Immunological surveillance against cancer across mammals

Orsolya Vincze; Piotr Minias; Alexandre Corthay; Fernando Colchero; Jean François Lemaître; Louise Maille; Tamás Malkócs; Justus Hagemann; Dalia A. Conde; Samuel Pavard; Antoine M. Dujon; Beata Ujvari; Frédéric Thomas; Amy M. Boddy; Carlo C. Maley; Damien Chevallier; Tuul Sepp; Thomas Pradeu; Mathieu Giraudeau

doi:10.1038/s41467-025-65286-x

Immunological surveillance against cancer across mammals

Orsolya Vincze^*
, Piotr Minias
, Alexandre Corthay
, Fernando Colchero
, Jean François Lemaître
, Louise Maille
, Tamás Malkócs
, Justus Hagemann
, Dalia A. Conde
, Samuel Pavard
, Antoine M. Dujon
, Beata Ujvari
, Frédéric Thomas
, Amy M. Boddy
, Carlo C. Maley
, Damien Chevallier
, Tuul Sepp
, Thomas Pradeu
, Mathieu Giraudeau

^*Kontaktforfatter

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

Abstract

Contrary to expectations based on their higher cell numbers, larger and longer-lived species do not face dramatically increased risk of cancer. This strongly suggests that evolution has fashioned natural cancer resistance mechanisms, yet our knowledge remains limited on what these mechanisms might be. The cancer immunological surveillance hypothesis, proposed by Burnet and Thomas in the 1950s, highlights immunity as a key factor determining species-specific cancer resistance. Here we address the original, evolutionary interpretation of this hypothesis by investigating the relationship between cancer mortality risk and markers of efficient antigen presentation. Our results show that the expansion of the MHC class I gene complex, as well as increased selection for diversity at these genes is associated with sharply decreasing cancer mortality risk across mammals. This suggests that the efficient presentation of diverse peptides in somatic cells is important for cancer suppression across mammals, providing pioneering evidence that supports the cancer immunosurveillance hypothesis across species.

Originalsprog	Engelsk
Artikelnummer	10333
Tidsskrift	Nature Communications
Vol/bind	16
Udgave nummer	1
Antal sider	12
ISSN	2041-1723
DOI	https://doi.org/10.1038/s41467-025-65286-x
Status	Udgivet - dec. 2025

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10.1038/s41467-025-65286-xLicens: CC BY-NC-ND

Open Access VersionForlagets udgivne version, 3,96 MBLicens: CC BY-NC-ND

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Tjek adgangen til materialet i Syddansk Universitetsbiblioteks søgemaskine

Citationsformater

Vincze, O., Minias, P., Corthay, A., Colchero, F., Lemaître, J. F., Maille, L., Malkócs, T., Hagemann, J., Conde, D. A., Pavard, S., Dujon, A. M., Ujvari, B., Thomas, F., Boddy, A. M., Maley, C. C., Chevallier, D., Sepp, T., Pradeu, T., & Giraudeau, M. (2025). Immunological surveillance against cancer across mammals. Nature Communications, 16(1), Artikel 10333. https://doi.org/10.1038/s41467-025-65286-x

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title = "Immunological surveillance against cancer across mammals",

abstract = "Contrary to expectations based on their higher cell numbers, larger and longer-lived species do not face dramatically increased risk of cancer. This strongly suggests that evolution has fashioned natural cancer resistance mechanisms, yet our knowledge remains limited on what these mechanisms might be. The cancer immunological surveillance hypothesis, proposed by Burnet and Thomas in the 1950s, highlights immunity as a key factor determining species-specific cancer resistance. Here we address the original, evolutionary interpretation of this hypothesis by investigating the relationship between cancer mortality risk and markers of efficient antigen presentation. Our results show that the expansion of the MHC class I gene complex, as well as increased selection for diversity at these genes is associated with sharply decreasing cancer mortality risk across mammals. This suggests that the efficient presentation of diverse peptides in somatic cells is important for cancer suppression across mammals, providing pioneering evidence that supports the cancer immunosurveillance hypothesis across species.",

