Effects of adrenalectomy and acute replacement by corticosteroids on distal acidification

The role of adrenocortical steroids in distal nephron acidification was studied in rats by measuring urine minus blood PCO2 differences (U-B PCO2) in control, sham-operated, and adrenalectomized (ADX) animals. Operations were performed 48 h before experiments. During the experiments, all rats received an infusion of 0.35-0.60 M NaHCO3, leading to urine bicarbonate concentrations in the order of 100-200 mM. Adrenalectomized rats had significantly decreased U-B PCO2 (11.9 +/- 1.99 mmHg; 1 mmHg = 133.3 Pa) with respect to sham-operated rats (39.9 +/- 1.26 mmHg). In another series, ADX rats received supplements of the adrenal steroids corticosterone, aldosterone, and 18-hydroxycorticosterone 100 min before the experiment. U-B PCO2 increased after hormone administration: corticosterone, 30.0 +/- 2.13 mmHg; aldosterone, 26.6 +/- 1.74 mmHg; 18-hydroxycorticosterone, 29.0 +/- 1.60 mmHg; but none restored these values to normal. Combinations of two hormones were also used; only aldosterone + corticosterone restored U-B PCO2 to normal: 39.0 +/- 1.66 mmHg. Renal phosphate excretion (but not urine phosphate levels) decreased significantly in ADX as compared with sham-operated rats. Extracellular volume was not significantly affected in ADX rats, which received ad libitum 0.9% NaCl for drinking. It is concluded that distal tubular acidification, as evaluated by U-B PCO2, is dependent on cortical steroids.     

Blood acid-base status, whole blood and whole body buffer values in sand rats (Psammomys obesus) exposed to hypercapnia

Arterial blood acid-base status of unanesthetized sand rats (Psammomys obesus) were studied under normocapnic and hypercapnic conditions, and compared to those obtained for the albino rat (Rattus norvegicus). The average control blood pH: 7.396 +/- 0.034; PaCO2: 30.5 +/- 2.9 mmHg; HCO-3: 18.8 +/- 2.5 mM/l; and HCO-3 std: 20.9 +/- 2.1 (N = 15) obtained here for the sand rat are in the lower range of values found in other mammals and indicate a status of partially compensated metabolic acidosis. The blood buffer values of the sand rat, delta log PCO2/delta pH = -2.32 +/- 0.35 (N = 25) are significantly higher than those found here for the rat, delta log PCO2/delta pH = -1.51 +/- 0.10 (N = 39), and those reported for other mammals. This high blood buffer value may be related to the natural high mineral diet of the sand rat. The in vivo (whole body) buffer value delta log PaCO2/delta pH = -1.41 and -1.65 for the sand rat and the rat found here are higher than those reported for the man and dog and may represent a physiological adaptation to the hypercapnic conditions prevailing in underground burrows.     

Paradoxical growth hormone response following thyroid-stimulating hormone administration in the polycystic ovary syndrome

Growth hormone (GH) and prolactin (PRL) responses after TRH administration were studied in 31 women presenting with the clinical, biochemical and ultrasonographic characteristics of the polycystic ovarian (PCO) syndrome; their results were compared with those of 20 normally menstruating women investigated during the early follicular phase of the cycle. Based on the GH responses two PCO subgroups were observed: (a) nonresponders (n = 16) who showed delta max GH responses (0.7 +/- 0.27 ng/ml, x +/- SE) similar to those of the normals (0.97 +/- 0.20 ng/ml), and (b) responders (n = 15), 48.4% of the PCO patients who showed a paradoxical increase in GH levels (delta max GH, 18.0 +/- 1.96 ng/ml) following thyrotropin-releasing hormone (TRH) administration significantly higher than those observed either in nonresponder PCO patients or in normals. Furthermore, basal GH levels were found to be significantly higher in the responder PCO subgroup (5.65 +/- 0.75 ng/ml) compared to either nonresponders (1.58 +/- 0.21 ng/ml) or normals (1.8 +/- 0.18 ng/ml). However, no correlation was found between basal GH levels and delta max GH responses observed. Additionally, basal PRL and delta max PRL levels following TRH administration did not differ either between the two PCO subgroups or those observed in normal controls. delta 4A, T and E2 levels were similar between the two PCO subgroups. No correlation was found between the delta max GH responses to delta max PRL or the post-luteinizing hormone-releasing hormone stimulation test delta max luteinizing hormone:follicle-stimulating hormone ratio observed or to steroid levels.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effect of glutathione depletion on urinary acidification in the rat

