Identification of neprilysin as a potential target of arteannuin using computational drug repositioning

ABSTRACT The discovery of arteannuin (qinghaosu) in the 20th Century was a major advance for medicine. Besides functioning as a malaria therapy, arteannuin is a pharmacological agent in a range of other diseases, but its mechanism of action remains obscure. In this study, the reverse docking server PharmMapper was used to identify potential targets of arteannuin. The results were checked using the chemical-protein interactome servers DRAR-CPI and DDI-CPI, and verified by AutoDock Vina. The results showed that neprilysin (also known as CD10), a common acute lymphoblastic leukaemia antigen, was the top disease-related target of arteannuin. The chemical-protein interactome and docking results agreed with those of PharmMapper, further implicating neprilysin as a potential target. Although experimental verification is required, this study provides guidance for future pharmacological investigations into novel clinical applications for arteannuin.

Human neuroblastoma cells express a novel metallo-endopeptidase activity able to inactivate atrial natriuretic factor: inhibition during retinoic acid-induced differentiation

A new metallo-endopeptidase which hydrolyzes atrium natriuretic factor (ANF) has been isolated from human neuroblastoma NB-OK-1 cells. In the present study we show that this metallo-endopeptidase is also present in several other human neuroblastoma cell lines, which include CHP 100, SH-SY5Y, SK-N-BE(2), BE(2)-C and BE(2)M-17. Additionally, we show that this endopeptidase activity is reduced to about 20 per cent of the control during retinoic acid (RA)-induced neuronal differentiation in the RA-sensitive SK-N-BE(2) cells, but not in the RA-resistant BE(2)-M17 cells. This suggests that the inhibition is related to neuronal differentiation and not to a direct effect of 5 microM RA on the enzyme activity. This new enzyme is clearly distinct from neutral endopeptidase (NEP, EC 3.4.24.11) and angiotensin-converting enzyme (ACE,EC 3.4.15.1), since specific inhibitors for these endopeptidases (10 microM phosphoramidon and 1 mM captopril, respectively) had no effect on their activity. However, this enzyme was inhibited 100 per cent by 10 mM o-phenanthroline showing an inhibitory spectrum similar to that of another novel metallo-endopeptidase recently isolated in our laboratory from Xenopus laevis skin secretion. Although the physiological function of this new enzyme in human neuroblastoma cells is not known at the present time, we suggest that it may participate in inactivation of neuropeptides such as atrium natriuretic factor (ANF), substance P, somatostatin-14 and bradykinin in vivo