Urine of patients with acute kidney transplant rejection show high normetanephrine and decreased 2-hydroxyestrogens concentrations.

BACKGROUND: A shift from anti- to proinflammatory steroid hormones has been observed in chronic inflammation. We tested the hypothesis that this shift occurs also in kidney transplant rejection together with a rise of urinary catecholamine degradation product concentrations as a consequence of locally produced cytokines, thus further promoting rejection. METHODS: We examined 8 patients with an early rejection episode in the protocol biopsy ∼2 weeks, 9 with biopsy-proven rejection at 2-3 months, and 18 without rejection, both at 2 weeks and 3 months after transplantation. Metanephrine, normetanephrine, and 2- and 16-hydroxyestrogens concentrations were measured by EIA. RESULTS: The median urinary concentrations of normetanephrine, but not metanephrine, were significantly higher in acute kidney transplant rejection in the first 2 weeks after transplantation (P < .05). During acute kidney transplant rejection at 2-3 months, but not in the first 2 weeks, after transplantation, 2-, but not 16-hydroxyestrogens, concentrations were significantly decreased (P < .05). CONCLUSIONS: We demonstrated that the downstream product of noradrenaline conversion normetanephrine was elevated in kidney transplant rejection in the first weeks after transplantation. This change may promote rejection together with an important proinflammatory and mitogenic steroid hormone shift, which becomes increasingly relevant over time.

Conversion from calcineurin inhibitors to sirolimus in patients with chronic renal allograft dysfunction.

BACKGROUND: Chronic renal transplant dysfunction in part may be due to the nephrotoxic effects of calcineurin inhibitors, which are still the mainstay of immunosuppressive therapy. Sirolimus, a new immunosuppressive compound devoid of significant nephrotoxicity, might therefore exhibit beneficial effects when used in renal transplant recipients with graft dysfunction. METHODS: Twelve renal transplant recipients included in this study had all been receiving calcineurin inhibitors for more than 12 months, and were free of rejection for more than 12 months. However, they demonstrated moderate renal dysfunction with serum creatinine values ranging from 1.8 to 4.0 mg/dL (164 to 351 micromol/L). After reaching a sirolimus level of 10 to 20 ng/mL, calcineurin inhibitor therapy was withheld. RESULTS: One month after initiation of sirolimus therapy, all patients were off calcineurin inhibitors. The average daily sirolimus dosage was 5.8+/-3.4 mg. No acute rejection episode and no graft failure was observed. No patient required hemodialysis or admission to the hospital. Calculated creatinine clearance increased from 63.4+/-9.9 to 69.2+/-9.7 mL/min (P=.0368) and serum bicarbonate increased from 20.8+/-3.17 to 22.5+/-3.7 meq/L (P=.001). Serum cholesterol increased from 180+/-26.5 to 239+/-28.8 mg/dL (4.65+/-0.69 to 6.18+/-0.74 mmol/L, P<.001), triglycerides increased from 155+/-53 to 289+/-123 mg/dL (1.75+/-0.6 to 3.26+/-1.39 mmol/L) and low-density lipoprotein cholesterol increased from 99+/-32 to 131+/-25.1 mg/dL (2.56+/-0.83 to 3.39+/-0.65 mmol/L, P=.01). Arterial blood pressure remained well controlled (126+/-15.6/74+/-8.9 vs 134+/-16.8/83+/-9.7). CONCLUSION: Conversion from calcineurin inhibitor therapy to sirolimus in patients more than 1 year after transplantation with impaired organ function is feasible, safe, and associated with a trend toward improved renal function.

Inhibition of COX-2 counteracts the effects of diuretics in rats.

