High-throughput screening of tyrosine kinase inhibitor cardiotoxicity with human induced pluripotent stem cells

Arun Sharma; Paul W. Burridge; Wesley L. McKeithan; Ricardo Serrano; Praveen Shukla; Nazish Sayed; Jared M. Churko; Tomoya Kitani; Haodi Wu; Alexandra Holmström; Elena Matsa; Yuan Zhang; Anusha Kumar; Alice C. Fan; Juan C. Del Álamo; Sean M. Wu; Javid J. Moslehi; Mark Mercola; Joseph C. Wu

doi:10.1126/scitranslmed.aaf2584

High-throughput screening of tyrosine kinase inhibitor cardiotoxicity with human induced pluripotent stem cells

Arun Sharma, Paul W. Burridge, Wesley L. McKeithan, Ricardo Serrano, Praveen Shukla, Nazish Sayed, Jared M. Churko, Tomoya Kitani, Haodi Wu, Alexandra Holmström, Elena Matsa, Yuan Zhang, Anusha Kumar, Alice C. Fan, Juan C. Del Álamo, Sean M. Wu, Javid J. Moslehi, Mark Mercola, Joseph C. Wu^*

^*Corresponding author for this work

Pharmacology

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

317 Scopus citations

Abstract

Tyrosine kinase inhibitors (TKIs), despite their efficacy as anticancer therapeutics, are associated with cardiovascular side effects ranging from induced arrhythmias to heart failure. We used human induced pluripotent stem cell-derived cardiomyocytes (hiPSC-CMs), generated from 11 healthy individuals and 2 patients receiving cancer treatment, to screen U.S. Food and Drug Administration-approved TKIs for cardiotoxicities by measuring alterations in cardiomyocyte viability, contractility, electrophysiology, calcium handling, and signaling. With these data, we generated a "cardiac safety index" to reflect the cardiotoxicities of existing TKIs. TKIs with low cardiac safety indices exhibit cardiotoxicity in patients. We also derived endothelial cells (hiPSC-ECs) and cardiac fibroblasts (hiPSC-CFs) to examine cell type-specific cardiotoxicities. Using high-throughput screening, we determined that vascular endothelial growth factor receptor 2 (VEGFR2)/platelet-derived growth factor receptor (PDGFR)-inhibiting TKIs caused cardiotoxicity in hiPSC-CMs, hiPSC-ECs, and hiPSC-CFs. With phosphoprotein analysis, we determined that VEGFR2/PDGFR-inhibiting TKIs led to a compensatory increase in cardioprotective insulin and insulin-like growth factor (IGF) signaling in hiPSC-CMs. Up-regulating cardioprotective signaling with exogenous insulin or IGF1 improved hiPSC-CM viability during cotreatment with cardiotoxic VEGFR2/PDGFR-inhibiting TKIs. Thus, hiPSC-CMs can be used to screen for cardiovascular toxicities associated with anticancer TKIs, and the results correlate with clinical phenotypes. This approach provides unexpected insights, as illustrated by our finding that toxicity can be alleviated via cardioprotective insulin/IGF signaling.

Original language	English (US)
Article number	eaaf2584
Journal	Science translational medicine
Volume	9
Issue number	377
DOIs	https://doi.org/10.1126/scitranslmed.aaf2584
State	Published - Feb 15 2017

Funding

We acknowledge support from the American Heart Association Predoctoral Fellowship (13PRE15770000) and NSF Graduate Research Fellowship (DGE-114747) (A.S.); NIH (K99/R00 HL121177) and American Heart Association Beginning Grant-in-Aid (14BGIA20480329) (P.W.B.); NIH Director's Pioneer Award, American Heart Association Grant-in-Aid, and Endowed Faculty Scholar Award of the Lucile Packard Foundation for Children and Child Health Research Institute at Stanford (S.M.W.); and Burroughs Wellcome Foundation Innovation in Regulatory Science, American Heart Association Established Investigator Award, and NIH (R01 HL132875, R01 HL130020, R01 HL128170, R01 HL123968, and R24 HL117756) (J.C.W.).

