HIF-2 complex dissociation, target inhibition, and acquired resistance with PT2385, a first-in-class HIF-2 inhibitor, in patients with clear cell renal cell carcinoma

Kevin D. Courtney; Yuanqing Ma; Alberto Diaz de Leon; Alana Christie; Zhiqun Xie; Layton Woolford; Nirmish Singla; Allison Joyce; Haley Hill; Ananth J. Madhuranthakam; Qing Yuan; Yin Xi; Yue Zhang; Jenny Chang; Oluwatomilade Fatunde; Yull Arriaga; Arthur E. Frankel; Sanjeeva Kalva; Song Zhang; Tiffani McKenzie; Oscar Reig Torras; Robert A. Figlin; Brian I. Rini; Renee M. McKay; Payal Kapur; Tao Wang; Ivan Pedrosa; James Brugarolas

doi:10.1158/1078-0432.CCR-19-1459

HIF-2 complex dissociation, target inhibition, and acquired resistance with PT2385, a first-in-class HIF-2 inhibitor, in patients with clear cell renal cell carcinoma

Kevin D. Courtney, Yuanqing Ma, Alberto Diaz de Leon, Alana Christie, Zhiqun Xie, Layton Woolford, Nirmish Singla, Allison Joyce, Haley Hill, Ananth J. Madhuranthakam, Qing Yuan, Yin Xi, Yue Zhang, Jenny Chang, Oluwatomilade Fatunde, Yull Arriaga, Arthur E. Frankel, Sanjeeva Kalva, Song Zhang, Tiffani McKenzieOscar Reig Torras, Robert A. Figlin, Brian I. Rini, Renee M. McKay, Payal Kapur, Tao Wang, Ivan Pedrosa, James Brugarolas

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

76 Scopus citations

Abstract

Purpose: The heterodimeric transcription factor HIF-2 is arguably the most important driver of clear cell renal cell carcinoma (ccRCC). Although considered undruggable, structural analyses at the University of Texas Southwestern Medical Center (UTSW, Dallas, TX) identified a vulnerability in the a subunit, which heterodimerizes with HIF1b, ultimately leading to the development of PT2385, a first-in-class inhibitor. PT2385 was safe and active in a first-in-human phase I clinical trial of patients with extensively pretreated ccRCC at UTSW and elsewhere. There were no dose-limiting toxicities, and disease control ≥4 months was achieved in 42% of patients. Patients and Methods: We conducted a prospective companion substudy involving a subset of patients enrolled in the phase I clinical trial at UTSW (n ¼ 10), who were treated at the phase II dose or above, involving multiparametric MRI, blood draws, and serial biopsies for biochemical, whole exome, and RNA-sequencing studies. Results: PT2385 inhibited HIF-2 in nontumor tissues, as determined by a reduction in erythropoietin levels (a pharmacodynamic marker), in all but one patient, who had the lowest drug concentrations. PT2385 dissociated HIF-2 complexes in ccRCC metastases, and inhibited HIF-2 target gene expression. In contrast, HIF-1 complexes were unaffected. Prolonged PT2385 treatment resulted in the acquisition of resistance, and we identified a gatekeeper mutation (G323E) in HIF2a, which interferes with drug binding and precluded HIF-2 complex dissociation. In addition, we identified an acquired TP53 mutation elsewhere, suggesting a possible alternate mechanism of resistance. Conclusions: These findings demonstrate a core dependency on HIF-2 in metastatic ccRCC and establish PT2385 as a highly specific HIF-2 inhibitor in humans. New approaches will be required to target mutant HIF-2 beyond PT2385 or the closely related PT2977 (MK-6482).

Original language	English (US)
Pages (from-to)	793-803
Number of pages	11
Journal	Clinical Cancer Research
Volume	26
Issue number	4
DOIs	https://doi.org/10.1158/1078-0432.CCR-19-1459
State	Published - Feb 15 2020

ASJC Scopus subject areas

Oncology
Cancer Research

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10.1158/1078-0432.CCR-19-1459

