The myosin family of motor proteins is implicated in mediating actin-based growth cone motility, but the roles of many myosins remain unclear. We previously implicated myosin 1c (M1c; formerly myosin Iβ) in the retention of lamellipodia (Wang et al., 1996). Here we address the role of myosin II (MII) in chick dorsal root ganglion neuronal growth cone motility and the contribution of M1c and MII to retrograde F-actin flow using chromophore-assisted laser inactivation (CALI). CALI of MII reduced neurite outgrowth and growth cone area by 25%, suggesting a role for MII in lamellipodial expansion. Micro-CALI of MII caused a rapid reduction in local lamellipodial protrusion in growth cones with no effects on filopodial dynamics. This is opposite to micro-CALI of M1c, which caused an increase in lamellipodial protrusion. We used fiduciary beads (Forscher et al., 1992) to observe retrograde F-actin flow during the acute loss of M1c or MII. Micro-CALI of M1c reduced retrograde bead flow by 76%, whereas micro-CALI of MII or the MIIB isoform did not. Thus, M1c and MIIB serve opposite and nonredundant roles in regulating lamellipodial dynamics, and M1c activity is specifically required for retrograde F-actin flow.
Myosin 1c and myosin IIB serve opposing roles in lamellipodial dynamics of the neuronal growth cone
T.J. Diefenbach and V.M. Latham contributed equally to this work.
M. Latham's present address is Dept of Adult Oncology, Dana Farber Cancer Institute, 44 Binney St., Boston MA 02115.
Abbreviations used in this paper: CALI, chromophore-assisted laser inactivation; DRG, dorsal root ganglion; MG, malachite green isothiocyanate; M1c, myosin 1c; MI, myosin I; MII, myosin II; MSD, mean squared displacement; MV, myosin V.
Thomas J. Diefenbach, Vaughan M. Latham, Dean Yimlamai, Canwen A. Liu, Ira M. Herman, Daniel G. Jay; Myosin 1c and myosin IIB serve opposing roles in lamellipodial dynamics of the neuronal growth cone . J Cell Biol 30 September 2002; 158 (7): 1207–1217. doi: https://doi.org/10.1083/jcb.200202028
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