Glutathione (GSH) depletion by diethyl maleate (DEM) administration and its rapid repletion were associated with the development of a moderate acidosis in the rat. The acidosis observed after DEM treatment could be a consequence of an impairment of lactate metabolism. GSH-depleted rats also showed an increased urine pH and a higher bicarbonate fractional excretion compared with control rats. Renal bicarbonate excretion was magnified when blood bicarbonate levels were normalized by means of a bicarbonate infusion in GSH-depleted rats; however, the amount of bicarbonate excreted in the urine was a very small fraction (less than 5%) of the calculated filtered load. GSH-depleted rats failed to elevate the relation urine minus blood (U-B) pCO2 as compared with control rats when they were subjected to a high bicarbonate load to the distal portions of the nephron. All these data were consistent with a distal renal tubular acidosis due to GSH depletion which could participate in the maintenance of the systemic acidosis, although it is unlikely that it is the primary cause of the acidosis.     

Anomalous hypoxic acidification of medullary ventral surface.

In castrated male goats, two flexible catheters, one open ended for reference and the other ending in a 1-mm-diam glass bulb pH electrode, were advanced ventrally through a left posterior fossa craniotomy into the subarachnoid space between the 9th and 10th cranial nerve roots, passing medially into cerebrospinal fluid (CSF) over the medullary ventral surface (MVS). They were anchored to dura and fascia, tunneled under the scalp, and terminated in connectors on the left horn. After several days for recovery, while the animals were awake, the effects of CO2 and hypoxia on pH of the film of CSF between the pia and arachnoid (pHMVS) were recorded along with end-tidal PCO2 and PO2 (mass spectrometer), ventilation (pneumotachometer) through a permanent tracheostomy, and, when possible, ear arterial O2 saturation (SaO2). High PCO2 acidified MVS as expected: delta pH MVS/delta log PCO2. = -0.64 +/- 0.14, producing a ventilatory response slope delta VI/delta pHMVS = 372 l/min. Hypoxia resulted in acid shifts even when PCO2 was allowed to fall. The development of hypoxic acidosis was related to the location of pH electrodes determined at necropsy. In isocapnic hypoxia, pH over putative chemoreceptor surfaces fell in proportion to desaturation: delta pHMVS = 0.0033(SaO2)-0.34, r = 0.80, Sy.x = 0.025. With uncontrolled arterial PCO2, similar acidosis occurred when SaO2 fell below 85-90%: delta pHMVS = 0.0039(SaO2)-0.34, r = 0.88, Sy.x = 0.032. With constant hypoxia, pH fell (tau = 3.7 +/- 2.2 min) to a plateau after 10-20 min and showed rapid recovery (tau = 2.0 +/- 1.3 min).(ABSTRACT TRUNCATED AT 250 WORDS)     

Brain hypoxia preferentially stimulates genioglossal EMG responses to CO2

Although the dominant respiratory response to hypoxia is stimulation of breathing via the peripheral chemoreflex, brain hypoxia may inhibit respiration. We studied the effects of two levels of brain hypoxia without carotid body stimulation, produced by inhalation of CO, on ventilatory (VI) and genioglossal (EMGgg) and diaphragmatic (EMGdi) responses to CO2 rebreathing in awake, unanesthetized goats. Neither delta VI/delta PCO2 nor VI at a PCO2 of 60 Torr was significantly different between the three conditions studied (0%, 25%, and 50% carboxyhemoglobin, HbCO). There were also no significant changes in delta EMGdi/delta PCO2 or EMGdi at a PCO2 of 60 Torr during progressive brain hypoxia. In contrast, delta EMGgg/delta PCO2 and EMGgg at a PCO2 of 60 Torr were significantly increased at 50% HbCO compared with either normoxia or 25% HbCO (P less than 0.05). The PCO2 threshold at which inspiratory EMGgg appeared was also decreased at 50% HbCO (45.6 +/- 2.6 Torr) compared with normoxia (55.0 +/- 1.4 Torr, P less than 0.02) or 25% HbCO (53.4 +/- 1.6 Torr, P less than 0.02). We conclude that moderate brain hypoxia (50% HbCO) in awake, unanesthetized animals results in disproportionate augmentation of EMGgg relative to EMGdi during CO2 rebreathing. This finding is most likely due to hypoxic cortical depression with consequent withdrawal of tonic inhibition of hypoglossal inspiratory activity.     

