[Experimental nephrology unit: overview and research projects]. / Unité de néphrologie expérimentale facultaire: etat des lieux et projets d'avenir.

After a short historical background of the Laboratory, the main research topics--renal toxicology, physiopathology of renal interstitial fibrosis and hormonology--are described in the perspective of a partnership between research clinicians and full time scientists. National as well as international scientific collaborations underline the need of combining expertises, stimulating also the training of youngest colleagues to the experimental approach of their future discipline.

Aristolochic acid induces proximal tubule apoptosis and epithelial to mesenchymal transformation.

Aristolochic acid contamination in herbal remedies leads to interstitial fibrosis, tubular atrophy, and renal failure in humans. To study the cellular mechanisms contributing to the pathophysiology of this renal disease, we studied Wistar rats treated with aristolochic acid and measured tubular and interstitial cell proliferation, epithelial/mesenchymal cell marker expression, tubular membrane integrity, myofibroblast accumulation, oxidative stress, mitochondrial damage, tubular apoptosis, and fibrosis. Oxidative stress, a loss of cadherin concomitant with vimentin expression, basement membrane denudation with active caspase-3 expression, and mitochondrial injury within tubular cells were evident within 5 days of administration of the toxin. During the chronic phase, interstitial mesenchymal cells accumulated in areas of collagen deposits. Impaired regeneration and apoptosis of proximal tubular cells resulted in tubule atrophy with a near absence of dedifferentiated cell transmembrane migration. We suggest that resident fibroblast activation plays a critical role in the process of renal fibrosis during aristolochic acid toxicity.

Tubular proteinuria defined by a study of Dent's (CLCN5 mutation) and other tubular diseases.

UNLABELLED: Tubular proteinuria defined by a study of Dent's ( CLCN5 mutation) and other tubular diseases. BACKGROUND: The term "tubular proteinuria" is often used interchangeably with "low molecular weight proteinuria" (LMWP), although the former implies a definite etiology. A specific quantitative definition of tubular proteinuria is needed, and we address this by studying five different renal disorders. METHODS: Tubular proteinuria was assessed by measuring urinary retinol-binding protein (RBP), beta2-microglobulin (beta2M), alpha1-microglobulin (alpha1M), and albumin in 138 patients: 26 affected males and 24 female carriers of the X-linked syndrome "Dent's disease," 6 patients with other Fanconi syndromes, 17 with distal renal tubular acidosis (dRTA), 39 with glomerulonephritis (GN), and 26 with Chinese herbs nephropathy (CHN). RESULTS: RBP was better than beta2M or alpha1M in identifying the tubular proteinuria of Dent's disease. Median urinary RBP levels in mg/mmol creatinine were: affected male Dent's, 18.2, N = 26; carrier female Dent's, 0. 30, N = 24; dRTA, 0.027, N = 17; GN, 0.077, N = 39; and normal adults, 0.0079, N = 61. Elevated urinary RBP (>0.017) and albumin < (10 x RBP) + 2 identified all patients with the LMWP of Dent's disease and clearly distinguished their LMWP from that of dRTA and GN. This is a quantitative definition of tubular proteinuria. Consistent with this definition, 80% of those patients with CHN who had an elevated RBP had tubular proteinuria. Urinary RBP and albumin in carriers of Dent's disease were strikingly correlated over a 100-fold range (R = 0.933). CONCLUSION: The combination of elevated urinary RBP (>0.017) and albumin < (10 x RBP) + 2 (mg protein/mmol creatinine) is a quantitative definition of tubular proteinuria. Furthermore, our findings suggest that a shared defect in tubular RBP and albumin reuptake causes this form of proteinuria.

Cleavage of atrial natriuretic peptide by a kidney membrane-bound carboxypeptidase A.

An enzymatic activity that cleaved the C-terminal Tyr of ANP (1-28) was characterized in human kidney microvillar membranes by using 125I-labeled rat ANP as substrate. This activity was inhibited by potato carboxypeptidase inhibitor (PCI) and 1.10 phenanthroline, suggesting that it corresponded to a metallo-carboxypeptidase. Solubilization experiments indicated that the carboxypeptidase activity could be recovered in the supernatant after 1% Triton X-100 extraction. As separation by ion exchange chromatography revealed several peaks of enzyme activity, PCI coupled to Sepharose was used for purification. This step resulted in a single protein band at 30 kDa, as analyzed by SDS-PAGE.

