Inhibition of a lower potency target drives the anticancer activity of a clinical p38 inhibitor

Debanjan Bhattacharjee; Jaweria Bakar; Surbhi P. Chitnis; Erin L. Sausville; Kumar Dilip Ashtekar; Brianna E. Mendelson; Kaitlin Long; Joan C. Smith; David E. Heppner; Jason M. Sheltzer

doi:10.1016/j.chembiol.2023.09.013

Inhibition of a lower potency target drives the anticancer activity of a clinical p38 inhibitor

Debanjan Bhattacharjee
, Jaweria Bakar
, Surbhi P. Chitnis
, Erin L. Sausville
, Kumar Dilip Ashtekar
, Brianna E. Mendelson
, Kaitlin Long
, Joan C. Smith
, David E. Heppner
, Jason M. Sheltzer

Chemistry

Yale University
SUNY Buffalo
Meliora Therapeutics

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

17 Scopus citations

Abstract

The small-molecule drug ralimetinib was developed as an inhibitor of the p38α mitogen-activated protein kinase, and it has advanced to phase 2 clinical trials in oncology. Here, we demonstrate that ralimetinib resembles EGFR-targeting drugs in pharmacogenomic profiling experiments and that ralimetinib inhibits EGFR kinase activity in vitro and in cellulo. While ralimetinib sensitivity is unaffected by deletion of the genes encoding p38α and p38β, its effects are blocked by expression of the EGFR-T790M gatekeeper mutation. Finally, we solved the cocrystal structure of ralimetinib bound to EGFR, providing further evidence that this drug functions as an ATP-competitive EGFR inhibitor. We conclude that, though ralimetinib is >30-fold less potent against EGFR compared to p38α, its ability to inhibit EGFR drives its primary anticancer effects. Our results call into question the value of p38α as an anticancer target, and we describe a multi-modal approach that can be used to uncover a drug's mechanism-of-action.

Original language	English
Pages (from-to)	1211-1222.e5
Journal	Cell Chemical Biology
Volume	30
Issue number	10
DOIs	https://doi.org/10.1016/j.chembiol.2023.09.013
State	Published - Oct 19 2023

Keywords

EGFR
cancer
drug targeting
mechanism of action
pharmacogenomics

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10.1016/j.chembiol.2023.09.013

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title = "Inhibition of a lower potency target drives the anticancer activity of a clinical p38 inhibitor",

abstract = "The small-molecule drug ralimetinib was developed as an inhibitor of the p38α mitogen-activated protein kinase, and it has advanced to phase 2 clinical trials in oncology. Here, we demonstrate that ralimetinib resembles EGFR-targeting drugs in pharmacogenomic profiling experiments and that ralimetinib inhibits EGFR kinase activity in vitro and in cellulo. While ralimetinib sensitivity is unaffected by deletion of the genes encoding p38α and p38β, its effects are blocked by expression of the EGFR-T790M gatekeeper mutation. Finally, we solved the cocrystal structure of ralimetinib bound to EGFR, providing further evidence that this drug functions as an ATP-competitive EGFR inhibitor. We conclude that, though ralimetinib is >30-fold less potent against EGFR compared to p38α, its ability to inhibit EGFR drives its primary anticancer effects. Our results call into question the value of p38α as an anticancer target, and we describe a multi-modal approach that can be used to uncover a drug's mechanism-of-action.",

keywords = "EGFR, cancer, drug targeting, mechanism of action, pharmacogenomics",

author = "Debanjan Bhattacharjee and Jaweria Bakar and Chitnis, \{Surbhi P.\} and Sausville, \{Erin L.\} and Ashtekar, \{Kumar Dilip\} and Mendelson, \{Brianna E.\} and Kaitlin Long and Smith, \{Joan C.\} and Heppner, \{David E.\} and Sheltzer, \{Jason M.\}",

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year = "2023",

month = oct,

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doi = "10.1016/j.chembiol.2023.09.013",

language = "English",

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T1 - Inhibition of a lower potency target drives the anticancer activity of a clinical p38 inhibitor

AU - Bhattacharjee, Debanjan

AU - Bakar, Jaweria

AU - Chitnis, Surbhi P.

AU - Sausville, Erin L.

AU - Ashtekar, Kumar Dilip

AU - Mendelson, Brianna E.

AU - Long, Kaitlin

AU - Smith, Joan C.

AU - Heppner, David E.

AU - Sheltzer, Jason M.

PY - 2023/10/19

Y1 - 2023/10/19

N2 - The small-molecule drug ralimetinib was developed as an inhibitor of the p38α mitogen-activated protein kinase, and it has advanced to phase 2 clinical trials in oncology. Here, we demonstrate that ralimetinib resembles EGFR-targeting drugs in pharmacogenomic profiling experiments and that ralimetinib inhibits EGFR kinase activity in vitro and in cellulo. While ralimetinib sensitivity is unaffected by deletion of the genes encoding p38α and p38β, its effects are blocked by expression of the EGFR-T790M gatekeeper mutation. Finally, we solved the cocrystal structure of ralimetinib bound to EGFR, providing further evidence that this drug functions as an ATP-competitive EGFR inhibitor. We conclude that, though ralimetinib is >30-fold less potent against EGFR compared to p38α, its ability to inhibit EGFR drives its primary anticancer effects. Our results call into question the value of p38α as an anticancer target, and we describe a multi-modal approach that can be used to uncover a drug's mechanism-of-action.

AB - The small-molecule drug ralimetinib was developed as an inhibitor of the p38α mitogen-activated protein kinase, and it has advanced to phase 2 clinical trials in oncology. Here, we demonstrate that ralimetinib resembles EGFR-targeting drugs in pharmacogenomic profiling experiments and that ralimetinib inhibits EGFR kinase activity in vitro and in cellulo. While ralimetinib sensitivity is unaffected by deletion of the genes encoding p38α and p38β, its effects are blocked by expression of the EGFR-T790M gatekeeper mutation. Finally, we solved the cocrystal structure of ralimetinib bound to EGFR, providing further evidence that this drug functions as an ATP-competitive EGFR inhibitor. We conclude that, though ralimetinib is >30-fold less potent against EGFR compared to p38α, its ability to inhibit EGFR drives its primary anticancer effects. Our results call into question the value of p38α as an anticancer target, and we describe a multi-modal approach that can be used to uncover a drug's mechanism-of-action.

KW - EGFR

KW - cancer

KW - drug targeting

KW - mechanism of action

KW - pharmacogenomics

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C2 - 37827156

AN - SCOPUS:85173900191

SN - 2451-9456

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SP - 1211-1222.e5

JO - Cell Chemical Biology

JF - Cell Chemical Biology

IS - 10

ER -

Inhibition of a lower potency target drives the anticancer activity of a clinical p38 inhibitor

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