Characterization of human carbonic anhydrase III from skeletal muscle

A third form of human carbonic anhydrase (CA III), found at high concentrations in skeletal muscle, has been purified and characterized. This isozyme shows relatively poor hydratase and esterase activities compared to the red cell isozymes, CA I and CA II, but is similar to these isozymes in subunit structure (monomer) and molecular size (28,000). CA III is liable to posttranslational modification by thiol group interaction. Monomeric secondary isozymes, sensitive to beta-mercaptoethanol, are found in both crude and purified material and can be generated in vitro by the addition of thiol reagents. Active dimeric isozymes, generated apparently by the formation of intermolecular disulfide bridges, also occur but account for only a small proportion of the total protein and appear only when the concentration of CA III is particularly high.     

Thyroidectomy significantly alters carbonic anhydrase III concentration and fiber distribution in rat muscle

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.     

Zinc and carbonic anhydrase III distribution in mammalian muscle

Zinc and carbonic anhydrase III measurement in human and rat muscle extracts indicate that: 1. About one fifth of zinc in human soleus is associated with carbonic anhydrase III isozyme, and even higher levels of zinc and carbonic anhydrase III are found in rat soleus, where about one half of the zinc is in carbonic anhydrase III. Other muscle was also analysed in a similar way, (see text). Heart is notable in containing lower levels of zinc but negligible carbonic anhydrase III. 2. Treatment of muscle with water or phosphate solutions showed that all the carbonic anhydrase III was water extractable, whereas significant zinc remained bound, but was partially extractable by phosphate solutions. 3. Dialysis of muscle extracts showed that whilst some zinc was dialysable, there was no significant contribution from the carbonic anhydrase III in the dialysed extract. EDTA enhanced the release of dialysable zinc from muscle extract. These findings are discussed in relation to muscle disease.     

Purification and properties of pig muscle carbonic anhydrase III

Pig muscle carbonic anhydrase III (carbonate hydro-lyase, EC 4.2.1.1) has been isolated and purified to homogeneity with chromatographic techniques. It has been found to be a 30 kDa protein displaying the same three activities (CO2 hydratase, acetate esterase, p-nitrophenyl phosphatase) previously described for the rabbit muscle isoenzyme, including the phosphatase activity not seen in the erythrocyte isoenzymes. The turnover numbers of the three activities are of the same order of magnitude as previously reported for rabbit muscle carbonic anhydrase III. Km and Vmax for the pig muscle CO2 hydratase activity were found to be 83 mM and 6000 s-1, respectively. The extinction coefficient at 280 nm (1 cm light path) is 22.2 for a 1% solution. Five half-cystine residues determined by performic acid oxidation are free for reaction with p-mercuribenzoate but only four are accessible to titration with dithiobisnitrobenzene. The amino acid composition of the pig muscle isoenzyme III has a high level of homology compared with that of rabbit and bovine muscle carbonic anhydrases III.     

Novel purification of carbonic anhydrase III from human, rat and baboon muscle

A new method of inhibitor elution from DEAE cellulose is described for carbonic anhydrase III. Highly purified fractions free of other isozymes were obtained after one column elution.     

Effects of human carbonic anhydrase III (CA III) on synovial and muscle fibroblast glycosaminoglycan metabolism

We investigated the ability of CA III, isolated from adult human skeletal muscle, to regulate cell growth and glycosaminoglycan (GAG) formation in connective tissue cells derived from various human tissues. Unlike muscle, dermal, and cartilage fibroblasts, synovial connective tissue cells were substantially activated by CA III and showed enhanced hyaluronic acid (HA) synthesis. Cell culture experiments showed that CA III induced a 2- to 11-fold increase in [14C]HA synthesis by human synovial fibroblasts (SF) in a dose-dependent manner (P less than 0.001); erythrocyte CA I and CA II were inactive. Exposure of SF and muscle fibroblasts to CA III also resulted in a 20-45% and 16-70% increased 35S incorporation into proteoglycans, respectively. When adult human skin and cartilage fibroblasts were studied in the presence of CA III, no differences in the level of DNA and GAG formation were noted. These latter cell types were clearly activated by a platelet (CTAP-III) growth factor. The potential physiological implications of these observations are discussed.     