Enhancing endogenous effects of natriuretic peptides: inhibitors of neutral endopeptidase (EC.3.4.24.11) and phosphodiesterase.

Because diuretic drugs remain the main treatment for disorders of sodium and water metabolism, the quest for improved diuretic and natriuretic agents continues in the hope of achieving fewer side effects and a more rational basis in pathophysiology. One aim has been to enhance endogenous diuretic and natriuretic activity by selective manipulation of atrial natriuretic peptide and related compounds. The first approach has been to inhibit degradation of these peptides using inhibitors of their main catabolic enzyme, neutral endopeptidase, and to offset any antagonistic effect of the renin-angiotensin system by combination with an angiotensin-converting enzyme inhibitor. The second and more recent approach has been to inhibit breakdown of the second messenger of atrial natriuretic peptide, cGMP, using phosphodiesterase inhibitors. As yet, neutral endopeptidase inhibition has not advanced successfully beyond animal experimentation and phosphodiesterase inhibition is still in its infancy. Both strategies suffer from the problem that, on the one hand, neutral endopeptidase metabolizes a variety of bioactive peptides, including endothelin, and it is not possible to develop inhibitors that will be selective for a given peptide; whereas, on the other hand, there are several phosphodiesterase isoforms metabolizing cGMP and cAMP, both second messengers for many different bioactive compounds, and selective inhibitors are still under development.

Vasoactive intestinal peptide (VIP) and pituitary adenylate cyclase-activating peptide (PACAP-27, but not PACAP-38) degradation by the neutral endopeptidase EC 3.4.24.11.

VIP (vasoactive intestinal polypeptide) and PACAP (pituitary adenylate cyclase-activating polypeptide), which are potent relaxing agents in the airways, were submitted to in vitro degradation by the neutral endopeptidase EC 3.4.24.11 (NEP), one of the most active peptidase in the lung, to test their relative resistance to proteolysis. Both VIP and PACAP(1-27) were cleaved by NEP, but PACAP(1-38) was not. The main fragments produced were VIP(1-22) and VIP(1-25), and PACAP(1-22) and PACAP(1-25), respectively. The degradation of VIP(1-27), PACAP(6-27), and PACAP(13-27) was also hindered by extending their C-terminal ends with the (28-38) sequence of PACAP(1-38). The sensitivity to enzyme degradation was gradually reduced when the C-terminal extension was increased from PACAP(1-27) to PACAP(1-29), PACAP(1-32) and PACAP(1-38). The biological activities of the degradation products were evaluated on the three classes of PACAP/VIP receptors, with VIP(1-25) and PACAP(1-25) retaining an important part of their activities on the VIP1 receptor. Thus, the degradation of VIP and PACAP(1-27) by the neutral endopeptidase 24.11 might produce a VIP1 receptor-selective active metabolite, provided that very high VIP or PACAP(1-27) concentrations are achieved in the receptor vicinity.

Increased angiotensin II in ascites during severe ovarian hyperstimulation syndrome: role of early pregnancy and ovarian gonadotropin stimulation.

