S-Trityl-L-cysteine Is a Reversible, Tight Binding Inhibitor of the Human Kinesin Eg5 That Specifically Blocks Mitotic Progression

Skoufias, Dimitrios A.; DeBonis, Salvatore; Saoudi, Yasmina; Lebeau, Luc; Crevel, Isabelle; Cross, Robert A.; Wade, Richard H.; Hackney, David D.; Kozielski, Frank

doi:10.1074/jbc.m511735200

Cited by 250 publications

(268 citation statements)

References 42 publications

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“…In HeLa cells, STLC suppresses cell proliferation by induction of transient arrest in the G 2 -M phase of the cell cycle, followed by subsequent apoptosis (7,8). STLC-treated PC3M cells underwent a transient G 2 -M arrest, followed by polyploidy, whereas docetaxel-treated PC3M cells proceeded to apoptosis after a transient G 2 -M arrest.…”

Section: Discussionmentioning

confidence: 99%

“…STLC (Fig. 1A) is a reversible, tight-binding inhibitor of Eg5, inducing prolonged mitotic arrest and subsequent apoptosis in cell lines derived from different tumor types (6)(7)(8). STLC is currently under further chemical optimization and the best analogues have IC 50 values in vitro and in cell-based assays in the low nanomolar range (6,9,10).…”

Section: Introductionmentioning

confidence: 99%

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Docetaxel-Resistant Prostate Cancer Cells Remain Sensitive toS-Trityl-l-Cysteine–Mediated Eg5 Inhibition

Wiltshire

Singh

Stockley

et al. 2010

Molecular Cancer Therapeutics

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Castrate-resistant prostate cancer remains a major clinical challenge. Due to the toxicity profile of taxane-based chemotherapy and treatment failure in some patients, novel agents with improved efficacy to side effect profiles are urgently needed. Eg5, a member of the kinesin-5 family, controls the formation of the bipolar spindle during cell division, and suppressed Eg5 function leads to mitotic arrest. S-Trityl-Lcysteine (STLC) is a novel Eg5-specific small-molecule inhibitor. Here, we report the first study to evaluate its use in prostate cancer. In a panel of prostate cancer cells, LNCaP and PC3 cells were the most and least sensitive to STLC treatment, with a 7.2-fold difference in their respective GI 50 values: 250 nmol/L and 1.8 μmol/L. In LNCaP cells, treatment with either STLC or docetaxel resulted in transient G 2 -M arrest and subsequent caspase-mediated cell death. However, STLC-and docetaxel-treated PC3M cells have distinct fates: STLC induced a transient G 2 -M arrest, followed by polyploidy; in contrast, docetaxel-treated PC3M cells progressed to apoptosis after a transient G 2 -M arrest. Docetaxel-resistant LNCaP-derived (LDocR) cells respond to STLC in a similar manner to the parental cells. Although the docetaxel-resistant PC3M-derived (PDocR) cell line and its parental PC3M cells have similar GI 50 to STLC treatment, PDocR cells showed significantly more G 2 -M arrest and less apoptosis. Hence, although docetaxel-resistant prostate cancer cells remain responsive to Eg5 inhibition with STLC, there are key differences at the cell cycle level, which may have implication in future development.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Docetaxel-Resistant Prostate Cancer Cells Remain Sensitive toS-Trityl-l-Cysteine–Mediated Eg5 Inhibition

Wiltshire

Singh

Stockley

et al. 2010

Molecular Cancer Therapeutics

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“…Chemical analogues of STLC have also been recently evaluated as potential inhibitors [15,16]. STLC, like monastrol and most if not all of the known Eg5 inhibitors, also inhibits mitosis, promoting the characteristic mono-astral spindle phenotype [10,17]. Induction of aberrant mitosis in tumor cells leads to consequent mitotic arrest, which is often followed by apoptotic cell death [18,19].…”

Section: Introductionmentioning

confidence: 99%

Mutations in the human kinesin Eg5 that confer resistance to monastrol and S-trityl-l-cysteine in tumor derived cell lines

Tcherniuk

Lis

Kozielski

et al. 2010

Biochemical Pharmacology

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. Mutations in the human kinesin Eg5 that confer resistance to monastrol and S-Trityl-L-Cysteine in tumor derived cell lines.. Biochemical Pharmacology, Elsevier, 2010, 79 (6) This is a PDF file of an unedited manuscript that has been accepted for publication. As a service to our customers we are providing this early version of the manuscript. The manuscript will undergo copyediting, typesetting, and review of the resulting proof before it is published in its final form. Please note that during the production process errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain. confirms the target specificity of monastrol and STLC for Eg5. These data also suggest a possible mechanism by which drug resistance may occur in tumors treated with agents targeting Eg5.

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“…To verify the use of FIB-sculpted cantilevers for confinement of mitotic cells, we performed pilot experiments on rounded HeLa cells chemically arrested in mitosis with an inhibitor of kinesin Eg5, S-trityl-L-cysteine (STC) (20). By exploiting the feedback functionality of AFM, stable deployment of both constant-height and constant-force modes could be demonstrated, which we refer to as "height confinement" and "force confinement" experiments ( Fig.…”

Section: Significancementioning

confidence: 99%

Mechanical control of mitotic progression in single animal cells

Cattin

Düggelin

Martínez-Martín

et al. 2015

Proc. Natl. Acad. Sci. U.S.A.

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Despite the importance of mitotic cell rounding in tissue development and cell proliferation, there remains a paucity of approaches to investigate the mechanical robustness of cell rounding. Here we introduce ion beam-sculpted microcantilevers that enable precise force-feedback-controlled confinement of single cells while characterizing their progression through mitosis. We identify three force regimes according to the cell response: small forces (∼5 nN) that accelerate mitotic progression, intermediate forces where cells resist confinement (50-100 nN), and yield forces (>100 nN) where a significant decline in cell height impinges on microtubule spindle function, thereby inhibiting mitotic progression. Yield forces are coincident with a nonlinear drop in cell height potentiated by persistent blebbing and loss of cortical F-actin homogeneity. Our results suggest that a buildup of actomyosin-dependent cortical tension and intracellular pressure precedes mechanical failure, or herniation, of the cell cortex at the yield force. Thus, we reveal how the mechanical properties of mitotic cells and their response to external forces are linked to mitotic progression under conditions of mechanical confinement.

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S-Trityl-L-cysteine Is a Reversible, Tight Binding Inhibitor of the Human Kinesin Eg5 That Specifically Blocks Mitotic Progression

Cited by 250 publications

References 42 publications

Docetaxel-Resistant Prostate Cancer Cells Remain Sensitive toS-Trityl-l-Cysteine–Mediated Eg5 Inhibition

Docetaxel-Resistant Prostate Cancer Cells Remain Sensitive toS-Trityl-l-Cysteine–Mediated Eg5 Inhibition

Mutations in the human kinesin Eg5 that confer resistance to monastrol and S-trityl-l-cysteine in tumor derived cell lines

Mechanical control of mitotic progression in single animal cells

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