Current Biology
Volume 14, Issue 22, 23 November 2004, Pages 1996-2004
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Article
Live Cell Imaging of Mitochondrial Movement along Actin Cables in Budding Yeast

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Abstract

Background: Mitochondrial inheritance is essential for cell division. In budding yeast, mitochondrial movement from mother to daughter requires (1) actin cables, F-actin bundles that undergo retrograde movement during elongation from buds into mother cells; (2) the mitochore, a mitochondrial protein complex implicated in linking mitochondria to actin cables; and (3) Arp2/3 complex-mediated force generation on mitochondria.

Results: We observed three new classes of mitochondrial motility: anterograde movement at velocities of 0.2–0.33 μm/s, retrograde movement at velocities of 0.26–0.51 μm/s, and no net anterograde or retrograde movement. In all cases, motile mitochondria were associated with actin cables undergoing retrograde flow at velocities of 0.18–0.62 μm/s. Destabilization of actin cables or mutations of the mitochore blocked all mitochondrial movements. In contrast, mutations in the Arp2/3 complex affected anterograde but not retrograde mitochondrial movements.

Conclusions: Actin cables are required for movement of mitochondria, secretory vesicles, mRNA, and spindle alignment elements in yeast. We provide the first direct evidence that one of the proposed cargos use actin cables as tracks. In the case of mitochondrial inheritance, anterograde movement drives transfer of the organelle from mothers to buds, while retrograde movement contributes to retention of the organelle in mother cells. Interaction of mitochondria with actin cables is required for anterograde and retrograde movement. In contrast, force generation on mitochondria is required only for anterograde movement. Finally, we propose a novel mechanism in which actin cables serve as “conveyor belts” that drive retrograde organelle movement.

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Present address: Department of Dental Biomaterials, Seoul National University, Seoul, 110-749, Korea.