Convergent Genetic Adaptation in Human Tumors Developed Under Systemic Hypoxia and in Populations Living at High Altitudes

Carlota Arenillas; Lucía Celada; José Ruiz-Cantador; Bruna Calsina; Debayan Datta; Eduardo García-Galea; Roberta Fasani; Ana Belén Moreno-Cárdenas; Juan José Alba-Linares; Berta Miranda-Barrio; Ángel M. Martínez-Montes; Cristina Alvarez-Escola; Beatriz Lecumberri; Ana González García; Shahida K. Flores; Emmanuel Esquivel; Yanli Ding; Mirko Peitzsch; José Ángel Robles-Guirado; Rita Maria Regojo Zapata; José Juan Pozo-Kreilinger; Carmela Iglesias; Trisha Dwight; Christopher A. Muir; Amelia Oleaga; Maria Elvira Garrido Lestache Rodríguez-Monte; Maria Jesús Del Cerro; Isaac Martínez-Bendayán; Enol Álvarez-González; Tamara Cubiella; Delmar Muniz Lourenço; Maria Adelaide A. Pereira; Nelly Burnichon; Alexandre Buffet; Craig Broberg; Paxton V. Dickson; Mario F. Fraga; José Luis Llorente Pendás; Joaquín Rueda Soriano; Francisco Buendía Fuentes; Sergio P.A. Toledo; Roderick Clifton-Bligh; Rodrigo Dienstmann; Josep Villanueva; Jaume Capdevila; Anne Paule Gimenez-Roqueplo; Judith Favier; Paolo Nuciforo; William F. Young; Nicole Bechmann; Alexander R. Opotowsky; Anand Vaidya; Irina Bancos; Donate Weghorn; Mercedes Robledo; Anna Casteràs; Laura Dos-Subirà; Igor Adameyko; María Dolores Chiara; Patricia L.M. Dahia; Rodrigo A. Toledo

doi:10.1158/2159-8290.CD-24-0943

Convergent Genetic Adaptation in Human Tumors Developed Under Systemic Hypoxia and in Populations Living at High Altitudes

Carlota Arenillas, Lucía Celada, José Ruiz-Cantador, Bruna Calsina, Debayan Datta, Eduardo García-Galea, Roberta Fasani, Ana Belén Moreno-Cárdenas, Juan José Alba-Linares, Berta Miranda-Barrio, Ángel M. Martínez-Montes, Cristina Alvarez-Escola, Beatriz Lecumberri, Ana González García, Shahida K. Flores, Emmanuel Esquivel, Yanli Ding, Mirko Peitzsch, José Ángel Robles-Guirado, Rita Maria Regojo ZapataJosé Juan Pozo-Kreilinger, Carmela Iglesias, Trisha Dwight, Christopher A. Muir, Amelia Oleaga, Maria Elvira Garrido Lestache Rodríguez-Monte, Maria Jesús Del Cerro, Isaac Martínez-Bendayán, Enol Álvarez-González, Tamara Cubiella, Delmar Muniz Lourenço, Maria Adelaide A. Pereira, Nelly Burnichon, Alexandre Buffet, Craig Broberg, Paxton V. Dickson, Mario F. Fraga, José Luis Llorente Pendás, Joaquín Rueda Soriano, Francisco Buendía Fuentes, Sergio P.A. Toledo, Roderick Clifton-Bligh, Rodrigo Dienstmann, Josep Villanueva, Jaume Capdevila, Anne Paule Gimenez-Roqueplo, Judith Favier, Paolo Nuciforo, William F. Young, Nicole Bechmann, Alexander R. Opotowsky, Anand Vaidya, Irina Bancos, Donate Weghorn, Mercedes Robledo, Anna Casteràs, Laura Dos-Subirà, Igor Adameyko, María Dolores Chiara, Patricia L.M. Dahia, Rodrigo A. Toledo

