The role of nitric oxide in the cardiopulmonary response to hypoxia in highland and lowland newborn llamas

Autor: Roberto V, Reyes, Marcela, Díaz, Germán, Ebensperger, Emilio A, Herrera, Sebastián A, Quezada, Ismael, Hernandez, Emilia M, Sanhueza, Julian T, Parer, Dino A, Giussani, Aníbal J, Llanos
Rok vydání: 2017
Předmět:
Zdroj: The Journal of physiology. 596(23)
ISSN: 1469-7793
Popis: KEY POINTS: Perinatal hypoxia causes pulmonary hypertension in neonates, including humans. However, in species adapted to hypoxia, such as the llama, there is protection against pulmonary hypertension. Nitric oxide (NO) is a vasodilatator with an established role in the cardiopulmonary system of many species, but its function in the hypoxic pulmonary vasoconstrictor response in the newborn llama is unknown. Therefore, we studied the role of NO in the cardiopulmonary responses to acute hypoxia in high‐ and lowland newborn llamas. We show that high‐ compared to lowland newborn llamas have a reduced pulmonary vasoconstrictor response to acute hypoxia. Protection against excessive pulmonary vasoconstriction in the highland llama is mediated via enhancement of NO pathways, including increased MYPT1 and reduced ROCK expression as well as Ca(2+) desensitization. Blunting of pulmonary hypertensive responses to hypoxia through enhanced NO pathways may be an adaptive mechanism to withstand life at high altitude in the newborn llama. ABSTRACT: Llamas are born in the Alto Andino with protection against pulmonary hypertension. The physiology underlying protection against pulmonary vasoconstrictor responses to acute hypoxia in highland species is unknown. We determined the role of nitric oxide (NO) in the cardiopulmonary responses to acute hypoxia in high‐ and lowland newborn llamas. The cardiopulmonary function of newborn llamas born at low (580 m) or high altitude (3600 m) was studied under acute hypoxia, with and without NO blockade. In pulmonary arteries, we measured the reactivity to potassium and sodium nitroprusside (SNP), and in lung we determined the content of cGMP and the expression of the NO‐related proteins: BKCa, PDE5, PSer92‐PDE5, PKG‐1, ROCK1 and 2, MYPT1, PSer695‐MYPT1, PThr696‐MYPT1, MLC20 and PSer19‐MLC20. Pulmonary vascular remodelling was evaluated by morphometry and based on α‐actin expression. High‐ compared to lowland newborn llamas showed lower in vivo pulmonary arterial pressor responses to acute hypoxia. This protection involved enhanced NO function, as NO blockade reverted the effect and the pulmonary arterial dilatator response to SNP was significantly enhanced in highland neonates. The pulmonary expression of ROCK2 and the phosphorylation of MLC20 were lower in high‐altitude llamas. Conversely, MYPT1 was up‐regulated whilst PSer695‐MYPT1 and PThr695‐MYPT1 did not change. Enhanced NO‐dependent mechanisms were insufficient to prevent pulmonary arterial remodelling. Combined, the data strongly support that in the highland newborn llama reduced ROCK, increased MYPT1 expression and Ca(2+) desensitization in pulmonary tissue allow an enhanced NO biology to limit hypoxic pulmonary constrictor responses. Blunting of hypoxic pulmonary hypertensive responses may be an adaptive mechanism to life at high altitude.
Databáze: OpenAIRE