Phospho-regulation of kinesin-5 during anaphase spindle elongation

Avunie-Masala, Rachel; Movshovich, Natalia; Nissenkorn, Yael; Gerson-Gurwitz, Adina; Fridman, Vladimir; Kõivomägi, Mardo; Loog, Mart; Hoyt, M. Andrew; Zaritsky, Arieh; Gheber, Larisa

doi:10.1242/jcs.077396

Cited by 67 publications

(111 citation statements)

References 54 publications

(76 reference statements)

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“…In contrast to Cin8, which detaches from the spindle midzone at late anaphase (Avunie-Masala et al, 2011), Kip1 remained attached to this region, during late anaphase stages. This difference in localization was confirmed by co-expressing Kip1-3GFP and Cin8-tdTomato: in the majority of lateanaphase spindles (.6 mm), Kip1 was enriched at the midzone compared to Cin8 (Fig.…”

Section: Kip1 Localizes To the Midzone Of Late-anaphase Spindlesmentioning

confidence: 85%

“…The differences in regulation of Cin8 and Kip1 at this stage may be due to the presence of the long loop 8 of Cin8, possibly exerting its timely function through phosphorylation of two Cdk1 phosphorylation sites, which are absent in Kip1. Detachment of Cin8 from the spindle slows down spindle elongation rate (Avunie-Masala et al, 2011) giving rise to the second, slower stage of anaphase spindle elongation, mediated by the motor activity of Kip1 (Straight et al, 1998). Kip1 remains attached to the midzone region until the spindle breaks down.…”

Section: Roles Of Kip1 In Anaphase Spindle Elongation and Breakdownmentioning

confidence: 99%

“…Live-cell imaging was done using a spinning-disc confocal microscope at the Ilse Katz Institute for Nanoscale Science and Technology (Zeiss Axiovert 200M, UltraView ESR, Perkin Elmer, UK), equipped with a FRAP module, as previously described (Avunie-Masala et al, 2011;Fridman et al, 2009;Gerson-Gurwitz et al, 2011). Z-stacks of 0.2-0.3 mm separations were acquired with frame time of 2-4 seconds/frame for in vivo imaging of MT dynamics, and 60 seconds/frame for spindle elongation measurements.…”

Section: Live-cell Imagingmentioning

confidence: 99%

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Kinesin-5 Kip1 is a bi-directional motor that stabilizes microtubules and tracks their plus-ends in vivo

Fridman

Gerson-Gurwitz

Shapira

et al. 2013

Journal of Cell Science

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122

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SummaryIn this study, we examined the anaphase functions of the S. cerevisiae kinesin-5 homolog Kip1. We show that Kip1 is attached to the mitotic spindle midzone during late anaphase. This attachment is essential to stabilize interpolar microtubule (iMTs) plus-ends. By detailed examination of iMT dynamics we show that at the end of anaphase, iMTs depolymerize in two stages: during the first stage, one pair of anti-parallel iMTs depolymerizes at a velocity of 7.7 mm/minute; during the second stage, ,90 seconds later, the remaining pair of iMTs depolymerizes at a slower velocity of 5.4 mm/minute. We show that upon the second depolymerization stage, which coincides with spindle breakdown, Kip1 follows the plus-ends of depolymerizing iMTs and translocates toward the spindle poles. This movement is independent of mitotic microtubule motor proteins or the major plus-end binding or tracking proteins. In addition, we show that Kip1 processively tracks the plus-ends of growing and shrinking MTs, both inside and outside the nucleus. The plus-end tracking activity of Kip1 requires its catalytic motor function, because a rigor mutant of Kip1 does not exhibit this activity. Finally, we show that Kip1 is a bi-directional motor: in vitro, at high ionic strength conditions, single Kip1 molecules move processively in the minus-end direction of the MTs, whereas in a multi-motor gliding assay, Kip1 is plus-end directed. The bi-directionality and plus-end tracking activity of Kip1, properties revealed here for the first time, allow Kip1 to perform its multiple functions in mitotic spindle dynamics and to partition the 2-micron plasmid.

