Kinesin-5 Eg5 is essential for spindle assembly, chromosome stability and organogenesis in development

Yu, Wenxin; Li, Yukun; Xu, Meng-Fei; Xu, Chenjie; Chen, Jie; Wei, Ya‐Lan; She, Zhen‐Yu

doi:10.1038/s41420-022-01281-1

Cited by 9 publications

(5 citation statements)

References 60 publications

(98 reference statements)

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“…KSP is a plus-end directed kinesin essential for bipolar spindle formation, and it was suggested that its overexpression in mice can lead to genomic instability and tumor development [ 12 , 14 ]. Its inhibition leads to the formation of monopolar spindles, activation of SAC, and consequently, mitotic arrest typically followed by cell death [ 11 , 14 ]. While Aurora B is a serine-threonine protein kinase member of the Aurora kinases family involved in correct chromosomal segregation and was shown to be overexpressed in poorly differentiated and metastasized OSCC [ 16 , 35 ].…”

Section: Resultsmentioning

confidence: 99%

“…KSP, also known as Eg5 and Kif11, is a kinesin-5 family member essential for bipolar mitotic spindle formation, microtubule cross-linking, and chromosome alignment [ 11 , 12 , 13 ]. The overexpression of KSP is associated with poor outcomes in breast and laryngeal cancers and its inhibition leads to the formation of monopolar spindles, activation of the spindle assembly checkpoint (SAC), and consequently, mitotic arrest followed by cell death [ 11 , 14 ].…”

Section: Introductionmentioning

confidence: 99%

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Coupling Kinesin Spindle Protein and Aurora B Inhibition with Apoptosis Induction Enhances Oral Cancer Cell Killing

Silva,

Pinto,

Monteiro

et al. 2024

Cancers

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Many proteins regulating mitosis have emerged as targets for cancer therapy, including the kinesin spindle protein (KSP) and Aurora kinase B (AurB). KSP is crucial for proper spindle pole separation during mitosis, while AurB plays roles in chromosome segregation and cytokinesis. Agents targeting KSP and AurB selectively affect dividing cells and have shown significant activity in vitro. However, these drugs, despite advancing to clinical trials, often yield unsatisfactory outcomes as monotherapy, likely due to variable responses driven by cyclin B degradation and apoptosis signal accumulation networks. Accumulated data suggest that combining emerging antimitotics with various cytostatic drugs can enhance tumor-killing effects compared to monotherapy. Here, we investigated the impact of inhibiting anti-apoptotic signals with the BH3-mimetic Navitoclax in oral cancer cells treated with the selective KSP inhibitor, Ispinesib, or AurB inhibitor, Barasertib, aiming to potentiate cell death. The combination of BH3-mimetics with both KSP and AurB inhibitors synergistically induced substantial cell death, primarily through apoptosis. A mechanistic analysis underlying this synergistic activity, undertaken by live-cell imaging, is presented. Our data underscore the importance of combining BH3-mimetics with antimitotics in clinical trials to maximize their effectiveness.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Coupling Kinesin Spindle Protein and Aurora B Inhibition with Apoptosis Induction Enhances Oral Cancer Cell Killing

Silva,

Pinto,

Monteiro

et al. 2024

Cancers

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“…The function of generated Eg5 protein in genetic MCLID KIF dependent gene is, of course, compromised: the microcephaly symptom could be due to the reduced activity of Eg5 in spindle formation, being this protein essential for organogenesis in general [ 3 ] and for neural development in particular [ 109 ]. However, the importance of KIF11 activity in the development and maintenance of retinal and lymphatic structures was highlighted by the fact that mutations in this gene were also detected in patients with chorioretinopathy and/or lymphedema, in addition to the microcephaly condition, supported by the finding that KIF11 is also localized in the inner segment and ciliary compartments of murine retina photoreceptor cells [ 110 ].…”

Section: Eg5 In Noncancerous Diseasesmentioning

confidence: 99%

“…Between the prophase and prometaphase, the mitotic spindle MTs, starting from the two centrosomes, extend across the cell cytoplasm. Eg5 reaches maximum concentration during these steps; thanks to its homotetrameric structure, anchors itself to the plus end extremity of interpolar MTs, allowing its overlapping at the equator of the cell and, at the same time, the separation of the two centrosomes at the opposite poles of the cell [ 2 , 3 ]. To allow bipolar spindle formation, different mechanisms of action coexist, such as phosphorylation or deacetylation of different Eg5 sites [ 4 ].…”

Section: Introductionmentioning

confidence: 99%

“…All these mechanistic processes determine bipolar spindle pole formation, followed by correct mitotic cell division ( Figure 1(a) ). Perturbations in Eg5 functions or perturbations in the phosphorylation process of Eg5 activation determine the formation of a monopolar spindle, called a monoaster, with failure in mitotic cell division ( Figure 1(b) ) [ 3 ]. This failure in the mitotic process and the formation of monopolar spindle, inevitably, trigger a programmed cell death.…”

