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Reconstitution of actin-based motility of Listeria and Shigella using pure proteins

Author

Listed:
  • Thomas P. Loisel

    (Dynamique du Cytosquelette, LEBS, CNRS)

  • Rajaa Boujemaa

    (Dynamique du Cytosquelette, LEBS, CNRS)

  • Dominique Pantaloni

    (Dynamique du Cytosquelette, LEBS, CNRS)

  • Marie-France Carlier

    (Dynamique du Cytosquelette, LEBS, CNRS)

Abstract

Actin polymerization is essential for cell locomotion and is thought to generate the force responsible for cellular protrusions. The Arp2/3 complex is required to stimulate actin assembly at the leading edge in response to signalling1,2,3,4,5,6. The bacteria Listeria and Shigella bypass the signalling pathway and harness the Arp2/3 complex to induce actin assembly and to propel themselves in living cells7,8,9,10. However, the Arp2/3 complex alone is insufficient to promote movement. Here we have used pure components of the actin cytoskeleton to reconstitute sustained movement in Listeria and Shigella in vitro. Actin-based propulsion is driven by the free energy released by ATP hydrolysis linked to actin polymerization, and does not require myosin. In addition to actin and activated Arp2/3 complex, actin depolymerizing factor (ADF, or cofilin) and capping protein are also required for motility as they maintain a high steady-state level of G-actin, which controls the rate of unidirectional growth of actin filaments at the surface of the bacterium. The movement is more effective when profilin, α-actinin and VASP (for Listeria) are also included. These results have implications for our understanding of the mechanism of actin-based motility in cells.

Suggested Citation

  • Thomas P. Loisel & Rajaa Boujemaa & Dominique Pantaloni & Marie-France Carlier, 1999. "Reconstitution of actin-based motility of Listeria and Shigella using pure proteins," Nature, Nature, vol. 401(6753), pages 613-616, October.
  • Handle: RePEc:nat:nature:v:401:y:1999:i:6753:d:10.1038_44183
    DOI: 10.1038/44183
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    Cited by:

    1. Aravind Chandrasekaran & Kristin Graham & Jeanne C. Stachowiak & Padmini Rangamani, 2024. "Kinetic trapping organizes actin filaments within liquid-like protein droplets," Nature Communications, Nature, vol. 15(1), pages 1-14, December.

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