Role of NO on pressure-natriuresis in Wistar-Kyoto and spontaneously hypertensive rats

We investigated the role of the endothelium-derived relaxing factor nitric oxide (NO) on pressure-natriuresis in spontaneously hypertensive rats (SHR) and Wistar-Kyoto rats (WKY) using in vivo perfusion studies. Differences in the neural and hormonal background to the kidney were minimized by renal denervation and by holding plasma vasopressin, aldosterone, corticosterone, and norepinephrine levels constant by intravenous infusion. In WKY, elevation of renal perfusion pressure (RPP) from 115 to 157 mm Hg increased urinary sodium excretion 4.5 to 14.8 microEq/min/g kidney wt, and the slope of its linear regression was 0.21 microEq/min/g kidney wt/mm Hg. Infusion of an inhibitor of NO synthase, L-NMMA (1 mg/min/kg), lowered this slope (P < 0.05) but L-arginine (3 mg/min/kg) did not change it. By contrast, the impaired pressure-natriuresis response of SHR was ameliorated by L-arginine (slope: 0.08 to 0.16; P < 0.05), while L-NMMA did not blunt it further. GFR and renal plasma flow (RPF) were well autoregulated in both strains, but L-NMMA lowered RPF significantly (SHR: from 4.2 to 2.6 ml/min/g kidney wt; WKY: 4.5 to 2.5 ml/min/g kidney wt). Moreover, when infused simultaneously, all these individual effects of L-NMMA and L-arginine were nullified. These results suggest that NO plays an important role in the pressure-natriuresis mechanism.     

Fetal hydrocolpos

This work studies the role that nitric oxide (NO) plays in ischemia/reperfusion (I/R) of the rat kidney. Sprague-Dawley rats, weighing 250-300 g, were subjected to 75 min of warm ischemia and contralateral nephrectomy. The animals were divided into six groups (n = 12 per group): ischemic control (IC) with normal saline, L-NG-mono-methyl-arginine (L-NMMA) 50 mg/kg, L-arginine (L-Arg) 300 mg/kg, Na-nitroprusside (Na-NP) 2.5 mg/kg, the combination of L-NMMA+Na-NP at the doses used before, and the sham group. All animals received the drug intravenously 60 min prior to ischemia. Survival was evaluated at seven days. Renal damage was assessed by kidney function tests (serum creatinine and blood urea nitrogen) and light histology. Lipid peroxidation was measured in renal tissue using the thiobarbituric acid assay. Significantly better survival was seen in the Na-NP group, as compared to the rest of the study. Serum creatinine at 24 and 48 hr showed a significant difference between the Na-NP group and the other groups. Histological damage was minimal in the Na-NP group. Clearly, the Na-NP had the most beneficial effect in survival and histological structure. Lipid peroxidation was significantly different, with the lower levels seen in the L-NMMA group and the higher levels in the Na-NP group. In base to these results, we conclude that exogenous NO has a beneficial and protective effect of the ischemically damaged rat kidney. This protection is independent of lipid peroxidation. Endogenous NO production does not play a role in I/R injury in our model.     

Conversion disorder presenting in a patient with an implantable morphine pump and an epidural abscess resulting in paraplegia

The purpose of this study was to determine long-term role of nitric oxide in modulating the chronic renal and arterial pressure responses to angiotensin II (AII). In normal dogs, intrarenal AII infusion (1.0 ng/KG/min) decreased renal plasma flow (RPF) by 31% and glomerular filtration rate (GFR) by 17% and increased mean arterial pressure (MAP) by 22%. In dogs with chronic intrarenal NO synthesis blockade with N(omega)-nitro-L-arginine methyl ester (3 micrograms/kg/min), AII decreased RPF by 25% and GFR by 19%, and increased MAP by 7%. These data indicate that chronic inhibition of NO synthesis within the kidney attenuated the long-term renal and arterial pressure responses by AII in dogs.     

