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 - 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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U2 - 10.1158/1078-0432.CCR-19-1459
DO - 10.1158/1078-0432.CCR-19-1459
M3 - Article
C2 - 31727677
AN - SCOPUS:85079405964
SN - 1078-0432
VL - 26
SP - 793
EP - 803
JO - Clinical Cancer Research
JF - Clinical Cancer Research
IS - 4
ER -