STUDIES ON THE PASTEUR EFFECT

Abstract Containers constructed of polyvinylchloride (PVC) are used for the storage of platelet concentrates (PC) for transfusion, At 22 degrees C, pH often falls to such low levels (pH is less that 6.0) that viability is lost. Far lesser degrees of pH fall are observed in bags constructed of polyethylene (PE). In this study, pH, PO2, PCO2, platelet count, lactate concentration, microscopic morphology, and viability after 51- chromium labeling were evaluated during storage at 22 degrees C under a variety of circumstances. The results indicate that (1) pH falls because of the generation of lactic acid by platelet glycolysis and, under some circumstances, the retention of CO2. (2) Rate of pH fall is, therefore, roughly proportional to the platelet count. (3) PE is more permeable to gases, thereby allowing CO2 escape from and easier O2 entry into the stored PC; the higher O2 tensions suppress glycolysis by the Pasteur effect. (4) Adequate agitation and container size are critical if the beneficial effect of PE is to be obtained. (5) In general, platelets stored in PE containers have excellent viability in vivo although CO2 escape can result in elevations in pH which are deleterious. (6) Storage in a 10% CO2 atmosphere prevents these deletrrious pH elevations without otherwise impairing platelet viability; (7) Results similar to those achieved with PE can be achieved with PVC if this material is made thinner to allow easier penetration of gases.

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A STUDY OF INTERMEDIATE CARBOHYDRATE METABOLISM IN RATS EXPOSED TO HIGH OXYGEN PRESSURES

Canadian Journal of Biochemistry and Physiology ◽

10.1139/y63-041 ◽

1963 ◽

Vol 41 (1) ◽

pp. 327-333

Author(s):

Ellen R. Gordon ◽

D. O. Tinker ◽

W. J. Watson

Keyword(s):

Carbohydrate Metabolism ◽

High Oxygen ◽

Male Rats ◽

Pasteur Effect ◽

Glyceraldehyde Phosphate Dehydrogenase ◽

Rate Limiting ◽

The Brain

Exposure of male rats to 100% oxygen at 6 atmospheres for 20 minutes produced an increase in the concentration of fructose-1,6-diphosphate in the liver and muscle, but not in the brain. The activities of aldolase and glyceraldehyde phosphate dehydrogenase were measured in the liver and muscle. The change in the activity of these enzymes indicated that they had not become rate-limiting during exposure. The relation of these data to the Pasteur effect is considered.

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Influence of oxygen tension on the metabolism of vascular smooth muscle Demonstration of a Pasteur effect

Atherosclerosis ◽

10.1016/0021-9150(76)90031-9 ◽

1976 ◽

Vol 25 (2-3) ◽

pp. 245-253 ◽

Cited By ~ 20

Author(s):

H.J. Arnqvist ◽

L. Lundholm

Keyword(s):

Smooth Muscle ◽

Vascular Smooth Muscle ◽

Oxygen Tension ◽

Pasteur Effect

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Evidence for a negative Pasteur effect in articular cartilage

Biochemical Journal ◽

10.1042/bj3210095 ◽

1997 ◽

Vol 321 (1) ◽

pp. 95-102 ◽

Cited By ~ 145

Author(s):

Robert B. LEE ◽

Jill P. G. URBAN

Keyword(s):

Articular Cartilage ◽

Glucose Uptake ◽

Lactate Production ◽

Pasteur Effect ◽

Anoxic Conditions ◽

Atp Production ◽

Bovine Articular Cartilage ◽

Atp Concentration ◽

O2 Concentration ◽

Lactate Formation

Uptake of external glucose and production of lactate were measured in freshly-excised bovine articular cartilage under O2 concentrations ranging from 21% (air) to zero (N2-bubbled). Anoxia (O2 concentration < 1% in the gas phase) severely inhibited both glucose uptake and lactate production. The decrease in lactate formation correlated closely with the decrease in glucose uptake, in a mole ratio of 2:1. This reduction in the rate of glycolysis in anoxic conditions is seen as evidence of a negative Pasteur effect in bovine articular cartilage. Anoxia also suppressed glycolysis in articular cartilage from horse, pig and sheep. Inhibitors acting on the glycolytic pathway (2-deoxy-d-glucose, iodoacetamide or fluoride) strongly decreased aerobic lactate production and ATP concentration, consistent with the belief that articular cartilage obtains its principal supply of ATP from substrate-level phosphorylation in glycolysis. Azide or cyanide lowered the ATP concentration in aerobic cartilage to approximately the same extent as did anoxia but, because glycolysis (lactate production) was also inhibited by these treatments, the importance of any mitochondrial ATP production could not be assessed. A negative Pasteur effect would make chondrocytes particularly liable to suffer a shortage of energy under anoxic conditions. Incorporation of [35S]sulphate into proteoglycan was severely curtailed by treatments, such as anoxia, which decreased the intracellular concentration of ATP.

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