The nitric oxide synthases (NOS) are a family of related enzymes which regulate the production of NO, a free radical gas implicated in a wide variety of biological processes. Vasodilation and increased tumor blood flow, increased vascular permeability, modulation of host tumoricidal activity, and free radical injury to tumor cells and adjacent normal tissues are pathophysiological features of malignant tumors that may be mediated by NO. We examined human brain tumors for three NOS isoforms and NADPH diaphrase, a histochemical marker of NOS activity in the brain. We detected increased expression of the brain and endothelial forms of NOS [NOS I and NOS II, respectively (C. Nathan and Q. Xie. Cell, 78: 915-919, 1994)] in astrocytic tumors, and the highest levels of expression was found in higher grade tumors. Each of these two isoforms was found in tumor cells and tumor endothelial cells. The macrophage isoform of NOS (NOS III) was less frequently detected and expressed at a lower level, predominantly in tumor endothelial cells. NADPH diaphorase staining for NOS activity paralleled this pattern of NOS expression. Western blot analysis of tumor tissues for these NOS isoforms confirmed these observations. Our data indicate that malignant central nervous system neoplasms express unexpectedly high levels of NOS and suggest that NO production may be associated with pathophysiological processes important to these tumors.