Proximal effects in the modulation of nitric oxide synthase reactivity: a QM-MM study.

Nitric oxide synthases (NOS) are heme proteins that have a cysteine residue as axial ligand, which generates nitric oxide (NO). The proximal environment, specifically H-bonding between tryptophan (Trp) 178 and thiolate, has been proposed to play a fundamental role in the modulation of NOS activity. We analyzed the molecular basis of this modulation by performing electronic structure calculations on isolated model systems and hybrid quantum-classical computations of the active sites in the protein environment for wild-type and mutant (Trp 178 x Gly) proteins. Our results show that in the ferrous proteins NO exhibits a considerable trans effect. We also showed that in the ferrous (Fe(+2)) mutant NOS the absence of Trp, experimentally associated to a protonated cysteine, weakens the Fe-S bond and yields five coordinate complexes. In the ferric (Fe(+3)) state, the NO dissociation energy is shown to be slightly smaller in the mutant NOS, implying that the Fe(+3)-NO complex has a shorter half-life. We found computational evidence suggesting that ferrous NOS is favored in wild-type NOS when compared to the Trp mutant, consistently with the fact that Trp mutants have been shown to accumulate less Fe(+2)-NO dead end species. We also found that the heme macrocycle showed a significant distortion in the wild-type protein, due to the presence of the nearby Trp 178. This may also play a role in the subtle tuning of the electronic structure of the heme moiety.

Protective effect of prolactin and placental lactogen on NO-induced Nb2 lymphoma cell apoptosis.

Nitric oxide (NO) is an important modulator involved in immune regulation. Here, we describe conditions under which NO-donors induce apoptosis on Nb2 lymphoma cells, as evidenced by decreased cell viability and increased hypodiploid DNA content determined by flow cytometry. In addition, DNA fragmentation typical of apoptosis was shown by agarose gel electrophoresis. This apoptosis was accompanied by a significant increase of caspase-3-like enzymatic activity. Both ovine prolactin (oPRL) and ovine placental lactogen (oPL) exerted a protective effect on the NO-donor-induced apoptosis. Furthermore, dexamethasone (Dex)-induced cell death was also associated with caspase-3-like activity and oPL had the same potency as oPRL in its protective effect on Dex-induced apoptosis of Nb2 cells.