Journal Article Helical rotation of the diaphanous-related formin mDia1 generates actin filaments resistant to cofilin

Mizuno, Hiroaki  ,  Tanaka, Kotaro  ,  Yamashiro, Sawako  ,  Narita, Akihiro  ,  Watanabe, Naoki

115 ( 22 )  , pp.E5000 - E5007 , 2018-05-29 , National Academy of Sciences
分子が長距離にわたり細胞骨格線維を安定化する機構を発見 --フォルミンファミリーmDia1が回転重合によってアクチン線維のねじれを緩める--. 京都大学プレスリリース. 2018-05-31.
The complex interplay between actin regulatory proteins facilitates the formation of diverse cellular actin structures. Formin homology proteins (formins) play an essential role in the formation of actin stress fibers and yeast actin cables, to which the major actin depolymerizing factor cofilin barely associates. In vitro, F-actin decorated with cofilin exhibits a marked increase in the filament twist. On the other hand, a mammalian formin mDia1 rotates along the long-pitch actin helix during processive actin elongation (helical rotation). Helical rotation may impose torsional force on F-actin in the opposite direction of the cofilin-induced twisting. Here, we show that helical rotation of mDia1 converts F-actin resistant to cofilin both in vivo and in vitro. F-actin assembled by mDia1 without rotational freedom became more resistant to the severing and binding activities of cofilin than freely rotatable F-actin. Electron micrographic analysis revealed untwisting of the long-pitch helix of F-actin elongating from mDia1 on tethering of both mDia1 and the pointed end side of the filament. In cells, single molecules of mDia1ΔC63, an activated mutant containing N-terminal regulatory domains, showed tethering to cell structures more frequently than autoinhibited wild-type mDia1 and mDia1 devoid of N-terminal domains. Overexpression of mDia1ΔC63 induced the formation of F-actin, which has prolonged lifetime and accelerates dissociation of cofilin. Helical rotation of formins may thus serve as an F-actin stabilizing mechanism by which a barbed end-bound molecule can enhance the stability of a filament over a long range.

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