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Courtney, K. D., Ma, Y., de Leon, A. D., Christie, A., Xie, Z., Woolford, L., Singla, N., Joyce, A., Hill, H., Madhuranthakam, A. J., Yuan, Q., Xi, Y., Zhang, Y., Chang, J., Fatunde, O., Arriaga, Y., Frankel, A. E., Kalva, S., Zhang, S., ... Brugarolas, J. (2020). HIF-2 complex dissociation, target inhibition, and acquired resistance with PT2385, a first-in-class HIF-2 inhibitor, in patients with clear cell renal cell carcinoma. Clinical Cancer Research, 26(4), 793-803. https://doi.org/10.1158/1078-0432.CCR-19-1459

HIF-2 complex dissociation, target inhibition, and acquired resistance with PT2385, a first-in-class HIF-2 inhibitor, in patients with clear cell renal cell carcinoma. / Courtney, Kevin D.; Ma, Yuanqing; de Leon, Alberto Diaz et al.
In: Clinical Cancer Research, Vol. 26, No. 4, 15.02.2020, p. 793-803.

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

Courtney, KD, Ma, Y, de Leon, AD, Christie, A, Xie, Z, Woolford, L, Singla, N, Joyce, A, Hill, H, Madhuranthakam, AJ , Yuan, Q , Xi, Y , Zhang, Y, Chang, J, Fatunde, O, Arriaga, Y, Frankel, AE, Kalva, S, Zhang, S, McKenzie, T, Torras, OR, Figlin, RA, Rini, BI, McKay, RM , Kapur, P , Wang, T , Pedrosa, I & Brugarolas, J 2020, 'HIF-2 complex dissociation, target inhibition, and acquired resistance with PT2385, a first-in-class HIF-2 inhibitor, in patients with clear cell renal cell carcinoma', Clinical Cancer Research, vol. 26, no. 4, pp. 793-803. https://doi.org/10.1158/1078-0432.CCR-19-1459

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title = "HIF-2 complex dissociation, target inhibition, and acquired resistance with PT2385, a first-in-class HIF-2 inhibitor, in patients with clear cell renal cell carcinoma",

abstract = "Purpose: The heterodimeric transcription factor HIF-2 is arguably the most important driver of clear cell renal cell carcinoma (ccRCC). Although considered undruggable, structural analyses at the University of Texas Southwestern Medical Center (UTSW, Dallas, TX) identified a vulnerability in the a subunit, which heterodimerizes with HIF1b, ultimately leading to the development of PT2385, a first-in-class inhibitor. PT2385 was safe and active in a first-in-human phase I clinical trial of patients with extensively pretreated ccRCC at UTSW and elsewhere. There were no dose-limiting toxicities, and disease control ≥4 months was achieved in 42% of patients. Patients and Methods: We conducted a prospective companion substudy involving a subset of patients enrolled in the phase I clinical trial at UTSW (n ¼ 10), who were treated at the phase II dose or above, involving multiparametric MRI, blood draws, and serial biopsies for biochemical, whole exome, and RNA-sequencing studies. Results: PT2385 inhibited HIF-2 in nontumor tissues, as determined by a reduction in erythropoietin levels (a pharmacodynamic marker), in all but one patient, who had the lowest drug concentrations. PT2385 dissociated HIF-2 complexes in ccRCC metastases, and inhibited HIF-2 target gene expression. In contrast, HIF-1 complexes were unaffected. Prolonged PT2385 treatment resulted in the acquisition of resistance, and we identified a gatekeeper mutation (G323E) in HIF2a, which interferes with drug binding and precluded HIF-2 complex dissociation. In addition, we identified an acquired TP53 mutation elsewhere, suggesting a possible alternate mechanism of resistance. Conclusions: These findings demonstrate a core dependency on HIF-2 in metastatic ccRCC and establish PT2385 as a highly specific HIF-2 inhibitor in humans. New approaches will be required to target mutant HIF-2 beyond PT2385 or the closely related PT2977 (MK-6482).",

author = "Courtney, {Kevin D.} and Yuanqing Ma and {de Leon}, {Alberto Diaz} and Alana Christie and Zhiqun Xie and Layton Woolford and Nirmish Singla and Allison Joyce and Haley Hill and Madhuranthakam, {Ananth J.} and Qing Yuan and Yin Xi and Yue Zhang and Jenny Chang and Oluwatomilade Fatunde and Yull Arriaga and Frankel, {Arthur E.} and Sanjeeva Kalva and Song Zhang and Tiffani McKenzie and Torras, {Oscar Reig} and Figlin, {Robert A.} and Rini, {Brian I.} and McKay, {Renee M.} and Payal Kapur and Tao Wang and Ivan Pedrosa and James Brugarolas",

