Abstract

We recently observed that when cocaine is administered to rats prior to exercise it causes an exaggerated catecholamine response during exercise and a concomitant increase in glycogen degradation in muscle. These findings have practical relevance for exercise performance as well as health implications. Because this field of study (cocaine and exercise) has received little scientific attention, we wish to pursue our research goals further. this proposal has two general objectives. The first is to gain further insight into the combined physiological effects of cocaine and exercise. Using the cocaine-exercise-rat model (30 min of treadmill exercise after IV cocaine, 1-5 mg/kg) we plan to answer the following questions: 1) Are the effects of cocaine during exercise a function of the intensity of exercise? 2) What are the effects of chronic cocaine on adaptations to endurance training? 3) Does exercise training attenuate the effects of cocaine? and 4) Are the effects of cocaine similar to those of amphetamine? The second objective is mechanistic in nature and involves identifying how cocaine exerts its peripheral effects. This will be accomplished by exposing the animals to various perturbations such as adrenal enervation, adrenodemedullation, sympathectomy, and alpha and beta adrenoceptor antagonists and then exercising them under the influence of cocaine as described above. The normal rise in plasma catecholamine and the increase rate of glycogenolysis will serve as the criteria of measure in these studies. the results should clarify 1) whether the catecholamine response to cocaine is centrally mediated, peripherally mediated, or both, and 2) whether the rapid muscle glycogenolysis is linked to the cocaine- induced elevation in plasma catecholamine levels. Because knowledge concerning the peripheral effects of cocaine is severely lacking, the results from this proposal coupled with those from our first project will continue to fill the void. Eventually, we hope to extend our observations to the subcellular level using the tools of molecular biology, but we must cover this important ground first.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute on Drug Abuse (NIDA)
Type
Research Project (R01)
Project #
2R01DA004382-04A1
Application #
3209945
Study Section
Drug Abuse Biomedical Research Review Committee (DABR)
Project Start
1988-04-01
Project End
1994-08-31
Budget Start
1991-09-30
Budget End
1992-08-31
Support Year
4
Fiscal Year
1991
Total Cost
Indirect Cost

  Institution

Name
Brigham Young University
Department
Type
Other Domestic Higher Education
DUNS #
City
Provo
State
UT
Country
United States
Zip Code
84602

  Publications

Conlee, R K; Kelly, K P; Ojuka, E O et al. (2000) Cocaine and exercise: alpha-1 receptor blockade does not alter muscle glycogenolysis or blood lactacidosis. J Appl Physiol 88:77-81
Han, D H; Kelly, K P; Fellingham, G W et al. (1996) Cocaine and exercise: temporal changes in plasma levels of catecholamines, lactate, glucose, and cocaine. Am J Physiol 270:E438-44
Ojuka, E O; Bell, J D; Fellingham, G W et al. (1996) Cocaine and exercise: alteration in carbohydrate metabolism in adrenodemedullated rats. J Appl Physiol 80:124-32
Kelly, K P; Han, D H; Fellingham, G W et al. (1995) Cocaine and exercise: physiological responses of cocaine-conditioned rats. Med Sci Sports Exerc 27:65-72
Prevost, M C; Nelson, A G; Kelly, K P et al. (1995) Cocaine alters myosin isoform expression in the rat soleus. J Appl Physiol 79:514-7
Braiden, R W; Fellingham, G W; Conlee, R K (1994) Effects of cocaine on glycogen metabolism and endurance during high intensity exercise. Med Sci Sports Exerc 26:695-700
Conlee, R K; Barnett, D W; Kelly, K P et al. (1991) Effects of cocaine on the physiology of exercise. NIDA Res Monogr 108:167-80
Conlee, R K; Barnett, D W; Kelly, K P et al. (1991) Effects of cocaine, exercise, and resting conditions on plasma corticosterone and catecholamine concentrations in the rat. Metabolism 40:1043-7
Conlee, R K; Barnett, D W; Kelly, K P et al. (1991) Effects of cocaine on plasma catecholamine and muscle glycogen concentrations during exercise in the rat. J Appl Physiol 70:1323-7
Conlee, R K; Berg, T L; Han, D H et al. (1989) Cocaine does not alter cardiac glycogen content at rest or during exercise. Metabolism 38:1039-41

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