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

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Abstract

This study explores parallels between systemic hypoxia adaptation in high-altitude populations and tumorigenesis. We identified EPAS1, a gene critical for hypoxia adaptation in populations such as Tibetans and Sherpas, as playing a similar adaptive role in tumors arising under hypoxic conditions. Tumors from patients with chronic hypoxia displayed impaired DNA repair and frequent emergence of EPAS1 variants, with frequencies reaching up to 90%, echoing the positive selection seen in high-altitude dwellers. Mechanistically, EPAS1 gain-of-function mutations promote COX4I2 expression, reducing cellular oxygen consumption and supporting tumor proliferation in hypoxia. Analysis of clinical data from patients with hypoxia revealed tissue-specific and time-sensitive tumorigenic effects, particularly impacting oxygen-sensitive cells in the postnatal period. Our findings suggest that EPAS1-driven adaptation mechanisms in high-altitude populations provide a model for understanding tumor evolution under hypoxic stress, highlighting how genetic adaptations to diverse stressors in natural populations may yield insights into tumorigenesis and cancer progression. Significance: This study reveals a broad convergence in genetic adaptation to hypoxia between natural populations and tumors, suggesting that insights from natural populations could enhance our understanding of cancer biology and identify novel therapeutic targets.

Original language	English (US)
Pages (from-to)	1037-1062
Number of pages	26
Journal	Cancer Discovery
Volume	15
Issue number	5
DOIs	https://doi.org/10.1158/2159-8290.CD-24-0943
State	Published - May 1 2025
Externally published	Yes

ASJC Scopus subject areas

Oncology

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10.1158/2159-8290.CD-24-0943

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Arenillas, C., Celada, L., Ruiz-Cantador, J., Calsina, B., Datta, D., García-Galea, E., Fasani, R., Moreno-Cárdenas, A. B., Alba-Linares, J. J., Miranda-Barrio, B., Martínez-Montes, Á. M., Alvarez-Escola, C., Lecumberri, B., García, A. G., Flores, S. K., Esquivel, E., Ding, Y., Peitzsch, M., Robles-Guirado, J. Á., ... Toledo, R. A. (2025). Convergent Genetic Adaptation in Human Tumors Developed Under Systemic Hypoxia and in Populations Living at High Altitudes. Cancer Discovery, 15(5), 1037-1062. https://doi.org/10.1158/2159-8290.CD-24-0943

Arenillas, C, Celada, L, Ruiz-Cantador, J, Calsina, B, Datta, D, García-Galea, E, Fasani, R, Moreno-Cárdenas, AB, Alba-Linares, JJ, Miranda-Barrio, B, Martínez-Montes, ÁM, Alvarez-Escola, C, Lecumberri, B, García, AG, Flores, SK, Esquivel, E, Ding, Y, Peitzsch, M, Robles-Guirado, JÁ, Zapata, RMR, Pozo-Kreilinger, JJ, Iglesias, C, Dwight, T, Muir, CA, Oleaga, A, Rodríguez-Monte, MEGL, Del Cerro, MJ, Martínez-Bendayán, I, Álvarez-González, E, Cubiella, T, Lourenço, DM, Pereira, MAA, Burnichon, N, Buffet, A, Broberg, C, Dickson, PV, Fraga, MF, Pendás, JLL, Soriano, JR, Fuentes, FB, Toledo, SPA, Clifton-Bligh, R, Dienstmann, R, Villanueva, J, Capdevila, J, Gimenez-Roqueplo, AP, Favier, J, Nuciforo, P, Young, WF, Bechmann, N, Opotowsky, AR, Vaidya, A, Bancos, I, Weghorn, D, Robledo, M, Casteràs, A, Dos-Subirà, L, Adameyko, I, Chiara, MD, Dahia, PLM & Toledo, RA 2025, 'Convergent Genetic Adaptation in Human Tumors Developed Under Systemic Hypoxia and in Populations Living at High Altitudes', Cancer Discovery, vol. 15, no. 5, pp. 1037-1062. https://doi.org/10.1158/2159-8290.CD-24-0943

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title = "Convergent Genetic Adaptation in Human Tumors Developed Under Systemic Hypoxia and in Populations Living at High Altitudes",

abstract = "This study explores parallels between systemic hypoxia adaptation in high-altitude populations and tumorigenesis. We identified EPAS1, a gene critical for hypoxia adaptation in populations such as Tibetans and Sherpas, as playing a similar adaptive role in tumors arising under hypoxic conditions. Tumors from patients with chronic hypoxia displayed impaired DNA repair and frequent emergence of EPAS1 variants, with frequencies reaching up to 90%, echoing the positive selection seen in high-altitude dwellers. Mechanistically, EPAS1 gain-of-function mutations promote COX4I2 expression, reducing cellular oxygen consumption and supporting tumor proliferation in hypoxia. Analysis of clinical data from patients with hypoxia revealed tissue-specific and time-sensitive tumorigenic effects, particularly impacting oxygen-sensitive cells in the postnatal period. Our findings suggest that EPAS1-driven adaptation mechanisms in high-altitude populations provide a model for understanding tumor evolution under hypoxic stress, highlighting how genetic adaptations to diverse stressors in natural populations may yield insights into tumorigenesis and cancer progression. Significance: This study reveals a broad convergence in genetic adaptation to hypoxia between natural populations and tumors, suggesting that insights from natural populations could enhance our understanding of cancer biology and identify novel therapeutic targets.",

