Differential abundance of CK1a provides selectivity for pharmacological CK1a activators to target WNT-dependent tumors

Bin Li; Darren Orton; Leif R. Neitzel; Luisana Astudillo; Chen Shen; Jun Long; Xi Chen; Kellye C. Kirkbride; Thomas Doundoulakis; Marcy L. Guerra; Julia Zaias; Dennis Liang Fei; Jezabel Rodriguez-Blanco; Curtis Thorne; Zhiqiang Wang; Ke Jin; Dao M. Nguyen; Laurence R. Sands; Floriano Marchetti; Maria T. Abreu; Melanie H. Cobb; Anthony J. Capobianco; Ethan Lee; David J. Robbin

doi:10.1126/scisignal.aak9916

Differential abundance of CK1a provides selectivity for pharmacological CK1a activators to target WNT-dependent tumors

Bin Li, Darren Orton, Leif R. Neitzel, Luisana Astudillo, Chen Shen, Jun Long, Xi Chen, Kellye C. Kirkbride, Thomas Doundoulakis, Marcy L. Guerra, Julia Zaias, Dennis Liang Fei, Jezabel Rodriguez-Blanco, Curtis Thorne, Zhiqiang Wang, Ke Jin, Dao M. Nguyen, Laurence R. Sands, Floriano Marchetti, Maria T. AbreuMelanie H. Cobb, Anthony J. Capobianco, Ethan Lee, David J. Robbin

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

28 Scopus citations

Abstract

Constitutive WNT activity drives the growth of various human tumors, including nearly all colorectal cancers (CRCs). Despite this prominence in cancer, no WNT inhibitor is currently approved for use in the clinic largely due to the small number of druggable signaling components in the WNT pathway and the substantial toxicity to normal gastrointestinal tissue. We have shown that pyrvinium, which activates casein kinase 1a (CK1α), is a potent inhibitor of WNT signaling. However, its poor bioavailability limited the ability to test this first-in-class WNT inhibitor in vivo. We characterized a novel small-molecule CK1α activator called SSTC3, which has better pharmacokinetic properties than pyrvinium, and found that it inhibited the growth of CRC xenografts in mice. SSTC3 also attenuated the growth of a patient-derived metastatic CRC xenograft, for which few therapies exist. SSTC3 exhibited minimal gastrointestinal toxicity compared to other classes of WNT inhibitors. Consistent with this observation, we showed that the abundance of the SSTC3 target, CK1α, was decreased in WNT-driven tumors relative to normal gastrointestinal tissue, and knocking down CK1α increased cellular sensitivity to SSTC3. Thus, we propose that distinct CK1α abundance provides an enhanced therapeutic index for pharmacological CK1a activators to target WNT-driven tumors.

Original language	English (US)
Article number	aak9916
Journal	Science signaling
Volume	10
Issue number	485
DOIs	https://doi.org/10.1126/scisignal.aak9916
State	Published - Jun 27 2017

ASJC Scopus subject areas

Biochemistry
Molecular Biology
Cell Biology

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Li, B., Orton, D., Neitzel, L. R., Astudillo, L., Shen, C., Long, J., Chen, X., Kirkbride, K. C., Doundoulakis, T., Guerra, M. L., Zaias, J., Fei, D. L., Rodriguez-Blanco, J., Thorne, C., Wang, Z., Jin, K., Nguyen, D. M., Sands, L. R., Marchetti, F., ... Robbin, D. J. (2017). Differential abundance of CK1a provides selectivity for pharmacological CK1a activators to target WNT-dependent tumors. Science signaling, 10(485), Article aak9916. https://doi.org/10.1126/scisignal.aak9916

Li, B, Orton, D, Neitzel, LR, Astudillo, L, Shen, C, Long, J, Chen, X, Kirkbride, KC, Doundoulakis, T, Guerra, ML, Zaias, J, Fei, DL, Rodriguez-Blanco, J, Thorne, C, Wang, Z, Jin, K, Nguyen, DM, Sands, LR, Marchetti, F, Abreu, MT, Cobb, MH, Capobianco, AJ, Lee, E & Robbin, DJ 2017, 'Differential abundance of CK1a provides selectivity for pharmacological CK1a activators to target WNT-dependent tumors', Science signaling, vol. 10, no. 485, aak9916. https://doi.org/10.1126/scisignal.aak9916

@article{154653e10e104250bd2dbf25737eec4c,

title = "Differential abundance of CK1a provides selectivity for pharmacological CK1a activators to target WNT-dependent tumors",

abstract = "Constitutive WNT activity drives the growth of various human tumors, including nearly all colorectal cancers (CRCs). Despite this prominence in cancer, no WNT inhibitor is currently approved for use in the clinic largely due to the small number of druggable signaling components in the WNT pathway and the substantial toxicity to normal gastrointestinal tissue. We have shown that pyrvinium, which activates casein kinase 1a (CK1α), is a potent inhibitor of WNT signaling. However, its poor bioavailability limited the ability to test this first-in-class WNT inhibitor in vivo. We characterized a novel small-molecule CK1α activator called SSTC3, which has better pharmacokinetic properties than pyrvinium, and found that it inhibited the growth of CRC xenografts in mice. SSTC3 also attenuated the growth of a patient-derived metastatic CRC xenograft, for which few therapies exist. SSTC3 exhibited minimal gastrointestinal toxicity compared to other classes of WNT inhibitors. Consistent with this observation, we showed that the abundance of the SSTC3 target, CK1α, was decreased in WNT-driven tumors relative to normal gastrointestinal tissue, and knocking down CK1α increased cellular sensitivity to SSTC3. Thus, we propose that distinct CK1α abundance provides an enhanced therapeutic index for pharmacological CK1a activators to target WNT-driven tumors.",