Diuresis and natriuresis produced by long term administration of a selective Angiotensin-(1-7) antagonist in normotensive and hypertensive rats

Intrarenal arterial infusion of endothelin-1 (1, 3 and 10 ng/kg per min) reduced renal blood flow, urine flow rate and urinary Na+ excretion without affecting fractional Na+ excretion in anesthetized rabbits. An endothelin ET(A) receptor antagonist (R)2-[(R)-2-[(S)-2-[[1-(hexahydro-1H-azepinyl)]carbonyl]amino-4-me thyl-pentanoyl]amino-3-[3-(1-methyl-1H-indolyl)]propionyl]amino-3-(2-pyr idyl)propionic acid (FR139317, 1 microg/kg per min) attenuated the endothelin-1 (1 ng/kg per min)-induced renal responses. An endothelin ET(B) receptor antagonist N-cis 2,6-dimetylpiperidinocarbonyl-L-gamma-metylleucyl-D-1-met hoxycarbonyltryptophanyl-D-norleucine (BQ-788, 1 microg/kg per min) potentiated the endothelin-1-induced changes in renal blood flow, urine flow rate and urinary Na+ excretion. A nitric oxide (NO) synthase inhibitor Nomega-nitro-L-arginine methyl ester (L-NAME, 50 microg/kg per min) also potentiated the endothelin-1-induced reductions in urine flow rate and urinary Na+ excretion but not the reduction in renal blood flow. Endothelin-1 reduced fractional Na+ excretion in the presence of BQ-788 or L-NAME. A spontaneous NO donor 1-hydroxy-2-oxo-3-(N-methyl-3-aminopropyl)-3-methyl-1-triazene (30 ng/kg per min) slightly attenuated the antinatriuresis but not the vasoconstriction induced by endothelin-1. These results suggest that in the rabbit kidney in vivo endothelin ET(A) receptors mediate endothelin-1-evoked vasoconstriction and tubular Na+ reabsorption, that the concomitant stimulation of endothelin ET(B) receptors by endothelin-1 counteracts both the ET(A) receptor-mediated vascular and tubular actions, and that the tubular action, but not the vascular action, of endothelin-1 is also susceptible to changes in renal NO level.     

Isolation of 48 genetic markers appropriate for high throughput genotyping of inbred rat strains by B1 repetitive sequence-representational difference analysis

1. We examined whether zaprinast, a putative cGMP-specific phosphodiesterase inhibitor, affects neural control of renal function in pentobarbital-anaesthetized dogs. 2. Renal nerve stimulation (1 Hz, 1 ms duration) reduced urine flow rate, urinary Na+ excretion (UNaV) and fractional excretion of Na+ (FENa) with little change in either renal blood flow (RBF) or glomerular filtration rate (GFR). 3. Intrarenal arterial infusion of zaprinast (10 and 100 micrograms/kg per min) increased basal urine flow rate, UNaV and FENa but not RBF or GFR. Zaprinast infusion (100 micrograms/kg per min) also increased renal venous plasma cGMP concentration and urinary cGMP excretion. 4. Renal nerve stimulation-induced reductions in UNaV and FENa were attenuated during zaprinast infusion, whereas the reduction in urine flow rate was resistant to zaprinast. 5. Renal nerve stimulation increased the renal venous plasma noradrenaline concentration and renal noradrenaline efflux, which remained unaffected during infusion of zaprinast (100 micrograms/kg per min). 6. The results of the present study suggest that zaprinast induces natriuresis and counteracts adrenergically induced antinatriuresis by acting on renal tubular sites in the dog kidney in vivo.     

Support of renal blood flow after ischaemic-reperfusion injury by endogenous formation of nitric oxide and of cyclo-oxygenase vasodilator metabolites

