Ventilatory responses to hypoxic and hypercapnic environments in naked mole-rats

Abstract

Extreme environments are powerful drivers of physiological adaptation. Naked mole-rats offer an informative example of this relationship as they putatively encounter intermittent hypoxia and hypercapnia in their subterranean habitat. This has presumably driven the evolution of a suite of cellular and physiological adaptations that enable life in these conditions. Recently, my laboratory and others have begun to examine physiological responses to environmental hypoxia and hypercapnia in naked mole-rats, and the underlying cellular and molecular mechanisms that differentiate the responses of this species from those of other small mammals. Prominent among these adaptations are a robust hypoxic metabolic response and blunted ventilatory responses to hypoxia and hypercapnia. These responses are mediated in part by modifications to the central nervous system signaling pathways that sense and communicate changes in environmental gas levels and initiate and maintain downstream physiological responses. For example, naked mole-rats retain the signaling architecture necessary for “normal” ventilatory responses to hypoxia and hypercapnia; however, the underlying signaling pathways are muted, resulting in reduced, or even the absence of, sensitivity to otherwise powerful environmental stimuli. Herein, I discuss what we have learned about the manifestation and control of ventilatory and metabolic responses to hypoxia and hypercapnia in naked mole-rats. I also highlight areas where additional work is warranted and consider the implications of what we have learned for the ecophysiology of a species that thrives in conditions that are deleterious or lethal to most adult mammals.