The relationship between chronic glycaemic control and oxidative stress in type 2 diabetes mellitus.

This study compares the lipid peroxidation marker urinary thiobarbituric acid reactive substances (TBARS) and antioxidants including plasma alpha-tocopherol (vitamin E), plasma (P-GSH-Px) and erythrocyte glutathione peroxidase (E-GSH-Px) activities, and plasma selenium levels in two groups of type 2 diabetic subjects (both n=20) with a disease duration of < or =2 (GP1) and 4-6 years (GP2), and non-diabetic age and gender-matched control subjects (CG, n=20). The mean (standard deviation [SD]) age of the groups was similar at 41(10) years. Fasting blood and midstream urine samples were obtained from diabetic and non-diabetic subjects attending the diabetic clinic and HbAlc, fructosamine, urine TBARS, total antioxidant (TAS) levels, P-GSH-Px, E-GSHPx and plasma selenium and vitamin E concentrations were measured. HbA1c (%) and fructosamine levels in the GP1 and GP2 diabetic subjects and the controls were 5.75 (0.67), 11.43 (2.01) and 4.33 (0.47), and 3.09 (0.57), 6.09 (1.15) and 1.67 (0.31), respectively (GP1 vs. GP2, GP1 vs. GC and GP2 vs. CG, all P < 0.001). Elevated urinary TBARS (micromol/mmol urinary creatinine) in the GP1, GP2 and GC groups were 2.47 (0.37), 3.73 (0.93) and 1.18 (0.24), respectively (GP1 vs. GP2, GP1 vs. GC and GP2 vs. CG, all P < 0.001). A significant correlation between HbA1c and TBARS was also noted (r2 = 0.894, P < 0.001) but only in the GP2 subjects. TAS levels were only decreased in the GP2 group compared to control values (0.59 [0.18] vs. 1.74 [0.21], P < 0.001). Plasma vitamin E concentrations (micromol/L) of 34.11 (3.31), 9.57 (2.20) and 39.01 (2.91) were observed in the GP1, GP2 and GC groups, respectively (GP1 vs. CG, P < 0.05 and GP1 vs. GP2 and GP vs. CG, both P < 0.001). E-GSH-Px (U/g Hb) and P-GSH-Px (U/L) activities in GP1, GP2 and CG groups were also decreased at 57.04 (4.31), 24.0 (8.94) and 67.6 (4.29), and 6.16 (1.56), 2.67 (0.47) and 8.72 (0.31), respectively (E-GSH-Px: CG vs. GP1, P < 0.01, CG vs. GP2 and GP1 vs. GP2, both P < 0.001; P-GSH-Px: CG vs. GP1, CG vs. GP2 and GP1 vs. GP2, all P < 0.001). Plasma selenium levels (miromol/L) were only significantly decreased in GP2 compared to both GP1 and CG values (0.49 [0.29] vs. 1.67 [0.80] vs. 1.79 [0.26], both P < 0.001). These observations support the suggestion that chronic hyperglycaemia can influence the generation of free radicals, which may lead ultimately to increased lipid peroxidation and depletion of antioxidants, and thereby enhanced oxidative stress in subjects with type 2 diabetes mellitus.

Serum cystatin C, enzymuria, tubular proteinuria and early renal insult in type 2 diabetes.

This study investigates the association between serum cystatin C, serum creatinine concentrations, N-acetyl-beta-D-glucosaminidase (NAG enzymuria), urine alpha1-microglobulin (alpha1-MG) and beta2-microglobulin (beta2-MG) levels in subjects with type 2 diabetes (n=40, 20M/20F, age range 25-65 years; duration of diabetes 8-10 years) and age- and gender-matched healthy controls (n= 20). Exclusion criteria were absence of gross proteinuria, hypertension, dyslipidaemia or cardiovascular disease. Fasting blood samples and mid-stream specimen of urine (MSSU) were collected and serum creatinine, cystatin C, urine creatinine, NAG enzymuria, alpha1-MG and beta2-MG were measured. Diabetic subjects were separated into two groups based on albumin:creatinine concentration ratio. Group A: <3.5 (mg/mmol creatinine), group B: 3.5-35 (mg/mmol creatinine). While serum creatinine concentrations remained within the laboratory reference range for all groups, serum cystatin C concentration (mg/L) was significantly increased in group B (1.79 +/- 0.42 [mean +/- SD] compared to both control [0.81 +/- 0.10] and group A values [0.95 +/- 0.10]; both P<0.001). NAG enzymuria (units/mmol creatinine) was increased in both diabetic groups compared to control values (group B: 122 +/- 7, group A: 70 +/- 5, controls 27 +/- 2, all P<0.001). alpha1-microglobulin (microg/mmol creatinine) concentrations, similar in both the control group and group A diabetics at 1.10 +/- 0.10 and 1.11 +/- 0.21, respectively, were significantly elevated in group B at 2.10 +/- 0.41 (both P<0.01). Similarly, elevated beta2-MG (microg/mmol creatinine) levels were also observed in group B compared to both group A and control values (3.20 +/- 0.21 vs. 1.80 +/- 0.51 and 0.91 +/- 0.11, respectively; both P<0.001). In addition, group B levels were significantly higher than group A (P<0.001). These observations suggest that serum cystatin C is a more appropriate and effective biomarker for the overall estimation of GFR than serum creatinine values. In addition, increased serum cystatin C values were also associated with early renal tubular insult in subjects with type 2 diabetes, as characterised by increased NAG enzymuria, alpha1- and beta2-microglobulin excretion.

