Development of a Polo-like Kinase-1 Polo-Box Domain Inhibitor as a Tumor Growth Suppressor in Mice Models

Pethaiah Gunasekaran; Min Su Yim; Mija Ahn; Nak Kyun Soung; Jung Eun Park; Jaehi Kim; Geul Bang; Sang Chul Shin; Joonhyeok Choi; Minkyoung Kim; Hak Nam Kim; Young Ho Lee; Young Ho Chung; Kyeong Lee; Eunice Eunkyeong Kim; Young Ho Jeon; Min Ju Kim; Kyeong Ryoon Lee; Bo Yeon Kim; Kyung S. Lee; Eun Kyoung Ryu; Jeong Kyu Bang

doi:10.1021/acs.jmedchem.0c01451

Development of a Polo-like Kinase-1 Polo-Box Domain Inhibitor as a Tumor Growth Suppressor in Mice Models

Pethaiah Gunasekaran, Min Su Yim, Mija Ahn, Nak Kyun Soung, Jung Eun Park, Jaehi Kim, Geul Bang, Sang Chul Shin, Joonhyeok Choi, Minkyoung Kim, Hak Nam Kim, Young Ho Lee, Young Ho Chung, Kyeong Lee, Eunice Eunkyeong Kim, Young Ho Jeon, Min Ju Kim, Kyeong Ryoon Lee, Bo Yeon Kim, Kyung S. LeeEun Kyoung Ryu, Jeong Kyu Bang

Department of Pharmacy

Research output: Contribution to journal › Article › peer-review

16 Scopus citations

Abstract

Polo-like kinase-1 (Plk1) plays a key role in mitosis and has been identified as an attractive anticancer drug target. Plk1 consists of two drug-targeting sites, namely, N-terminal kinase domain (KD) and C-terminal polo-box domain (PBD). As KD-targeting inhibitors are associated with severe side effects, here we report on the pyrazole-based Plk1 PBD inhibitor, KBJK557, which showed a remarkable in vitro anticancer effect by inducing Plk1 delocalization, mitotic arrest, and apoptosis in HeLa cells. Further, in vivo optical imaging analysis and antitumorigenic activities in mouse xenograft models demonstrate that KBJK557 preferentially accumulates in cancer cells and selectively inhibits cancer cell proliferation. Pharmacokinetic profiles and partition coefficients suggest that KBJK557 was exposed in the blood and circulated through the organs with an intermediate level of clearance (t1/2, 7.73 h). The present investigation offers a strategy for specifically targeting cancer using a newly identified small-molecule inhibitor that targets the Plk1 PBD.

Original language	English
Pages (from-to)	14905-14920
Number of pages	16
Journal	Journal of Medicinal Chemistry
Volume	63
Issue number	23
DOIs	https://doi.org/10.1021/acs.jmedchem.0c01451
State	Published - 10 Dec 2020

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Gunasekaran, P., Yim, M. S., Ahn, M., Soung, N. K., Park, J. E., Kim, J., Bang, G., Shin, S. C., Choi, J., Kim, M., Kim, H. N., Lee, Y. H., Chung, Y. H., Lee, K., Eunkyeong Kim, E., Jeon, Y. H., Kim, M. J., Lee, K. R., Kim, B. Y., ... Bang, J. K. (2020). Development of a Polo-like Kinase-1 Polo-Box Domain Inhibitor as a Tumor Growth Suppressor in Mice Models. Journal of Medicinal Chemistry, 63(23), 14905-14920. https://doi.org/10.1021/acs.jmedchem.0c01451

@article{b9560ee8d97c4be098061d9d22e59a73,

title = "Development of a Polo-like Kinase-1 Polo-Box Domain Inhibitor as a Tumor Growth Suppressor in Mice Models",

abstract = "Polo-like kinase-1 (Plk1) plays a key role in mitosis and has been identified as an attractive anticancer drug target. Plk1 consists of two drug-targeting sites, namely, N-terminal kinase domain (KD) and C-terminal polo-box domain (PBD). As KD-targeting inhibitors are associated with severe side effects, here we report on the pyrazole-based Plk1 PBD inhibitor, KBJK557, which showed a remarkable in vitro anticancer effect by inducing Plk1 delocalization, mitotic arrest, and apoptosis in HeLa cells. Further, in vivo optical imaging analysis and antitumorigenic activities in mouse xenograft models demonstrate that KBJK557 preferentially accumulates in cancer cells and selectively inhibits cancer cell proliferation. Pharmacokinetic profiles and partition coefficients suggest that KBJK557 was exposed in the blood and circulated through the organs with an intermediate level of clearance (t1/2, 7.73 h). The present investigation offers a strategy for specifically targeting cancer using a newly identified small-molecule inhibitor that targets the Plk1 PBD.",