OBJECTIVE: To investigate the implications of the ovarian renin-angiotensin system (RAS) in the pathophysiology of the ovarian hyperstimulation syndrome (OHSS) in relation to gonadotropin stimulation and early pregnancy. DESIGN: A controlled clinical study comparing blood and simultaneously sampled peritoneal fluid (PF) from patients with severe OHSS and from controls without OHSS. SETTING: University Hospitals. PATIENT(S): Eleven patients with severe OHSS, 8 patients with ascites of other origin, 9 patients with a first-trimester pregnancy, and 15 patients stimulated with gonadotropins for IVF. MAIN OUTCOME MEASURE(S): Angiotensin II immunoreactivity was measured in blood and PF and analyzed by high-performance liquid chromatography (HPLC) in ascites from OHSS. RESULT(S): Angiotensin II immunoreactivity (pg/mL; mean +/- SE) was highest in the ascites from pregnant OHSS (1,669 +/- 418), reaching levels 5 times higher than in the plasma (331 +/- 61) and 100 times higher than in control ascites (17 +/- 6.7). Angiotensin II immunoreactivity was elevated in the PF during early pregnancy (211 +/- 68) and after gonadotropin stimulation (244 +/- 41) and was higher than in the plasma in both groups. Analysis by HPLC showed that the majority of Ang II immunoreactivity in the ascites of OHSS was because of true Ang II. CONCLUSION(S): Severe forms of OHSS, especially those associated with pregnancy, are consistently characterized by huge concentrations of Ang II immunoreactivity in the ascites, proved to be true Ang II by HPLC analysis. This may be due to the synergistic effects of exogenous and endogenous hCG on the ovarian RAS.

Urinary neutral endopeptidase in workers exposed to cadmium: interaction with cigarette smoking.

OBJECTIVES: Structural impairment of the renal proximal tubular epithelium induced by cadmium (Cd) was investigated by measuring the concentration of neutral endopeptidase 24.11 (NEP), an ectoenzyme of the apical brush border, in the urine of 106 male workers employed in a Cd smelter (among whom 52 were occupationally exposed to Cd), and by comparing it with other tubular markers (low molecular weight proteins, lysosomal enzymes). METHODS: NEP (EC 3.4.24.11), beta-N-acetyl-glucosaminidase (NAG) (EC 3.2.1.30), and NAG-B isoenzyme activities were measured by fluorimetric assays, whereas the concentrations of retinol binding protein (RBP), beta 2-microglobulin (beta 2M), and Clara cell protein (CC16) were measured by automated latex agglutination techniques. RESULTS: An increased urinary excretion of NEP as well as microproteins was found only in subjects excreting more than 5 micrograms Cd/g creatinine. In this group, NEP concentrations were significantly higher in the subjects who smoked. This significant interaction could not be found for any other marker tested. CONCLUSIONS: The data suggest that NEP enzymuria is high even at low exposures to Cd (with a threshold of urinary cadmium excretion (U-Cd) at 5 micrograms/g creatinine), indicating early structural alterations. Moreover, its particular sensitivity to smoking could be useful in the detection of new population clusters potentially more susceptible to development of nephrotoxic insult.

Proximal tubular injury in Chinese herbs nephropathy: monitoring by neutral endopeptidase enzymuria.

Neutral endopeptidase (NEP) is a 94 kDa ectoenzyme of the proximal tubule brush border, physiologically released into the urine with apical membrane fragments. As proximal tubular atrophy was a histological hallmark of Chinese herbs nephropathy (CHN), this study firstly determined renal excretion of NEP in healthy control subjects (N = 31), in patients with CHN (N = 26) and in women having consumed Chinese herbs and whose renal function was normal but running the risk of developing CHN (N = 27). Another patient group consisted of female patients with glomerular diseases (N = 12). At the same time, measurements of urinary microproteins (Clara cell protein, retinol binding protein, beta 2-microglobulin and alpha 1-microglobulin) were performed, as indicators of tubular dysfunction. Cell damage was estimated by the excretion of N-acetyl-beta-D-glucosaminidase (NAG). In the control group, the physiological NEP enzymuria was 43.1 micrograms/24 hr (geometric mean). In CHN patients, levels of urinary NEP were significantly decreased in those with moderate renal failure (26.7 micrograms/24 hr; N = 21; P < 0.05) and almost abolished in end-stage renal failure patients (4.35 micrograms/24 hr; N = 5; P < 0.05). In patients at risk as well as in patients with glomerular diseases, urinary NEP levels were not statistically different from those observed in control subjects (40.68 micrograms/24 hr and 48.5 micrograms/24 hr, respectively). Several degrees of tubular dysfunction and injury were noted in patients groups, as attested by increased urinary microproteins and NAG excretions. Considering the data from control and CHN patients, NEP enzymuria positively correlated with individual creatinine clearance values (r = 0.76; P = 0.0001) and negatively correlated with urinary microproteins levels (r = -0.55; P = 0.00001). Finally, NEP was regularly quantitated in the urine of 6 CHN patients for a period ranging from six months to two years and in 19 patients at risk during two years, respectively. In the first group, renal function progressively deteriorated in 3 patients, leading them to renal replacement therapy after 38 to 115 weeks. Stable parameters were observed in the remaining 3 patients. A direct correlation between creatinine clearance and NEP excretion was found longitudinally in each case. In the second group, no significant change of urinary NEP levels was observed (45.9 micrograms/24 hr), in parallel with stable renal function. Taken together, these results indicate that, in CHN patients, NEP enzymuria provides a rapid and noninvasive determination of the degree of structural impairment affecting the proximal tubular population and further reflecting the severity of the renal disease. The interest of this urinary marker in monitoring the progression of other tubulointerstitial diseases remains to be assessed.

