Discovery of KRB-456, a KRAS G12D Switch-I/II Allosteric Pocket Binder That Inhibits the Growth of Pancreatic Cancer Patient-derived Tumors

Aslamuzzaman Kazi; Alok Ranjan; M. V.Vasantha Kumar; Bogos Agianian; Martin Garcia Chavez; Vignesh Vudatha; Rui Wang; Rajanikanth Vangipurapu; Liwei Chen; Perry Kennedy; Karthikeyan Subramanian; Jonathan C.K. Quirke; Francisca Beato; Patrick W. Underwood; Jason B. Fleming; Jose Trevino; Paul J. Hergenrother; Evripidis Gavathiotis; Said M. Sebti

doi:10.1158/2767-9764.CRC-23-0222

Discovery of KRB-456, a KRAS G12D Switch-I/II Allosteric Pocket Binder That Inhibits the Growth of Pancreatic Cancer Patient-derived Tumors

Aslamuzzaman Kazi, Alok Ranjan, M. V.Vasantha Kumar, Bogos Agianian, Martin Garcia Chavez, Vignesh Vudatha, Rui Wang, Rajanikanth Vangipurapu, Liwei Chen, Perry Kennedy, Karthikeyan Subramanian, Jonathan C.K. Quirke, Francisca Beato, Patrick W. Underwood, Jason B. Fleming, Jose Trevino, Paul J. Hergenrother, Evripidis Gavathiotis, Said M. Sebti

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

Abstract

Currently, there are no clinically approved drugs that directly thwart mutant KRAS G12D, a major driver of human cancer. Here, we report on the discovery of a small molecule, KRB-456, that binds KRAS G12D and inhibits the growth of pancreatic cancer patient-derived tumors. Protein nuclear magnetic resonance studies revealed that KRB-456 binds the GDP-bound and GCP-bound conformation of KRAS G12D by forming interactions with a dynamic allosteric binding pocket within the switch- I/II region. Isothermal titration calorimetry demonstrated that KRB-456 binds potently to KRAS G12D with 1.5-, 2-, and 6-fold higher affinity than to KRAS G12V, KRAS wild-type, and KRAS G12C, respectively. KRB-456 potently inhibits the binding of KRAS G12D to the RAS-binding domain (RBD) of RAF1 as demonstrated by GST-RBD pulldown and AlphaScreen assays. Treatment of KRAS G12D-harboring human pancreatic cancer cells with KRB-456 suppresses the cellular levels of KRAS bound to GTP and inhibits the binding of KRAS to RAF1. Importantly, KRB-456 inhibits P-MEK, P-AKT, and P-S6 levels in vivo and inhibits the growth of subcutaneous and orthotopic xenografts derived from patients with pancreatic cancer whose tumors harbor KRAS G12D and KRAS G12V and who relapsed after chemotherapy and radiotherapy. These results warrant further development of KRB-456 for pancreatic cancer.

Original language	English (US)
Pages (from-to)	2623-2639
Number of pages	17
Journal	Cancer Research Communications
Volume	3
Issue number	12
DOIs	https://doi.org/10.1158/2767-9764.CRC-23-0222
State	Published - Dec 2023

ASJC Scopus subject areas

Oncology
Cancer Research
General Medicine

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Kazi, A., Ranjan, A., Kumar, M. V. V., Agianian, B., Chavez, M. G., Vudatha, V., Wang, R., Vangipurapu, R., Chen, L., Kennedy, P., Subramanian, K., Quirke, J. C. K., Beato, F., Underwood, P. W., Fleming, J. B., Trevino, J., Hergenrother, P. J., Gavathiotis, E., & Sebti, S. M. (2023). Discovery of KRB-456, a KRAS G12D Switch-I/II Allosteric Pocket Binder That Inhibits the Growth of Pancreatic Cancer Patient-derived Tumors. Cancer Research Communications, 3(12), 2623-2639. https://doi.org/10.1158/2767-9764.CRC-23-0222

Kazi, A, Ranjan, A, Kumar, MVV, Agianian, B, Chavez, MG, Vudatha, V, Wang, R, Vangipurapu, R, Chen, L, Kennedy, P, Subramanian, K, Quirke, JCK, Beato, F, Underwood, PW, Fleming, JB, Trevino, J, Hergenrother, PJ, Gavathiotis, E & Sebti, SM 2023, 'Discovery of KRB-456, a KRAS G12D Switch-I/II Allosteric Pocket Binder That Inhibits the Growth of Pancreatic Cancer Patient-derived Tumors', Cancer Research Communications, vol. 3, no. 12, pp. 2623-2639. https://doi.org/10.1158/2767-9764.CRC-23-0222

