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Miro GTPase domains regulate the assembly of the mitochondrial motor–adaptor complex

Kayla Davis, Himanish Basu, Ismael Izquierdo, Ethan Shurberg, Thomas L. Schwarz

2022Life Science Alliance20 citationsDOIOpen Access PDF

Abstract

Mitochondrial transport relies on a motor-adaptor complex containing Miro1, a mitochondrial outer membrane protein with two GTPase domains, and TRAK1/2, kinesin-1, and dynein. Using a peroxisome-directed Miro1, we quantified the ability of GTPase mutations to influence the peroxisomal recruitment of complex components. Miro1 whose N-GTPase is locked in the GDP state does not recruit TRAK1/2, kinesin, or P135 to peroxisomes, whereas the GTP state does. Similarly, the expression of the MiroGAP VopE dislodges TRAK1 from mitochondria. Miro1 C-GTPase mutations have little influence on complex recruitment. Although Miro2 is thought to support mitochondrial motility, peroxisome-directed Miro2 did not recruit the other complex components regardless of the state of its GTPase domains. Neurons expressing peroxisomal Miro1 with the GTP-state form of the N-GTPase had markedly increased peroxisomal transport to growth cones, whereas the GDP-state caused their retention in the soma. Thus, the N-GTPase domain of Miro1 is critical for regulating Miro1's interaction with the other components of the motor-adaptor complex and thereby for regulating mitochondrial motility.

Topics & Concepts

Signal transducing adaptor proteinGTPaseSmall GTPaseCell biologyNeuroscienceBiologySignal transductionMitochondrial Function and PathologyATP Synthase and ATPases ResearchMetabolism and Genetic Disorders