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Endothelin-2 deficiency causes growth retardation, hypothermia, and emphysema in mice

Inik Chang; Alexa N. Bramall; Amy Greenstein Baynash; Amir Rattner; Dinesh Rakheja; Martin Post; Stephen Joza; Colin McKerlie; Duncan J. Stewart; Roderick R. McInnes; et al.

(Profiled Authors: Dinesh Rakheja; Masashi Yanagisawa)

Journal of Clinical Investigation. 2013;123(6):2643-2653.


To explore the physiological functions of endothelin-2 (ET-2), we generated gene-targeted mouse models. Global Et2 knockout mice exhibited severe growth retardation and juvenile lethality. Despite normal milk intake, they suffered from internal starvation characterized by hypoglycemia, ketonemia, and increased levels of starvation-induced genes. Although ET-2 is abundantly expressed in the gastrointestinal tract, the intestine was morphologically and functionally normal. Moreover, intestinal epithelium-specific Et2 knockout mice showed no abnormalities in growth and survival. Global Et2 knockout mice were also profoundly hypothermic. Housing Et2 knockout mice in a warm environment significantly extended their median lifespan. However, neuron-specific Et2 knockout mice displayed a normal core body temperature. Low levels of Et2 mRNA were also detected in the lung, with transient increases soon after birth. The lungs of Et2 knockout mice showed emphysematous structural changes with an increase in total lung capacity, resulting in chronic hypoxemia, hypercapnia, and increased erythropoietin synthesis. Finally, systemically inducible ET-2 deficiency in neonatal and adult mice fully reproduced the phenotype previously observed in global Et2 knockout mice. Together, these findings reveal that ET-2 is critical for the growth and survival of postnatal mice and plays important roles in energy homeostasis, thermoregulation, and the maintenance of lung morphology and function. Copyright © 2013, American Society for Clinical Investigation.

PMID: 23676500     PMCID: PMC3668837    

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