Norepinephrine (NE) is a major catecholamine present in the carotid body, an oxygen sensing organ. Our data demonstrates that NE attenuates the carotid body response to hypoxia. Our hypothesis is: that the carotid body responses to hypoxia are in part tuned by NE by its action on alpha2 adrenergic receptors and that the density and/or binding affinity of these alpha2 receptors decreases with chronic hypoxia and thus contribute to the increase in the carotid body sensitivity to low environmental PO2. This hypothesis will be tested using neurophysiological techniques in combination with pharmacological and biochemical studies of alpha2 adrenergic receptors and NE. Experiments will be carried out in anaesthetized cats and rabbits, the latter for species comparison. Experiments outlined in Specific Aim 1 will examine the contribution of alpha2 receptors to NE induced modulation of carotid body activity. The effects of NE on carotid body activity and chemosensory response to hypoxia will be examined before and after blockade of alpha2 receptors. Parallel experiments will be performed in carotid bodies in vitro to delineate the effects of NE on carotid body blood flow. The role of endogenous NE and alpha2 receptors in hypoxic chemoreception will be assessed on carotid bodies subjected to acute and chronic sympathectomy and by blocking alpha2 receptors. Experiments in Aim 2 will test the hypothesis that hypoxia decreases alpha2 receptor sensitivity and thus will contribute to the enhanced PO2 responses of the carotid body during chronic hypoxia. The alterations in alpha2 receptor sensitivity will be tested by determining the carotid body responses to NE and alpha2 agonists. Radioligand binding assay and autoradiographic studies proposed in Aim 3 will characterize the alpha2 adrenergic binding sites in the carotid body and will determine whether hypoxia and denervation of the carotid bodies will affect the agonist binding at the receptors. Carotid body chemoreceptors are prerequisite for ventilatory augmentation that occurs during chronic hypoxemia (hypoxic adaptation). The NE content of the carotid body increases during chronic hypoxia suggesting that NE may be important in hypoxic adaptation. It is anticipated that the studies outlined in this proposal will provide clues as to the mechanism(s) of how NE participates in carotid body adaptation to chronic hypoxia. This proposal may also yield information of potential use of specific adrenergic receptor antagonists in the treatment of hypoxemia, a major problem associated with chronic obstructive lung diseases, sleep apnea syndrome and high altitude adaptation. Experimental animals: cats and rabbits.

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Project (R01)
Project #
5R01HL045780-02
Application #
3364884
Study Section
Respiratory and Applied Physiology Study Section (RAP)
Project Start
1992-04-01
Project End
1997-03-31
Budget Start
1993-04-01
Budget End
1994-03-31
Support Year
2
Fiscal Year
1993
Total Cost
Indirect Cost
Name
Case Western Reserve University
Department
Type
Schools of Medicine
DUNS #
077758407
City
Cleveland
State
OH
Country
United States
Zip Code
44106
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Prabhakar, N R (1994) Neurotransmitters in the carotid body. Adv Exp Med Biol 360:57-69
Prabhakar, N R; Kou, Y R; Cragg, P A et al. (1993) Effect of arterial chemoreceptor stimulation: role of norepinephrine in hypoxic chemotransmission. Adv Exp Med Biol 337:301-6

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