Role of corticosteroids in distal acidification of amiloride-treated rats.

The role of amiloride-dependent sodium channels in the action of adrenal cortical steroids on urine-blood PCO2 (U-B PCO2) differences was studied in bicarbonate-infused and amiloride-treated adrenalectomized rats. U-B PCO2 was significantly reduced by amiloride in bicarbonate-infused control rats. Adrenalectomy further reduced U-B PCO2 in amiloride-treated, bicarbonate-infused rats (from 27.9 +/- 1.82 mmHg in sham-operated rats to 21.3 +/- 1.58 mmHg in adrenalectomized (ADX) rats) (1 mmHg = 133.322 Pa). Acute administration of corticosterone and 18-hydroxycorticosterone (18-OH-B), but not of aldosterone, caused recovery of U-B PCO2 to the level of sham-operated animals treated with amiloride. Aldosterone did not affect U-B PCO2 in the presence of amiloride (21.9 mmHg ADX group vs. 20.98 mmHg aldosterone group). Results are compatible with aldosterone affecting distal H ion secretion mostly by a sodium and potential difference dependent mechanism, while corticosterone and 18-OH-B should act by other mechanisms (e.g., increased luminal buffer level).     

Acid-base balance and plasma glutamine concentration in man

Plasma glutamine concentrations were measured in chronic metabolic acidosis and alkalosis in healthy male volunteers. Metabolic acidosis resulted in a significant drop in glutamine concentration while metabolic alkalosis significantly elevated glutamine levels. These changes in glutamine concentration correlated with both the bicarbonate and PCO2 levels. To determine whether bicarbonate or PCO2 levels influence the glutamine concentrations, respectively acidosis was induced by respiring 5% CO2. This resulted in a significant elevation in both PCO2 and glutamine while bicarbonate levels remained unchanged. The results demonstrate an effect of acid-base alterations upon plasma glutamine concentration mediated by PCO2.     

High dietary potassium chloride intake augments rat renal mineralocorticoid receptor selectivity via 11beta-hydroxysteroid dehydrogenase

Glucocorticoid access to renal corticosteroid receptors is regulated by 11beta-hydroxysteroid dehydrogenases (11beta-HSDs), converting 11beta-hydroxyglucocorticoids into inactive 11-ketones. This mechanism plays a key role in maintaining normal salt-water homeostasis and blood pressure. To study whether renal cortical proximal and distal tubular 11beta-HSDs are modulated, upon shifting the electrolyte status (and may thereby contribute to adjusting the salt-water homeostasis), rats were treated for 14 days with diets with low (0.058 w/w%), normal (0.58%, which is the KCl content of standard European laboratory rat food) or high (5.8%) potassium chloride content. In proximal tubules, dietary KCl had no effect regarding corticosterone 11beta-oxidation in intact cells as well as 11beta-HSD1 and 11beta-HSD2 protein (Western blotting) and mRNA levels (semi-quantitative RT-PCR). In distal tubules, the low KCl diet also had no effect. However, distal tubules of rats fed the high KCl diet showed increased corticosterone 11beta-oxidation rates (1.6-fold, P<0.01) and 11beta-HSD2 protein (4-fold, P<0.01), whereas 11beta-HSD1 protein was decreased (no longer detected, P<0.05). Distal tubular 11beta-HSD mRNA levels were not changed upon dietary treatment. Our results suggest that upon dietary KCl loading distal tubular mineralocorticoid receptor selectivity for aldosterone is increased because of enhanced corticosterone 11beta-oxidation. This may contribute to the fine-tuning of salt-water homeostasis by the kidney.     

Primary hyperparathyroidism and proximal renal tubular acidosis: Report of two cases

Two cases of primary hyperparathyroidism due to single parathyroid adenomas presented with the additional feature of hyperchloremic acidosis. The defect in urinary acidification responsible was not of the distal or gradient-limited type since both patients could lower urine pH adequately. However, there was a defect of bicarbonate reabsorption, an abnormality referred to as the proximal or rate-limited type of renal tubular acidosis. It is suggested that this defect represents an exaggeration of the physiological effect of parathormone on bicarbonate reabsorption and may be responsible for the frequent finding of hyperchloremia in association with primary hyperparathyroidism as well as for the urinary bicarbonate-wasting associated with a variety of causes of secondary hyperparathyroidism.     