author = "Bin Li and Darren Orton and Neitzel, {Leif R.} and Luisana Astudillo and Chen Shen and Jun Long and Xi Chen and Kirkbride, {Kellye C.} and Thomas Doundoulakis and Guerra, {Marcy L.} and Julia Zaias and Fei, {Dennis Liang} and Jezabel Rodriguez-Blanco and Curtis Thorne and Zhiqiang Wang and Ke Jin and Nguyen, {Dao M.} and Sands, {Laurence R.} and Floriano Marchetti and Abreu, {Maria T.} and Cobb, {Melanie H.} and Capobianco, {Anthony J.} and Ethan Lee and Robbin, {David J.}",

note = "Publisher Copyright: {\textcopyright} 2017 The Authors.",

year = "2017",

month = jun,

day = "27",

doi = "10.1126/scisignal.aak9916",

language = "English (US)",

volume = "10",

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T1 - Differential abundance of CK1a provides selectivity for pharmacological CK1a activators to target WNT-dependent tumors

AU - Li, Bin

AU - Orton, Darren

AU - Neitzel, Leif R.

AU - Astudillo, Luisana

AU - Shen, Chen

AU - Long, Jun

AU - Chen, Xi

AU - Kirkbride, Kellye C.

AU - Doundoulakis, Thomas

AU - Guerra, Marcy L.

AU - Zaias, Julia

AU - Fei, Dennis Liang

AU - Rodriguez-Blanco, Jezabel

AU - Thorne, Curtis

AU - Wang, Zhiqiang

AU - Jin, Ke

AU - Nguyen, Dao M.

AU - Sands, Laurence R.

AU - Marchetti, Floriano

AU - Abreu, Maria T.

AU - Cobb, Melanie H.

AU - Capobianco, Anthony J.

AU - Lee, Ethan

AU - Robbin, David J.

PY - 2017/6/27

Y1 - 2017/6/27

N2 - Constitutive WNT activity drives the growth of various human tumors, including nearly all colorectal cancers (CRCs). Despite this prominence in cancer, no WNT inhibitor is currently approved for use in the clinic largely due to the small number of druggable signaling components in the WNT pathway and the substantial toxicity to normal gastrointestinal tissue. We have shown that pyrvinium, which activates casein kinase 1a (CK1α), is a potent inhibitor of WNT signaling. However, its poor bioavailability limited the ability to test this first-in-class WNT inhibitor in vivo. We characterized a novel small-molecule CK1α activator called SSTC3, which has better pharmacokinetic properties than pyrvinium, and found that it inhibited the growth of CRC xenografts in mice. SSTC3 also attenuated the growth of a patient-derived metastatic CRC xenograft, for which few therapies exist. SSTC3 exhibited minimal gastrointestinal toxicity compared to other classes of WNT inhibitors. Consistent with this observation, we showed that the abundance of the SSTC3 target, CK1α, was decreased in WNT-driven tumors relative to normal gastrointestinal tissue, and knocking down CK1α increased cellular sensitivity to SSTC3. Thus, we propose that distinct CK1α abundance provides an enhanced therapeutic index for pharmacological CK1a activators to target WNT-driven tumors.

AB - Constitutive WNT activity drives the growth of various human tumors, including nearly all colorectal cancers (CRCs). Despite this prominence in cancer, no WNT inhibitor is currently approved for use in the clinic largely due to the small number of druggable signaling components in the WNT pathway and the substantial toxicity to normal gastrointestinal tissue. We have shown that pyrvinium, which activates casein kinase 1a (CK1α), is a potent inhibitor of WNT signaling. However, its poor bioavailability limited the ability to test this first-in-class WNT inhibitor in vivo. We characterized a novel small-molecule CK1α activator called SSTC3, which has better pharmacokinetic properties than pyrvinium, and found that it inhibited the growth of CRC xenografts in mice. SSTC3 also attenuated the growth of a patient-derived metastatic CRC xenograft, for which few therapies exist. SSTC3 exhibited minimal gastrointestinal toxicity compared to other classes of WNT inhibitors. Consistent with this observation, we showed that the abundance of the SSTC3 target, CK1α, was decreased in WNT-driven tumors relative to normal gastrointestinal tissue, and knocking down CK1α increased cellular sensitivity to SSTC3. Thus, we propose that distinct CK1α abundance provides an enhanced therapeutic index for pharmacological CK1a activators to target WNT-driven tumors.

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VL - 10

JO - Science signaling

JF - Science signaling

IS - 485

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ER -

Differential abundance of CK1a provides selectivity for pharmacological CK1a activators to target WNT-dependent tumors

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