Section: Introductionmentioning

confidence: 99%

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Eg5 and Diseases: From the Well‐Known Role in Cancer to the Less‐Known Activity in Noncancerous Pathological Conditions

Ricci,

Carradori,

Cataldi

et al. 2024

Biochemistry Research International

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Eg5 is a protein encoded by KIF11 gene and is primarily involved in correct mitotic cell division. It is also involved in nonmitotic processes such as polypeptide synthesis, protein transport, and angiogenesis. The scientific literature sheds light on the ubiquitous functions of KIF11 and its involvement in the onset and progression of different pathologies. This review focuses attention on two main points: (1) the correlation between Eg5 and cancer and (2) the involvement of Eg5 in noncancerous conditions. Regarding the first point, several tumors revealed an overexpression of this kinesin, thus pushing to look for new Eg5 inhibitors for clinical practice. In addition, the evaluation of Eg5 expression represents a crucial step, as its overexpression could predict a poor prognosis for cancer patients. Referring to the second point, in specific pathological conditions, the reduced activity of Eg5 can be one of the causes of pathological onset. This is the case of Alzheimer’s disease (AD), in which Aβ and Tau work as Eg5 inhibitors, or in acquired immune deficiency syndrome (AIDS), in which Tat‐mediated Eg5 determines the loss of CD4+ T‐lymphocytes. Reduced Eg5 activity, due to mutations of KIF11 gene, is also responsible for pathological conditions such as microcephaly with or without chorioretinopathy, lymphedema, or intellectual disability (MCLRI) and familial exudative vitreous retinopathy (FEVR). In conclusion, this review highlights the double impact that overexpression or loss of function of Eg5 could have in the onset and progression of different pathological situations. This emphasizes, on one hand, a possible role of Eg5 as a potential biomarker and new target in cancer and, on the other hand, the promotion of Eg5 expression/activity as a new therapeutic strategy in different noncancerous diseases.

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HN1 expression contributes to mitotic fidelity through Aurora A‐PLK1‐Eg5 axis

Özduman,

Şimşek,

Javed

et al. 2024

Cytoskeleton

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Hematological and neurological expressed 1 (HN1) is homolog of Jupiter protein from Drosophila melanogaster where it functions as a microtubule‐associated protein. However, in mammalian cells, HN1 is associated partially with y‐tubulin in centrosomes, Stathmin for stabilizing microtubules, and Cdh1 for regulating Cyclin B1 for cell cycle regulation. Moreover, HN1 overexpression leads to early mitotic exit as well. Other molecular functions and interactions of HN1 are not clear yet. Here, based on our previous analysis where HN1 was shown to cluster supernumerary centrosomes and maintain mitotic spindle assembly, we further investigated the role of HN1 in centrosome maintenance and mitotic fidelity in PC‐3 prostate and MDA‐MB231 mammary cancer cell lines. The maturation‐associated roles of HN1 during cell division by examining the AuroraA‐PLK1 axis involving a plus end kinesin, Eg5 as well as pericentriolar matrix protein (PCM1) as components of centrosomes were established. We found that HN1 co‐localized to centrioles with Eg5 and Aurora A to suppress aberrant spindle formation to ensure the fidelity of centriole/centrosome duplication when overexpressed. Consistently, depleting the HN1 expression using siRNA or shRNA resulted in an increased number of dysregulated mitotic spindle structures, where Aurora A as well as PLK1 co‐localizations with Eg5 and PCM1 were disrupted. Further, the PLK1 and Aurora A kinase's phosphorylations also decreased, confirming the hypothesis that the cells struggle in mitotic progression, display nuclear and cytokinetic abnormalities with supernumerary but immature mononucleated centrosomes. In summary, we described the role of HN1 in centrosome nucleation/maturation in PLK1‐Eg5 axis and concomitant mitotic spindle formation in human cells.

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Kinesin-5 Eg5 is essential for spindle assembly, chromosome stability and organogenesis in development

Cited by 9 publications

References 60 publications

Coupling Kinesin Spindle Protein and Aurora B Inhibition with Apoptosis Induction Enhances Oral Cancer Cell Killing

Coupling Kinesin Spindle Protein and Aurora B Inhibition with Apoptosis Induction Enhances Oral Cancer Cell Killing

Eg5 and Diseases: From the Well‐Known Role in Cancer to the Less‐Known Activity in Noncancerous Pathological Conditions

HN1 expression contributes to mitotic fidelity through Aurora A‐PLK1‐Eg5 axis

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