The long-term objectives of this project are to gain a better understanding of the pathophysiological effects and the adaptive mechanisms of high altitude (HA) or chronic hypoxic (CH) exposure. Excessive polycythemia (EP) and severe pulmonary hypertension (PH) are the two most deletions effects of HA exposure and are also frequent and important clinical problems in patients suffering from heart, lung and blood diseases. Elucidation of the causes of the EP and PH therefore constitutes the important task in HA physiology, and is also of clinical relevance for hypoxemic patients at both sea level and HA. Upon exposure to CH, the Hilltop (H) strain of Sprague-Dawley rats develops EP and severe PH and suffers a high mortality rate, while the Madison (M) strain exhibits only moderate polycythemia and PH and remains healthy. These animal models provide responsible for the strain differences in coping with CH. Hypoxic pulmonary vasoconstrictive response (HPVR) is an important factor contributing to PH. Attenuation of the HPVR which occurs in the M rats in CH minimizes the severity of the PH and facilities their acclimatization to CH, whereas absence of this attenuation in the response to prolonged hypoxia in H rats aggravates PH and the susceptibility of these animals to the morbid effects of CH. Thus, attenuation of HPVR may represent an important adaptive mechanism in CH. Atrial natriuretic factor (ANF) -- a naturally occurring antagonist of pulmonary vasoconstriction that is released under both acute and chronic hypoxia --- may contribute to this adaptive mechanism. There are two specific aims in this project. The first is to evaluate the roles of the following factors in EP: 1) accentuated renal venous hypoxemia and its cause(s), 2) hypoventilation, 3) increased sensitivity of EPO-production to hypoxia, 4) increased sensitivity of the erythroid progenitor cells to EPO, 5) increased splenic erythropoiesis and 6) impaired feedback control of erythropoiesis. The second specific aim is to evaluate the following roles of ANF: 1) increased release of ANF attenuates HPVR in CH, 2) altered ANF release and/or 3) altered sensitivity of HPVR to inhibition by ANF, account for the strain differences in the attenuation of the HPVR in CH.

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Project (R01)
Project #
5R01HL021159-12
Application #
3336400
Study Section
Respiratory and Applied Physiology Study Section (RAP)
Project Start
1977-07-01
Project End
1991-06-30
Budget Start
1990-07-01
Budget End
1991-06-30
Support Year
12
Fiscal Year
1990
Total Cost
Indirect Cost
Name
Dartmouth College
Department
Type
Schools of Medicine
DUNS #
041027822
City
Hanover
State
NH
Country
United States
Zip Code
03755
Ou, L C; Leiter, J C (2004) Effects of exposure to a simulated altitude of 5500 m on energy metabolic pathways in rats. Respir Physiol Neurobiol 141:59-71
Kam, H Y; Ou, L C; Thron, C D et al. (1999) Role of the spleen in the exaggerated polycythemic response to hypoxia in chronic mountain sickness in rats. J Appl Physiol 87:1901-8
Ou, L C; Salceda, S; Schuster, S J et al. (1998) Polycythemic responses to hypoxia: molecular and genetic mechanisms of chronic mountain sickness. J Appl Physiol 84:1242-51
Thron, C D; Chen, J; Leiter, J C et al. (1998) Renovascular adaptive changes in chronic hypoxic polycythemia. Kidney Int 54:2014-20
Du, H K; Lee, Y J; Colice, G L et al. (1996) Pathophysiological effects of hemodilution in chronic mountain sickness in rats. J Appl Physiol 80:574-82
West, J B; Colice, G L; Lee, Y J et al. (1995) Pathogenesis of high-altitude pulmonary oedema: direct evidence of stress failure of pulmonary capillaries. Eur Respir J 8:523-9
Ou, L C; Sardella, G L; Leiter, J C et al. (1994) Role of sex hormones in development of chronic mountain sickness in rats. J Appl Physiol 77:427-33
Ou, L C; Sardella, G L; Hill, N S et al. (1993) Possible role of pulmonary blood volume in chronic hypoxic pulmonary hypertension. J Appl Physiol 74:3020-6
Sardella, G L; Ou, L C (1993) Chronically instrumented rat model for hemodynamic studies of both pulmonary and systemic circulations. J Appl Physiol 74:849-52
Ou, L C; Chen, J; Fiore, E et al. (1992) Ventilatory and hematopoietic responses to chronic hypoxia in two rat strains. J Appl Physiol 72:2354-63

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