1. Ischaemia-reperfusion injury in the kidney is associated with a loss of autoregulation, an increase in renal vascular resistance (RVR), a decrease of renal blood flow (RBF) and ultimately acute renal failure. The aim of this study was to investigate the role of the release of endogenous nitric oxide (NO) in the recovery of RBF after ischaemic injury of the renal vascular bed. 2. Anaesthetized rats (thiopentone sodium; 120 mg kg-1, i.p.) were submitted to acute renal ischaemia followed by 2 or 6 h of reperfusion (I/R). Reperfusion was associated with a significant reduction in RBF, an increase in RVR, and an impairment of the vasodilator effect of acetylcholine (ACh). 3. NG-nitro-L-arginine methyl ester (L-NAME, 30 micrograms kg-1 min-1, i.v., n = 5) significantly prevented the recovery of RBF after I/R injury. Similarly, inhibition of prostanoid formation with indomethacin (5 mg kg-1, i.v., n = 4) significantly enhanced the rise in RVR associated with I/R injury. 4. Infusion of L-arginine (L-Arg; 1 or 3 mg kg-1 min-1, i.v., n = 5 and 4, respectively) or D-Arg (1 mg kg-1 min-1, i.v., n = 6), starting 30 min after occlusion, did not improve the recovery of RBF. Furthermore, infusion of L-Arg (20 mg kg-1 min-1 for 15 min; n = 4) had no effect on the I/R-induced impairment of the vasodilator responses to ACh. 5. To elucidate the relative importance of the constitutive and inducible NO synthase isoforms for the formation of NO after I/R, calcium-dependent (constitutive) and calcium-independent (inducible) NO synthase activities were measured in kidney homogenates obtained from ischaemic or non-ischaemic kidneys. A calcium-independent NO synthase activity was not detectable in kidney homogenates obtained from either sham-operated control rats or from animals subjected to I/R. Moreover, dexamethasone(3 mg kg-1, i.v., 60 min prior to I/R, n = 6), an inhibitor of the induction of NO synthase,had no effect on either RBF or RVR in rats subjected to I/R. In contrast to I/R, lipopolysaccaride(LPS, endotoxin; 5 mg kg-1, i.p., n = 3) caused a significant induction of a calcium-independent NO synthase activity in the kidney.6. These results confirm the importance of the release of vasodilator cyclo-oxygenase metabolites in the compromised renal circulation and indicate that the formation of NO derived from the constitutive, but not the inducible NO synthase, is also important for the maintenance of RBF after I/R injury of the renal vascular bed.     

Effects of a nitric oxide synthesis inhibitor on renal sodium handling and diluting capacity in humans

BACKGROUND: Inhibition of nitric oxide (NO) synthesis has antinatriuretic and antidiuretic effects. Limited information is available on the role of NO in tubular sodium transport in the human kidney. METHODS: We studied nine healthy, sodium-replete males with clearance techniques during maximal diuresis. NG-monomethyl-L-arginine (L-NMMA, 3 mg/kg priming dose plus 3 mg/kg/h) was infused for 3 h, to achieve steady-state inhibition of NO synthesis. Data were compared with a time control study. RESULTS: The effects of L-NMMA were quickly established and persisted through the entire infusion period. Mean arterial pressure increased slightly from 85+/-3 to 91+/-3 mmHg (P<0.05). Renal plasma flow decreased substantially, and glomerular filtration rate slightly. Large decreases in absolute sodium excretion, from 79+/-10 to 34+/-5 micromol/min (P<0.01), and fractional sodium excretion, from 0.5+/-0.0 to 0.3+/-0.0% (P<0.01), were associated with significant reductions in fractional lithium excretion (P<0.05) and maximum urine flow (P<0.01). Minimal urine sodium concentration decreased from 5.8+/-0.04 to 3.9+/-0.4 mmol/l (P<0.01) whereas minimal urine osmolality increased (P<0.05). Plasma renin activity, aldosterone and atrial natriuretic peptide levels did not change, whereas urinary excretions of guanosine 3'5'-cyclic monophosphate and of nitrite plus nitrate decreased slightly. CONCLUSIONS: Inhibition of endogenous NO synthesis in humans to an extent that raises blood pressure only mildly causes antinatriuresis, that can be attributed to increases in sodium reabsorption both at proximal and distal nephron sites. In addition, renal diluting capacity decreases. The effects in the diluting segment have not been reported before, and may be due to medullary vasoconstriction, similar to that described for angiotensin II.     

