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1.
The carbonic anhydrases reversibly hydrate carbon dioxide to yield bicarbonate and hydrogen ion. They have a variety of physiological functions, although the specific roles of each of the 10 known isozymes are unclear. Carbonic anhydrase isozyme III is particularly rich in skeletal muscle and adipocytes, and it is unique among the isozymes in also exhibiting phosphatase activity. Previously published studies provided evidence that the phosphatase activity was intrinsic to carbonic anhydrase III, that it had specificity for tyrosine phosphate, and that activity was regulated by reversible glutathionylation of cysteine186. To study the mechanism of this phosphatase, we cloned and expressed the rat liver carbonic anhydrase III. The purified recombinant had the same specific activity as the carbonic anhydrase purified from rat liver, but it had virtually no phosphatase activity. We attempted to identify an activator of the phosphatase in rat liver and found a protein of approximately 14 kDa, the amount of which correlated with the phosphatase activity of the carbonic anhydrase III fractions. It was identified as liver fatty acid binding protein, which was then purified to test for activity as an activator of the phosphatase and for protein-protein interaction, but neither binding nor activation could be demonstrated. Immunoprecipitation experiments established that carbonic anhydrase III could be separated from the phosphatase activity. Finally, adding additional purification steps completely separated the phosphatase activity from the carbonic anhydrase activity. We conclude that the phosphatase activity previously considered to be intrinsic to carbonic anhydrase III is actually extrinsic. Thus, this isozyme exhibits only the carbon dioxide hydratase and esterase activities characteristic of the other mammalian isozymes, and the phosphatase previously shown to be activated by glutathionylation is not carbonic anhydrase III.  相似文献   

2.
This study finds lengthened circadian period in a congenic strain of mice homozygous for a null mutation in carbonic anhydrase isoenzyme-II gene on proximal Chromosome 3. Carbonic anhydrase II has the highest turnover rate of any constitutive enzyme. It catalyzes the reversible hydration of carbon dioxide to control intercellular acid/base balance. A strain of congenic mice has a carbonic anhydrase II null mutation within a DBA/2J inbred strain insert on a C57BL/6J inbred strain background. The locomotor activity levels and period of circadian rhythms were examined in the homozygous null mutants and their progenitors, mice heterozygous for the region around the carbonic anhydrase gene. The heterozygous mice siblings and the wild-type siblings served as the controls. During behavioral studies, male and female offspring and parents were housed singly in constant darkness. Locomotor activity was monitored using an infrared photobeam array. Mice homozygous for the carbonic anhydrase null mutation had a longer circadian period than either heterozygote or wild type littermates. Carbonic anhydrase null mutants also had low locomotor activity compared to either heterozygous or wild-type litter mates. This implies that either the physiological changes resulting from absence of carbonic anhydrase II isozyme or the presence of DBA/2J alleles around the carbonic anhydrase locus influence the circadian period and level of locomotor activity in laboratory mice.  相似文献   

3.
This study finds lengthened circadian period in a congenic strain of mice homozygous for a null mutation in carbonic anhydrase isoenzyme-II gene on proximal Chromosome 3. Carbonic anhydrase II has the highest turnover rate of any constitutive enzyme. It catalyzes the reversible hydration of carbon dioxide to control intercellular acid/base balance. A strain of congenic mice has a carbonic anhydrase II null mutation within a DBA/2J inbred strain insert on a C57BL/6J inbred strain background. The locomotor activity levels and period of circadian rhythms were examined in the homozygous null mutants and their progenitors, mice heterozygous for the region around the carbonic anhydrase gene. The heterozygous mice siblings and the wild-type siblings served as the controls. During behavioral studies, male and female offspring and parents were housed singly in constant darkness. Locomotor activity was monitored using an infrared photobeam array. Mice homozygous for the carbonic anhydrase null mutation had a longer circadian period than either heterozygote or wild type littermates. Carbonic anhydrase null mutants also had low locomotor activity compared to either heterozygous or wild-type litter mates. This implies that either the physiological changes resulting from absence of carbonic anhydrase II isozyme or the presence of DBA/2J alleles around the carbonic anhydrase locus influence the circadian period and level of locomotor activity in laboratory mice.  相似文献   

