Kidney toxicity of the BRAF-kinase inhibitor vemurafenib is driven by off-target ferrochelatase inhibition

Kidney toxicity of the BRAF-kinase inhibitor vemurafenib is driven by off-target ferrochelatase inhibition

A multitude of disease and therapy related factors drive the frequent development of kidney disorders in cancer patients. Along with chemotherapy, the newer targeted therapeutics can also cause kidney dysfunction through on and off-target mechanisms. Interestingly, among the small molecule inhibitor...

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Veröffentlicht in:Kidney international 2021-12, Vol.100 (6), p.1214-1226
Hauptverfasser: Bai, Yuntao, Kim, Ji Young, Bisunke, Bijay, Jayne, Laura A., Silvaroli, Josie A., Balzer, Michael S., Gandhi, Megha, Huang, Kevin M., Sander, Veronika, Prosek, Jason, Cianciolo, Rachel E., Baker, Sharyn D., Sparreboom, Alex, Jhaveri, Kenar D., Susztak, Katalin, Bajwa, Amandeep, Pabla, Navjot Singh
Format: Artikel
Sprache:eng
Schlagworte:
acute kidney injury
Animals
BRAF kinase
Cell Line, Tumor
Drug Resistance, Neoplasm
Ferrochelatase
Humans
Indoles - toxicity
Kidney - metabolism
Mice
Mutation
onconephrology
protein kinase inhibitors
Proto-Oncogene Proteins B-raf - genetics
Proto-Oncogene Proteins B-raf - metabolism
renal tubular epithelial cells
Sulfonamides - toxicity
Vemurafenib
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container_end_page 1226
container_issue 6
container_start_page 1214
container_title Kidney international
container_volume 100
creator Bai, Yuntao
Kim, Ji Young
Bisunke, Bijay
Jayne, Laura A.
Silvaroli, Josie A.
Balzer, Michael S.
Gandhi, Megha
Huang, Kevin M.
Sander, Veronika
Prosek, Jason
Cianciolo, Rachel E.
Baker, Sharyn D.
Sparreboom, Alex
Jhaveri, Kenar D.
Susztak, Katalin
Bajwa, Amandeep
Pabla, Navjot Singh
description A multitude of disease and therapy related factors drive the frequent development of kidney disorders in cancer patients. Along with chemotherapy, the newer targeted therapeutics can also cause kidney dysfunction through on and off-target mechanisms. Interestingly, among the small molecule inhibitors approved for the treatment of cancers that harbor BRAF-kinase activating mutations, vemurafenib can trigger tubular damage and acute kidney injury. BRAF is a proto-oncogene involved in cell growth. To investigate the underlying mechanisms, we developed cell culture and mouse models of vemurafenib kidney toxicity. At clinically relevant concentrations vemurafenib induces cell-death in transformed and primary mouse and human kidney tubular epithelial cells. In mice, two weeks of daily vemurafenib treatment causes moderate acute kidney injury with histopathological characteristics of kidney tubular epithelial cells injury. Importantly, kidney tubular epithelial cell-specific BRAF gene deletion did not influence kidney function under normal conditions or alter the severity of vemurafenib-associated kidney impairment. Instead, we found that inhibition of ferrochelatase, an enzyme involved in heme biosynthesis contributes to vemurafenib kidney toxicity. Ferrochelatase overexpression protected kidney tubular epithelial cells and conversely ferrochelatase knockdown increased the sensitivity to vemurafenib-induced kidney toxicity. Thus, our studies suggest that vemurafenib-associated kidney tubular epithelial cell dysfunction and kidney toxicity is BRAF-independent and caused, in part, by off-target ferrochelatase inhibition. [Display omitted]
doi_str_mv 10.1016/j.kint.2021.08.022
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Along with chemotherapy, the newer targeted therapeutics can also cause kidney dysfunction through on and off-target mechanisms. Interestingly, among the small molecule inhibitors approved for the treatment of cancers that harbor BRAF-kinase activating mutations, vemurafenib can trigger tubular damage and acute kidney injury. BRAF is a proto-oncogene involved in cell growth. To investigate the underlying mechanisms, we developed cell culture and mouse models of vemurafenib kidney toxicity. At clinically relevant concentrations vemurafenib induces cell-death in transformed and primary mouse and human kidney tubular epithelial cells. In mice, two weeks of daily vemurafenib treatment causes moderate acute kidney injury with histopathological characteristics of kidney tubular epithelial cells injury. Importantly, kidney tubular epithelial cell-specific BRAF gene deletion did not influence kidney function under normal conditions or alter the severity of vemurafenib-associated kidney impairment. Instead, we found that inhibition of ferrochelatase, an enzyme involved in heme biosynthesis contributes to vemurafenib kidney toxicity. Ferrochelatase overexpression protected kidney tubular epithelial cells and conversely ferrochelatase knockdown increased the sensitivity to vemurafenib-induced kidney toxicity. Thus, our studies suggest that vemurafenib-associated kidney tubular epithelial cell dysfunction and kidney toxicity is BRAF-independent and caused, in part, by off-target ferrochelatase inhibition. 