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lüll Posttranslational modifications in Cu,Zn-superoxide dismutase and mutations associated with amyotrophic lateral sclerosis Furukawa Y; O'Halloran TVAntioxid Redox Signal 2006[May]; 8 (5-6): 847-67Activation of the enzyme Cu,Zn-superoxide dismutase (SOD1) involves several posttranslational modifications including copper and zinc binding, as well as formation of the intramolecular disulfide bond. The copper chaperone for SOD1, CCS, is responsible for intracellular copper loading in SOD1 under most physiological conditions. Recent in vitro and in vivo assays reveal that CCS not only delivers copper to SOD1 under stringent copper limitation, but it also facilitates the stepwise conversion of the disulfide-reduced immature SOD1 to the active disulfide-containing enzyme. The two new functions attributed to CCS, (i.e., O(2)-dependent sulfhydryl oxidase- and disulfide isomerase-like activities) indicate that this protein has attributes of the larger class of molecular chaperones. The CCS-dependent activation of SOD1 is dependent upon oxygen availability, suggesting that the cell only loads copper and activates this enzyme when O(2)-based oxidative stress is present. Thiol/disulfide status as well as metallation state of SOD1 significantly affects its structure and protein aggregation, which are relevant in pathologies of a neurodegenerative disease, amyotrophic lateral sclerosis (ALS). The authors review here a mechanism for posttranslational activation of SOD1 and discuss models for ALS in which the most immature forms of the SOD1 polypeptide exhibits propensity to form toxic aggregates.|*Amyotrophic Lateral Sclerosis/enzymology/genetics[MESH]|*Mutation[MESH]|*Protein Processing, Post-Translational[MESH]|*Superoxide Dismutase/chemistry/genetics/metabolism[MESH]|Animals[MESH]|Dimerization[MESH]|Disulfides/metabolism[MESH]|Enzyme Activation[MESH]|Humans[MESH]|Molecular Chaperones/metabolism[MESH]|Molecular Sequence Data[MESH]|Oxidation-Reduction[MESH]|Protein Conformation[MESH]|Zinc/metabolism[MESH] |