4.
In the accompanying paper, we described the existence, molecular characterization, and ontogeny of a 30 kDa abnormal protein in chicken dystrophic muscles. In this study, we have purified chicken carbonic anhydrase III and the 30 kDa protein and directly compared them. In terms of its enzymological features, the 30 kDa protein is a typical carbonic anhydrase III. Like carbonic anhydrases, it contains one mole zinc per mole of protein. The protein selectively cross-reacted with a chicken carbonic anhydrase III antibody. Antibody to the 30 kDa protein cross-reacted with chicken skeletal muscle carbonic anhydrase III. Moreover, the distribution of the abnormal protein is exactly identical to that of carbonic anhydrase III; however, there is a possibility that the 30 kDa protein is a variant of carbonic anhydrase III. Slight differences were found in antigenicities and in the apparent molecular weights of the two proteins. We have compared the two proteins by 125I-labeled two-dimensional peptide mapping. Tryptic maps have shown that the two proteins are highly homologous. Combined, these results strongly indicate that the 30 kDa protein and carbonic anhydrase III are similar, if not identical.  相似文献   

5.
Summary Three different isoenzymes of human carbonic anhydrase are now well characterized. Carbonic anhydrase I and II have been known for several years and are located in high amounts in red blood cells as well as in many other tissues.Carbonic anhydrase III, a protein showing CO2 hydratase and p-nitrophenylphosphatase activity was isolated from skeletal muscle some years ago. Earlier observations based on enzyme activity and radioimmunoassay studies have suggested that this protein is present in greater quantities in red skeletal muscles than in white ones. We have purified CA III from human soleus muscle and using obtained monospecific polyclonal antibody localized this protein in the same muscle fibers which show acid resistant ATPase activity. Using this protein as a marker for type I muscle fibers, fiber classification into type I and II could now be done also from paraffin embedded sections.This study is supported by the Research Council of Physical Education and Sport, Ministry of Education, Finland  相似文献   

6.
Kim G  Lee T  Wynshaw-Boris A  Levine RL 《Gene》2001,265(1-2):37-44
At least 14 distinct isozymes of carbonic anhydrase have been identified in mammals. These enzymes catalyze the hydration of carbon dioxide and are essential for regulation of cellular pH and carbon dioxide transport. Carbonic anhydrase III is highly expressed in certain tissues, including muscle and fat where it constitutes up to 25% of the soluble protein. We cloned a cDNA encoding mouse carbonic anhydrase III. This cDNA contains 1653 bp, consisting of 79 bp in the 5' UTR, a 780 bp open reading frame, and 794 bp of the 3' UTR, including two potential polyadenylation signals. Fluorescent in situ hybridization confirmed the existence of a single copy of the gene on chromosome 3. We then isolated the genomic DNA for mouse carbonic anhydrase III and analyzed its structure. The gene consists of seven exons and six introns which span 10.5 kb. The 5' flanking region of the genomic DNA is notable for a pyrimidine rich region consisting of two dinucleotide repeats containing 23 and 20 TC pairs separated by the same 15 bp spacer.  相似文献   

7.
Thyroidectomy has a dramatic effect on rat muscle, greatly increasing the number of Type I fibers and the concentrations of carbonic anhydrase III (CAIII) in the muscle. Carbonic anhydrase III is not confined to the Type I fibers, as was previously believed, but also occurs in fibers that exhibit a level of ATPase staining less than that of 2A fibers but greater than 2B. These fibers are rare in normal muscle but become numerous after thyroidectomy, when they stain heavily for CAIII.  相似文献   

