Environmental Thermal Stress Induces Neuronal Cell Death and Developmental Malformations in Reptiles

Overview

Journal Integr Org Biol

Publisher Oxford University Press

Specialty Biology

Date 2021 Dec 8

PMID 34877473

Citations 4

Authors

Thomas J Sanger

Laura Harding

Judith Kyrkos

Alexandrea J Turnquist

Lilian Epperlein

Sylvia A Nunez

Dryden Lachance

Seerat Dhindsa

James T Stroud

Raul E Diaz Jr

Beata Czesny

Affiliations

Soon will be listed here.

Abstract

Every stage of organismal life history is being challenged by global warming. Many species are already experiencing temperatures approaching their physiological limits; this is particularly true for ectothermic species, such as lizards. Embryos are markedly sensitive to thermal insult. Here, we demonstrate that temperatures currently experienced in natural nesting areas can modify gene expression levels and induce neural and craniofacial malformations in embryos of the lizard . Developmental abnormalities ranged from minor changes in facial structure to significant disruption of anterior face and forebrain. The first several days of postoviposition development are particularly sensitive to this thermal insult. These results raise new concern over the viability of ectothermic species under contemporary climate change. Herein, we propose and test a novel developmental hypothesis that describes the cellular and developmental origins of those malformations: cell death in the developing forebrain and abnormal facial induction due to disrupted Hedgehog signaling. Based on similarities in the embryonic response to thermal stress among distantly related species, we propose that this developmental hypothesis represents a common embryonic response to thermal insult among amniote embryos. Our results emphasize the importance of adopting a broad, multidisciplinary approach that includes both lab and field perspectives when trying to understand the future impacts of anthropogenic change on animal development.

Citing Articles

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