Immunoelectron microscopic localization of carbonic anhydrase III in rat skeletal muscle

Summary The subcellular distribution of carbonic anhydrase III in rat soleus and vastus lateralis muscles was studied using an immunogold technique. The enzyme protein was found to be distributed diffusely in the cytoplasm of skeletal muscle cells. Red skeletal muscle (mainly type I fibers) revealed very strong immunogold staining whereas in white muscle (mainly type II fibers) gold particles were almost completely absent. No immunoreaction was observed in mitochondria or in other intracellular organelles.     

Some properties of site-specific mutants of human carbonic anhydrase II having active-site residues characterizing carbonic anhydrase III

Four amino acid residues, His64, Asn67, Leu198 and Val207, in the active site of human carbonic anhydrase II, have been replaced by Lys64, Arg67, Phe198 and Ile207, which are characteristic for the muscle-specific, low-activity isoenzyme form, carbonic anhydrase III. The aim of the investigation has been to test if any of these residues, or a combination of them, is important for the low CO2 hydration activity, low esterase activity, low pKa for the pH/rate profile and low affinity for sulfonamide inhibitors characterizing carbonic anhydrases III. However, no evidence for such critical roles was found. A combination of Lys64 and Arg67 appears to result in a decrease in CO2 hydration activity, but even the quadruple mutant having all four changes is only eight times less active (kcat/Km) than unmodified isoenzyme II, in contrast to isoenzyme III which is nearly 300 times less active than isoenzyme II. The 4-nitrophenyl acetate hydrolase activity of the quadruple mutant is sevenfold lower than that of unmodified isoenzyme II, while the active site of isoenzyme III hardly catalyzes the hydrolysis of this ester at all. The pKa controlling the esterase activity of the quadruple mutant is 6.2, which should be compared to a value of 6.8 for unmodified isoenzyme II, and about 5 for isoenzyme III. While isoenzyme III binds sulfonamide inhibitors 10(3)-10(4) times less strongly than isoenzyme II, only [Asn-67----Arg]isoenzyme II shows a weaker binding of the investigated sulfonamide, dansylamide, but only by a factor of two. Some of the other mutants show enhanced affinities, up to nearly fourfold for the double mutant with Phe198 and Ile207. It is speculated that additional differences between the active sites of isoenzyme II and III might be important for the precise orientations and interactions of the side chains of isoenzyme-III-specific amino acid residues.     

Synthesis of rat muscle carbonic anhydrase III in a cell-free translation system

Carbonic anhydrase III (CA III) was identified in the products of rat soleus muscle RNA translation in vitro by both a radioimmunoassay and a specific immunoprecipitation technique followed by SDS--polyacrylamide gel electrophoresis analysis of the precipitated antigen. The primary translation product has the same Mr-value as the native isoenzyme. CA III mRNA was found to represent approximately 0.55% of the total mRNA present in rat soleus muscle.     

Buffer enhancement of proton transfer in catalysis by human carbonic anhydrase III

Among the isozymes of carbonic anhydrase, isozyme III is the least efficient in the catalysis of the hydration of CO2 and was previously thought to be unaffected by proton transfer from buffers to the active site. We report that buffers of small size, especially imidazole, increase the rate of catalysis by human carbonic anhydrase III (HCA III) of (1) 18O exchange between HCO3- and water measured by membrane-inlet mass spectrometry and (2) the dehydration of HCO3- measured by stopped-flow spectrophotometry. Imidazole enhanced the rate of release of 18O-labeled water from the active site of wild-type carbonic anhydrase III and caused a much greater enhancement, up to 20-fold, for the K64H, R67H, and R67N mutants of this isozyme. Imidazole had no effect on the rate of interconversion of CO2 and HCO3- at chemical equilibrium. Steady-state measurements showed that the addition of imidazole resulted in increases in the turnover number (kcat) for the hydration of CO2 catalyzed by HCA III and for the dehydration of HCO3- catalyzed by R67N HCA III. These results are consistent with the transfer of a proton from the imidazolium cation to the zinc-bound hydroxide at the active site, a step required to regenerate the active form of enzyme in the catalytic cycle. Like isozyme II of carbonic anhydrase, isozyme III can be enhanced in catalytic rate by the presence of small molecule buffers in solution.     

