L-arginine decreases alveolar macrophage proinflammatory monokine production during acute lung injury by a nitric oxide synthase-dependent mechanism.

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Recent clinical reports indicate that inhaled nitric oxide (NO) reduces lung parenchymal inflammation during acute lung injury; however, the mechanism of its protective effects remains incompletely understood. We hypothesized that the provision of substrate for local NO production (L-arginine) would reduce alveolar macrophage proinflammatory monokine production during endotoxin (ETX)-induced acute lung injury. Our purposes were to (1) determine alveolar macrophage tumor necrosis factor alpha (TNFalpha) and interleukin 1beta (IL-1beta) production after ETX-induced acute lung injury; (2) determine the effect of L-arginine on alveolar macrophage TNFalpha and IL-1beta production in ETX-induced acute lung injury; and (3) determine whether L-arginine's effects on the alveolar macrophage are mediated by NO. Rats received ETX (0.5 mg/kg intraperitoneal (i.p.)) or vehicle, with or without (1) L-arginine supplementation (300 mg/kg i.p.) and (2) nitric oxide synthase inhibition (N(G)-monomethyl-L-arginine, 30 mg/kg i.p.). Four hours later, alveolar macrophage were harvested by bronchoalveolar lavage and incubated at 10(6) cells/mL + 1 microg/mL phorbol myristase acetate for 24 hours. Cell-free supernatants were collected and assayed (enzyme-linked immunosorbent assay) for TNFalpha and IL-1beta. Sublethal ETX increased alveolar macrophage capacity to produce TNFalpha and IL-1beta (p < 0.05, analysis of variance and Bonferroni/Dunn). L-Arginine decreased alveolar macrophage TNFalpha and IL-1beta release during acute lung injury. Concurrent inhibition of nitric oxide synthase abrogated L-arginine's protective effects, suggesting that L-arginine's anti-inflammatory effects are mediated by NO. (1) L-Arginine is an immunomodulating nutritional supplement; (2) L-arginine decreases alveolar macrophage proinflammatory monokine production during ETX-induced acute lung injury by a nitric oxide synthase-dependent mechanism; and (3) the provision of exogenous substrate for local NO production may reduce inflammation during acute lung injury.