Periovulatory elevation of angiotensin II in the peritoneal fluid during the human menstrual cycle.

Local variations in the ovarian renin-angiotensin system were investigated in peritoneal fluid (PF) during normal menstrual cycles and after ovarian stimulation with gonadotropins. PF was collected either during laparoscopy or by transvaginal aspiration before ovocyte retrieval for in vitro fertilization. Renin activity (RA) and angiotensin II immunoreactivity (Ang II-ir) were assayed in PF and simultaneously collected blood. The level of Ang II-ir was higher in PF than in plasma throughout the cycle, where as RA was in the same range of magnitude in the two compartments. In PF, Ang II-ir reached levels 2-5 times higher in the periovulatory period (days 12-14 and 15-17 of the cycle) than those found during the other stages of the cycle, whereas plasmatic Ang II-ir remained stable. No significant change could be demonstrated in RA throughout the cycle in either PF or plasma. Ovarian stimulation induced a strong elevation of Ang II-ir in PF, but not in plasma. High performance liquid chromatography revealed that the majority of Ang II-ir in PF was true Ang II. In conclusion, these results show a periovulatory elevation of Ang II in PF during the cycle and a more pronounced rise after treatment with gonadotropins. These observations support the involvement of Ang II in the process of ovulation or fecundation.

Bioactive angiotensin (1-8) is the main component of angiotensin II immunoreactivity in human follicular fluid.

The ovarian renin-angiotensin system is involved in various aspects of human reproduction. As immunoreactive measurement of angiotensin II (ANG II) in follicular fluid (FF) relates to several angiotensin peptides with different biological activities, HPLC was used to characterize the molecular forms of the ANG II immunoreactivity in human FF. Samples of FF, obtained from gonadotropin-stimulated patients for in vitro fertilization, were collected at the time of oocyte retrieval. The C-terminal 2-8 heptapeptide was never detected. HPLC analysis revealed for the first time that the major component of the ANG II-IR in human FF was the biologically active octapeptide ANG II.

Lipopolysaccharide induces upregulation of neutral endopeptidase 24.11 on human neutrophils: involvement of the CD14 receptor.

1. As lipopolysaccharide is a major stimulator of neutrophil responses during Gram-negative bacterial infections, we studied its effect on the membrane expression of neutral endopeptidase 24.11/CD10 on neutrophils in a model of endotoxaemia in vitro. Lipopolysaccharide added to human whole-blood induced a marked and sustained CD10/neutral endopeptidase upregulation that was already detectable at 0.1 ng/ml and was maximal at a lipopolysaccharide concentration of 10 ng/ml. 2. We observed that neither tumour necrosis factor-alpha nor any newly synthesized protein was involved in the upregulation observed after 1 h incubation with 10 ng/ml lipopolysaccharide. 3. We further studied whether the lipopolysaccharide-induced CD10/neutral endopeptidase upregulation was mediated by lipopolysaccharide binding to the neutrophil CD14 receptor. Incubation of whole blood with an anti-CD14 monoclonal antibody before the addition of 0.1 ng/ml or 0.5 ng/ml lipopolysaccharide resulted in complete inhibition of CD10/neutral endopeptidase upregulation. In contrast, at a lipopolysaccharide concentration of 10 ng/ml, the anti-CD14 monoclonal antibody had an incomplete blocking effect. 4. The differential requirement for the CD14 receptor, depending on the lipopolysaccharide dose, was confirmed by the study of a patient suffering from paroxysmal nocturnal haemoglobinuria (in whom a complete defect in neutrophil CD14 expression was previously documented). 5. We finally confirmed these results using purified neutrophils, demonstrating that lipopolysaccharide-induced CD10/neutral endopeptidase upregulation depends on direct interaction with neutrophil CD14.

