum. There was a remarkable improvement in the performance of isolated hearts taken from alcoholic animals that were perfused with 1.7 mM ribose both before and after a 25.0 min period of global myocardial ischaemia (at 25 degrees C), however ribose treatment did not greatly affect the performance of hearts of isocaloric control aged rats. Chronic alcohol consumption significantly affected heart performance, causing a marked reduction in both cardiac and work output. After ischaemia the work of all hearts was notably decreased; there was no work output in untreated hearts of alcoholic animals, whereas in hearts of alcoholic animals treated with ribose work output was only decreased by 35%. The acute response to ribose by hearts of aged chronically alcoholic animals suggests a role for this compound as a positive inotropic agent and clearly indicates the beneficial potential of ribose for inclusion in cardioplegic solutions or for infusion in alcoholic subjects showing signs of heart failure or chronic heart disease.