Theodore Enns scite author profile

The enzyme carbonic anhydrase greatly increases the rate of conversion of carbon dioxide to bicarbonate ions and the rate of the reverse reaction. In aqueous solution this rapid interchange of carbon dioxide between the form of dissolved gas and the form of bicarbon. ate ions may be utilized to enhance carbon dioxide transport, the limit of enhancement being the transport of bicarbonate ions. As many biological media contain more than 20 times as many bicarbonate ions as dissolved CO2 molecules, the enhanced transport can thus become the major CO2 transport system.It can also be demonstrated that carbonic anhydrase alone, in the absence of bicarbonate ions, enhances CO2 transport. While the function of this type of facilitated transport in biological systems has not been established, it may exist in cell membranes. 44 One can describe three types of transport systems in which carbonic anhydrase facilitates CO2 transport: (i) flow transport, such as blood flow in pulmonary capillaries, in which the enzyme makes dissolved bicarbonate available for rapid conversion to CO2 and effectively increases the amount of transported CO2 by the amount of bicarbonate in the blood, and increases the amount of eliminated CO2 by the bicarbonate A-V difference; (ii) diffusion transport, such as occurs in extravascular space, in which the enzyme mobilizes bicarbonate diffusion for CO2 transport; and (iii) transport of CO2 by the enzyme alone. The role of the enzyme in the first type of transport system was demonstrated by tracer experiments in the lungs of intact dogs (1). The second and third types of transport facilitation are demonstrated by data that I now present. Diffusion of CO, and Bicarbonate Ions in Aqueous SolutionsThe reversible reaction of C02 with water to form bicarbonate ions may be expressed in the following form:Carbonic anhydrase C02 + H20 < LHCO3-+ HeThe direct reaction of C02 with water to give bicarbonate ion in the presence of the enzyme has been suggested by Gibbons and Edsall (2) and others. The relation between dissolved C02 and bicarbonate concentrations at equilibrium is given by the simplified equation pH = 6.1 + log [HCO3-]/[C02] (1)It follows that in a solution of pH greater than 6.1 there is more C02 in the form of bicarbonate ions than in the form of dissolved C02 at equilibrium: for example, human blood plasma at pH 7.4 contains 20 times as many bicarbonate ions as C02 molecules. Diffusion of dissolved CO2 and bicarbonate ions may be described in terms of the following model. Consider a cylinder of unstirred solution of fixed area and thickness, subject to a difference in C02 tension between the flat end faces. Dissolved C02 diffuses The author is a research physiologist and lecturer in physiology at Scripps

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Transcapillary Pulmonary Exchange of Water in the Dog

Chinard

Enns

1954

American Journal of Physiology-Legacy Content

152

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Transcapillary Exchange of Water and of Other Substances in Certain Organs of the Dog

Chinard

Vosburgh

Enns

1955

American Journal of Physiology-Legacy Content

161

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Theodore Enns

Effect of Hydrostatic Pressure on Gases Dissolved in Water

Facilitation by Carbonic Anhydrase of Carbon Dioxide Transport

Transcapillary Pulmonary Exchange of Water in the Dog

Transcapillary Exchange of Water and of Other Substances in Certain Organs of the Dog

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