A micropuncture study of several indices of renal function in rats during development]

The function of single superficial nephrons has been studied by means of several micropuncture methods in 22-, 30- and 42-day rats. It was shown that intratubular hydrostatic pressure, transit time of tubular fluid through a proximal tubule and Henle's loop, as well as local reabsorption in the proximal tubules measured by Gertz's split oil droplet method increase between the 22nd and the 30th days. The ration of tubular fluid and plasma (TF/P) inulin concentrations in late proximal and in early distal tubules increases with age. The values of TF/P for Na in early distal tubules are higher in 22- and 30-day rats than in older ones. TF/P for K does not change simultaneously with that for Na. These data are consistent with the assumption that the sodium load in the distal part of the nephron is higher in young rats than in adult ones.     

Blood osmolality during in vivo changes of CO2 pressure

In 16 experiments male subjects, age 22.4 +/- 0.5 (SE) yr, inspired CO2 for 15 min (8% end-tidal CO2) or hyperventilated for 30 min (2.5% end-tidal CO2). Osmolality (Osm) and acid-base status of arterialized venous blood were determined at short intervals until 30 min after hypo- and hypercapnia, respectively. During hypocapnia [CO2 partial pressure (PCO2) -2.31 +/- 0.32 kPa (-17.4 Torr), pH + 0.19 units], Osm decreased by 3.9 +/- 0.3 mosmol/kg H2O; during hypercapnia [PCO2 + 2.10 +/- 0.28 kPa (+15.8 Torr), pH -0.12 units], Osm increased by 5.8 +/- 0.7 mosmol/kg H2O. Presentation of the data in Osm-PCO2 or Osm-pH diagrams yields hysteresis loops probably caused by exchange between blood and tissues. The dependence of Osm on PCO2 must result mainly from CO2 buffering and therefore from the formation of bicarbonate. In spite of the different buffer capacities in various body compartments, water exchange allows rapid restoration of osmotic equilibrium throughout the organism. Thus delta Osm/delta pH during a PCO2 jump largely depends on the mean buffer capacity of the whole body. The high estimated buffer value during hypercapnia (38 mmol/kg H2O) compared with hypocapnia (19 mmol/kg H2O) seems to result from very strong muscle buffering during moderate acidosis.     

Greater effect of dietary potassium tripolyphosphate than of potassium dihydrogenphosphate on the nephrocalcinosis and proximal tubular function in female rats from the intake of a high-phosphorus diet

We examined whether a difference in potassium dihydrogenphosphate (KH2PO4) and potassium tripolyphosphate (K5P3O10) as dietary phosphorus sources could differentially effect the nephrocalcinosis and proximal tubular function in female rats. Rats were fed on a diet containing KH2PO4 or K5P3O10, at the normal phosphorus level (normal phosphorus diet) or at a high phosphorus level (high-phosphorus diet) for 21 d. Nephrocalcinosis, as confirmed by a histological examination, was apparent in all rats fed on the high-phosphorus diet, and this condition was more severe in those rats fed on K5P3O10 than in those fed on KH2PO4. As indicators of the proximal tubular function, the N-acetyl-beta-D-glucosaminidase activity in urine and the urinary beta2-microglobulin excretion were significantly increased in those rats fed on the high-phosphorus diet containing K5P3O10. These results indicate that the intake of a high-phosphorus diet, more strongly influenced the nephrocalcinosis and proximal tubular function when K5P3O10 rather than KH2PO4 was used as the dietary phosphorus source.     

A 13C-n.m.r. investigation of the metabolism of amino acids in renal proximal convoluted tubules of normal and streptozotocin-treated rats and rabbits.

13C-n.m.r. spectroscopy was used to determine the metabolic fate of alanine and aspartate in rat and rabbit kidney proximal tubules. The main purpose of the present study was to investigate the effect of streptozotocin-induced diabetes on the influx of 13C label from [3-13C]alanine into the tricarboxylic acid cycle and through the fructose-1,6-bisphosphatase pathway. This influx was calculated from the relative enrichment of 13C in the various glutamate and glutamine carbon atoms. The relative proportion of 13C label which entered the tricarboxylic acid cycle via pyruvate carboxylase relative to the proportion that entered via pyruvate dehydrogenase was 1.92 +/- 0.02 in fed control rats and 2.27 +/- 0.04 in streptozotocin-treated rats. However, streptozotocin-induced diabetes did not significantly affect this ratio in rabbit proximal convoluted tubular cells. Only in rat proximal convoluted tubular cells did we observe an increase in flux through the fructose-1,6-bisphosphatase pathway by streptozotocin treatment compared with fed controls. The data suggest that streptozotocin-induced diabetes in rats causes the same metabolic changes as does chronic acidosis.     

