Our long term objective is to define and, if possible, alter the mechanisms that modulate cellular damage during tissue hypoxia. Specifically, we propose to study the effect the glucose concentration and intracellular pH have on cellular function during a severe hypoxic insult. the hypotheses to be tested in this proposal are: 1) Total ischemia is less harmful to normal cellular function than partial ischemia or hypoxemia. 2) Cellular damage is directly related to the rate of glycolysis during hypoxia. 3) Decreasing the production of lactate ameliorates hypoxic cellular damage. 4) The effect of glucose on normal cellular function during hypoxia is mediated through decreases in intracellular pH (pHi). These hypotheses will be tested in a perfused rabbit skeletal muscle preparation exposed to different levels of ischemia and hypoxemia. Ischemia is defined as a decrease in perfusate flow, hypoxemia as a lowering of the perfusate oxygen concentration and hypoxia refers to a decrease in tissue PO2. 31-Phosphorus magnetic resonance spectroscopy (31P MRS) will be used to follow sequential changes in pHi and bioenergetic parameters in individual animals. Analytical methods will be used to measure the tissue concentration of high energy phosphates, glycogen, pyruvate, lactate and the products of purine nucleotide degradation and lipid peroxidation. Specially designed surface PO2 and pH microelectrode arrays will measure tissue PO2 and extracellular pH (pHe) during ischemia and hypoxemia. The pHe will be correlated with the pHi obtained with 31P MRS and that calculated from the lactate and pyruvate concentrations. We will attempt to define mechanisms of hypoxic injury by correlating measures of physiological function, morphology, and biochemical markers of cellular dysfunction. The information to be obtained in these experiments may have great importance in understanding the mechanisms leading to cell injury during ischemia and reperfusion, or hypoxemia and reoxygenation. Myocardial infarction and cerebral stroke are examples of the former, while respiratory failure is an example of the latter.

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Project (R01)
Project #
5R01HL041415-03
Application #
3359196
Study Section
Respiratory and Applied Physiology Study Section (RAP)
Project Start
1988-07-01
Project End
1992-06-30
Budget Start
1990-07-01
Budget End
1992-06-30
Support Year
3
Fiscal Year
1990
Total Cost
Indirect Cost
Name
University of Texas Health Science Center Houston
Department
Type
Schools of Medicine
DUNS #
City
Houston
State
TX
Country
United States
Zip Code
77225
Gutierrez, G; Kiiski, R; Fernandez, E et al. (1996) Reversal of muscle fatigue in intact rabbits by intravenous potassium chloride. J Crit Care 11:197-205
Gutierrez, G; Hurtado, F J; Fernandez, E (1995) Inhibitory effect of Escherichia coli endotoxin on skeletal muscle contractility. Crit Care Med 23:308-15
Gutierrez, G; Fernandez, E; Hurtado, F J et al. (1994) Hydroxymalonate inhibits lactate uptake by the rabbit hindlimb. J Appl Physiol 76:2735-41
Gutierrez, G; Hurtado, F J; Gutierrez, A M et al. (1993) Net uptake of lactate by rabbit hindlimb during hypoxia. Am Rev Respir Dis 148:1204-9
Hurtado, F J; Gutierrez, A M; Silva, N et al. (1992) Role of tissue hypoxia as the mechanism of lactic acidosis during E. coli endotoxemia. J Appl Physiol 72:1895-901
Gutierrez, G; Lund, N; Palizas, F (1991) Rabbit skeletal muscle PO2 during hypodynamic sepsis. Chest 99:224-9
Gutierrez, G (1991) Cellular energy metabolism during hypoxia. Crit Care Med 19:619-26
Gutierrez, G; Palizas, F; Marini, C E (1990) Cellular energy metabolism. Recent advances in the study of the diaphragm with magnetic resonance spectroscopy. Chest 97:975-82
Gutierrez, G; Lund, N; Palizas, F et al. (1990) Skeletal muscle PO2 during hypodynamic sepsis. Adv Exp Med Biol 277:559-67
Gutierrez, G; Marini, C; Acero, A L et al. (1990) Skeletal muscle PO2 during hypoxemia and isovolemic anemia. J Appl Physiol 68:2047-53

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