author = "Carlota Arenillas and Luc{\'i}a Celada and Jos{\'e} Ruiz-Cantador and Bruna Calsina and Debayan Datta and Eduardo Garc{\'i}a-Galea and Roberta Fasani and Moreno-C{\'a}rdenas, {Ana Bel{\'e}n} and Alba-Linares, {Juan Jos{\'e}} and Berta Miranda-Barrio and Mart{\'i}nez-Montes, {{\'A}ngel M.} and Cristina Alvarez-Escola and Beatriz Lecumberri and Garc{\'i}a, {Ana Gonz{\'a}lez} and Flores, {Shahida K.} and Emmanuel Esquivel and Yanli Ding and Mirko Peitzsch and Robles-Guirado, {Jos{\'e} {\'A}ngel} and Zapata, {Rita Maria Regojo} and Pozo-Kreilinger, {Jos{\'e} Juan} and Carmela Iglesias and Trisha Dwight and Muir, {Christopher A.} and Amelia Oleaga and Rodr{\'i}guez-Monte, {Maria Elvira Garrido Lestache} and {Del Cerro}, {Maria Jes{\'u}s} and Isaac Mart{\'i}nez-Benday{\'a}n and Enol {\'A}lvarez-Gonz{\'a}lez and Tamara Cubiella and Louren{\c c}o, {Delmar Muniz} and Pereira, {Maria Adelaide A.} and Nelly Burnichon and Alexandre Buffet and Craig Broberg and Dickson, {Paxton V.} and Fraga, {Mario F.} and Pend{\'a}s, {Jos{\'e} Luis Llorente} and Soriano, {Joaqu{\'i}n Rueda} and Fuentes, {Francisco Buend{\'i}a} and Toledo, {Sergio P.A.} and Roderick Clifton-Bligh and Rodrigo Dienstmann and Josep Villanueva and Jaume Capdevila and Gimenez-Roqueplo, {Anne Paule} and Judith Favier and Paolo Nuciforo and Young, {William F.} and Nicole Bechmann and Opotowsky, {Alexander R.} and Anand Vaidya and Irina Bancos and Donate Weghorn and Mercedes Robledo and Anna Caster{\`a}s and Laura Dos-Subir{\`a} and Igor Adameyko and Chiara, {Mar{\'i}a Dolores} and Dahia, {Patricia L.M.} and Toledo, {Rodrigo A.}",

note = "Publisher Copyright: {\textcopyright} 2025 The Authors.",

year = "2025",

month = may,

day = "1",

doi = "10.1158/2159-8290.CD-24-0943",

language = "English (US)",

volume = "15",

pages = "1037--1062",

journal = "Cancer Discovery",

issn = "2159-8274",

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

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T1 - Convergent Genetic Adaptation in Human Tumors Developed Under Systemic Hypoxia and in Populations Living at High Altitudes

AU - Arenillas, Carlota

AU - Celada, Lucía

AU - Ruiz-Cantador, José

AU - Calsina, Bruna

AU - Datta, Debayan

AU - García-Galea, Eduardo

AU - Fasani, Roberta

AU - Moreno-Cárdenas, Ana Belén

AU - Alba-Linares, Juan José

AU - Miranda-Barrio, Berta

AU - Martínez-Montes, Ángel M.

AU - Alvarez-Escola, Cristina

AU - Lecumberri, Beatriz

AU - García, Ana González

AU - Flores, Shahida K.

AU - Esquivel, Emmanuel

AU - Ding, Yanli

AU - Peitzsch, Mirko

AU - Robles-Guirado, José Ángel

AU - Zapata, Rita Maria Regojo

AU - Pozo-Kreilinger, José Juan

AU - Iglesias, Carmela

AU - Dwight, Trisha

AU - Muir, Christopher A.

