Induction of nitric oxide synthase-2 proceeds with the concomitant downregulation of the endogenous caveolin levels.

Several cell types express inducible nitric oxide synthase (NOS2) in response to exogenous insults such as bacterial lipopolysaccharide (LPS) or proinflammatory cytokines. For instance, muscular cells treated with LPS and interferon gamma (IFN-gamma) respond by increasing the mRNA and protein levels of NOS2, and synthesize large amounts of nitric oxide. We show here that transcriptional induction of NOS2 in muscular cells proceeds with a concomitant decrease in the levels of caveolin-1, -2 and -3. Addition of *NO-releasing compounds to C2C12 muscle cells reveals that this downregulation of the caveolin (cav) levels is due to the presence of *NO itself in the case of caveolin-3 and to the action of the LPS/IFN-gamma in the case of cav-1 and cav-2. Likewise, muscle cells obtained from NOS2(-/-) knockout mice challenged with LPS/IFN-gamma could downregulate their levels of cav-1 but not of cav-3, unlike wild-type animals, in which both cav-1 and cav-3 levels diminished in the presence of the proinflammatory insult. Laser confocal immunofluorescence analysis proves that *NO exerts autocrine and paracrine actions, hence diminishing the cav-3 levels. When the induced NOS2 was purified using an affinity resin or immunoprecipitated from muscular tissues, it appears strongly bound not only to calmodulin but also to cav-1, and marginally to cav-2 and cav-3. When the cav levels where reduced using antisense oligonucleotides, an increase in the NOS2-derived.NO levels could be measured, demonstrating the inhibitory role of the three cav isoforms. Our results show that cells expressing NOS2 diminish their cav levels when the synthesis of *NO is required.

Nitro analogs of substrates for argininosuccinate synthetase and argininosuccinate lyase.

The nitro analogs of aspartate and argininosuccinate were synthesized and tested as substrates and inhibitors of argininosuccinate synthetase and argininosuccinate lyase, respectively. The Vmax for 3-nitro-2-aminopropionic acid was found to be 60% of the maximal rate of aspartate utilization in the reaction catalyzed by argininosuccinate synthetase. Only the nitronate form of this substrate, in which the C-3 hydrogen is ionized, was substrate active, indicating a requirement for a negatively charged group at the beta carbon. The V/K of the nitro analog of aspartate was 85% of the value of aspartate after correcting for the percentage of the active nitronate species. The nitro analog of argininosuccinate, N3-(L-1-carboxy-2-nitroethyl)-L-arginine, was a strong competitive inhibitor of argininosuccinate lyase but was not a substrate. The pH dependence of the observed pKi was consistent with the ionized carbon acid (pK = 8.2) in the nitronate configuration as the inhibitory material. The pH-independent pKi of 2.7 microM is 20 times smaller than the Km of argininosuccinate at pH 7.5. These results suggest that the tighter binding of the nitro analog relative to the substrate is due to the similarity in structure to a carbanionic intermediate in the reaction pathway.