Structure-based discovery of hydrocarbon-stapled paxillin peptides that block FAK scaffolding in cancer

Lauren Reyes; Lena Naser; Warren S. Weiner; Darren Thifault; Erik Stahl; Liam McCreary; Rohini Nott; Colton Quick; Alex Buchberger; Carlos Alvarado; Andrew Rivera; Joseph A. Miller; Ruchi Khatiwala; Brian R. Cherry; Ronald Nelson; Jose M. Martin-Garcia; Nicholas Stephanopoulos; Raimund Fromme; Petra Fromme; William Cance; Timothy Marlowe

doi:10.1038/s41467-025-57196-9

Structure-based discovery of hydrocarbon-stapled paxillin peptides that block FAK scaffolding in cancer

Lauren Reyes, Lena Naser, Warren S. Weiner, Darren Thifault, Erik Stahl, Liam McCreary, Rohini Nott, Colton Quick, Alex Buchberger, Carlos Alvarado, Andrew Rivera, Joseph A. Miller, Ruchi Khatiwala, Brian R. Cherry, Ronald Nelson, Jose M. Martin-Garcia, Nicholas Stephanopoulos, Raimund Fromme, Petra Fromme, William CanceTimothy Marlowe

Research, UAHS

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

Abstract

The focal adhesion kinase (FAK) scaffold provides FAK-targeted cancer therapeutics with greater efficacy and specificity than traditional kinase inhibitors. The FAK scaffold function largely involves the interaction between FAK’s focal adhesion targeting (FAT) domain and paxillin, ultimately regulating many hallmarks of cancer. We report the design of paxillin LD-motif mimetics that successfully inhibit the FAT-paxillin interaction. Chemical and biochemical screening identifies stapled peptide 1907, a high affinity binder of the FAT four-helix bundle with ~100-fold greater binding affinity than the native LD2-sequence. The X-ray co-crystal structure of the FAT-1907 complex is solved. Myristoylated 1907-analog, peptide 2012, delocalizes FAK from focal adhesions, induces cancer cell apoptosis, reduces in vitro viability and invasion, and decreases tumor burden in B16F10 melanoma female mice. Enzymatic FAK inhibition produces no comparable effects. Herein, we describe a biologically potent therapeutic strategy to target the FAK-paxillin complex, a previously deemed undruggable protein-protein interaction.

Original language	English (US)
Article number	2060
Journal	Nature communications
Volume	16
Issue number	1
DOIs	https://doi.org/10.1038/s41467-025-57196-9
State	Published - Dec 2025

ASJC Scopus subject areas

General Chemistry
General Biochemistry, Genetics and Molecular Biology
General Physics and Astronomy

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Reyes, L., Naser, L., Weiner, W. S., Thifault, D., Stahl, E., McCreary, L., Nott, R., Quick, C., Buchberger, A., Alvarado, C., Rivera, A., Miller, J. A., Khatiwala, R., Cherry, B. R., Nelson, R., Martin-Garcia, J. M., Stephanopoulos, N., Fromme, R., Fromme, P., ... Marlowe, T. (2025). Structure-based discovery of hydrocarbon-stapled paxillin peptides that block FAK scaffolding in cancer. Nature communications, 16(1), Article 2060. https://doi.org/10.1038/s41467-025-57196-9

Reyes, L, Naser, L, Weiner, WS, Thifault, D, Stahl, E, McCreary, L, Nott, R, Quick, C, Buchberger, A, Alvarado, C, Rivera, A, Miller, JA, Khatiwala, R, Cherry, BR, Nelson, R, Martin-Garcia, JM, Stephanopoulos, N, Fromme, R, Fromme, P, Cance, W & Marlowe, T 2025, 'Structure-based discovery of hydrocarbon-stapled paxillin peptides that block FAK scaffolding in cancer', Nature communications, vol. 16, no. 1, 2060. https://doi.org/10.1038/s41467-025-57196-9

