Abstract
Nitric oxide (NO) has a critical role in neuronal function; however, high levels lead to cellular injury. While guanidino-methylated arginines (MA) including asymmetric dimethylarginine (ADMA) and N(G)-methyl-l-arginine (NMA) are potent competitive inhibitors of nitric oxide synthase (NOS) and are released upon protein degradation, it is unknown whether their intracellular concentrations are sufficient to critically regulate neuronal NO production and secondary cellular function or injury. Therefore, we determine the intrinsic neuronal MA concentrations and their effects on neuronal NOS function and excitotoxic injury. Kinetic studies demonstrated that the K(m) for l-arginine is 2.38 microm with a V(max) of 0.229 micromol mg(-1) min(-1), while K(i) values of 0.67 microm and 0.50 microm were determined for ADMA and NMA, respectively. Normal neuronal concentrations of all NOS-inhibiting MA were determined to be approximately 15 microm, while l-arginine concentration is approximately 90 microm. These MA levels result in >50% inhibition of NO generation from neuronal NOS. Down-modulation or up-modulation of these neuronal MA levels, respectively, dramatically enhanced or suppressed NO-mediated excitotoxic injury. Thus, neuronal MA profoundly modulate NOS function and suppress NO mediated injury. Pharmacological modulation of the levels of these intrinsic NOS inhibitors offers a novel approach to modulate neuronal function and injury.
Highlights
The biological significance of guanidino-methylated arginine derivatives (MA)1 has been known since the inhibitory actions of NG-methyl-L-arginine (NMA) on macrophage-induced cytotoxicity were first demonstrated [1]
Endogenous Levels of asymmetric dimethylarginine (ADMA) and L-NMMA in Neuronal Tissue—To examine whether these MA nitric oxide synthase (NOS) inhibitors are present in sufficient concentration to basally modulate nitric oxide (NO) production from nNOS, we developed a novel method for measuring their intrinsic levels based on electrochemical detection using cation exchange chromatography of derivatized amino acids
These results show for the first time that neuronal cells have significant concentrations of endogenous MA and that these levels can be modulated by regulation of protein-arginine methyltransferases (PRMT)
Summary
The biological significance of guanidino-methylated arginine derivatives (MA)1 has been known since the inhibitory actions of NG-methyl-L-arginine (NMA) on macrophage-induced cytotoxicity were first demonstrated [1]. It is unknown if significant MA formation occurs in neurons and, in particular, if the levels of the critical NOS inhibiting MA, NMA, or ADMA are sufficient to modulate NO production from nNOS.
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