ASJC Scopus subject areas

General Medicine

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1126/scitranslmed.aaf2584

Cite this

Sharma, A., Burridge, P. W., McKeithan, W. L., Serrano, R., Shukla, P., Sayed, N., Churko, J. M., Kitani, T., Wu, H., Holmström, A., Matsa, E., Zhang, Y., Kumar, A., Fan, A. C., Del Álamo, J. C., Wu, S. M., Moslehi, J. J., Mercola, M., & Wu, J. C. (2017). High-throughput screening of tyrosine kinase inhibitor cardiotoxicity with human induced pluripotent stem cells. Science translational medicine, 9(377), Article eaaf2584. https://doi.org/10.1126/scitranslmed.aaf2584

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title = "High-throughput screening of tyrosine kinase inhibitor cardiotoxicity with human induced pluripotent stem cells",

abstract = "Tyrosine kinase inhibitors (TKIs), despite their efficacy as anticancer therapeutics, are associated with cardiovascular side effects ranging from induced arrhythmias to heart failure. We used human induced pluripotent stem cell-derived cardiomyocytes (hiPSC-CMs), generated from 11 healthy individuals and 2 patients receiving cancer treatment, to screen U.S. Food and Drug Administration-approved TKIs for cardiotoxicities by measuring alterations in cardiomyocyte viability, contractility, electrophysiology, calcium handling, and signaling. With these data, we generated a {"}cardiac safety index{"} to reflect the cardiotoxicities of existing TKIs. TKIs with low cardiac safety indices exhibit cardiotoxicity in patients. We also derived endothelial cells (hiPSC-ECs) and cardiac fibroblasts (hiPSC-CFs) to examine cell type-specific cardiotoxicities. Using high-throughput screening, we determined that vascular endothelial growth factor receptor 2 (VEGFR2)/platelet-derived growth factor receptor (PDGFR)-inhibiting TKIs caused cardiotoxicity in hiPSC-CMs, hiPSC-ECs, and hiPSC-CFs. With phosphoprotein analysis, we determined that VEGFR2/PDGFR-inhibiting TKIs led to a compensatory increase in cardioprotective insulin and insulin-like growth factor (IGF) signaling in hiPSC-CMs. Up-regulating cardioprotective signaling with exogenous insulin or IGF1 improved hiPSC-CM viability during cotreatment with cardiotoxic VEGFR2/PDGFR-inhibiting TKIs. Thus, hiPSC-CMs can be used to screen for cardiovascular toxicities associated with anticancer TKIs, and the results correlate with clinical phenotypes. This approach provides unexpected insights, as illustrated by our finding that toxicity can be alleviated via cardioprotective insulin/IGF signaling.",

author = "Arun Sharma and Burridge, {Paul W.} and McKeithan, {Wesley L.} and Ricardo Serrano and Praveen Shukla and Nazish Sayed and Churko, {Jared M.} and Tomoya Kitani and Haodi Wu and Alexandra Holmstr{\"o}m and Elena Matsa and Yuan Zhang and Anusha Kumar and Fan, {Alice C.} and {Del {\'A}lamo}, {Juan C.} and Wu, {Sean M.} and Moslehi, {Javid J.} and Mark Mercola and Wu, {Joseph C.}",

note = "Publisher Copyright: {\textcopyright} Copyright The Authors 2017, American Association for the Advancement of Science.",

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doi = "10.1126/scitranslmed.aaf2584",

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Sharma, A, Burridge, PW, McKeithan, WL, Serrano, R, Shukla, P, Sayed, N, Churko, JM, Kitani, T, Wu, H, Holmström, A, Matsa, E, Zhang, Y, Kumar, A, Fan, AC, Del Álamo, JC, Wu, SM, Moslehi, JJ, Mercola, M & Wu, JC 2017, 'High-throughput screening of tyrosine kinase inhibitor cardiotoxicity with human induced pluripotent stem cells', Science translational medicine, vol. 9, no. 377, eaaf2584. https://doi.org/10.1126/scitranslmed.aaf2584

TY - JOUR

T1 - High-throughput screening of tyrosine kinase inhibitor cardiotoxicity with human induced pluripotent stem cells

AU - Sharma, Arun

AU - Burridge, Paul W.

AU - McKeithan, Wesley L.

AU - Serrano, Ricardo

AU - Shukla, Praveen

AU - Sayed, Nazish

AU - Churko, Jared M.