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Section: Kip1 Localizes To the Midzone Of Late-anaphase Spindlesmentioning

confidence: 85%

Section: Roles Of Kip1 In Anaphase Spindle Elongation and Breakdownmentioning

confidence: 99%

Section: Live-cell Imagingmentioning

confidence: 99%

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Kinesin-5 Kip1 is a bi-directional motor that stabilizes microtubules and tracks their plus-ends in vivo

Fridman

Gerson-Gurwitz

Shapira

et al. 2013

Journal of Cell Science

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122

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“…One of the major factors that govern the mitotic spindle dynamics is the function of kinesin-5 motor proteins (1)(2)(3)(4)(5), which share homotetrameric structure, with two catalytic domains located at the opposite ends of a coiled-coil stalk (6,7). This bipolar structure enables kinesin-5 motors to cross-link and slide apart antiparallel microtubules (MTs) 4 (8,9), emanating from the opposing spindle poles, in yeast spindle pole bodies (SPBs) (10 -12).…”

mentioning

confidence: 99%

“…This bipolar structure enables kinesin-5 motors to cross-link and slide apart antiparallel microtubules (MTs) 4 (8,9), emanating from the opposing spindle poles, in yeast spindle pole bodies (SPBs) (10 -12). Kinesin-5 motors are believed to thus provide the necessary SPBseparating force to perform essential functions in spindle assembly and maintenance of the bipolar spindle structure (10,11) and anaphase B spindle elongation (1)(2)(3)(4)13).…”

mentioning

confidence: 99%

Deletion of the Tail Domain of the Kinesin-5 Cin8 Affects Its Directionality

Düselder

Fridman²,

Thiede

et al. 2015

Journal of Biological Chemistry

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Background: Single molecules of the kinesin-5 Cin8 were previously demonstrated to be minus-end-directed under highionic-strength conditions. Results: Under high-ionic-strength conditions, Cin8 lacking the tail domain is bidirectional. Conclusion:The tail domain is one of the factors that regulate Cin8 directionality. Significance: An important structural element was identified that regulates the directionality of kinesin-5 motors.

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Eg5 restricts anaphase B spindle elongation in mammalian cells

2013

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During anaphase, overlapping antiparallel microtubules in the spindle interzone elongate and contribute to chromosome segregation. Kinesin-5 family members are required for spindle elongation in some cells, but in other cases they restrict elongation acting like a brake. To determine how kinesin-5 contributes to spindle elongation in mammalian cells, we treated LLC-Pk1 epithelial cells with small molecule inhibitors of the mammalian kinesin-5, Eg5, at anaphase onset and measured the rate and extent of spindle pole separation using multidimensional tracking of centrosomes in cells expressing GFP-γ-tubulin. Centrosome separation was biphasic, with an initial fast phase followed by a slower phase. Treatment with the small molecule inhibitor, STLC, which weakens the interaction of Eg5 with microtubules, resulted in an increase in the rate of centrosome separation. Conversely, treatment with FCPT, which induces a rigor-like interaction of Eg5 with microtubules, reduced the rate of spindle elongation. In control cells, GFP-Eg5 was localized to spindle microtubules and accumulated in the interzone as anaphase progressed. Spindle fluorescence of GFP-Eg5 was decreased following treatment with STLC and increased in cells treated with FCPT. In anaphase cells, cortical dynein increases and rocking motion of spindle poles was detected consistent with the possibility that dynein mediates spindle elongation. In summary, our results demonstrate that Eg5 is not required for spindle elongation, and in fact, restricts the rate of spindle elongation in mammalian cells.

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Phospho-regulation of kinesin-5 during anaphase spindle elongation

Cited by 67 publications

References 54 publications

Kinesin-5 Kip1 is a bi-directional motor that stabilizes microtubules and tracks their plus-ends in vivo

Kinesin-5 Kip1 is a bi-directional motor that stabilizes microtubules and tracks their plus-ends in vivo

Deletion of the Tail Domain of the Kinesin-5 Cin8 Affects Its Directionality

Eg5 restricts anaphase B spindle elongation in mammalian cells

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