Acute saline expansion increases nephron filtration and distal flow rate but maintains tubuloglomerular feedback responsiveness: role of adenosine A(1) receptors

Temporal adaptation of tubuloglomerular feedback (TGF) permits readjustment of the relationship of nephron filtration rate [single nephron glomerular filtration rate (SNGFR)] and early distal tubular flow rate (V(ED)) while maintaining TGF responsiveness. We used closed-loop assessment of TGF in hydropenia and after acute saline volume expansion (SE; 10% body wt over 1 h) to determine whether 1) temporal adaptation of TGF occurs, 2) adenosine A(1) receptors (A(1)R) mediate TGF responsiveness, and 3) inhibition of TGF affects SNGFR, V(ED), or urinary excretion under these conditions. SNGFR was evaluated in Fromter-Wistar rats by micropuncture in 1) early distal tubules (ambient flow at macula densa), 2) recollected from early distal tubules while 12 nl/min isotonic fluid was added to late proximal tubule (increased flow to macula densa), and 3) from proximal tubules of same nephrons (zero flow to macula densa). SE increased both ambient SNGFR and V(ED) compared with hydropenia, whereas TGF responsiveness (proximal-distal difference in SNGFR, distal SNGFR response to adding fluid to proximal tubule) was maintained, demonstrating TGF adaptation. A(1)R blockade completely inhibited TGF responsiveness during SE and made V(ED) more susceptible to perturbation in proximal tubular flow, but did not alter ambient SNGFR or V(ED). Greater urinary excretion of fluid and Na(+) with A(1)R blockade may reflect additional effects on the distal nephron in hydropenia and SE. In conclusion, A(1)R-independent mechanisms adjust SNGFR and V(ED) to higher values after SE, which facilitates fluid and Na(+) excretion. Concurrently, TGF adapts and stabilizes early distal delivery at the new setpoint in an A(1)R-dependent mechanism.     

Proximal and distal tubular activity in chronically catheterized fetal sheep compared with the adult

Renal function was studied in unanaesthetized fetal sheep aged 112-120 and 126-132 days and in adult nonpregnant ewes. The clearance of lithium was used to measure proximal and distal fractional sodium reabsorption. In five nonpregnant adult sheep, 80.6 +/- 1.7% (SE) of the filtered sodium load was reabsorbed proximally and 18.2 +/- 1.53% distally. This was different from all groups of fetal sheep (p less than 0.001). In younger fetuses, proximal fractional sodium reabsorption was less (51.3 +/- 2.3% (SE), p less than 0.05) and distal fractional sodium reabsorption greater (42.4 +/- 2.3% (SE), p less than 0.05) than older fetuses (126-132 days old) in which 61.4 +/- 2.4% (SE) was reabsorbed proximally and 33.6 +/- 2.5% (SE) distally. In another group of fetuses aged 125-137 days, in which proximal tubular sodium reabsorption was measured after distal tubular blockade, proximal fractional sodium reabsorption was 57.8 +/- 2.95% (SE) and distal fractional sodium reabsorption, 38.7 +/- 2.64% (SE). In adult sheep there was no relationship between distal tubular sodium reabsorption and glomerular filtration rate, i.e., proximal tubular function was responsible for glomerulotubular balance. However, in the fetuses, both proximal and distal tubular sodium reabsorption contributed to glomerulotubular balance. Thus in fetal life, the proximal tubule participates to a lesser extent in reabsorbing the filtered sodium load possibly because its function is suppressed by its relatively "volume-expanded" state or because it is functionally immature. Therefore, a greater proportion is reabsorbed distally and the distal nephron participates under physiological conditions in glomerulotubular balance.     

