loading page

Tumors (re)shape biotic interactions: evidence from the freshwater cnidarian Hydra
  • +5
  • Justine BOUTRY,
  • Juliette MISTRAL,
  • Alexander KLIMOVICH,
  • Jácint Tökölyi,
  • Laura FONTENILLE,
  • Beata Ujvari,
  • Mathieu Giraudeau,
  • Frédéric Thomas
Justine BOUTRY
CREEC

Corresponding Author:[email protected]

Author Profile
Juliette MISTRAL
CREEC
Author Profile
Alexander KLIMOVICH
Zoological Institute, Christian-Albrechts University Kiel, Am Botanischen Garten 7, 24118 Kiel, Germany
Author Profile
Jácint Tökölyi
University of Debrecen
Author Profile
Laura FONTENILLE
AZELEAD, 377 Rue du Professeur Blayac, 34080 Montpellier, France
Author Profile
Beata Ujvari
Deakin University
Author Profile
Mathieu Giraudeau
Arizona State University
Author Profile
Frédéric Thomas
CNRS
Author Profile

Abstract

While it is often assumed that oncogenic process in metazoans can influence biotic interactions, empirical evidence for that is lacking. Here, we use the cnidarian Hydra oligactis to experimentally explore the consequences of tumor associated phenotypic alterations for the hydra’s predation efficiency, the relationship with commensal ciliates and the vulnerability to predators. Unexpectedly, the efficiency of hydra predation on prey was higher in tumorous polyps compared to non-tumorous ones. Commensal ciliates colonized preferentially tumorous hydras than non-tumorous ones, and had a higher replication rate on the former. Finally, in a choice experiment, tumorous hydras were preferentially eaten by a fish predator. This study, for the first time, provides evidence that neoplastic growth has the potential, through effect(s) on host phenotype, to alter biotic interactions within ecosystems and should thus be necessarily taken into account by ecologists.