Effects of nitric oxide synthase inhibition and endothelin ETA receptor blockade on haemodynamics in hypertensive rats

1. The objectives of the present study were to study regional differences in haemodynamics between spontaneously hypertensive (SHR) and normotensive Wistar-Kyoto (WKY) rats induced by the nitric oxide synthase (NOS) inhibitor NG-monomethyl-L-arginine (L-NMMA) and the endothelin ETA receptor antagonist BQ 123 in vivo in tissues known to be important for blood pressure (BP) regulation (heart, kidney and skeletal muscle). Furthermore, the effect of acetylcholine (ACh) infusion (2 micrograms/kg per min) was examined after L-NMMA or BQ 123. The microsphere method was used for determinations of cardiac index (CI) and regional haemodynamics. 2. NG-Monomethyl-L-arginine (20 mg/kg) increased BP (26-48%; P < 0.01) and reduced CI in both rat strains. BQ 123 (1 mg/kg) reduced BP slightly (-4 to 11%; P < 0.05). 3. NG-Monomethyl-L-arginine significantly increased myocardial and skeletal muscle vascular resistance in SHR only; however, in the kidney, L-NMMA reduced blood flow and increased vascular resistance in both rat strains. 4. BQ 123 induced minor changes in regional haemodynamics that were not significantly different between the two strains. 5. Acetylcholine following BQ 123 induced an increase in myocardial blood flow in WKY rats, but decreased blood flow in SHR. Acetylcholine following L-NMMA reduced myocardial blood flow in both strains. 6. Acetylcholine following BQ 123 induced renal vasodilation in WKY rats but, following L-NMMA, ACh did not induce renal vasodilation in either rat strain. In contrast, L-NMMA did not abolish the vasodilation of acetylcholine in skeletal muscle in WKY rats. 7. In conclusion, the contribution of nitric oxide to basal vessel tone was not impaired in the heart, skeletal muscle and kidney in SHR. Antagonism of ETA receptors caused similar haemodynamic responses in both rat strains in these organs. Furthermore, NOS inhibition, but not ETA blockade, blunted the expected ACh-induced vasodilation in the heart and kidney in WKY rats, but not in skeletal muscle in both strains.     

Modulation of renal kallikrein production by dietary protein in streptozotocin-induced diabetic rats

Renal kallikrein levels and excretion rates are increased in insulin-treated diabetic rats with hyperfiltration, and inhibition of kallikrein or blockade of kinin receptors reduces GFR and RPF. In contrast, insulin-deprived severely (SD) diabetic rats that display renal vasoconstriction show reduced levels and excretion rates of renal kallikrein. In these two models, dietary protein manipulation was utilized to study further the relationships between renal kallikrein and renal hemodynamic regulation. Insulin-deprived SD and insulin-treated moderately diabetic (MD) rats were fed a low (9%), normal (25%), and a high (50%) protein diet. In SD rats fed the 50% protein diet, GFR, RPF, and kallikrein excretion rate were increased compared with SD rats fed the 25% protein diet (GFR, 2.66 +/- 0.16 versus 1.74 +/- 0.30 mL/min; RPF, 7.78 +/- 0.58 versus 5.14 +/- 1.03 mL/min; total kallikrein, 248 +/- 24 versus 120 +/- 30 micrograms/24 h, SD 50% versus SD 25%, respectively; P < 0.005). In MD rats fed the 9% protein diet, GFR, RPF, and kallikrein excretion rate were significantly reduced compared with MD 25% protein-fed rats (GFR, 1.54 +/- 0.07 versus 1.95 +/- 0.09 mL/min; RPF, 5.58 +/- 0.35 versus 7.81 +/- 0.35 mL/min; total kallikrein, 119 +/- 8.3 versus 219 +/- 15 micrograms/24 h, MD 9% versus MD 25%, respectively; P < 0.005). Protein restriction in normal nondiabetic rats resulted in a twofold decrease in kallikrein mRNA levels. These findings suggest that the renal hemodynamic response to dietary protein manipulation in diabetic rats could be mediated via changes in renal kallikrein-kinin system activity.     

