L-NMMA IN BRAIN MICROCIRCULATION OF MICE IS INHIBITED BY BLOCKADE OF CYCLOOXYGENASE AND BY SUPEROXIDE-DISMUTASE

As previously reported, N(G)-monomethyl-L-arginine (L-NMMA) constricted pial arterioles, inhibited dilation of pial arterioles by acetylcholine (ACh) or L-arginine (L-Arg), and enhanced platelet adhesion/aggregation at sites of endothelial damage. However, all of these effects were inhibited by local application of 20-mu-g/ml indomethacin (Indo). When 100-mu-g/ml acetylsalicylic acid were used instead of Indo, the acid also blocked the effects of L-NMMA. Superoxide dismutase (SOD; 50 U/ml) blocked the constriction produced by L-NMMA and also blocked the constriction produced by N(omega)-nitro-L-arginine (NNA). SOD also prevented L-NMMA from blocking dilation by ACh. SOD itself had no effect on diameter or on the response to ACh, norepinephrine, or BaCl2. The effects of L-NMMA and of Indo were also selective. Thus L-NMMA did not inhibit dilation by prostacyclin or bradykinin, and Indo did not inhibit dilation by prostacyclin. Indo did not interfere with the ability of arginase to enhance platelet adhesion/aggregation or with the ability of ACh or L-Arg to inhibit adhesion/aggregation. We conclude that in mouse cerebral microcirculation the ability of L-NMMA and NNA to constrict arterioles, the ability of L-NMMA to inhibit dilation by ACh or L-Arg and the ability of L-NMMA to enhance platelet adhesion/aggregation are all related to interference with phenomena dependent on "classical" endothelium-derived relaxing factor (EDRF(ACh)). However, in this preparation the action of L-NMMA or NNA may not be due to competitive inhibition of the enzyme producing EDRF(ACh) from L-Arg. Rather, L-NMMA and NNA appear to activate cyclooxygenase with resultant production of superoxide, which inactivates EDRF(ACh).