Marked and rapid effects of pharmacological HIF-2α antagonism on hypoxic ventilatory control
Xiaotong Cheng, … , Tammie Bishop, Peter J. Ratcliffe
Xiaotong Cheng, … , Tammie Bishop, Peter J. Ratcliffe
Published January 30, 2020
Citation Information: J Clin Invest. 2020;130(5):2237-2251. https://doi.org/10.1172/JCI133194.
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Marked and rapid effects of pharmacological HIF-2α antagonism on hypoxic ventilatory control

Abstract

Hypoxia-inducible factor (HIF) is strikingly upregulated in many types of cancer, and there is great interest in applying inhibitors of HIF as anticancer therapeutics. The most advanced of these are small molecules that target the HIF-2 isoform through binding the PAS-B domain of HIF-2α. These molecules are undergoing clinical trials with promising results in renal and other cancers where HIF-2 is considered to be driving growth. Nevertheless, a central question remains as to whether such inhibitors affect physiological responses to hypoxia at relevant doses. Here, we show that pharmacological HIF-2α inhibition with PT2385, at doses similar to those reported to inhibit tumor growth, rapidly impaired ventilatory responses to hypoxia, abrogating both ventilatory acclimatization and carotid body cell proliferative responses to sustained hypoxia. Mice carrying a HIF-2α PAS-B S305M mutation that disrupts PT2385 binding, but not dimerization with HIF-1β, did not respond to PT2385, indicating that these effects are on-target. Furthermore, the finding of a hypomorphic ventilatory phenotype in untreated HIF-2α S305M mutant mice suggests a function for the HIF-2α PAS-B domain beyond heterodimerization with HIF-1β. Although PT2385 was well tolerated, the findings indicate the need for caution in patients who are dependent on hypoxic ventilatory drive.

Authors

Xiaotong Cheng, Maria Prange-Barczynska, James W. Fielding, Minghao Zhang, Alana L. Burrell, Joanna D.C.C. Lima, Luise Eckardt, Isobel L.A. Argles, Christopher W. Pugh, Keith J. Buckler, Peter A. Robbins, Emma J. Hodson, Richard K. Bruick, Lucy M. Collinson, Fraydoon Rastinejad, Tammie Bishop, Peter J. Ratcliffe

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Figure 6

Epas1S305M/S305M male mice are resistant to PT2385 effects on enhanced ventilatory sensitivity to hypoxia.

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Epas1S305M/S305M male mice are resistant to PT2385 effects on enhanced ...
Graphs show minute ventilation in response to an acute (5 minutes) challenge with 10% O2/3% CO2 (white bars) before (baseline) and after the indicated exposure to hypoxia (H, 10% oxygen). (A) Comparison of WT and Epas1S305M/S305M male mice treated twice daily with 10 mg/kg PT2385 (or vehicle), beginning 24 hours before 7 days of exposure to hypoxia and continuing throughout (to a total of 8 days of treatment) (n = 7). (B) Graphs show AVRs to challenges with 10% O2/3% CO2, quantified from the minute ventilation in A. Data from each genotype were analyzed by 2-way repeated measures ANOVA, with baseline recordings removed from statistical analyses (P values in Table 2), followed by Holm-Sidak’s multiple comparisons 2-tailed tests for individual time point comparisons, for which significance is reported in the graphs. **P < 0.01; ***P < 0.001. (C) Comparison of ventilatory sensitivity in vehicle-treated WT and Epas1S305M/S305M male mice before (baseline) and after 7 days of exposure to hypoxia. For baseline comparison, measurements were pooled from all treatment groups per genotype (n = 14). Data at 7 days are replotted from A to provide direct comparison (n = 7).