Effect of xylitol and trehalose on dry resistance of yeasts

Nitric Oxide (NO) has been implicated as a mediator of neuronal injury in vascular stroke. On the other hand, NO is suggested to play a neuroprotective role by increasing blood flow during cerebral ischemia. In order to evaluate the role of NO in the spinal cord ischemia, effects of nitric oxide synthase (NOS) inhibition on the recovery of reflex potentials after a transient spinal cord ischemia were examined in urethane-chloralose anesthetized spinal cats. Spinal cord ischemia was produced by occlusion of the thoracic aorta and the both internal mammary arteries for 10 min. Regional blood flow (RBF) in the spinal cord was continuously measured with a laser-Doppler flow meter. The monosynaptic (MSR) and polysynaptic reflex (PSR) potentials elicited by electrical stimulation of the tibial nerve, were recorded from the L7 or S1 ventral root. The recovery process of spinal reflex potentials was reproducible when the oclusion was repeated twice at an interval of 120 min. Pretreatment with N(G)-monomethyl-L-arginine (L-NMMA, 10 mg/kg), a NOS inhibitor significantly accelerated the recovery of PSR potentials after spinal cord ischemia. The accelerating effect of L-NMMA on the recovery of PSR potentials was abolished by co-administration of L-arginine (1 mg/kg/min) but not by that of D-arginine (1 mg/kg/min). L-NMMA failed to improve RBF in the spinal cord during ischemia and reperfusion. Nitroprusside (10 microg/kg/min), a NO donor, retarded the recovery of PSR potentials after spinal cord ischemia. These results suggest that NO production has a significant influence on the functional recovery after transient spinal cord ischemia.     

Fiber growth initiation in hair follicles of goats treated with melatonin

Amphotericin B (AmB) is the drug of choice for most systemic fungal infections, but doses are frequently reduced because of nephrotoxicity. We investigated the role of thromboxane as a mediator for this nephrotoxicity. Vehicle or amphotericin (0.60 mg/kg) was infused into the left renal artery in four groups of rats, and renal plasma flow (RPF) and glomerular filtration rate (GFR) were measured. Group 1 received vehicle for 90 min. Group 2 received vehicle followed by a 30 minute AmB infusion which caused a significant and reversible fall in the RPF and GFR. Group 3 received vehicle followed by AmB infusion, but were infused with a bolus of ibuprofen (20 mg/kg) 45 minutes before AmB. This group exhibited an insignificant attenuation in the fall in RPF and GFR. Group 4 received vehicle followed by AmB, but were infused with a bolus and continuous infusion of the thromboxane receptor antagonist SQ29,548. This group demonstrated an attenuation in the fall in RPF and a significant decrease in GFR compared to AmB control rats. In addition, the rat glomeruli were incubated with AmB (4 ug/ml). Supernatant levels of thromboxane B2 were significantly elevated in the presence of AmB vs buffer alone. We conclude that the reduction in RPF and GFR observed with AmB infusion in the rat is partially mediated by release of thromboxane.     

Effects of atrial natriuretic peptide on angiotensin II-induced antinatriuresis in anesthetized dogs

Inhibitory effects of atrial natriuretic peptide (ANP) on angiotensin II (ANG II)-induced renal responses were examined in anesthetized dogs. ANG II (5 ng/kg per min) was infused intravenously and changes in renal hemodynamics and urine formation were compared between the ANP (10 ng/kg per min)-infused kidney and the contralateral vehicle-infused (control) kidney. ANG II reduced absolute and fractional urinary sodium excretion in both the ANP-infused kidney and the control kidney. ANG II also reduced glomerular filtration rate in the control kidney but not in the ANP-infused kidney. The ANG II-induced reduction in urinary sodium excretion in the ANP-infused kidney was smaller than the response in the control kidney, whereas ANP did not affect the reduction in fractional sodium excretion. These results suggest that ANP prevents hypofiltration and thereby attenuates the antinatriuresis induced by ANG II.     

A longitudinal perspective on entitlement income among homeless adults

The influence of losartan and the endothelin A and B receptor antagonist, bosentan was assessed on the alterations in renal hemodynamic and function as well as urinary albumin excretion (taken as an index of renal lesions) associated with L-NAME hypertension. L-NAME was given for 4 weeks (20 mg/100 mL in the drinking (fluid) followed by a 2-week period of concomitant treatment with L-NAME and losartan or bosentan (30 and 30 mg/kg, gavage). A group of rats received L-NAME without additional treatment and a group of rats were not given L-NAME and served as normotensive controls. Systolic arterial pressure (SAP) was measured before L-NAME, and before and every 5 days of losartan or bosentan treatment period. Urinary excretion of albumin (UAlb) was determined before and at the end of treatment period. Under anesthesia, glomerular filtration rate (GFR) and renal plasma flow (RPF) were estimated by the clearance method and the filtration fraction was calculated [FF = 100* (GFR/RPF)].     