author = "Pethaiah Gunasekaran and Yim, {Min Su} and Mija Ahn and Soung, {Nak Kyun} and Park, {Jung Eun} and Jaehi Kim and Geul Bang and Shin, {Sang Chul} and Joonhyeok Choi and Minkyoung Kim and Kim, {Hak Nam} and Lee, {Young Ho} and Chung, {Young Ho} and Kyeong Lee and {Eunkyeong Kim}, Eunice and Jeon, {Young Ho} and Kim, {Min Ju} and Lee, {Kyeong Ryoon} and Kim, {Bo Yeon} and Lee, {Kyung S.} and Ryu, {Eun Kyoung} and Bang, {Jeong Kyu}",

note = "Publisher Copyright: {\textcopyright} 2020 American Chemical Society.",

year = "2020",

month = dec,

day = "10",

doi = "10.1021/acs.jmedchem.0c01451",

language = "English",

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Gunasekaran, P, Yim, MS, Ahn, M, Soung, NK, Park, JE, Kim, J, Bang, G, Shin, SC, Choi, J, Kim, M, Kim, HN, Lee, YH, Chung, YH, Lee, K, Eunkyeong Kim, E, Jeon, YH, Kim, MJ, Lee, KR, Kim, BY, Lee, KS, Ryu, EK & Bang, JK 2020, 'Development of a Polo-like Kinase-1 Polo-Box Domain Inhibitor as a Tumor Growth Suppressor in Mice Models', Journal of Medicinal Chemistry, vol. 63, no. 23, pp. 14905-14920. https://doi.org/10.1021/acs.jmedchem.0c01451

TY - JOUR

T1 - Development of a Polo-like Kinase-1 Polo-Box Domain Inhibitor as a Tumor Growth Suppressor in Mice Models

AU - Gunasekaran, Pethaiah

AU - Yim, Min Su

AU - Ahn, Mija

AU - Soung, Nak Kyun

AU - Park, Jung Eun

AU - Kim, Jaehi

AU - Bang, Geul

AU - Shin, Sang Chul

AU - Choi, Joonhyeok

AU - Kim, Minkyoung

AU - Kim, Hak Nam

AU - Lee, Young Ho

AU - Chung, Young Ho

AU - Lee, Kyeong

AU - Eunkyeong Kim, Eunice

AU - Jeon, Young Ho

AU - Kim, Min Ju

AU - Lee, Kyeong Ryoon

AU - Kim, Bo Yeon

AU - Lee, Kyung S.

AU - Ryu, Eun Kyoung

AU - Bang, Jeong Kyu

PY - 2020/12/10

Y1 - 2020/12/10

N2 - Polo-like kinase-1 (Plk1) plays a key role in mitosis and has been identified as an attractive anticancer drug target. Plk1 consists of two drug-targeting sites, namely, N-terminal kinase domain (KD) and C-terminal polo-box domain (PBD). As KD-targeting inhibitors are associated with severe side effects, here we report on the pyrazole-based Plk1 PBD inhibitor, KBJK557, which showed a remarkable in vitro anticancer effect by inducing Plk1 delocalization, mitotic arrest, and apoptosis in HeLa cells. Further, in vivo optical imaging analysis and antitumorigenic activities in mouse xenograft models demonstrate that KBJK557 preferentially accumulates in cancer cells and selectively inhibits cancer cell proliferation. Pharmacokinetic profiles and partition coefficients suggest that KBJK557 was exposed in the blood and circulated through the organs with an intermediate level of clearance (t1/2, 7.73 h). The present investigation offers a strategy for specifically targeting cancer using a newly identified small-molecule inhibitor that targets the Plk1 PBD.

AB - Polo-like kinase-1 (Plk1) plays a key role in mitosis and has been identified as an attractive anticancer drug target. Plk1 consists of two drug-targeting sites, namely, N-terminal kinase domain (KD) and C-terminal polo-box domain (PBD). As KD-targeting inhibitors are associated with severe side effects, here we report on the pyrazole-based Plk1 PBD inhibitor, KBJK557, which showed a remarkable in vitro anticancer effect by inducing Plk1 delocalization, mitotic arrest, and apoptosis in HeLa cells. Further, in vivo optical imaging analysis and antitumorigenic activities in mouse xenograft models demonstrate that KBJK557 preferentially accumulates in cancer cells and selectively inhibits cancer cell proliferation. Pharmacokinetic profiles and partition coefficients suggest that KBJK557 was exposed in the blood and circulated through the organs with an intermediate level of clearance (t1/2, 7.73 h). The present investigation offers a strategy for specifically targeting cancer using a newly identified small-molecule inhibitor that targets the Plk1 PBD.

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U2 - 10.1021/acs.jmedchem.0c01451

DO - 10.1021/acs.jmedchem.0c01451

M3 - Article

C2 - 33142063

AN - SCOPUS:85096855934

SN - 0022-2623

VL - 63

SP - 14905

EP - 14920

JO - Journal of Medicinal Chemistry

JF - Journal of Medicinal Chemistry

IS - 23

ER -

Development of a Polo-like Kinase-1 Polo-Box Domain Inhibitor as a Tumor Growth Suppressor in Mice Models

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