Urinary enzyme measurements as early indicators of renal insult in type 2 diabetes.

The association between urine microalbumin, alpha1-microglobulin concentration (alpha1MG) and the urinary enzyme activities of alanine aminopeptidase (AAP), N-acetyl-beta-D-glucosaminidase (NAG), alpha-glutathione-S-transferase (alphaGST) and pi-glutathione-S-transferase (piGST) is investigated in 36 type 2 diabetic and 15 age- and sex-matched non-diabetic subjects. Diabetic subjects were grouped into those with microalbuminuria <3 mg/L (group A: 7M/5F), 3-30 mg/L (group B: 5M/7F) and 30-300 mg/L (group C: 6M/6F). While serum creatinine concentration remained within the laboratory reference range (<115 mmol/L) in all experimental groups, alpha1MG excretion increased with the severity of microalbuminuria (control group and groups A, B and C mean [SD] values were 1.3 [0.21], 1.6 [0.11], 2.18 [0.42] and 2.8 [0.51] mg/mmol urinary creatinine, respectively). Activities of NAG (U/mmol creatinine) were significantly elevated in groups A, B and C at 98.7 (8.6), 112.8 (12.9) and 147.4(16.2), respectively, compared with the reference range <35 U/mmol creatinine (group C vs. groups A and B: P < 0.01). Activity of AAP (U/mmol creatinine) was significantly elevated in groups B and C at 7.6 (0.5) and 7.9 (0.6), respectively (both P < 0.001), compared to the control and group A values (2.5 [0.2]). Activity of piGST (U/mmol creatinine) was elevated in groups B and C at 2.6 (0.4) and 2.8 (0.5), respectively (both P < 0.001), compared to the control and group A values (1.1 [0.1]). Similarly, urine piGST activity was also elevated in groups B and C at 2.9 (0.6) and 3.1 (0.5), respectively (both P < 0.001), compared to control and group A values (1.3 [0.1] and 1.4 [0.2]). These results suggests that site-specific urinary biochemical markers provide valuable information about early renal proximal and distal tubular insult that ultimately may precede enhanced glomerular permeability in subjects with type 2 diabetes.

Interaction of eicosanoids and nitric oxide in renal reperfusion injury.

BACKGROUND: Both the eicosanoids and nitric oxide are known to play an important role in the pathogenesis of postischemic injury. Recent evidence has suggested that the generation of each may affect the other via a feedback loop. This was investigated in an experimental model of renal warm ischemia reperfusion injury. METHODS: Rats underwent bilateral renal warm ischemia (15-60 min) then reperfusion (20 or 80 min) followed by a unilateral nephrectomy to measure renal nitric oxide (as nitroxides) and eicosanoids. Renal function was measured on days 2 and 7 prior to terminal nephrectomy for tissue analysis. RESULTS: Vasodilator eicosanoids (6-KPGF1alpha and PGE2) fell on reperfusion in line with the duration of warm ischemia with a concomitant rise in the vasoconstrictor TxA2. The ratio of vasodilator to vasoconstrictor eicosanoids fell from 8.22 (2.3) in the control to 0.82 (0.1) in the 60-min warm ischemia group (P<0.01). Renal levels of nitroxides rose on reperfusion demonstrating an inverse correlation with the eicosanoid ratio (r2=0.86). Renal function was impaired at both day 2 and day 7 and showed a positive correlation with the eicosanoid ratio (r2=0.67 and 0.62, respectively). CONCLUSIONS: Renal warm ischemic injury is associated with a progressive fall in the ratio of vasodilator-to-vasoconstrictor eicosanoids from early in reperfusion through to day seven although nitric oxide was elevated throughout the same period. There was no evidence of coinduction of nitric oxide synthase and cyclooxygenase in this model.