Nitric oxide inhibits LPS-induced tumor necrosis factor synthesis in vitro and in vivo

The effect of nitric oxide (NO) on LPS-stimulated TNF-alpha synthesis has been studied in vitro and in vivo. The synthesis of TNF-alpha in J774 macrophages stimulated with LPS (0.1 microgram/ml) was increased in concentration-related fashion by NO synthase inhibitor L-NMMA (3-30-300 microM) and reduced by either L-arginine (3-30-300 microM) or the NO donor SIN-1 (1-10-100 microM). The level of TNF-alpha in the serum of LPS-challenged rats (6mg/kg/i.p.) was increased in animals pre-treated s.c. with L-NMMA (10 and 50mg/kg) and reduced in those given L-arginine (100 and 300mg/kg). These results show a negative feedback mechanism exhibited by NO on TNF-alpha synthesis suggesting an important regulatory link between NO and TNF-alpha in pathological processes.     

The diuretic effect of borocaptate sodium in rats and in patients with brain tumors

Kidney function changes after single-dose administration of borocaptate sodium were studied in rats and in patients with brain tumors. Changes of glomerular filtration rate (GFR) measured as 14C-inulin clearance and urine flow rate (UFR) after a slow intravenous injection of BSH (25 and 50 mg/kg b.w., respectively) were investigated in rats under pentobarbital anesthesia. The effect of BSH has been compared with that of its disulfide (BSSB) which is spontaneously generated by oxidation of BSH during storage. It was found that BSH decreases GFR in relation to dose and, in the same way, causes a temporary increase of UFR. On the other hand, BSSB (50 mg/kg) induced a large reversible decrease of GFR as well as a decrease of urine excretion. Measurements of GFR (inulin clearance), renal plasma flow (PAH clearance) and urine excretion were taken in a group of patients with brain tumors in which boron disposition after an infusion of BSH (25 mg/kg b.w. over 1 h) had been studied. An increase in urine production was the dominant effect (up to 200% of the initial value), with the alterations of GFR and RPF being of minor significance except in one patient with a GFR reduction up to almost 50% the original value. Kidney function changes after BSH or BSSB administration are supposedly related to the high retention of BSH in kidney.     

Prostaglandins maintain renal vasodilation and hyperfiltration during chronic nitric oxide synthase blockade in conscious pregnant rats

Rats demonstrate renal vasodilation and hyperfiltration in pregnancy. Because both NO and cGMP biosynthesis are increased in gravid rats and because acute administration of NO synthase inhibitors abrogates renal vasodilation and hyperfiltration, NO most likely mediates the renal circulatory changes of gestation. In the present study, we tested the effect of chronic inhibition of NO synthase on effective renal plasma flow (ERPF) and glomerular filtration rate (GFR) in chronically instrumented, conscious, gravid rats. Because gestation is a relatively long-term condition, we postulated that chronic withdrawal of NO would result in sustained inhibition of renal vasodilation and hyperfiltration. Contrary to our hypothesis, the renal circulatory changes of pregnancy were maintained during chronic blockade of NO synthase. That is, subcutaneous administration of 10 micrograms/min N omega-nitro-L-arginine methyl ester (NAME) for 48 hours did not significantly reduce GFR in either virgin or pregnant rats; thus, hyperfiltration persisted in the latter despite chronic NO synthase blockade. In contrast, ERPF was reduced and effective renal vascular resistance (ERVR) increased in both groups of rats during NAME administration but in a parallel fashion, such that renal vasodilation persisted in the gravid animals despite chronic inhibition of NO synthase. However, with superimposition of acute prostaglandin synthesis inhibition (meclofenamate, 10 mg/kg IV), renal vasodilation and hyperfiltration were abolished; ie, the combined treatments of chronic NO synthase blockade and acute prostaglandin synthesis inhibition led to the equalization of GFR, ERPF, and ERVR in conscious virgin and pregnant rats. Inhibition of prostaglandin synthesis alone had little affect on the renal circulation, as previously reported. In summary, prostaglandins are recruited to maintain renal vasodilation and hyperfiltration during chronic NO synthase blockade in conscious pregnant rats.     