The sequence of equine muscle carbonic anhydrase

The sequence of equine muscle carbonic anhydrase (CA-III) has been determined. The 2 reactive cysteines of the 5 such residues have been localized. A strong sequence homology to other mammalian carbonic anhydrases exists, and 91% of the residues in the equine and bovine muscle forms are identical.     

Sexual differentiation of rat liver carbonic anhydrase III

Using radioimmunoassay, the concentration of carbonic anhydrase III in the livers of adult male rats was found to be approx. 30-times greater than that observed in mature females. Castration of male rats led to a marked reduction in liver carbonic anhydrase III concentrations which could be partially restored to control levels by testosterone replacement. Administration of testosterone to ovariectomised female rats induced about a 5-fold increase in liver carbonic anhydrase III concentration. Immunoprecipitation analysis of the products of liver mRNA translation in vitro with antiserum specific for carbonic anhydrase III showed that hormonal control of the levels of carbonic anhydrase III in liver is mediated by changes in the amount of translatable carbonic anhydrase III mRNA. Marked changes in liver carbonic anhydrase III concentrations were also observed in developing and ageing male rats.     

Androgen-linked control of rat liver carbonic anhydrase III

The concentration of carbonic anhydrase III (CAIII) in male rat liver was found to be 30 times greater than that in the female. Castration of male rats led to marked reduction in liver CAIII concentrations which could be partially restored to control levels by testosterone replacement. Marked developmental and senescence changes in liver CAIII were also observed in male rats.     

Immunocytochemical localization of carbonic anhydrase isozymes I, II, and III in rat skeletal muscle

Specific antisera were raised against the three carbonic anhydrase (CA) isozymes, CAI, CAII, and CAIII, and were used to determine the fiber distribution of these isozymes in skeletal muscle. Fiber types were determined by ATPase staining, and the CA isozymes were detected using a peroxidase-anti-peroxidase (PAP) technique. All three isozymes were present in type I fibers; CAII and CAIII were exclusive to these fibers, and CAI were also present in some small type 2A fibers.     

Purification and localization of human carbonic anhydrase

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     

Sexual differentiation of rat liver carbonic anhydrase III

Using radioimmunoassay, the concentration of carbonic anhydrase III in the livers of adult male rats was found to be approx. 30-times greater than that observed in mature females. Castration of male rats led to a marked reduction in liver carbonic anhydrase III concentrations which could be partially restored to control levels by testosterone replacement. Administration of testosterone to ovariectomised female rats induced about a 5-fold increase in liver carbonic anhydrase III concentration. Immunoprecipitation analysis of the products of liver mRNA translation in vitro with antiserum specific for carbonic anhydrase III showed that hormonal control of the levels of carbonic anhydrase III in liver is mediated by changes in the amount of translatable carbonic anhydrase III mRNA. Marked changes in liver carbonic anhydrase III concentrations were also observed in developing and ageing male rats.     

Hydrolysis of 4-nitrophenyl acetate catalyzed by carbonic anhydrase III from bovine skeletal muscle

We report three experiments which show that the hydrolysis of 4-nitrophenyl acetate catalyzed by carbonic anhydrase III from bovine skeletal muscle occurs at a site on the enzyme different than the active site for CO2 hydration. This is in contrast with isozymes I and II of carbonic anhydrase for which the sites of 4-nitrophenyl acetate hydrolysis and CO2 hydration are the same. The pH profile of kcat/Km for hydrolysis of 4-nitrophenyl acetate was roughly described by the ionization of a group with pKa 6.5, whereas kcat/Km for CO2 hydration catalyzed by isozyme III was independent of pH in the range of pH 6.0-8.5. The apoenzyme of carbonic anhydrase III, which is inactive in the catalytic hydration of CO2, was found to be as active in the hydrolysis of 4-nitrophenyl acetate as native isozyme III. Concentrations of N-3 and OCN- and the sulfonamides methazolamide and chlorzolamide which inhibited CO2 hydration did not affect catalytic hydrolysis of 4-nitrophenyl acetate by carbonic anhydrase III.