BACKGROUND: It is well established that the diuretic- and renin-stimulated effects of loop diuretics can be attenuated by nonselective cyclooxygenase inhibitors. Since it is yet unclear which of the isoforms of cyclooxygenases, COX-1 and COX-2, is relevant in this context, our study aimed to determine the effects of selective COX-2 inhibition on the renal effects of the loop diuretic furosemide, as well as the diuretic hydrochlorothiazide, which acts on the distal tubule. METHOD: Male Sprague-Dawley rats were treated with furosemide (12 mg/day subcutaneously by osmotic pump) or hydrochlorothiazide (30 mg/kg body weight/day orally by gavage). In addition, parallel groups received rofecoxib (1 to 10 mg/kg body weight/day) for selective inhibition of COX-2. Controls were treated with vehicle. RESULTS: Induction of COX-2 mRNA expression due to furosemide was paralleled by increased renal excretion of prostanoids. Also, hydrochlorothiazide led to a rise in prostanoid excretion. Rofecoxib blunted the diuretic-induced increase in prostanoid excretion, thus confirming an effective blockade of COX-2. Moreover, the COX-2 inhibitor rofecoxib dose-dependently attenuated diuresis and saluresis, as well as the stimulation of the renin system induced by furosemide. Furthermore, rofecoxib completely reversed diuresis and saluresis and prevented the increase of plasma renin activity induced by hydrochlorothiazide. CONCLUSIONS: These findings suggest that COX-2-derived prostanoids are of major relevance in modulating the renal effects of diuretics. COX-2 inhibitors might be valuable drugs to treat salt and water wasting during Bartter and Gitelman diseases.

Low sodium and furosemide-induced stimulation of the renin system in man is mediated by cyclooxygenase 2.

The aim of this study was to examine the effects of highly selective inhibition of cyclooxygenase 2 (COX-2) with rofecoxib on the renin system during long-term stimulation and after short-term stimulation. Six healthy male volunteers received, in a randomized crossover design, a low-sodium diet for days 1 through 9 with or without 25 mg rofecoxib twice daily on days 5 through 9 and, in addition, 20 mg of furosemide intravenously on day 8. Plasma renin activity increased 2 to 3 times over baseline with a low-sodium diet and 5 times over baseline 30 minutes after intravenous furosemide; it was still elevated nearly 5 times on day 9. These effects were completely blocked by rofecoxib. Plasma aldosterone and urinary aldosterone concentrations basically reflected the findings with plasma renin activity. Urinary sodium excretion decreased during a low-sodium diet and increased after intravenous furosemide without being significantly affected by rofecoxib. We have concluded that low-sodium and furosemide-stimulated renin and aldosterone secretion is completely blocked in healthy volunteers during COX-2 inhibition with rofecoxib, suggesting that intact COX-2 is of major importance for stimulation of the renin system under these conditions in man.

Inhibition of cyclooxygenase-2 attenuates urinary prostanoid excretion without affecting renal renin expression.

This study aimed to assess the impact of cyclooxygenase-2 (COX-2) on the secretion and expression of renin in the kidney cortex. For this purpose renocortical COX-2 expression was moderately stimulated by a low-salt diet or strongly stimulated (increase in mRNA about fivefold) by the combination of a low-salt diet and the angiotensin-I-converting enzyme inhibitor ramipril in male Sprague-Dawley rats. None of these manoeuvres changed medullary COX-2 expression or cortical or medullary COX-1 expression. Treatment with low salt plus ramipril but not with low salt alone led to a three- to fourfold increase of the urinary output of all major prostanoids. The selective COX-2 inhibitor rofecoxib (10 mg/kg per day) markedly lowered basal urinary prostanoid excretion and blunted the stimulation of prostanoid excretion during treatment with low salt plus ramipril. The stimulation of renin secretion by the low-salt diet but not by low salt plus ramipril was attenuated by rofecoxib. The low-salt diet led to a moderate increase of renin gene expression, and additional treatment with ramipril caused a 15-fold increase of renin mRNA. However, no effect of rofecoxib on renin gene expression was observed in any group. These findings suggest that stimulation of COX-2 in the renal cortex leads to the increased formation of all major prostanoids. COX-2-derived prostanoids may play a role in the regulation of renin secretion but not in renin gene expression during the intake of a low-salt diet. However, no major relevance of COX-2-derived prostanoids to renin secretion or renin gene expression during ramipril treatment or a combination of ramipril and a low-salt diet was found.

Renal transplantation in a patient with end stage renal disease due to cholesterol embolism.

