The N-end rule pathway as a nitric oxide sensor controlling the levels of multiple regulators

The conjugation of arginine to proteins is a part of the N- end rule pathway of protein degradation. Three amino (N)-terminal residues - aspartate, glutamate and cysteine - are arginylated by ATE1-encoded arginyl-transferases. Here we report that oxidation of N- terminal cysteine is essential for its arginylation. The in vivo oxidation of N- terminal cysteine, before its arginylation, is shown to require nitric oxide. We reconstituted this process in vitro as well. The levels of regulatory proteins bearing N- terminal cysteine, such as RGS4, RGS5 and RGS16, are greatly increased in mouse ATE1(-/-) embryos, which lack arginylation. Stabilization of these proteins, the first physiological substrates of mammalian N- end rule pathway, may underlie cardiovascular defects in ATE1(-/-) embryos. Our findings identify the N- end rule pathway as a new nitric oxide sensor that functions through its ability to destroy specific regulatory proteins bearing N- terminal cysteine, at rates controlled by nitric oxide and apparently by oxygen as well.