Human neutrophil and plasma endopeptidase 24.11: quantification and respective roles in atrial natriuretic peptide hydrolysis.

Neutral endopeptidase 24.11 activities were quantified on human peripheral blood cell preparations (reflecting the enzyme concentration on the surface of neutrophils) and in the corresponding diluted plasmas by a spectrofluorimetric assay. Despite statistically identical values in both compartments, enzymatic activity towards atrial natriuretic peptide was not comparable. Indeed, incubation of the radiolabelled peptide in whole blood resulted in the thiorphan-sensitive production of the labelled metabolites Phe-Arg-Tyr and the Cys-Phe bond-cleaved peptide. A similar degradation pattern was observed for blood cells but not for plasma, providing evidence for the exclusive involvement of neutrophil endopeptidase in this peptide inactivation. In search for plasma component(s) susceptible to inhibit enzymatic activity, we observed that in the presence of alpha 2-macroglobulin at the physiological concentration of 3.5 mg mL-1, endopeptidase activity decreased from 100% to 51.2 +/- 8.9% (P = 0.002). Our data suggest that this protein could play a role in the endogenous inhibition of plasma endopeptidase activity.

Atriopeptin III degradation by endopeptidase 24.11: the Cys-Phe bond is not the preferential cleavage site.

Incubation of rANP(5-28)--also called atriopeptin III (AP III)--with purified endopeptidase 24.11 led preferentially to the production of Phe-Arg-Tyr, while other products of minor importance were detected. One of these was identified as rANP(5-25) (atriopeptin I) (AP I). This hydrolysis pattern of endopeptidase 24.11 towards AP III differs from the known favored site of cleavage at the Cys7-Phe8 bond of rANP(1-28). Moreover, by comparison with rANP(1-28), the degradation rate of AP III was slower. These data suggest that N-terminal peptide truncation results in conformational and/or charge modifications leading to a different positioning of the peptide in the endopeptidase 24.11 active site. In most hypothalamic nuclei of the rat brain known to contain AP III and endopeptidase 24.11, the preferential Ser25-Phe26 bond hydrolysis, although supposed to be responsible for a reduced degradation rate, might represent an effective enzymatic pathway of catabolism for AP III.

Enzymatic degradation of endothelin-1 by activated human polymorphonuclear neutrophils.

Endothelin-1 (ET-1) is a potent vasoconstrictor peptide secreted by endothelial cells. We investigated whether polymorphonuclear neutrophils (PMN) were able to destroy this peptide by enzymatic hydrolysis produced either by the membrane-bound endopeptidase 24.11 or by lysosomal proteinases released in the medium by activated cells. Resting and activated PMN were incubated with 125I-labelled ET-1 and the degradation fragments were analyzed by HPLC. A marked degradation of ET-1 was observed only in the presence of the stimulated cells, leading to the generation of seven radiolabelled peaks. Addition of phosphoramidon had no effect on the appearance of these metabolites, while soybean trypsin inhibitor abolished almost completely the degradation of the peptide, suggesting a role of cathepsin G in ET-1 hydrolysis. Among the purified leukocyte enzymes tested, cathepsin G hydrolyzed 125I-labelled ET-1 at the higher rate and gave rise to two radiolabelled peaks already observed in the presence of activated PMN. Incubation of unlabelled ET-1 with purified cathepsin G allowed to identify a major cleavage site corresponding to the His16-Leu17 bond, leading to the formation of inactive [1-16] fragments and the C-terminal pentapeptide. This mechanism of ET-1 inactivation could play a role in acute inflammatory reaction where PMN adhere to the vascular endothelial cells.