8.
Summary Carbonic anhydrase isoenzymes I and II have been localized in human bone and cartilage. Osteoclasts are strongly positive for carbonic anhydrase II but very little if any reaction is observed for carbonic anhydrase I. In tendon giant cell tumor osteoclastlike-giant cells contained high amounts of carbonic anhydrase II suggesting the close relation of these cells to normal osteoclasts. In growth plate cartilage strong staining was obtained in late proliferative and hypertrophic chondroxytes as well as in extracellular matrix of hypertrophic zone also only with anti-human carbonic anhydrase II.  相似文献   

9.
Carbonic anhydrase III, a cytosolic enzyme found predominantly in skeletal muscle, has a turnover rate for CO2 hydration 500-fold lower and a KI for inhibition by acetazolamide 700-fold higher (at pH 7.2) than those of red cell carbonic anhydrase II. Mutants of human carbonic anhydrase III were made by replacing three residues near the active site with amino acids known to be at the corresponding positions in isozyme II (Lys-64----His, Arg-67----Asn, and Phe-198----Leu). Catalytic properties were measured by stopped-flow spectrophotometry and 18O exchange between CO2 and water using mass spectrometry. The triple mutant of isozyme III had a turnover rate for CO2 hydration 500-fold higher than wild-type carbonic anhydrase III. The binding constants, KI, for sulfonamide inhibitors of the mutants containing Leu-198 were comparable to those of carbonic anhydrase II. The mutations at residues 64, 67, and 198 were catalytically independent; the lowered energy barrier for the triple mutant was the sum of the energy changes for each of the single mutants. Moreover, the triple mutant of isozyme III catalyzed the hydrolysis of 4-nitrophenyl acetate with a specific activity and pH dependence similar to those of isozyme II. Phe-198 is thus a major contributor to the low CO2 hydration activity, the weak binding of acetazolamide, and the low pKa of the zinc-bound water in carbonic anhydrase III. Intramolecular proton transfer involving His-64 was necessary for maximal turnover.  相似文献   

10.
Two young patients with unimpaired renal and hepatic function were found to have developed metabolic acidosis after treatment for glaucoma and joint pain with a combination of salicylates and carbonic anhydrase inhibitors in normal doses. Carbonic anhydrase inhibitors appear to interact with salicylates to produce serious metabolic acidosis in patients without the predisposing factors generally considered to constitute risks. It is recommended that treatment combining salicylates and carbonic anhydrase inhibitors is either kept to a minimum or avoided.  相似文献   

11.
Carbonic anhydrase was assayed and carbonic anhydrase and 5'-nucleotidase were localized in the CNS of myelin-deficient mutant rats and normal littermates. The carbonic anhydrase specific activities were reduced by 61% and 29% in the mutants' forebrains and cerebella, respectively, and the total carbonic anhydrase activity in the spinal cords was reduced by 35%. Immunostained cells were found in gray matter from both normal and mutant rats, but, in the mutants, there was a marked deficiency of interfascicular oligodendrocytes in the regions that are normally occupied by white matter. It is suggested that a developmental study could indicate the step(s) at which normal differentiation of interfascicular oligodendroglia is blocked in this mutant.  相似文献   

12.
Carbonic Anhydrase Immunostaining in Astrocytes in the Rat Cerebral Cortex   总被引:7,自引:3,他引:4  
Carbonic anhydrase is known to occur in the choroid plexus, oligodendrocytes, and myelin, and to be virtually absent from neurons, in the mammalian CNS; however, there is significant controversy whether it is also present in astrocytes. When brain sections from adult rats were stained for simultaneous immunofluorescence of carbonic anhydrase and the astrocyte marker glutamine synthetase, both antigens were detected in the same glial cells in the cortical gray matter, whereas the oligodendrocytes and myelinated fibers in and adjacent to the white matter showed immunofluorescence only for carbonic anhydrase. Some glial cells in the gray matter also showed double immunofluorescence for carbonic anhydrase and glial fibrillary acidic protein. These results indicate that there is carbonic anhydrase in some astrocytes in the mammalian CNS.  相似文献   