Selective inhibitors of neuronal nitric oxide synthase--is no NOS really good NOS for the nervous system?

It is now ten years since NO was shown to account for the biological activity of endothelium-derived relaxing factor (EDRF). It is also the tenth anniversary of the identification of L-NG monomethyl arginine (L-NMMA) as the very first inhibitor of NO biosynthesis. That EDRF and NO were one and the same sparked an explosion of interest in the biochemistry and pharmacology of NO which has yet to subside. In contrast, the first ever nitric oxide synthase (NOS) inhibitor slipped seamlessly into the literature virtually without comment at the time. Over the following decade, L-NMMA (and like NOS inhibitors) have proved invaluable as tools for probing the biological roles of NO in health and disease and, in particular, have increased our understanding of the function of NO in the nervous system. Further advances in this important area now require the development of inhibitors selective for the neuronal isoform of NOS (nNOS). Here, Philip Moore and Rachel Handy provide an up-to-date account of the literature regarding the biochemical and pharmacological characterization of NOS inhibitors with particular reference to compounds with greater selectivity for the nNOS isoform.     

Alpha 2-adrenoceptors determine the response to nitric oxide inhibition in the rat glomerulus and proximal tubule

Arginine-derived nitric oxide exerts control over the processes of glomerular filtration and tubular reabsorption. The tonic influence of nitric oxide over both of these is eliminated by renal denervation. The hypothesis that the renal nerves function, in this regard, via the activation of alpha 2-adrenoceptors was tested by renal micropuncture. The physical determinants of glomerular filtration and proximal tubular reabsorption were assessed in Munich-Wistar rats before and during the administration of the nitric oxide synthase inhibitor NG-monomethyl L-arginine (L-NMMA). In one set of studies, the systemic infusion of the alpha 2-agonist B-HT 933 rendered nephron GFR, nephron plasma flow, and proximal reabsorption sensitive to reduction by L-NMMA after renal denervation. In a second set of studies, the infusion of the alpha 2 receptor antagonist, yohimbine, to rats with renal nerves intact was found to suppress the effects of L-NMMA on nephron plasma flow and proximal reabsorption. The effects of L-NMMA on nephron GFR and nephron plasma flow, afferent and efferent arteriolar resistances, and proximal reabsorption correlated with the level of underlying alpha 2-adrenergic activity. The activation of renal alpha 2-adrenoceptors increases the influence of arginine-derived nitric oxide in the glomerulus and proximal tubule.     

Progression of nephropathy in long-term diabetics with proteinuria and effect of initial anti-hypertensive treatment

The rate of progression of nephropathy was studied in 6 young male diabetics with intermittent proteinuria (Albustix) and in 10 young male diabetics with constant proteinuria by measuring glomerular filtration rate (GFR), renal plasma flow (RPF), and urinary albumin excretion by exact techniques. Albumin excretion was elevated in both the recumbent and the erect position in patients with intermittent proteinuria. GFR and RPF were at the same level as in diabetics without proteinuria, and no deterioration in renal function was noted during a mean control period of 32 months. In the patients with constant proteinuria the fall rate during a mean period of 33.6 months for GFR and RPF was 0.91 ml/min/month +/- 0.68 (S.D.) and 4.38 ml/min/month +/- 3.23 (S.D.) respectively. Initial fall rate in GFR correlated well with long-term fall rate, both of which were studied in 7 patients. In the same patients there was a positive correlation between the fall rate in GFR and diastolic blood pressure as well as albumin clearance. In 8 patients with constant proteinuria and mean blood pressure of 159/101 mmHg, antihypertensive treatment was started with propranolol alone or combined with hydralazine and furosemide. During a treatment period of 47 days blood pressure was reduced to 143/93 mmHg, and in the same period urinary albumin excretion was reduced significantly from a mean value of 3547 mug/min to 2414 mug/min (P less than 0.01). Further control studies will clarify whether end-stage of renal insufficiency will be postponed by antihypertensive treatment.