Interactions between homocyst(e)ine and nitric oxide during acute submaximal exercise in adult males.

Experimental studies investigating the effects of exercise on plasma total homocyst(e)ine (H[e]) levels in humans are almost non-existent. H(e) has been demonstrated to represent an independent risk factor for cardiovascular disease. The exact mechanism through which H(e) exerts its effects on the arteries is unknown but it is thought to involve nitric oxide (NO). The present study was designed to assess the effects of acute submaximal exercise on H(e) while levels of NO inhalation were manipulated using an air-filter mask. The study was completed by seven male volunteers, aged 21.6+/-1.3 yr (X+/-SD), VO2max: 48.6+/-7.6 mL x kg(-1) x min(-1). During two separate occasions the subjects performed a 1-hour bout of submaximal exercise on a stationary cycle ergometer at 60% of their VO2max. The two trials were completed in random order (with and without mask). Data were collected before (PRE) and after (POST) the acute exercise bouts. Plasma H(e) was directly measured by HPLC and NO by quantifying the enzymatic oxidation to nitrite (NO2-) & nitrate (NO3-). Mean H(e) concentrations were 10.89+/-2.05 nmol/mL (PRE) & 11.21+/-1.81 nmol/mL (POST) and were not significantly altered by submaximal exercise. When wearing a mask, the correlation of the PRE/POST H(e) differences with the PRE/ POST differences in NO3- were 0.77 (P=0.07). No correlation was found between either H(e) and NO2- or between NO2- and NO3-. However, a significant correlation (r= - 0.86, P= 0.03) was also observed between H(e) and NO2- but only for the post-exercise values when wearing a mask. The results suggest that: (1) plasma H(e) levels are not affected by acute submaximal exercise; (2) there is insufficient evidence to support the view that plasma H(e) levels are being mediated by NO during either rest or exercise.

Human renal medullary interstitial cells and analgesic nephropathy.

The aim of this study was to investigate the effects of known papillotoxins using cultures of human renal interstital medullary cells (hRMIC). The culture of hMIC was based on the primary culture of human renal medullary explants, selective detachment of interstitial cells and selective overgrowth of these cells in a serum-rich medium after dilution cloning. The homogeneous population of cells obtained exhibited the characteristic morphological and functional characteristics of Type I interstitial cells, viz. stellate-shaped cells demonstrating numerous lipid droplets, abundant endoplasmic reticulum and mitochondria, fine filaments underlying the cell membrane and the production of extracellular matrix. Cytotoxicity studies using hMIC and known papillotoxins clearly demonstrated a reduction in cell viability that varied with bath exposure time and type of agent tested. While only phenylbutazone and mefenamic acid produced significant cytotoxicity after a 24 h incubation period, cell viability assessed using the MTT assay was only profoundly reduced by aspirin and paracetamol following sub-chronic exposure for 7 days. The rank order of cytotoxicity observed in hMIC was phenylbutazone > mefenamic acid > aspirin > paracetamol. The results demonstrate the potential of hMIC for investigating and defining the early cellular events in the pathogenesis of analgesic nephropathy.

The use of lithium clearance measurements as an estimate of glomerulo-tubular function.

Lithium clearance measurements are based on the observation that lithium undergoes isoosmotic reabsorption in the proximal renal tubule to the same extent as salt and water, but undergoes neither reabsorption nor secretion elsewhere in the nephron. Consequently, lithium clearance values estimate the delivery of isoosmotic fluid to the loop of Henle and hence provide an assessment of proximal tubular reabsorption of isoosmotic fluid. If sodium clearance and urinary flow rate are also measured, then this allows the derivation of a number of parameters relating to both the absolute and relative renal handling of isoosmotic fluid in the proximal and distal regions of the kidney. Consequently, lithium clearance techniques can be used in both experimental and clinical studies to evaluate glomerulo-tubular function and provide information regarding the handling of sodium and water by the proximal and distal nephron in both health and disease. The use of lithium clearance measurements in the assessment of glomerulo-tubular function in patients treated with rIL2 for colorectal cancer is described and its application to both drug-induced toxicity and other disease states discussed.

Chemically induced analgesic nephropathy in the rat monitored by proton-electron double-resonance imaging (PEDRI).

Proton-electron double-resonance imaging (PEDRI) was used to assess renal function by monitoring the flow of the exogenous nitroxide free radical proxyl carboxylic acid (PCA) through normal and injured kidneys in the living rat. Kidney damage was induced by treatment with 2-bromoethylamine (BEA), which provides a well established model for human analgesic nephropathy. PCA clearance rates for liver, abdominal blood vessels, and renal tissues were determined from serial PEDRI images of normal rats (n = 6) and rats treated with BEA (n = 21). Different groups of BEA-treated animals were imaged on day 4 (n = 6), day 6 (n = 6), and day 9 (n = 9) after treatment. In BEA-treated rats, there was an increase in PCA half-life in all tissues studied. This increase was greatest in the kidney tissues and the effect progressed with time after treatment. The effect is probably due to BEA-induced damage to the tubules in the renal cortex and may not be related to the primary lesions in the renal medulla.