13.
Proteins with reactive sulfhydryls are central to many important metabolic reactions and also contribute to a variety of signal transduction systems. In this report, we examine the mechanisms of oxidative damage to the two reactive sulfhydryls of carbonic anhydrase III. Hydrogen peroxide (H2O2), peroxy radicals, or hypochlorous acid (HOCl) produced irreversibly oxidized forms, primarily cysteine sulfinic acid or cysteic acid, of carbonic anhydrase III if glutathione (GSH) was not present. When GSH was approximately equimolar to protein thiols, irreversible oxidation was prevented. H202 and peroxyl radicals both generated S-glutathiolated carbonic anhydrase III via partially oxidized protein sulfhydryl intermediates, while HOCl did not cause S-glutathiolation. Thus, oxidative damage from H202 or AAPH was prevented by protein S-glutathiolation, while a direct reaction between GSH and oxidant likely prevents HOCl-mediated protein damage. In cultured rat hepatocytes, carbonic anhydrase III was rapidly S-glutathiolated by menadione. When hepatocyte glutathione was depleted, menadione instead caused irreversible oxidation. We hypothesized that normal depletion of glutathione in aged animals might also lead to an increase in irreversible oxidation. Indeed, both total protein extracts and carbonic anhydrase III contained significantly more cysteine sulfinic acid in older rats compared to young animals. These experiments show that, in the absence of sufficient GSH, oxidation reactions lead to irreversible protein sulfhydryl damage in purified proteins, cellular systems, and whole animals.  相似文献   

14.
Polyclonal antibodies (PCAB) to smooth muscle myosin (SMM), monoclonal antibodies (MCAB) to cytokeratin 8 (clon HI, IgGI) and H4 (IgM), as well as PCAB to carbonic anhydrase III were used for identification of the cell types in the vas deferens cell culture of guinea pig. Smooth muscle cells (SMC) are identified by intensive staining of PCAB to SMM. Fibroblast-like cells (FBL) are determined by the presence of the filament finest network, apparently responding to the myosin non-muscular forms, which are present in PCAB to SMM. The epithelial cells are stained by MCAB to cytokeratins. PCAB to carbonic anhydrase III interact with all three cell types. In the majority of SMC the enzyme is detected as solitary stripes, though there are diffuse ones across the whole cytoplasms, the nucleus remains clearly visible. Carbonic anhydrase III in epithelial cells is detected only in nucleoli and along nucleus membrane while in FBL--in nucleoli and cytoplasm as focal granulation. PCAB to carbonic anhydrase III may serve as a universal marker for identification of cell type in the guinea pig vas deferens cell culture.  相似文献   

15.
碳酸酐酶(carbonic anhydrase,CA)催化可逆的水合反应CO2+H2O?ΗCO3?+H+,参与维持pH值平衡、CO2与离子的转运、细胞凋亡等生理过程。碳酸酐酶VI(CA-VI)作为该类含锌酶中惟一的细胞分泌型碳酸酐酶,在哺乳动物及人的唾液腺、乳腺、泪腺、支气管等腺体中表达,对维持口腔、上消化道和呼吸道的生理功能起重要作用。  相似文献   

16.
A F Nazarova 《Genetika》1983,19(3):507-508
Carbonic anhydrase of human erythrocytes was separated by polyacrylamide electrophoresis into four fractions determined, obviously, by two loci, CAI and CAII. Investigation of Moscow population sample of 458 men (516 healthy and 42 with schizophrenia) showed monomorphism of carbonic anhydrase for these two loci. Carbonic anhydrase I and carbonic anhydrase II were differentiated with fluorogenic substrates. The polymorphic variant of CAII was discovered while studying the sample of Siberian mongoloids (Evenks and Jakuts) with frequency 0,047 and 0,045, respectively.  相似文献   

