Neurotensin metabolism in the rat: Contribution of the kidney

The kidney plays a key role in the metabolism of neurotensin (NT). We have examined the renal mechanisms of NT clearance by measuring plasma NT basally and after 45 min infusion of NT(1–13) in intact rats, anephric rats (no glomerular filtration, no peritubular metabolism) and ureteral ligated rats (reduced filtration). Plasma NT was measured by radioimmunoassay with both C (biologically active end) and N terminal directed antisera. In anephric and ureteral ligated rats, basal plasma NT like immunoreactivity measured with either antisera was increased 3-fold compared with unoperated rats. C terminal concentrations were higher than N indicating that a C terminal variant of NT was present in basal plasma. Infusion of NT(1–13) increased N terminal NT from 36±3 to 249±35 pmol/l (p<0.01) in unoperated rats with significantly larger increases in the renally compromised groups. This was reflected in the reduced metabolic clearance rates (measured with the N terminal directed antisera) in the anephric (16±1 ml/kg/min) and ureteral ligated (17±3 ml/kg/min) rats when compared with the control rats (26±4 ml/kg/min). The similar reductions in the anephric and ureteral ligated rats suggested that the decrease in N terminal NT metabolism was from the absence of filtration. Infusion of NT did not increase C terminal NT immunoreactivity in intact, anephric and ureteral ligated rats showing that the C terminal end was extremely labile. However when endogenous converting enzyme activity was blocked by captopril administration there was a significant increase in C terminal immunoreactivity suggesting a role for converting enzyme like proteases in the clearance of the biologically active end of NT. The results indicate that glomerular filtration is important for the clearance of N terminal NT while the C terminal part can be rapidly cleared by non-renal mechanisms. The higher concentration of C than N terminal immunoreactivity in basal plasma of intact rats and the further increase when renal function is reduced suggests that a NT variant sharing the C terminal end may be of physiological significance.