Inhibition of bone resorption in vitro by human enkephalinase (EC 3.4.24.11), a neutral metalloendopeptidase.

Bone metabolism is regulated by a wide variety of both circulating and locally produced peptides. The activity of such agents must be regulated, and one potential regulating mechanism is the inactivation of these peptides by locally produced proteolytic enzymes. One candidate for such a class of enzymes is enkephalinase (EC 2.3.24.11), a membrane-bound neutral metalloendopeptidase that inhibits the activity of a range of biologically active peptides, including interleukin-1 (IL-1), a potent bone-resorbing agent. In this study, we examined the effects of human enkephalinase on bone resorption in cultures of fetal rat long bones. We found that partially purified and highly purified enkephalinase inhibited bone resorption stimulated by parathyroid hormone (PTH) and IL-1 alpha. The effects on PTH-stimulated resorption were reversible, but enkephalinase did not inhibit prestimulated resorption. Enkephalinase also inhibited resorption induced by the nonpeptide stimulators 1,25-(OH)2D3, retinoic acid, and prostaglandin E2 (PGE2). In addition, preliminary studies confirmed a previous report of the presence of an enkephalinase-like activity in osteoblast-like osteosarcoma cells. These data are consistent with the hypothesis that proteolytic enzymes, such as enkephalinase, may play a role in the local regulation of bone resorption.

Pathological release of urinary endopeptidase 24.11 early after renal transplantation.

Endopeptidase 24.11 (EC 3.4.24.11) enzymatic activity was spectrofluorimetrically measured in human urine, using a synthetic peptidic substrate. Urinary endopeptidase 24.11 output (Uendo) was determined in 24-hour urine samples of 10 kidney transplant recipients during the first 2 weeks after surgery. In 9 patients, a large increase in Uendo levels was noted during the 1st and/or the 2nd postoperative days (mean +/- SEM of peak Uendo 624 +/- 122 micrograms/24 h, p = 0.0003 as compared to 239 +/- 20 micrograms/24 h in a healthy control population). This occurred whether patients received OKT3 (n = 6) or cyclosporine A (n = 3) as primary immunosuppression. Uendo returned to normal between the 3rd and the 5th postoperative day. We conclude that renal transplantation is associated with an early and marked release of endopeptidase 24.11 in urine. This could be due to the potentially toxic effects of ischemia and/or immunosuppressive drugs on the proximal tubular epithelium. The clinical usefulness of urinary endopeptidase 24.11 as a marker of tubular injury remains to be assessed.

Enkephalinase: a physiologic neuroimmunomodulator detected in the synovial fluid.

Enkephalinase (endopeptidase 24.11) is a metallopeptidase that is able to cleave not only neuropeptides and hormones but also immune mediators. The enzyme was quantified in synovial fluid obtained from 36 swollen joints. Its concentration correlated with the synovial fluid cell count, mainly the polymorphonuclear cells and lymphocytes, and with the erythrocyte sedimentation rate. No statistically significant difference in enkephalinase levels was demonstrated between the groups of patients with rheumatoid arthritis, seronegative spondylarthropathy, microcrystalline arthritis, or osteoarthritis. The presence of enkephalinase in the synovial fluid could reflect the intensity of the inflammatory process, or it could represent a physiologic regulator of inflammation and pain within the joint.

In vitro degradation of endothelin-1 by endopeptidase 24.11 (enkephalinase).

The breakdown of endothelin-1 by crude membrane preparations of human kidney and choroid plexus was investigated. 125I-labeled endothelin-1 was degraded by both tissues in a phosphoramidon-sensitive way, suggesting a role of endopeptidase 24.11 in the in vitro metabolism of this peptide. Identification of the cleavage sites of purified human renal endopeptidase 24.11 in the sequence of endothelin-1 revealed that bonds involving the amino side of the hydrophobic amino acids (Ser4, Leu6, Val12, Phe14, His16, Leu17, Ile19) were susceptible to cleavage. Endothelin-1 appears thus to be degraded at multiple sites by endopeptidase 24.11 in vitro, producing inactive fragments.