17.
Carbonic anhydrase activity was determined in spinach (Spinacia oleracea) leaf organelles isolated on sucrose density gradients and was found to be predominantly in the intact chloroplast fraction. The small amount of activity associated with the mitochondrial fractions was probably due to intact chloroplast contamination. No activity could be associated with the broken chloroplast or microbody fractions. Based upon inhibitor studies, carbonic anhydrase was found to be around 2 mm in the chloroplast. Ethoxzolamide, an inhibitor of carbonic anhydrase, reduced CO(2) fixation in intact chloroplasts. The concentration required to inhibit CO(2) fixation 20 to 40% was in excess of that required to inhibit the purified enzyme. The inhibition was partially reversed by CO(2). Ethoxzolamide had no effect on photosynthetic NADP reduction or photophosphorylation measured by methyl viologen reduction. The physiological role of carbonic anhydrase was shown not to be associated with CO(2) diffusion or CO(2) concentration. It is proposed that other functions of carbonic anhydrase could be the protection against denaturation by transient localized changes in pH or the hydration of compounds other than CO(2).  相似文献   

18.
Carbonic anhydrase C in white-skeletal-muscle tissue.   总被引:2,自引:1,他引:1       下载免费PDF全文
We investigated the activity of carbonic anhydrase in blood-free perfused white skeletal muscles of the rabbit. Carbonic anhydrase activities were measured in supernatants and in Triton extracts of the particulate fractions of white-skeletal-muscle homogenate by using a rapid-reaction stopped-flow apparatus equipped with a pH electrode. An average carbonic anhydrase concentration of about 0.5 microM was determined for white skeletal muscle. This concentration is about 1% of that inside the erythrocyte. Some 85% of the muscle enzyme was found in the homogenate supernatant, and only 15% appeared to be associated with membranes and organelles. White-skeletal-muscle carbonic anhydrase was characterized in terms of its Michaelis constant and catalytic-centre activity (turnover number) for CO2 and its inhibition constant towards ethoxzolamide. These properties were identical with those of the rabbit erythrocyte carbonic anhydrase C, suggesting that a type-C enzyme is present in white skeletal muscle. Affinity chromatography of muscle supernatant and of lysed erythrocytes showed that, whereas rabbit erythrocytes contain about equal amounts of carbonic anhydrase isoenzymes B and C, the B isoenzyme is practically absent from white skeletal muscle. Similarly, ethoxzolamide-inhibition curves suggested that white skeletal muscle contains no carbonic anhydrase A. It is concluded that white skeletal muscle contains essentially one carbonic anhydrase isoenzyme, the C form, most of which is probably of cytosolic origin.  相似文献   

19.
The species composition, the net photosynthetic O2 evolution rate and the activity of external carbonic anhydrase (CA) of microalgae from three reservoirs were studied. Carbonic anhydrase activity had a significant positive correlation with the density of Cyanobacteria in Lake Aha. Microalgae's carbonic anhydrase activity in Lakes Baihua and Hongfeng was related to the density of Chlorophyceae. The species abundances of microalgae in Lake Aha, Lake Baihua, and Lake Hongfeng were different. A relationship between carbonic anhydrase activity and net photosynthetic O2 evolution rate had also been established. Algae with external CA influenced the algal productivity. These results demonstrate the role of external CA in facilitating the availability of CO2 that limits the photosynthesis of microalgae in karst lakes in China.  相似文献   

20.
Sections of equine thymus were examined for the presence of carbonic anhydrase (CA) isozymes by an immunohistochemical method. Carbonic anhydrase III, a major enzyme of skeletal muscle, was localized in some of the epithelial-reticular cells of the equine thymus. This finding suggests the presence of a new type of cell in the thymic cortex. The concentration of CA-III in the thymus was 17 micrograms/g wet tissue. CA-I and CA-II were not found in equine thymus.  相似文献   

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