author = "Orsolya Vincze and Piotr Minias and Alexandre Corthay and Fernando Colchero and Lema{\^i}tre, \{Jean Fran{\c c}ois\} and Louise Maille and Tam{\'a}s Malk{\'o}cs and Justus Hagemann and Conde, \{Dalia A.\} and Samuel Pavard and Dujon, \{Antoine M.\} and Beata Ujvari and Fr{\'e}d{\'e}ric Thomas and Boddy, \{Amy M.\} and Maley, \{Carlo C.\} and Damien Chevallier and Tuul Sepp and Thomas Pradeu and Mathieu Giraudeau",

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doi = "10.1038/s41467-025-65286-x",

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Vincze, O, Minias, P, Corthay, A, Colchero, F, Lemaître, JF, Maille, L, Malkócs, T, Hagemann, J, Conde, DA, Pavard, S, Dujon, AM, Ujvari, B, Thomas, F, Boddy, AM, Maley, CC, Chevallier, D, Sepp, T, Pradeu, T & Giraudeau, M 2025, 'Immunological surveillance against cancer across mammals', Nature Communications, bind 16, nr. 1, 10333. https://doi.org/10.1038/s41467-025-65286-x

TY - JOUR

T1 - Immunological surveillance against cancer across mammals

AU - Vincze, Orsolya

AU - Minias, Piotr

AU - Corthay, Alexandre

AU - Colchero, Fernando

AU - Lemaître, Jean François

AU - Maille, Louise

AU - Malkócs, Tamás

AU - Hagemann, Justus

AU - Conde, Dalia A.

AU - Pavard, Samuel

AU - Dujon, Antoine M.

AU - Ujvari, Beata

AU - Thomas, Frédéric

AU - Boddy, Amy M.

AU - Maley, Carlo C.

AU - Chevallier, Damien

AU - Sepp, Tuul

AU - Pradeu, Thomas

AU - Giraudeau, Mathieu

PY - 2025/12

Y1 - 2025/12

N2 - Contrary to expectations based on their higher cell numbers, larger and longer-lived species do not face dramatically increased risk of cancer. This strongly suggests that evolution has fashioned natural cancer resistance mechanisms, yet our knowledge remains limited on what these mechanisms might be. The cancer immunological surveillance hypothesis, proposed by Burnet and Thomas in the 1950s, highlights immunity as a key factor determining species-specific cancer resistance. Here we address the original, evolutionary interpretation of this hypothesis by investigating the relationship between cancer mortality risk and markers of efficient antigen presentation. Our results show that the expansion of the MHC class I gene complex, as well as increased selection for diversity at these genes is associated with sharply decreasing cancer mortality risk across mammals. This suggests that the efficient presentation of diverse peptides in somatic cells is important for cancer suppression across mammals, providing pioneering evidence that supports the cancer immunosurveillance hypothesis across species.

AB - Contrary to expectations based on their higher cell numbers, larger and longer-lived species do not face dramatically increased risk of cancer. This strongly suggests that evolution has fashioned natural cancer resistance mechanisms, yet our knowledge remains limited on what these mechanisms might be. The cancer immunological surveillance hypothesis, proposed by Burnet and Thomas in the 1950s, highlights immunity as a key factor determining species-specific cancer resistance. Here we address the original, evolutionary interpretation of this hypothesis by investigating the relationship between cancer mortality risk and markers of efficient antigen presentation. Our results show that the expansion of the MHC class I gene complex, as well as increased selection for diversity at these genes is associated with sharply decreasing cancer mortality risk across mammals. This suggests that the efficient presentation of diverse peptides in somatic cells is important for cancer suppression across mammals, providing pioneering evidence that supports the cancer immunosurveillance hypothesis across species.

U2 - 10.1038/s41467-025-65286-x

DO - 10.1038/s41467-025-65286-x

M3 - Journal article

C2 - 41285854

AN - SCOPUS:105022761596

SN - 2041-1723

VL - 16

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 10333

ER -

Immunological surveillance against cancer across mammals

Abstract

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