BACKGROUND: Renal failure due to cholesterol emboli is mostly irreversible. Therefore chronic renal replacement therapy is necessary. However, to the best of our knowledge no published experience exists with renal transplantation in patients with end-stage renal disease (ESRD) due to cholesterol embolization (CE). METHODS: Renal transplantation was performed in a 64-year-old man who suffered from ESRD due to CE after coronary angiography. Because our patient presented with a typical profile of cardiovascular risk factors effective long-term control of these risk factors before and after transplantation was a mandatory prerequisite before considering transplantation. RESULTS: After one rejection episode serum creatinine values have been stable and no major complications have occurred during a follow-up of 18 months. No signs of recurrent cholesterol emboli into the donated kidney were seen in renal biopsies performed due to graft rejection. CONCLUSION: Cholesterol embolization is an uncommon reason for ESRD and mainly occurs after invasive vascular procedures in patients with hyperlipidemia, arterial hypertension, and smoking. Because ESRD due to CE often is irreversible, chronic renal replacement therapy may be necessary. As demonstrated in our report, renal transplantation should be considered. However, in this setting effective long-term control of the underlying risk factors before and after renal transplantation has to be ensured.

Role of endothelins for the regulation of renal renin gene expression.

Endothelin-1, -2 and -3 (ET-1, -2, -3) have suppressive effects on the renin system in different experimental in vitro models, whereas a modulation of renin secretion or renin gene expression by endothelins (ETs) in in vivo studies has not so far been found. In a recent study we observed a significant stimulation of the renin system by acute hypoxia over 6 h in rats. In the study reported here, we investigated the more chronic effects of hypoxia (10% O2 for 4 weeks) on renin gene expression and the influence of the ET system on its regulation. Renin mRNA levels decreased after 2 weeks of hypoxia to 76% of control and after 4 weeks to 49% of control (p < 0.05). Concomitant administration of the ET(A)-receptor antagonist LU135252 led to a significant increase in renin gene expression compared to control or hypoxia alone. ET-1 mRNA increased to 120% after 2 weeks and 173% after 4 weeks of hypoxia (NS), while ET-3 was not affected by hypoxia. We therefore conclude that ETs have a suppressive effect on renal renin gene expression in the setting of chronic hypoxia in rats in vivo.

Extracorporal therapy with AN69 membranes in combination with ACE inhibition causing severe anaphylactoid reactions: still a current problem?

The negatively charged membrane AN69 is known to evoke anaphylactoid reactions both without and with concomitant ACE inhibition. Underlying reasons are mainly the induction of bradykinin release due to the negatively charged membrane and the reduced degradation of bradykinin due to ACE inhibition. This complication has been reported repeatedly, but anaphylactoid reactions still occur in clinical practice. We recently had to treat two patients who suffered anaphylactoid reactions during extracorporal therapy with an AN69 membrane and simultaneous ACE inhibition. The first incident occurred in a patient on hemodialysis, the second was in a patient on continuous venovenous hemofiltration. An anaphylactoid reaction induced by an AN69 membrane during continuous, extracorporal treatment in combination with ACE inhibition has not been reported so far. Our report intends to serve as a reminder that the potentially lethal combination of AN69 membranes with ACE inhibitor treatment should be avoided.

Effects of growth hormone on renal renin gene expression in normal rats and rats with myocardial infarction.

BACKGROUND: Published data regarding effects of growth hormone (GH) on the renin system are controversial. The aim of this study therefore was to evaluate the effects of GH on the renin system in normal rats and rats with myocardial infarction (MI). METHODS: Normal rats received 2, 5, or 10 IU GH/kg/day or vehicle subcutaneously for 4 weeks. Furthermore rats with MI were randomized to receive 2 IU GH/kg/day or vehicle for 4 weeks. Subdivision into MI groups (mild, moderate, and large) was by histological determination of infarct size. Renal renin gene expression was assessed by RNAase protection assay and plasma renin activity by radioimmunoassay. In addition, isolated mouse juxtaglomerular cells were exposed to GH for 20 h, and renin secretion rates were assessed. RESULTS: GH treatment in normal rats for 4 weeks increased body weight, and kidney weight to body weight ratio, but did not affect renin secretion and renal renin gene expression. In rats with large MI, renal renin gene expression increased about fourfold, but was unchanged in rats with small and moderate MI as compared to normal rats. In rats with MI, body weight decreased and this decrease was partially reversed by GH treatment. GH treatment did not change renal renin gene expression, and renin secretion in rats with MI. Renin secretion of isolated juxtaglomerular cells was unaffected by GH. CONCLUSIONS: Our study demonstrates that GH treatment has no significant effect on renin secretion and on renal renin gene expression in normal rats and in rats with stimulated renin system due to MI in vivo. In isolated juxtaglomerular cells in vitro, renin secretion was also unaffected by GH.