Effect of Carbonic Anhydrase Inhibitors on Inorganic Carbon Accumulation by Chlamydomonas reinhardtii.

Membrane-permeable and impermeable inhibitors of carbonic anhydrase have been used to assess the roles of extracellular and intracellular carbonic anhydrase on the inorganic carbon concentrating system in Chlamydomonas reinhardtii. Acetazolamide, ethoxzolamide, and a membrane-impermeable, dextran-bound sulfonamide were potent inhibitors of extracellular carbonic anhydrase measured with intact cells. At pH 5.1, where CO(2) is the predominant species of inorganic carbon, both acetazolamide and the dextran-bound sulfonamide had no effect on the concentration of CO(2) required for the half-maximal rate of photosynthetic O(2) evolution (K(0.5)[CO(2)]) or inorganic carbon accumulation. However, a more permeable inhibitor, ethoxzolamide, inhibited CO(2) fixation but increased the accumulation of inorganic carbon as compared with untreated cells. At pH 8, the K(0.5)(CO(2)) was increased from 0.6 micromolar to about 2 to 3 micromolar with both acetazolamide and the dextran-bound sulfonamide, but to a higher value of 60 micromolar with ethoxzolamide. These results are consistent with the hypothesis that CO(2) is the species of inorganic carbon which crosses the plasmalemma and that extracellular carbonic anhydrase is required to replenish CO(2) from HCO(3) (-) at high pH. These data also implicate a role for intracellular carbonic anhydrase in the inorganic carbon accumulating system, and indicate that both acetazolamide and the dextran-bound sulfonamide inhibit only the extracellular enzyme. It is suggested that HCO(3) (-) transport for internal accumulation might occur at the level of the chloroplast envelope.

[1]  J. Moroney,et al.  Inorganic Carbon Uptake by Chlamydomonas reinhardtii. , 1985, Plant physiology.

[2]  J. R. Coleman,et al.  Identification of Extracellular Carbonic Anhydrase of Chlamydomonas reinhardtii. , 1984, Plant physiology.

[3]  A. Kaplan,et al.  The Location of the Transporting System for Inorganic Carbon and the Nature of the Form Translocated in Chlamydomonas reinhardtii , 1984 .

[4]  S. Miyachi,et al.  Carbonic anhydrase located on cell surface increases the affinity for inorganic carbon in photosynthesis of Dunaliella tertiolecta , 1984 .

[5]  T. Maren The General Physiology of Reactions Catalyzed by Carbonic Anhydrase and Their Inhibition by Sulfonamides a , 1984, Annals of the New York Academy of Sciences.

[6]  M. Spalding,et al.  Carbonic Anhydrase-Deficient Mutant of Chlamydomonas reinhardii Requires Elevated Carbon Dioxide Concentration for Photoautotrophic Growth. , 1983, Plant physiology.

[7]  M. Tsuzuki Mode of HCO3--Utilization by the Cells of Chlamydomonas reinhardtii Grown Under Ordinary Air , 1983 .

[8]  S. Miyachi,et al.  Form of Inorganic Carbon Utilized for Photosynthesis in Chlamydomonas reinhardtii , 1983 .

[9]  M. Harrison,et al.  Aminooxyacetate Stimulation of Glycolate Formation and , 1983 .

[10]  S. Miyachi,et al.  Carbonic Anhydrase in Chlamydomonas reinhardtii I. Localization , 1983 .

[11]  R. Coulson,et al.  Dextran-bound inhibitors of carbonic anhydrase. , 1981, The Journal of pharmacology and experimental therapeutics.

[12]  D. Jordan,et al.  Species variation in the specificity of ribulose biphosphate carboxylase/oxygenase , 1981, Nature.

[13]  J. R. Coleman,et al.  Inorganic Carbon Accumulation and Photosynthesis in a Blue-green Alga as a Function of External pH. , 1981, Plant physiology.

[14]  A. Kaplan,et al.  Glycolate Excretion and the Oxygen to Carbon Dioxide Net Exchange Ratio during Photosynthesis in Chlamydomonas reinhardtii. , 1981, Plant physiology.

[15]  N. A. Walker,et al.  PHOTOSYNTHESIS BY AQUATIC PLANTS: EFFECTS OF UNSTIRRED LAYERS IN RELATION TO ASSIMILATION OF CO2 AND HCO3−AND TO CARBON ISOTOPIC DISCRIMINATION , 1980 .

[16]  A. Kaplan,et al.  Internal Inorganic Carbon Pool of Chlamydomonas reinhardtii: EVIDENCE FOR A CARBON DIOXIDE-CONCENTRATING MECHANISM. , 1980, Plant physiology.

[17]  S. Cote,et al.  Purification and properties of carbonic anhydrase from Chlamydomonas reinhardii , 1980 .

[18]  Y. Pocker,et al.  Carbonic anhydrase: structure catalytic versatility, and inhibition. , 1978, Advances in enzymology and related areas of molecular biology.

[19]  J Gutknecht,et al.  Diffusion of carbon dioxide through lipid bilayer membranes. Effects of carbonic anhydrase, bicarbonate, and unstirred layers , 1977, The Journal of general physiology.

[20]  D. Culver,et al.  Photosynthesis and photorespiration in algae. , 1977, Plant physiology.

[21]  A. Kaplan,et al.  Growth and photosynthesis of Chlamydomonas reinhardtii as a function of CO2 concentration , 1976 .

[22]  R. Slatyer,et al.  Photosynthesis and photorespiration. , 1971, Science.

[23]  E. Nelson,et al.  The regulation of glycolate metabolism in Chlamydomonas reinhardtii. , 1969, Biochimica et biophysica acta.

[24]  S. Wong,et al.  Irreversible inactivation of bovine carbonic anhydrase B by bromoacetazolamide. , 1968, The Journal of biological chemistry.

[25]  N. Sueoka,et al.  MITOTIC REPLICATION OF DEOXYRIBONUCLEIC ACID IN CHLAMYDOMONAS REINHARDI. , 1960, Proceedings of the National Academy of Sciences of the United States of America.

[26]  V. Calkins Microdetermination of Glycolic and Oxalic Acids , 1943 .