gp120 HIV envelope glycoprotein increases the production of nitric oxide in human monocyte-derived macrophages

Abstract

The effect of recombinant gp120 HIV envelope glycoprotein on the generation of free radicals by monocyte-derived macrophages (MDM) was measured by EPR spin trapping with 5,5 -dimethyl-1-pyrroline-N-oxide (DMPO). After 1 day in culture, MDM produced a spin trap adduct of DMPO with hyperfine splitting constants superimposable on those of DMPO-OH. The addition of gp120 to MDM increased the production of DMPO-OH and after 1 h, the amount of DMPO-OH produced by 40 μg/ml gp120 was about 300% that of untreated MDM. The use of selective inhibitors suggested the participation of the nitric oxide/l-arginine oxidative pathway, but did not provide evidence for trapping of hydroxyl radical or other oxygen free radicals. The specificity of gp120 was proven by two different anti-gp120 antibodies that either in-hibited (polyclonal) or increased (monoclonal) the production of free radicals. Dexamethasone inhibited the effect of gp120, suggesting the possible involvement of an inducible nitric oxide (NO^·) synthase. Moreover, treatment of MDM with gp120 for 15 h increased in a dose-dependent manner the production of NO₂ ^-, a stable end product of NO^·. Soluble CD4 did not modify the intensity of the DMPO-OH adduct, whereas yeast mannan and Ca²⁺-chelators abolished the increase in the DMPO-OH signal induced by gp120. These data suggest the possible involvement of mannose-specific endocytotic lectin of MDM. The reaction of DMPO with sodium nitroprusside, an organic nitrate that releases NO^·, also produced DMPO-OH. Our findings indicate that gpl20 increases free radical production from MDM as detected by spin-trapping methods, and that the spin trap adduct results from a reaction involving NO^· or closely related oxidized derivatives. J. Leukoc. Biol. 55: 175–182; 1994.