Genetic variation in HIF-2α attenuates ventilatory sensitivity and carotid body growth in chronic hypoxia in high-altitude deer mice

doi:10.1113/JP282798

. 2022 Sep;600(18):4207-4225.

doi: 10.1113/JP282798. Epub 2022 Jul 31.

Genetic variation in HIF-2α attenuates ventilatory sensitivity and carotid body growth in chronic hypoxia in high-altitude deer mice

Catherine M Ivy¹, Jonathan P Velotta², Zachary A Cheviron³, Graham R Scott¹

Affiliations

¹ Department of Biology, McMaster University, Hamilton, ON, Canada.
² Department of Biological Sciences, University of Denver, Denver, CO, USA.
³ Division of Biological Sciences, University of Montana, Missoula, MT, USA.

PMID: 35797482
DOI: 10.1113/JP282798

Free article

Genetic variation in HIF-2α attenuates ventilatory sensitivity and carotid body growth in chronic hypoxia in high-altitude deer mice

Catherine M Ivy et al. J Physiol. 2022 Sep.

Free article

. 2022 Sep;600(18):4207-4225.

doi: 10.1113/JP282798. Epub 2022 Jul 31.

Authors

Catherine M Ivy¹, Jonathan P Velotta², Zachary A Cheviron³, Graham R Scott¹

Affiliations

¹ Department of Biology, McMaster University, Hamilton, ON, Canada.
² Department of Biological Sciences, University of Denver, Denver, CO, USA.
³ Division of Biological Sciences, University of Montana, Missoula, MT, USA.

PMID: 35797482
DOI: 10.1113/JP282798

Abstract

The gene encoding HIF-2α, Epas1, has experienced a history of natural selection in many high-altitude taxa, but the functional role of mutations in this gene is still poorly understood. We investigated the influence of the high-altitude variant of Epas1 in North American deer mice (Peromyscus maniculatus) on the control of breathing and carotid body growth during chronic hypoxia. We created hybrids between high- and low-altitude populations of deer mice to disrupt linkages between genetic loci so that the physiological effects of Epas1 alleles (Epas1^H and Epas1^L , respectively) could be examined on an admixed genomic background. In general, chronic hypoxia (4 weeks at 12 kPa O₂ ) enhanced ventilatory chemosensitivity (assessed as the acute ventilatory response to hypoxia), increased total ventilation and arterial O₂ saturation during progressive poikilocapnic hypoxia, and increased haematocrit and blood haemoglobin content across genotypes. However, the effects of chronic hypoxia on ventilatory chemosensitivity were attenuated in mice that were homozygous for the high-altitude Epas1 allele (Epas1^H/H ). Carotid body growth and glomus cell hyperplasia, which was strongly induced in Epas1^L/L mice in chronic hypoxia, was not observed in Epas1^H/H mice. Epas1 genotype also modulated the effects of chronic hypoxia on metabolism and body temperature depression in hypoxia, but had no effects on haematological traits. These findings confirm the important role of HIF-2α in modulating ventilatory sensitivity and carotid body growth in chronic hypoxia, and show that genetic variation in Epas1 is responsible for evolved changes in the control of breathing and metabolism in high-altitude deer mice. KEY POINTS: High-altitude natives of many species have experienced natural selection on the gene encoding HIF-2α, Epas1, including high-altitude populations of deer mice. HIF-2α regulates ventilation and carotid body growth in hypoxia, and so the genetic variants in Epas1 in high-altitude natives may underlie evolved changes in control of breathing. Deer mice from controlled crosses between high- and low-altitude populations were used to examine the effects of Epas1 genotype on an admixed genomic background. The high-altitude variant was associated with reduced ventilatory chemosensitivity and carotid body growth in chronic hypoxia, but had no effects on haematology. The results help us better understand the genetic basis for the unique physiological phenotype of high-altitude natives.

Keywords: high-altitude adaptation; hypoxic ventilatory response; oxygen chemosensitivity; peripheral chemoreceptor; ventilatory acclimatization to hypoxia.

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Comment in

EPAS1/HIF-2α: a key regulator for chronic hypoxia across species.
Moya EA. Moya EA. J Physiol. 2022 Sep;600(18):4053-4054. doi: 10.1113/JP283554. Epub 2022 Aug 21. J Physiol. 2022. PMID: 35932457 Free PMC article. No abstract available.

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EPAS1/HIF-2α: a key regulator for chronic hypoxia across species.
Moya EA. Moya EA. J Physiol. 2022 Sep;600(18):4053-4054. doi: 10.1113/JP283554. Epub 2022 Aug 21. J Physiol. 2022. PMID: 35932457 Free PMC article. No abstract available.

