Marine biomolecules inhibit rat brain nitric oxide synthase activity

Abstract

A large number of substances of medical importance have been isolated from marine flora and fauna and their chemical structures were elucidated. Among the many compounds isolated in our laboratories only two compounds were identified as neurotoxins as they produced depolarizing effects in nerve fibers. The Xestospongin D and Araguspongin C, isolated and purified to 100% from sponge, Haliclona exigua were tested for their effects on rat brain nitric oxide synthase (NOS) activity in vitro. The results showed that NOS activity was significantly inhibited in a concentration and time dependent manner with an estimated IC 50 of 31.5 and 46.5 μM for Xestospongin D and Araguspongin C, respectively, and the maximum inhibition occurred within 3 min of incubation. To explore the mechanism of action of these compounds on NOS, we have conducted kinetic studies with l-arginine, NADPH and Ca 2+ in the presence of IC 50 concentrations of these two compounds. The maximum velocity ( V max) and enzyme constant ( K m) were calculated using the Michaelis–Menten equation. The results show that both compounds are competitive inhibitors of NOS with the substrate, l-arginine and uncompetitive with NADPH and free Ca 2+. The NOS inhibition by these two compounds was similar to N w-nitro- l-arginine methylester ( l-NAME), a known inhibitor of NOS. These results suggest that the marine biomolecules Xestospongin D and Araguspongin C are in vitro modulators of neuronal NOS.