Experimental and Molecular Medicine (Aug 2018)
Cell-penetrating artificial mitochondria-targeting peptide-conjugated metallothionein 1A alleviates mitochondrial damage in Parkinson’s disease models
Abstract
Parkinson’s disease: restoring mitochondrial function in disease models A peptide targeting mitochondria can help deliver an antioxidant protein to mitigate the effects of Parkinson’s disease in cellular and mouse models. Youngmi Pak from Kyung Hee University, Seoul, South Korea, and co-workers engineered bacteria to express the human version of an antioxidant protein called metallothionein 1A fused to a short peptide sequence so that it localizes to mitochondria, the cellular power plants. Once inside the mitochondria, the peptide is removed, leaving the mature antioxidant protein to mop up damaging free radicals, a common problem seen in the cells of patients with Parkinson’s disease, and restore mitochondria to a healthier state. The protein improved mitochondrial function in both a human cell line and in the neurons of mice with a Parkinson’s-like disease, suggesting it might also help patients with this devastating neurological condition.