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title = "Discovery of KRB-456, a KRAS G12D Switch-I/II Allosteric Pocket Binder That Inhibits the Growth of Pancreatic Cancer Patient-derived Tumors",

abstract = "Currently, there are no clinically approved drugs that directly thwart mutant KRAS G12D, a major driver of human cancer. Here, we report on the discovery of a small molecule, KRB-456, that binds KRAS G12D and inhibits the growth of pancreatic cancer patient-derived tumors. Protein nuclear magnetic resonance studies revealed that KRB-456 binds the GDP-bound and GCP-bound conformation of KRAS G12D by forming interactions with a dynamic allosteric binding pocket within the switch- I/II region. Isothermal titration calorimetry demonstrated that KRB-456 binds potently to KRAS G12D with 1.5-, 2-, and 6-fold higher affinity than to KRAS G12V, KRAS wild-type, and KRAS G12C, respectively. KRB-456 potently inhibits the binding of KRAS G12D to the RAS-binding domain (RBD) of RAF1 as demonstrated by GST-RBD pulldown and AlphaScreen assays. Treatment of KRAS G12D-harboring human pancreatic cancer cells with KRB-456 suppresses the cellular levels of KRAS bound to GTP and inhibits the binding of KRAS to RAF1. Importantly, KRB-456 inhibits P-MEK, P-AKT, and P-S6 levels in vivo and inhibits the growth of subcutaneous and orthotopic xenografts derived from patients with pancreatic cancer whose tumors harbor KRAS G12D and KRAS G12V and who relapsed after chemotherapy and radiotherapy. These results warrant further development of KRB-456 for pancreatic cancer.",

author = "Aslamuzzaman Kazi and Alok Ranjan and Kumar, {M. V.Vasantha} and Bogos Agianian and Chavez, {Martin Garcia} and Vignesh Vudatha and Rui Wang and Rajanikanth Vangipurapu and Liwei Chen and Perry Kennedy and Karthikeyan Subramanian and Quirke, {Jonathan C.K.} and Francisca Beato and Underwood, {Patrick W.} and Fleming, {Jason B.} and Jose Trevino and Hergenrother, {Paul J.} and Evripidis Gavathiotis and Sebti, {Said M.}",

note = "This work was funded in part by NIH grant R35 CA197731 (S.M. Sebti) and R35 CA283859 (P.J. Hergenrother) was supported in part by the biophysical facility at the Institute for Structural Biology, Drug Discovery and Development (ISB3D) at Virginia Commonwealth University and the Massey Cancer Center, an NCI-designated comprehensive cancer center (P30 CA016059). NMR and structural resources are supported from NIH awards 1S10OD016305 and P30 CA013330 and in part by NIH grant R01CA238229 (E. Gavathiotis). We thank Dr. Ernst Schonbrunn and Dr. Alice Chan and the Chemical Biology Core Facility at the Moffitt Cancer Center, an NCI-designated comprehensive cancer center (P30 CA076292), for their assistance with the design and ordering from GenScript of the RAS constructs. We thank Dr. Michael P. Kim (MD Anderson Cancer Center) for providing Dr. Jason B. Fleming the patient-derived cancer cell lines used in Supplementary Fig. S10. We also thank Dr. Dominic Esposito, Dr. William Gillette, Dr. Jennifer Mehalko and Dr. Troy Taylor from the NCI RAS Initiative at the Frederick National Laboratory for providing us with the His6-MBP-tev-Avi-Hs.KRAS4b G12D protein. We thank Heidi Sankala (Virginia Commonwealth University Massey Cancer Center) for editorial assistance.",

year = "2023",

month = dec,

doi = "10.1158/2767-9764.CRC-23-0222",

language = "English (US)",

volume = "3",

pages = "2623--2639",

journal = "Cancer Research Communications",

issn = "2767-9764",

publisher = "American Association for Cancer Research Inc.",

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T1 - Discovery of KRB-456, a KRAS G12D Switch-I/II Allosteric Pocket Binder That Inhibits the Growth of Pancreatic Cancer Patient-derived Tumors

AU - Kazi, Aslamuzzaman

AU - Ranjan, Alok

AU - Kumar, M. V.Vasantha

AU - Agianian, Bogos

AU - Chavez, Martin Garcia

AU - Vudatha, Vignesh

AU - Wang, Rui

AU - Vangipurapu, Rajanikanth

AU - Chen, Liwei

AU - Kennedy, Perry

AU - Subramanian, Karthikeyan

AU - Quirke, Jonathan C.K.

AU - Beato, Francisca

AU - Underwood, Patrick W.

AU - Fleming, Jason B.