Ketoconazole and fluconazole inhibition of the metabolism of cyclosporin A by human liver in vitro.

The effects of the important antifungal agents, ketoconazole (Ket) and fluconazole (Flu), on the microsomal metabolism of cyclosporin A (CsA) by seven human livers was measured in vitro. A total of eight CsA metabolites were identified by high-performance liquid chromatography, with metabolites AM9 and AM1 predominating. Ket was a stronger inhibitor than Flu for the formation of each of the 8 metabolites; the mean IC50 for the inhibition of total CsA metabolism was 0.26 +/- 0.08 microM and 85.7 +/- 23.9 microM for Ket and Flu, respectively. Inhibition by Ket and Flu was noncompetitive, with Ki = 0.13 microM and 25.1 microM, respectively. There was considerable interindividual variation in the sensitivity of CsA metabolism to inhibition by Ket or Flu and the degree of inhibition was not uniform across the range of individual CsA metabolites. In six of the seven livers tested, Ket and Flu inhibited the aggregate formation of secondary metabolites (AM19, AM49, AM4N9, and AM1c) more than the aggregate formation of primary metabolites (AM9, AM1, and AM4N) and inhibited the formation of AM9 more than AM1. Although the degree of inhibition of total CsA metabolism by Flu correlated directly with the control (uninhibited) rate of total CsA metabolism (r = 0.95), no similar correlation for inhibition by Ket was noted, nor was the magnitude of inhibition by Ket and Flu related. The results are discussed in relation to the inhibition of CsA metabolism by Ket and Flu in patients in vivo and to the possibility of changes in the efficacy and toxicity of CsA as a result of alterations in its metabolite profile.

The excretion mechanism of the spin label proxyl carboxylic acid (PCA) from the rat monitored by X-band ESR and PEDRI.

Proton electron double resonance imaging (PEDRI) was used for monitoring in vivo the distribution, metabolism and, in particular, the excretion mechanism of the exogenous nitroxide free radical proxyl carboxylic acid (PCA) in the rat. PCA clearance half-lives through liver, abdominal vessels, and renal tissues were determined from a series of PEDRI images for normal rats (n = 5) and rats treated with probenecid (n = 5), a competitive inhibitor of the tubular secretion process. The approximately doubled renal half-lives of the treated animals suggest that tubular secretion accounts for about 50% of PCA renal loss in the normal rat and reabsorption is insignificant. PCA binding to bovine serum albumin was investigated by X-band ESR and the bound fraction was found to be less than 10% of the total PCA. Most probably, PCA binds to hydrophilic sites. Blood PCA concentration investigated by X-band ESR exhibited biphasic behavior and PEDRI results confirmed the in vivo metabolic reduction of PCA by rat liver cells.

The relationship between enzymuria and kidney enzyme activities in experimental gentamicin nephrotoxicity.

The aim of this study was to investigate the relationship between the urine excretion and kidney activities of enzymes predominantly located in the proximal renal tubule, viz. the lysosomal hydrolase N-acetyl-beta-D-glucosaminidase (NAG) and the predominantly brush border enzymes alanine aminopeptidase (AAP) and gamma-glutamyltransferase (GGT) in an experimental model of gentamicin nephrotoxicity. Groups of six animals received either gentamicin (50 mg/ kg/day by intraperitoneal injection) or saline daily and were killed after 4, 7, 10, or 14 days of treatment. Gentamicin nephrotoxicity was characterized by reduced creatinine clearance rates and increased urinary flow rate and glycosuria, but only on day 14. Structural changes included a similar degree of vacuolation of the renal proximal convoluted tubules (PCT) in all animals sacrificed on days 11 and 14, some evidence of PCT brush border loss, and the presence of protein casts on day 14. Following gentamicin treatment, increased NAG, AAP, and GGT enzymuria were noted at all time points tested. However, while the increases in urine AAP and GGT activity were paralleled by decreased total renal activity, total kidney NAG activity increased on days 4, 7, and 11 before falling back to pretreatment values on day 14. Interestingly, NAG enzymuria was highest in those animals with protein casts in the lumen of the PCT. The results suggest that increased AAP and GGT enzymuria reflect loss of brush border integrity while increased NAG enzymuria is consistent with the autophagic response of the kidney to acute injury.