note = "Funding Information: This manuscript is dedicated to the memory of Richard Martinez, who made extensive contributions to advance our understanding of the disease. We thank the patients who generously participated in the studies reported here. We are particularly grateful to those patients consenting to tumor biopsies to advance scientific research, along with their families. We thank Peloton Therapeutics for agreeing to the study and sharing data. This work was supported by Cancer Prevention and Research Institute of Texas grants RP160440 (to J. Brugarolas), and NIH Grants P50CA196516 (to J. Brugarolas, K.D. Courtney, P. Kapur, R. McKay, I. Pedrosa, T. Wang), R01CA154475 (to I. Pedrosa, P. Kapur), U01CA207091 (to A.J. Madhuranthakam, I. Pedrosa), and R03ES026397-01 (to T. Wang). K. Courtney received support from NIH/NCATS KL2TR001103. N. Singla receives support from the Ruth L. Kirschstein National Research Service Award T32 CA136515-09. O. Reig Torras receives support from BECA FSEOM/ FUNDACION CRIS CONTRA EL CANCER 2018. Histology equipment was purchased with funding from the National Center for Advancing Translational Sciences (Center for Translational Medicine UL1TR001105). The authors would like to acknowledge the UT Southwestern Tissue Resource Research and the UT Southwestern Small Animal Imaging Resource, which are supported in part by the Harold C. Simmons Cancer Center through an NCI Cancer Center Support Grant (P30CA142543). Publisher Copyright: {\textcopyright}2019 American Association for Cancer Research.",

year = "2020",

month = feb,

day = "15",

doi = "10.1158/1078-0432.CCR-19-1459",

language = "English (US)",

volume = "26",

pages = "793--803",

journal = "Clinical Cancer Research",

issn = "1078-0432",

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

number = "4",

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TY - JOUR

T1 - HIF-2 complex dissociation, target inhibition, and acquired resistance with PT2385, a first-in-class HIF-2 inhibitor, in patients with clear cell renal cell carcinoma

AU - Courtney, Kevin D.

AU - Ma, Yuanqing

AU - de Leon, Alberto Diaz

AU - Christie, Alana

AU - Xie, Zhiqun

AU - Woolford, Layton

AU - Singla, Nirmish

AU - Joyce, Allison

AU - Hill, Haley

AU - Madhuranthakam, Ananth J.

AU - Yuan, Qing

AU - Xi, Yin

AU - Zhang, Yue

AU - Chang, Jenny

AU - Fatunde, Oluwatomilade

AU - Arriaga, Yull

AU - Frankel, Arthur E.

AU - Kalva, Sanjeeva

AU - Zhang, Song

AU - McKenzie, Tiffani

AU - Torras, Oscar Reig

AU - Figlin, Robert A.

AU - Rini, Brian I.

AU - McKay, Renee M.

AU - Kapur, Payal

AU - Wang, Tao

AU - Pedrosa, Ivan

AU - Brugarolas, James

N1 - Funding Information: This manuscript is dedicated to the memory of Richard Martinez, who made extensive contributions to advance our understanding of the disease. We thank the patients who generously participated in the studies reported here. We are particularly grateful to those patients consenting to tumor biopsies to advance scientific research, along with their families. We thank Peloton Therapeutics for agreeing to the study and sharing data. This work was supported by Cancer Prevention and Research Institute of Texas grants RP160440 (to J. Brugarolas), and NIH Grants P50CA196516 (to J. Brugarolas, K.D. Courtney, P. Kapur, R. McKay, I. Pedrosa, T. Wang), R01CA154475 (to I. Pedrosa, P. Kapur), U01CA207091 (to A.J. Madhuranthakam, I. Pedrosa), and R03ES026397-01 (to T. Wang). K. Courtney received support from NIH/NCATS KL2TR001103. N. Singla receives support from the Ruth L. Kirschstein National Research Service Award T32 CA136515-09. O. Reig Torras receives support from BECA FSEOM/ FUNDACION CRIS CONTRA EL CANCER 2018. Histology equipment was purchased with funding from the National Center for Advancing Translational Sciences (Center for Translational Medicine UL1TR001105). The authors would like to acknowledge the UT Southwestern Tissue Resource Research and the UT Southwestern Small Animal Imaging Resource, which are supported in part by the Harold C. Simmons Cancer Center through an NCI Cancer Center Support Grant (P30CA142543). Publisher Copyright: ©2019 American Association for Cancer Research.