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Along with chemotherapy, the newer targeted therapeutics can also cause kidney dysfunction through on and off-target mechanisms. Interestingly, among the small molecule inhibitors approved for the treatment of cancers that harbor BRAF-kinase activating mutations, vemurafenib can trigger tubular damage and acute kidney injury. BRAF is a proto-oncogene involved in cell growth. To investigate the underlying mechanisms, we developed cell culture and mouse models of vemurafenib kidney toxicity. At clinically relevant concentrations vemurafenib induces cell-death in transformed and primary mouse and human kidney tubular epithelial cells. In mice, two weeks of daily vemurafenib treatment causes moderate acute kidney injury with histopathological characteristics of kidney tubular epithelial cells injury. Importantly, kidney tubular epithelial cell-specific BRAF gene deletion did not influence kidney function under normal conditions or alter the severity of vemurafenib-associated kidney impairment. Instead, we found that inhibition of ferrochelatase, an enzyme involved in heme biosynthesis contributes to vemurafenib kidney toxicity. Ferrochelatase overexpression protected kidney tubular epithelial cells and conversely ferrochelatase knockdown increased the sensitivity to vemurafenib-induced kidney toxicity. Thus, our studies suggest that vemurafenib-associated kidney tubular epithelial cell dysfunction and kidney toxicity is BRAF-independent and caused, in part, by off-target ferrochelatase inhibition. [Display omitted]</description><subject>acute kidney injury</subject><subject>Animals</subject><subject>BRAF kinase</subject><subject>Cell Line, Tumor</subject><subject>Drug Resistance, Neoplasm</subject><subject>Ferrochelatase</subject><subject>Humans</subject><subject>Indoles - toxicity</subject><subject>Kidney - metabolism</subject><subject>Mice</subject><subject>Mutation</subject><subject>onconephrology</subject><subject>protein kinase inhibitors</subject><subject>Proto-Oncogene Proteins B-raf - genetics</subject><subject>Proto-Oncogene Proteins B-raf - metabolism</subject><subject>renal tubular epithelial cells</subject><subject>Sulfonamides - toxicity</subject><subject>Vemurafenib</subject><issn>0085-2538</issn><issn>1523-1755</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2021</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp9kG1rWyEYhmWsrGm3P7APwz9wTtWjiQfGoCvrCw0USvdZ1PPYPFmixWND8-9nyBbaLwVBxPu6Hr0J-cpZyxmfni3bPxhLK5jgLdMtE-IDmXAluobPlPpIJoxp1QjV6WNyMo5LVs99xz6R406quhSbkOUtDhG2tKQX9Fi2NAVaFkB_3p9fNlVvR6AYF-iwpEw3sH7ONkBER3GkQ8YNROp2VGiKzY9QaICck1_AypZXMKb4mRwFuxrhy7_9lPy-_PVwcd3M765uLs7njVeCl0ZLJ2TQEGQf6hODdKzTvZCO22CDCpwLpeQ09L1UYiad88L3HmyYeSlqojslP_bep2e3hsFDLNmuzFPGtc1bkyyatzcRF-YxbYyeMj0T0yoQe4HPaRwzhAPLmdk1b5Zm17zZNW-YNrX5Cn17PfWA_K-6Br7vA1D_vkHIZvQI0cOAGXwxQ8L3_H8BsP-Ymw</recordid><startdate>20211201</startdate><enddate>20211201</enddate><creator>Bai, Yuntao</creator><creator>Kim, Ji Young</creator><creator>Bisunke, Bijay</creator><creator>Jayne, Laura A.</creator><creator>Silvaroli, Josie A.</creator><creator>Balzer, Michael S.</creator><creator>Gandhi, Megha</creator><creator>Huang, Kevin M.</creator><creator>Sander, Veronika</creator><creator>Prosek, Jason</creator><creator>Cianciolo, Rachel E.</creator><creator>Baker, Sharyn D.</creator><creator>Sparreboom, Alex</creator><creator>Jhaveri, Kenar D.</creator><creator>Susztak, Katalin</creator><creator>Bajwa, Amandeep</creator><creator>Pabla, Navjot Singh</creator><general>Elsevier Inc</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>5PM</scope></search><sort><creationdate>20211201</creationdate><title>Kidney toxicity of the BRAF-kinase inhibitor vemurafenib is driven by off-target ferrochelatase inhibition</title><author>Bai, Yuntao ; 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subjects acute kidney injury
Animals
BRAF kinase
Cell Line, Tumor
Drug Resistance, Neoplasm
Ferrochelatase
Humans
Indoles - toxicity
Kidney - metabolism
Mice
Mutation
onconephrology
protein kinase inhibitors
Proto-Oncogene Proteins B-raf - genetics
Proto-Oncogene Proteins B-raf - metabolism
renal tubular epithelial cells
Sulfonamides - toxicity
Vemurafenib
title Kidney toxicity of the BRAF-kinase inhibitor vemurafenib is driven by off-target ferrochelatase inhibition
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