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RhoA controls furrow formation

Pushing the spindle upwards with a needle (dotted lines, top) moves the RhoA zone (white) upwards (bottom).

Evidence that the cytokinetic apparatus is dependent on spindle microtubules comes primarily from classical experiments in which the spindle was manually moved or disrupted. On page 91, Bement et al. reveal the physiology that underlies these findings. Active RhoA localizes to a narrow zone at the site of future furrow formation in a microtubule-dependent manner, and the RhoA zone moves in response to spindle movement.RhoA, a GTPase that positively regulates actin–myosin contraction, has been detected before at the site of furrow formation. However, it wasn't clear if or how RhoA functioned in furrow formation, especially because both guanine nucleotide exchange factors, which activate RhoA, and GTPase-activating proteins, which inhibit are also in the furrow region.

Bement et al. injected sea urchin and Xenopus embryos with a GFP reporter for RhoA activity. Using 4D imaging, they saw active RhoA accumulate in a tight band at the site of the future furrow. Nocodozole, which disrupts microtubules, prevented RhoA localization, but drugs that depolymerize actin did not. The RhoA zone preceded furrow formation in both symmetric and asymmetric divisions.

When the team repeated classical experiments that altered the location or structure of the spindle, the RhoA zone relocated in a manner similar to the spindle movement, but took several minutes to do so. The delay in RhoA movement suggests that it is not directly tethered to the microtubules but is concentrated by them.

Microtubules thus appear to direct specification of the cytokinetic apparatus by establishing a local zone of RhoA activity, which then promotes the concentration of actin filaments and myosin-2. The team hypothesizes that RhoA regulatory proteins move along the microtubules toward the site of the future zone, as suggested by previous experiments. They think the presence of both RhoA activators and inhibitors increases the rate at which RhoA moves through the GTPase cycle, driving up the rate of activity in a narrow region without causing zone spreading. Although this hypothesis remains to be tested, the team's approach does bridge the gap between classical manipulation experiments and modern molecular genetic methods.

Rabiya S. Tuma

rabiya{at}nasw.org

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This Article Full Text (PDF, 576K) PPT slides of all figures Alert me when this article is cited Services Email this article Similar articles in this journal Alert me to new content in the JCB Download to citation manager Citing Articles Citing Articles via CrossRef Citing Articles via Google Scholar Google Scholar Articles by Tuma, R. S. Search for Related Content PubMed Articles by Tuma, R. S. Related Collections Related Article Social Bookmarking                            What's this?