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References

1. Aaron, E. A., & Powell, F. L. (1993). Effect of chronic hypoxia on hypoxic ventilatory response in awake rats. Journal of Applied Physiology, 74(1), 1635-1640.
1. Ai, H., Yang, B., Li, J., Xie, X., Chen, H., & Ren, J. (2014). Population history and genomic signatures for high-altitude adaptation in tibetan pigs. Bmc Genomics [Electronic Resource], 15, 1-14.
1. Beall, C. M., Cavalleri, G. L., Deng, L., Elston, R. C., Gao, Y., Knight, J.o, Li, C., Li, J. C., Liang, Y.u, Mccormack, M., Montgomery, H. E., Pan, H., Robbins, P. A., Shianna, K. V., Tam, S. C., Tsering, N., Veeramah, K. R., Wang, W., Wangdui, P., …, & Zheng, Y. T. (2010). Natural selection on EPAS1 (HIF2alpha) associated with low hemoglobin concentration in Tibetan highlanders. Proceedings of the National Academy of Sciences of the United States of America, 107(25), 11459-11464.
1. Beall, C. M., Strohl, K. P., Blangero, J., Williams-Blangero, S., Almasy, L. A., Decker, M. J., Worthman, C. M., Goldstein, M. C., Vargas, E., Villena, M., Soria, R., Alarcon, A. M., & Gonzales, C. (1997). Ventilation and hypoxic ventilatory response of Tibetan and Aymara high altitude natives. American Journal of Physical Anthropology, 104(4), 427-447.
1. Bernardi, L., Passino, C., Spadacini, G., Calciati, A., Robergs, R., Greene, R., Martignoni, E., Anand, I., & Appenzeller, O. (1998). Cardiovascular autonomic modulation and activity of carotid baroreceptors at altitude. Clinical Science, 95(5), 565-573.

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[1] Aaron, E. A., & Powell, F. L. (1993). Effect of chronic hypoxia on hypoxic ventilatory response in awake rats. Journal of Applied Physiology, 74(1), 1635-1640.

[2] Aaron, E. A., & Powell, F. L. (1993). Effect of chronic hypoxia on hypoxic ventilatory response in awake rats. Journal of Applied Physiology, 74(1), 1635-1640.

[3] Ai, H., Yang, B., Li, J., Xie, X., Chen, H., & Ren, J. (2014). Population history and genomic signatures for high-altitude adaptation in tibetan pigs. Bmc Genomics [Electronic Resource], 15, 1-14.

[4] Ai, H., Yang, B., Li, J., Xie, X., Chen, H., & Ren, J. (2014). Population history and genomic signatures for high-altitude adaptation in tibetan pigs. Bmc Genomics [Electronic Resource], 15, 1-14.

[5] Beall, C. M., Cavalleri, G. L., Deng, L., Elston, R. C., Gao, Y., Knight, J.o, Li, C., Li, J. C., Liang, Y.u, Mccormack, M., Montgomery, H. E., Pan, H., Robbins, P. A., Shianna, K. V., Tam, S. C., Tsering, N., Veeramah, K. R., Wang, W., Wangdui, P., …, & Zheng, Y. T. (2010). Natural selection on EPAS1 (HIF2alpha) associated with low hemoglobin concentration in Tibetan highlanders. Proceedings of the National Academy of Sciences of the United States of America, 107(25), 11459-11464.

[6] Beall, C. M., Cavalleri, G. L., Deng, L., Elston, R. C., Gao, Y., Knight, J.o, Li, C., Li, J. C., Liang, Y.u, Mccormack, M., Montgomery, H. E., Pan, H., Robbins, P. A., Shianna, K. V., Tam, S. C., Tsering, N., Veeramah, K. R., Wang, W., Wangdui, P., …, & Zheng, Y. T. (2010). Natural selection on EPAS1 (HIF2alpha) associated with low hemoglobin concentration in Tibetan highlanders. Proceedings of the National Academy of Sciences of the United States of America, 107(25), 11459-11464.

[7] Beall, C. M., Strohl, K. P., Blangero, J., Williams-Blangero, S., Almasy, L. A., Decker, M. J., Worthman, C. M., Goldstein, M. C., Vargas, E., Villena, M., Soria, R., Alarcon, A. M., & Gonzales, C. (1997). Ventilation and hypoxic ventilatory response of Tibetan and Aymara high altitude natives. American Journal of Physical Anthropology, 104(4), 427-447.

[8] Beall, C. M., Strohl, K. P., Blangero, J., Williams-Blangero, S., Almasy, L. A., Decker, M. J., Worthman, C. M., Goldstein, M. C., Vargas, E., Villena, M., Soria, R., Alarcon, A. M., & Gonzales, C. (1997). Ventilation and hypoxic ventilatory response of Tibetan and Aymara high altitude natives. American Journal of Physical Anthropology, 104(4), 427-447.

[9] Bernardi, L., Passino, C., Spadacini, G., Calciati, A., Robergs, R., Greene, R., Martignoni, E., Anand, I., & Appenzeller, O. (1998). Cardiovascular autonomic modulation and activity of carotid baroreceptors at altitude. Clinical Science, 95(5), 565-573.

[10] Bernardi, L., Passino, C., Spadacini, G., Calciati, A., Robergs, R., Greene, R., Martignoni, E., Anand, I., & Appenzeller, O. (1998). Cardiovascular autonomic modulation and activity of carotid baroreceptors at altitude. Clinical Science, 95(5), 565-573.

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Genetic variation in HIF-2α attenuates ventilatory sensitivity and carotid body growth in chronic hypoxia in high-altitude deer mice

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Genetic variation in HIF-2α attenuates ventilatory sensitivity and carotid body growth in chronic hypoxia in high-altitude deer mice

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