Life-long consequences of postnatal normoxia exposure in rats raised at high altitude
Fecha
2012-03-13Autor
Lumbroso, Delphine
Lemoine, Alejandra Jochmans
Gonzales, Marcelino
Villalpando, Gabriela
Seaborn, Tommy
Joseph, Vincent
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We tested the hypothesis that exposure of high-altitude (HA) rats to a period of
postnatal normoxia has long-term consequences on the ventilatory and
hematological acclimatization in adults. Male and female HA rats
(3,600 m, PO2 100 Torr; La Paz, Bolivia) were exposed to normal
room air [HA control (HACont)] or enriched oxygen (32% O2; PO2
160 Torr) from 1 day before to 15 days after birth [HA postnatal
normoxia (HApNorm)]. Hematocrit and hemoglobin values were
assessed at 2, 12, and 32 wk of age. Cardiac and lung morphology
were assessed at 12 wk by measuring right ventricular hypertrophy
(pulmonary hypertension index) and lung air space-to-tissue ratio
(indicative of alveolarization). Respiratory parameters under baseline
conditions and in response to 32% O2 for 10 min (relieving the
ambient hypoxic stimulus) were measured by whole body plethysmography at 12 wk. Finally, we performed a survival analysis up to
600 days of age. Compared with HACont, HApNorm rats had reduced
hematocrit and hemoglobin levels at all ages (both sexes); reduced
right ventricular hypertrophy (both sexes); lower air space-to-tissue
ratio in the lungs (males only); reduced CO2 production rate, but
higher oxygen uptake (males only); and similar respiratory frequency,
tidal volume, and minute ventilation. When breathing 32% O2, HApNorm male rats had a stronger decrease of minute ventilation than
HACont. HApNorm rats had a marked tendency toward longer survival throughout the study. We conclude that exposure to ambient
hypoxia during postnatal development in HA rats has deleterious
consequences on acclimatization to hypoxia as adults