The N‐end rule pathway and regulation by proteolysis

The N‐end rule relates the regulation of the in vivo half‐life of a protein to the identity of its N‐terminal residue. Degradation signals (degrons) that are targeted by the N‐end rule pathway include a set called N ‐degrons. The main determinant of an N ‐degron is a destabilizing N‐terminal residue of a protein. In eukaryotes, the N‐end rule pathway is a part of the ubiquitin system and consists of two branches, the Ac/N‐end rule and the Arg/N‐end rule pathways. The Ac/N‐end rule pathway targets proteins containing N α ‐terminally acetylated (Nt‐acetylated) residues. The Arg/N‐end rule pathway recognizes unacetylated N‐terminal residues and involves N‐terminal arginylation. Together, these branches target for degradation a majority of cellular proteins. For example, more than 80% of human proteins are cotranslationally Nt‐acetylated. Thus, most proteins harbor a specific degradation signal, termed Ac N ‐degron, from the moment of their birth. Specific N‐end rule pathways are also present in prokaryotes and in mitochondria. Enzymes that produce N ‐degrons include methionine‐aminopeptidases, caspases, calpains, Nt‐acetylases, Nt‐amidases, arginyl‐transferases, and leucyl‐transferases. Regulated degradation of specific proteins by the N‐end rule pathway mediates a legion of physiological functions, including the sensing of heme, oxygen, and nitric oxide; selective elimination of misfolded proteins; the regulation of DNA repair, segregation, and condensation; the signaling by G proteins; the regulation of peptide import, fat metabolism, viral and bacterial infections, apoptosis, meiosis, spermatogenesis, neurogenesis, and cardiovascular development; and the functioning of adult organs, including the pancreas and the brain. Discovered 25 years ago, this pathway continues to be a fount of biological insights.