AU - Trevino, Jose

AU - Hergenrother, Paul J.

AU - Gavathiotis, Evripidis

AU - Sebti, Said M.

N1 - This work was funded in part by NIH grant R35 CA197731 (S.M. Sebti) and R35 CA283859 (P.J. Hergenrother) was supported in part by the biophysical facility at the Institute for Structural Biology, Drug Discovery and Development (ISB3D) at Virginia Commonwealth University and the Massey Cancer Center, an NCI-designated comprehensive cancer center (P30 CA016059). NMR and structural resources are supported from NIH awards 1S10OD016305 and P30 CA013330 and in part by NIH grant R01CA238229 (E. Gavathiotis). We thank Dr. Ernst Schonbrunn and Dr. Alice Chan and the Chemical Biology Core Facility at the Moffitt Cancer Center, an NCI-designated comprehensive cancer center (P30 CA076292), for their assistance with the design and ordering from GenScript of the RAS constructs. We thank Dr. Michael P. Kim (MD Anderson Cancer Center) for providing Dr. Jason B. Fleming the patient-derived cancer cell lines used in Supplementary Fig. S10. We also thank Dr. Dominic Esposito, Dr. William Gillette, Dr. Jennifer Mehalko and Dr. Troy Taylor from the NCI RAS Initiative at the Frederick National Laboratory for providing us with the His6-MBP-tev-Avi-Hs.KRAS4b G12D protein. We thank Heidi Sankala (Virginia Commonwealth University Massey Cancer Center) for editorial assistance.

PY - 2023/12

Y1 - 2023/12

N2 - Currently, there are no clinically approved drugs that directly thwart mutant KRAS G12D, a major driver of human cancer. Here, we report on the discovery of a small molecule, KRB-456, that binds KRAS G12D and inhibits the growth of pancreatic cancer patient-derived tumors. Protein nuclear magnetic resonance studies revealed that KRB-456 binds the GDP-bound and GCP-bound conformation of KRAS G12D by forming interactions with a dynamic allosteric binding pocket within the switch- I/II region. Isothermal titration calorimetry demonstrated that KRB-456 binds potently to KRAS G12D with 1.5-, 2-, and 6-fold higher affinity than to KRAS G12V, KRAS wild-type, and KRAS G12C, respectively. KRB-456 potently inhibits the binding of KRAS G12D to the RAS-binding domain (RBD) of RAF1 as demonstrated by GST-RBD pulldown and AlphaScreen assays. Treatment of KRAS G12D-harboring human pancreatic cancer cells with KRB-456 suppresses the cellular levels of KRAS bound to GTP and inhibits the binding of KRAS to RAF1. Importantly, KRB-456 inhibits P-MEK, P-AKT, and P-S6 levels in vivo and inhibits the growth of subcutaneous and orthotopic xenografts derived from patients with pancreatic cancer whose tumors harbor KRAS G12D and KRAS G12V and who relapsed after chemotherapy and radiotherapy. These results warrant further development of KRB-456 for pancreatic cancer.

AB - Currently, there are no clinically approved drugs that directly thwart mutant KRAS G12D, a major driver of human cancer. Here, we report on the discovery of a small molecule, KRB-456, that binds KRAS G12D and inhibits the growth of pancreatic cancer patient-derived tumors. Protein nuclear magnetic resonance studies revealed that KRB-456 binds the GDP-bound and GCP-bound conformation of KRAS G12D by forming interactions with a dynamic allosteric binding pocket within the switch- I/II region. Isothermal titration calorimetry demonstrated that KRB-456 binds potently to KRAS G12D with 1.5-, 2-, and 6-fold higher affinity than to KRAS G12V, KRAS wild-type, and KRAS G12C, respectively. KRB-456 potently inhibits the binding of KRAS G12D to the RAS-binding domain (RBD) of RAF1 as demonstrated by GST-RBD pulldown and AlphaScreen assays. Treatment of KRAS G12D-harboring human pancreatic cancer cells with KRB-456 suppresses the cellular levels of KRAS bound to GTP and inhibits the binding of KRAS to RAF1. Importantly, KRB-456 inhibits P-MEK, P-AKT, and P-S6 levels in vivo and inhibits the growth of subcutaneous and orthotopic xenografts derived from patients with pancreatic cancer whose tumors harbor KRAS G12D and KRAS G12V and who relapsed after chemotherapy and radiotherapy. These results warrant further development of KRB-456 for pancreatic cancer.

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Discovery of KRB-456, a KRAS G12D Switch-I/II Allosteric Pocket Binder That Inhibits the Growth of Pancreatic Cancer Patient-derived Tumors

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