Composition and dynamics of human mitochondrial nucleoids

The organization of multiple mitochondrial DNA (mtDNA) molecules in discrete protein-DNA complexes called nucleoids is well studied in Saccharomyces cerevisiae. Similar structures have recently been observed in human cells by the colocalization of a Twinkle-GFP fusion protein with mtDNA. However, nucleoids in mammalian cells are poorly characterized and are often thought of as relatively simple structures, despite the yeast paradigm. In this article we have used immunocytochemistry and biochemical isolation procedures to characterize the composition of human mitochondrial nucleoids. The results show that both the mitochondrial transcription factor TFAM and mitochondrial single-stranded DNA-binding protein colocalize with Twinkle in intramitochondrial foci defined as nucleoids by the specific incorporation of bromodeoxyuridine. Furthermore, mtDNA polymerase POLG and various other as yet unidentified proteins copurify with mtDNA nucleoids using a biochemical isolation procedure, as does TFAM. The results demonstrated that mtDNA in mammalian cells is organized in discrete protein-rich structures within the mitochondrial network. In vivo time-lapse imaging of nucleoids show they are dynamic structures able to divide and redistribute in the mitochondrial network and suggest that nucleoids are the mitochondrial units of inheritance. Nucleoids did not colocalize with dynamin-related protein 1, Drp1, a protein of the mitochondrial fission machinery.