AU - Oleaga, Amelia

AU - Rodríguez-Monte, Maria Elvira Garrido Lestache

AU - Del Cerro, Maria Jesús

AU - Martínez-Bendayán, Isaac

AU - Álvarez-González, Enol

AU - Cubiella, Tamara

AU - Lourenço, Delmar Muniz

AU - Pereira, Maria Adelaide A.

AU - Burnichon, Nelly

AU - Buffet, Alexandre

AU - Broberg, Craig

AU - Dickson, Paxton V.

AU - Fraga, Mario F.

AU - Pendás, José Luis Llorente

AU - Soriano, Joaquín Rueda

AU - Fuentes, Francisco Buendía

AU - Toledo, Sergio P.A.

AU - Clifton-Bligh, Roderick

AU - Dienstmann, Rodrigo

AU - Villanueva, Josep

AU - Capdevila, Jaume

AU - Gimenez-Roqueplo, Anne Paule

AU - Favier, Judith

AU - Nuciforo, Paolo

AU - Young, William F.

AU - Bechmann, Nicole

AU - Opotowsky, Alexander R.

AU - Vaidya, Anand

AU - Bancos, Irina

AU - Weghorn, Donate

AU - Robledo, Mercedes

AU - Casteràs, Anna

AU - Dos-Subirà, Laura

AU - Adameyko, Igor

AU - Chiara, María Dolores

AU - Dahia, Patricia L.M.

AU - Toledo, Rodrigo A.

PY - 2025/5/1

Y1 - 2025/5/1

N2 - This study explores parallels between systemic hypoxia adaptation in high-altitude populations and tumorigenesis. We identified EPAS1, a gene critical for hypoxia adaptation in populations such as Tibetans and Sherpas, as playing a similar adaptive role in tumors arising under hypoxic conditions. Tumors from patients with chronic hypoxia displayed impaired DNA repair and frequent emergence of EPAS1 variants, with frequencies reaching up to 90%, echoing the positive selection seen in high-altitude dwellers. Mechanistically, EPAS1 gain-of-function mutations promote COX4I2 expression, reducing cellular oxygen consumption and supporting tumor proliferation in hypoxia. Analysis of clinical data from patients with hypoxia revealed tissue-specific and time-sensitive tumorigenic effects, particularly impacting oxygen-sensitive cells in the postnatal period. Our findings suggest that EPAS1-driven adaptation mechanisms in high-altitude populations provide a model for understanding tumor evolution under hypoxic stress, highlighting how genetic adaptations to diverse stressors in natural populations may yield insights into tumorigenesis and cancer progression. Significance: This study reveals a broad convergence in genetic adaptation to hypoxia between natural populations and tumors, suggesting that insights from natural populations could enhance our understanding of cancer biology and identify novel therapeutic targets.

AB - This study explores parallels between systemic hypoxia adaptation in high-altitude populations and tumorigenesis. We identified EPAS1, a gene critical for hypoxia adaptation in populations such as Tibetans and Sherpas, as playing a similar adaptive role in tumors arising under hypoxic conditions. Tumors from patients with chronic hypoxia displayed impaired DNA repair and frequent emergence of EPAS1 variants, with frequencies reaching up to 90%, echoing the positive selection seen in high-altitude dwellers. Mechanistically, EPAS1 gain-of-function mutations promote COX4I2 expression, reducing cellular oxygen consumption and supporting tumor proliferation in hypoxia. Analysis of clinical data from patients with hypoxia revealed tissue-specific and time-sensitive tumorigenic effects, particularly impacting oxygen-sensitive cells in the postnatal period. Our findings suggest that EPAS1-driven adaptation mechanisms in high-altitude populations provide a model for understanding tumor evolution under hypoxic stress, highlighting how genetic adaptations to diverse stressors in natural populations may yield insights into tumorigenesis and cancer progression. Significance: This study reveals a broad convergence in genetic adaptation to hypoxia between natural populations and tumors, suggesting that insights from natural populations could enhance our understanding of cancer biology and identify novel therapeutic targets.

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U2 - 10.1158/2159-8290.CD-24-0943

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AN - SCOPUS:105004562930

SN - 2159-8274

VL - 15

SP - 1037

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JO - Cancer Discovery

JF - Cancer Discovery

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ER -

Convergent Genetic Adaptation in Human Tumors Developed Under Systemic Hypoxia and in Populations Living at High Altitudes

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