P>Membrane lipids and cytoskeleton dynamics are intimately inter-connected in the eukaryotic cell; however, only recently have the molecular mechanisms operating at this interface in plant cells been addressed experimentally. Phospholipase D (PLD) and its product phosphatidic acid (PA) were discovered to be important regulators in the membrane-cytoskeleton interface in eukaryotes. Here we report the mechanistic details of plant PLD-actin interactions. Inhibition of PLD by n-butanol compromises pollen tube actin, and PA rescues the detrimental effect of n-butanol on F-actin, showing clearly the importance of the PLD-PA interaction for pollen tube F-actin dynamics. From various candidate tobacco PLDs isoforms, we identified NtPLD beta 1 as a regulatory partner of actin, by both activity and in vitro interaction assays. Similarly to published data, the activity of tobacco PIP2-dependent PLD (PLD beta) is specifically enhanced by F-actin and inhibited by G-actin. We then identified the NtPLD beta 1 domain responsible for actin interactions. Using sequence- and structure-based analysis, together with site-directed mutagenesis, we identified Asn323 and Thr382 of NtPLD beta 1 as the crucial amino acids in the actin-interacting fold. The effect of antisense-mediated suppression of NtPLD beta 1 or NtPLD delta on pollen tube F-actin dynamics shows that NtPLD beta 1 is the active partner in PLD-actin interplay. The positive feedback loop created by activation of PLD beta by F-actin and of F-actin by PA provides an important mechanism to locally increase membrane-F-actin dynamics in the cortex of plant cells.

• 出版日期2010-5