Morphological alterations in distal and collecting tubules of the rat renal cortex after aminoglycoside administration at low doses

Ultrastructural alterations in the cortical, distal and collecting tubules have been examined in female Sprague-Dawley rats treated with various aminoglycosides in clinical use. Gentamicin, dibekacin (10 mg/kg X day), netilmicin, tobramycin (4 or 10 mg/kg X day) or amikacin (37.5 mg/kg X day) were administered intraperitoneally twice a day over different periods of time, extending from 4 to 14 days. The kidney cortex was examined after 4, 7, 10 or 14 days of aminoglycoside administration by light (semithin sections) and electron microscopy. After 7 or more days of treatment, lysosomes in collecting tubular cells (and to a lesser extent in distal tubular cells) contained concentric lamellar material (myeloid bodies), an ultrastructural alteration typical of drug-induced lysosomal phospholipidosis. Although this alteration appeared qualitatively similar to that observed in proximal tubular cells, it was less conspicuous and occurred later during treatment. In addition, distal tubular cells occasionally showed marked vacuolization and disruption of the basal cell architecture. The possible relationship between these alterations and the urine hypo-osmolality characteristic of aminoglycoside-induced renal dysfunction is discussed.     

Metabolic heterogeneity of the proximal and distal kidney tubules

Proximal and distal tubule suspensions were prepared from kidneys of Sprague-Dawley rats by an isolation procedure on a Percoll^R gradient. The marker enzymes alkaline phosphatase (brush border) and hexokinase (cytoplasmic) as well as p-aminohippurate transport capacity, gluconeogenic activity and electron microscopy were used to characterize the two kidney tubule suspensions. The results of this study indicate that cytochrome P-450 is localized to the proximal tubular cells and that the O-deethylation of 7- ethoxycoumarin was higher in the proximal than distal fraction. Both proximal and distal tubules showed glucuronidation and deacetylation capacities and a relatively equal distribution of non-protein sulfhydryls. These studies demonstrate metabolic heterogeneity of the nephron, the proximal tubule being the main site of renal xenobiotic metabolism. Understanding of metabolic heterogeneity of proximal and distal kidney tubules should provide important information regarding cell specific mechanisms of nephrotoxicity.     

Effect of PCO2 on epinephrine-induced lipolysis in isolated fat cells.

The effect of different pHs obtained by changing the PCO2 and the effect of PCO2 at constant pH on the lipolysis induced by epinephrine in isolated fat cells have been investigated. An inhibition of activated lipolysis was found in acidosis while in alkalosis no significant change was detected. When the experiments were performed at different PCO2s but at constant pH, the results showed an inhibition of lipolysis by high PCO2 whereas low PCO2 did not affect it. It is concluded that either acidosis or high PCO2 lead to an inhibition of the lipolysis induced by epinephrine in isolated fat cells. As regards alkalosis and low PCO2 it seems likely that the intracellular pH is not affected to the same extent as in alkalosis by high [HCO(-3)] or under the conditions of the present experiments the [H+] needed to alterate lipolysis was not reached.     

Brown Norway Chromosome 1 Congenic Reduces Symptoms of Renal Disease in Fatty Zucker Rats

We previously reported that a congenic rat with Brown Norway (BN) alleles on chromosome 1 reduces renal disease of 15-week old fatty Zucker rats (ZUC). Development of renal disease in fatty BN congenic and fatty ZUC rats from 9 through 28 weeks is now examined. Analysis of urine metabolites by ¹H nuclear magnetic resonance (NMR) spectroscopy revealed a significantly increased urinary loss of glucose, myo-inositol, urea, creatine, and valine in ZUC. Food intake was lower in the BN congenic rats at weeks 9–24, but they weighed significantly more at 28 weeks compared with the ZUC group. Fasting glucose was significantly higher in ZUC than congenic and adiponectin levels were significantly lower in ZUC, but there was no significant genotype effect on Insulin levels. Glucose tolerance tests exhibited no significant differences between ZUC and congenic when values were normalized to basal glucose levels. Quantitative PCR on livers revealed evidence for higher gluconeogenesis in congenics than ZUC at 9 weeks. Plasma urea nitrogen and creatinine were more than 2-fold higher in 28-week ZUC. Twelve urine protein markers of glomerular, proximal and distal tubule disease were assayed at three ages. Several proteins that indicate glomerular and proximal tubular disease increased with age in both congenic and ZUC. Epidermal growth factor (EGF) level, a marker whose levels decrease with distal tubule disease, was significantly higher in congenics. Quantitative histology of 28 week old animals revealed the most significant genotype effect was for tubular dilation and intratubular protein. The congenic donor region is protective of kidney disease, and effects on Type 2 diabetes are likely limited to fasting glucose and adiponectin. The loss of urea together with a small increase of food intake in ZUC support the hypothesis that nitrogen balance is altered in ZUC from an early age.