Vasopeptidase inhibition (i.e., the simultaneous inhibition of both angiotensin-converting enzyme (ACE) and neutral endopeptidase) can ameliorate diabetic nephropathy. We investigated whether this nephroprotection is mediated by the bradykinin B2 receptor. In all, 43 obese Zucker diabetic fatty (ZDF/Gmi-fa/fa) rats aged 21 weeks were separated into four groups and treated for 26 weeks with either placebo, the bradykinin B2 receptor antagonist icatibant (500 μg kg−1 day−1 s.c. infusion), the vasopeptidase inhibitor AVE7688 (45 mg kg−1 day−1 in chow), or AVE7688 plus icatibant. Nephropathy was assessed as albuminuria at age 31 and 39 weeks, and by histopathologic scoring at the end of the treatment period. All animals had established diabetes mellitus (blood glucose >20 mmol l−1) and marked albuminuria at baseline. Blood glucose was not influenced by any treatment. Icatibant alone did not influence albuminuria (8.6±1.6 vs placebo 9.5±1.3 mg kg−1 h−1). AVE7688 reduced albuminuria at week 31 markedly to 1.1±0.1 mg kg−1 h−1 and reduced glomerular and tubulo-interstitial kidney damage at week 47. In the AVE7688 plus icatibant group, proteinuria was significantly higher than in the AVE7688 only group (2.0±0.6 mg kg−1 h−1), but still reduced compared to placebo. In addition, icatibant partly antagonized the tubulo-interstitial protection mediated by AVE7688. We conclude that vasopeptidase inhibition provides nephroprotection in rats with type II diabetic nephropathy, which is partly mediated by bradykinin B2 receptor activation. Keywords: Zucker diabetic fatty rat, diabetic nephropathy, vasopeptidase inhibition, AVE7688 Introduction Diabetic nephropathy is a devastating disease characterized by progressive impairment of glomerular function and, ultimately, end-stage renal disease. As a result of the diabetes epidemic in Westernized countries, the incidence of diabetic nephropathy is predicted to increase substantially over the next decade. In fact, type II diabetes has already become the most common single cause for renal replacement therapy in most industrialized countries (Ismail et al., 1999). Several landmark trials have demonstrated convincingly that blockade of the renin–angiotensin system, including inhibition of ACE, is effective to retard the progression of diabetic nephropathy and to prevent end-stage renal failure (Lewis et al., 1993; 2001; HOPE Study Investigators, 2000; Brenner et al., 2001). Part of the pharmacological action of ACE inhibitors is based on inhibition of bradykinin degradation, leading to increased stimulation of the bradykinin B2 receptor (Wirth et al., 1997). Blockade of the bradykinin B2 receptor partially prevented the cardiovascular benefits of ACE inhibition in different disease models, demonstrating the pharmacological relevance of bradykinin signaling in cardiovascular disease (for a review, see Linz et al., 1995). As bradykinin is degraded by both ACE and neutral endopeptidase, simultaneous inhibition of both enzymes by the novel vasopeptidase inhibitors is supposed to increase renal bradykinin concentrations and protect the diabetic kidney even more effectively than selective ACE inhibition alone (Molinaro et al., 2002). However, the relative role of bradykinin in the therapeutic action of vasopeptidase inhibitors in diabetic nephropathy has not been investigated so far. Recent data indicate that indeed, vasopeptidase inhibitors may be superior over pure ACE inhibitors, possibly related to their greater potency in increasing tissue bradykinin concentrations. The vasopeptidase inhibitor omapatrilat has shown superior nephroprotection over selective ACE inhibition in nondiabetic nephropathy (Taal et al., 2001) and in a hypoinsulinaemic, hypertensive model (Tikkanen et al., 1998; Davis et al., 2003). In the Zucker diabetic fatty (ZDF) rat, a type II diabetes animal model, the vasopeptidase inhibitor AVE7688 prevents nephropathy when treatment is started early (Schafer et al., 2003) and reduces proteinuria when diabetes and nephropathy are established (Schafer et al., 2004). In order to further elucidate the mechanism behind these nephroprotective effects, we investigated the effects of AVE7688 on functional and morphological end points in a setting of established diabetic nephropathy in the presence and absence of the bradykinin B2 receptor antagonist, icatibant. Our data indicate that the beneficial effects of vasopeptidase inhibition in type II diabetic nephropathy are partially, but not completely, mediated by the bradykinin B2 receptor.