PY - 2020/2/15

Y1 - 2020/2/15

N2 - Purpose: The heterodimeric transcription factor HIF-2 is arguably the most important driver of clear cell renal cell carcinoma (ccRCC). Although considered undruggable, structural analyses at the University of Texas Southwestern Medical Center (UTSW, Dallas, TX) identified a vulnerability in the a subunit, which heterodimerizes with HIF1b, ultimately leading to the development of PT2385, a first-in-class inhibitor. PT2385 was safe and active in a first-in-human phase I clinical trial of patients with extensively pretreated ccRCC at UTSW and elsewhere. There were no dose-limiting toxicities, and disease control ≥4 months was achieved in 42% of patients. Patients and Methods: We conducted a prospective companion substudy involving a subset of patients enrolled in the phase I clinical trial at UTSW (n ¼ 10), who were treated at the phase II dose or above, involving multiparametric MRI, blood draws, and serial biopsies for biochemical, whole exome, and RNA-sequencing studies. Results: PT2385 inhibited HIF-2 in nontumor tissues, as determined by a reduction in erythropoietin levels (a pharmacodynamic marker), in all but one patient, who had the lowest drug concentrations. PT2385 dissociated HIF-2 complexes in ccRCC metastases, and inhibited HIF-2 target gene expression. In contrast, HIF-1 complexes were unaffected. Prolonged PT2385 treatment resulted in the acquisition of resistance, and we identified a gatekeeper mutation (G323E) in HIF2a, which interferes with drug binding and precluded HIF-2 complex dissociation. In addition, we identified an acquired TP53 mutation elsewhere, suggesting a possible alternate mechanism of resistance. Conclusions: These findings demonstrate a core dependency on HIF-2 in metastatic ccRCC and establish PT2385 as a highly specific HIF-2 inhibitor in humans. New approaches will be required to target mutant HIF-2 beyond PT2385 or the closely related PT2977 (MK-6482).

AB - Purpose: The heterodimeric transcription factor HIF-2 is arguably the most important driver of clear cell renal cell carcinoma (ccRCC). Although considered undruggable, structural analyses at the University of Texas Southwestern Medical Center (UTSW, Dallas, TX) identified a vulnerability in the a subunit, which heterodimerizes with HIF1b, ultimately leading to the development of PT2385, a first-in-class inhibitor. PT2385 was safe and active in a first-in-human phase I clinical trial of patients with extensively pretreated ccRCC at UTSW and elsewhere. There were no dose-limiting toxicities, and disease control ≥4 months was achieved in 42% of patients. Patients and Methods: We conducted a prospective companion substudy involving a subset of patients enrolled in the phase I clinical trial at UTSW (n ¼ 10), who were treated at the phase II dose or above, involving multiparametric MRI, blood draws, and serial biopsies for biochemical, whole exome, and RNA-sequencing studies. Results: PT2385 inhibited HIF-2 in nontumor tissues, as determined by a reduction in erythropoietin levels (a pharmacodynamic marker), in all but one patient, who had the lowest drug concentrations. PT2385 dissociated HIF-2 complexes in ccRCC metastases, and inhibited HIF-2 target gene expression. In contrast, HIF-1 complexes were unaffected. Prolonged PT2385 treatment resulted in the acquisition of resistance, and we identified a gatekeeper mutation (G323E) in HIF2a, which interferes with drug binding and precluded HIF-2 complex dissociation. In addition, we identified an acquired TP53 mutation elsewhere, suggesting a possible alternate mechanism of resistance. Conclusions: These findings demonstrate a core dependency on HIF-2 in metastatic ccRCC and establish PT2385 as a highly specific HIF-2 inhibitor in humans. New approaches will be required to target mutant HIF-2 beyond PT2385 or the closely related PT2977 (MK-6482).

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HIF-2 complex dissociation, target inhibition, and acquired resistance with PT2385, a first-in-class HIF-2 inhibitor, in patients with clear cell renal cell carcinoma

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