AU - Kitani, Tomoya

AU - Wu, Haodi

AU - Holmström, Alexandra

AU - Matsa, Elena

AU - Zhang, Yuan

AU - Kumar, Anusha

AU - Fan, Alice C.

AU - Del Álamo, Juan C.

AU - Wu, Sean M.

AU - Moslehi, Javid J.

AU - Mercola, Mark

AU - Wu, Joseph C.

PY - 2017/2/15

Y1 - 2017/2/15

N2 - Tyrosine kinase inhibitors (TKIs), despite their efficacy as anticancer therapeutics, are associated with cardiovascular side effects ranging from induced arrhythmias to heart failure. We used human induced pluripotent stem cell-derived cardiomyocytes (hiPSC-CMs), generated from 11 healthy individuals and 2 patients receiving cancer treatment, to screen U.S. Food and Drug Administration-approved TKIs for cardiotoxicities by measuring alterations in cardiomyocyte viability, contractility, electrophysiology, calcium handling, and signaling. With these data, we generated a "cardiac safety index" to reflect the cardiotoxicities of existing TKIs. TKIs with low cardiac safety indices exhibit cardiotoxicity in patients. We also derived endothelial cells (hiPSC-ECs) and cardiac fibroblasts (hiPSC-CFs) to examine cell type-specific cardiotoxicities. Using high-throughput screening, we determined that vascular endothelial growth factor receptor 2 (VEGFR2)/platelet-derived growth factor receptor (PDGFR)-inhibiting TKIs caused cardiotoxicity in hiPSC-CMs, hiPSC-ECs, and hiPSC-CFs. With phosphoprotein analysis, we determined that VEGFR2/PDGFR-inhibiting TKIs led to a compensatory increase in cardioprotective insulin and insulin-like growth factor (IGF) signaling in hiPSC-CMs. Up-regulating cardioprotective signaling with exogenous insulin or IGF1 improved hiPSC-CM viability during cotreatment with cardiotoxic VEGFR2/PDGFR-inhibiting TKIs. Thus, hiPSC-CMs can be used to screen for cardiovascular toxicities associated with anticancer TKIs, and the results correlate with clinical phenotypes. This approach provides unexpected insights, as illustrated by our finding that toxicity can be alleviated via cardioprotective insulin/IGF signaling.

AB - Tyrosine kinase inhibitors (TKIs), despite their efficacy as anticancer therapeutics, are associated with cardiovascular side effects ranging from induced arrhythmias to heart failure. We used human induced pluripotent stem cell-derived cardiomyocytes (hiPSC-CMs), generated from 11 healthy individuals and 2 patients receiving cancer treatment, to screen U.S. Food and Drug Administration-approved TKIs for cardiotoxicities by measuring alterations in cardiomyocyte viability, contractility, electrophysiology, calcium handling, and signaling. With these data, we generated a "cardiac safety index" to reflect the cardiotoxicities of existing TKIs. TKIs with low cardiac safety indices exhibit cardiotoxicity in patients. We also derived endothelial cells (hiPSC-ECs) and cardiac fibroblasts (hiPSC-CFs) to examine cell type-specific cardiotoxicities. Using high-throughput screening, we determined that vascular endothelial growth factor receptor 2 (VEGFR2)/platelet-derived growth factor receptor (PDGFR)-inhibiting TKIs caused cardiotoxicity in hiPSC-CMs, hiPSC-ECs, and hiPSC-CFs. With phosphoprotein analysis, we determined that VEGFR2/PDGFR-inhibiting TKIs led to a compensatory increase in cardioprotective insulin and insulin-like growth factor (IGF) signaling in hiPSC-CMs. Up-regulating cardioprotective signaling with exogenous insulin or IGF1 improved hiPSC-CM viability during cotreatment with cardiotoxic VEGFR2/PDGFR-inhibiting TKIs. Thus, hiPSC-CMs can be used to screen for cardiovascular toxicities associated with anticancer TKIs, and the results correlate with clinical phenotypes. This approach provides unexpected insights, as illustrated by our finding that toxicity can be alleviated via cardioprotective insulin/IGF signaling.

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High-throughput screening of tyrosine kinase inhibitor cardiotoxicity with human induced pluripotent stem cells

Abstract

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UN SDGs

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