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abstract = "The focal adhesion kinase (FAK) scaffold provides FAK-targeted cancer therapeutics with greater efficacy and specificity than traditional kinase inhibitors. The FAK scaffold function largely involves the interaction between FAK{\textquoteright}s focal adhesion targeting (FAT) domain and paxillin, ultimately regulating many hallmarks of cancer. We report the design of paxillin LD-motif mimetics that successfully inhibit the FAT-paxillin interaction. Chemical and biochemical screening identifies stapled peptide 1907, a high affinity binder of the FAT four-helix bundle with ~100-fold greater binding affinity than the native LD2-sequence. The X-ray co-crystal structure of the FAT-1907 complex is solved. Myristoylated 1907-analog, peptide 2012, delocalizes FAK from focal adhesions, induces cancer cell apoptosis, reduces in vitro viability and invasion, and decreases tumor burden in B16F10 melanoma female mice. Enzymatic FAK inhibition produces no comparable effects. Herein, we describe a biologically potent therapeutic strategy to target the FAK-paxillin complex, a previously deemed undruggable protein-protein interaction.",

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AU - Stahl, Erik

AU - McCreary, Liam

AU - Nott, Rohini

AU - Quick, Colton

AU - Buchberger, Alex

AU - Alvarado, Carlos

AU - Rivera, Andrew

AU - Miller, Joseph A.

AU - Khatiwala, Ruchi

AU - Cherry, Brian R.

AU - Nelson, Ronald

AU - Martin-Garcia, Jose M.

AU - Stephanopoulos, Nicholas

AU - Fromme, Raimund

AU - Fromme, Petra

AU - Cance, William

AU - Marlowe, Timothy

PY - 2025/12

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N2 - The focal adhesion kinase (FAK) scaffold provides FAK-targeted cancer therapeutics with greater efficacy and specificity than traditional kinase inhibitors. The FAK scaffold function largely involves the interaction between FAK’s focal adhesion targeting (FAT) domain and paxillin, ultimately regulating many hallmarks of cancer. We report the design of paxillin LD-motif mimetics that successfully inhibit the FAT-paxillin interaction. Chemical and biochemical screening identifies stapled peptide 1907, a high affinity binder of the FAT four-helix bundle with ~100-fold greater binding affinity than the native LD2-sequence. The X-ray co-crystal structure of the FAT-1907 complex is solved. Myristoylated 1907-analog, peptide 2012, delocalizes FAK from focal adhesions, induces cancer cell apoptosis, reduces in vitro viability and invasion, and decreases tumor burden in B16F10 melanoma female mice. Enzymatic FAK inhibition produces no comparable effects. Herein, we describe a biologically potent therapeutic strategy to target the FAK-paxillin complex, a previously deemed undruggable protein-protein interaction.

AB - The focal adhesion kinase (FAK) scaffold provides FAK-targeted cancer therapeutics with greater efficacy and specificity than traditional kinase inhibitors. The FAK scaffold function largely involves the interaction between FAK’s focal adhesion targeting (FAT) domain and paxillin, ultimately regulating many hallmarks of cancer. We report the design of paxillin LD-motif mimetics that successfully inhibit the FAT-paxillin interaction. Chemical and biochemical screening identifies stapled peptide 1907, a high affinity binder of the FAT four-helix bundle with ~100-fold greater binding affinity than the native LD2-sequence. The X-ray co-crystal structure of the FAT-1907 complex is solved. Myristoylated 1907-analog, peptide 2012, delocalizes FAK from focal adhesions, induces cancer cell apoptosis, reduces in vitro viability and invasion, and decreases tumor burden in B16F10 melanoma female mice. Enzymatic FAK inhibition produces no comparable effects. Herein, we describe a biologically potent therapeutic strategy to target the FAK-paxillin complex, a previously deemed undruggable protein-protein interaction.

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Structure-based discovery of hydrocarbon-stapled paxillin peptides that block FAK scaffolding in cancer

Abstract

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