G. Manao

A new synthesis of benzoyl phosphate: a substrate for acyl phosphatase assay.

A new method for the synthesis of benzoyl phosphate was reported. The advantages are: 1. more rapid procedure; 2. lower cost; 3. higher yield.

Some protein tyrosine phosphatases target in part to lipid rafts and interact with caveolin-1

A profile-based search of the SWISS-PROT database reveals that most protein tyrosine phosphatases (PTPs) contain at least one caveolin-1-binding motif. To ascertain if the presence of caveolin-binding motif(s) in PTPs corresponds to their actual localization in caveolin-1-enriched membrane fractions, we performed subcellular fractionating experiments. We found that all tested PTPs (PTP1B, PTP1C, SHPTP2, PTEN, and LAR) are actually localized in caveolin-enriched membrane fractions, despite their distribution in other subcellular sites, too. More than 1/2 of LAR and about 1/4 of SHPTP2 and PTP-1C are localized in caveolin-enriched membrane fractions whereas, in these fractions, PTP-1B and PTEN are poorly concentrated. Co-immunoprecipitation experiments with antibodies specific for each tested PTP demonstrated that all five phosphatases form molecular complexes with caveolin-1 in vivo. Collectively, our findings propose that particular PTPs could perform some of their cellular actions or are regulated by recruitment into caveolin-enriched membrane fractions.

Differential role of four cysteines on the activity of a low M r phosphotyrosine protein phosphatase

In this paper we describe the construction or five mutants of a bovine liver low M r phosphotyrosine protein phosphatase (PTPase) expressed as a fusion protein with the maltose binding protein in E. coli. Almost no changes in the kinetic parameters were observed in the fusion protein with respect to the native PTPase. Using oligonucleotide‐directed mutagenesis Cys‐17, Cys‐62 and Cys‐145 were converted to Ser while Cys‐12 was converted to both Ser and Ala. The kinetic properties of the mutants, using p‐nitrophenyl phosphate as substrate, were compared with those of the normal protein fused with the maltose binding protein or E. coli; both of the Cys‐12 mutants showed a complete loss of enzymatic activity while the specific activity of the Cys‐17 mutant was greatly decreased (200‐fold). The Cys‐62 mutant showed a 2.5‐fold decrease in specific activity, while the Cys‐145 mutant remained almost unchanged. These data confirm the involvement of Cys‐12 and Cys‐17 in the catalytic site and suggest that Cys‐62 and Cys‐145 mutations may destabilise the structure of the enzyme.

Affinity chromatographic purification of horse muscle acylphosphatase: Evidence of the existence of multiple molecular forms

Acylphosphatase was purified from horse muscle by a new procedure involving an affinity chromatography step and subsequent ion-exchange chromatography. This procedure was considerably milder than the preceding one, gave an overall yield of about 60% of activity and permitted isolation of three molecular forms with acylphosphatase activity. All these enzymatic forms are tightly bound to Sepharose 4B-linked anti-horse muscle acylphosphatase antibodies. Two of these forms (Ho1 and Ho3) are present in larger amounts: Ho1 corresponds to the enzyme purified according to the older procedure; this enzyme is a mixed disulfide between a main chain of 98 amino acid residues and glutathione. Ho2 differs from Ho1 only in the chemical nature of the molecule(s) S-S bound to the sole cysteine present at position 21 of the main chain. Ho3 is an S-S dimer of the main polypeptide chain. Ho1, Ho2, and Ho3 elicit very similar kinetic parameters in the presence of benzoylphosphate as a substrate.

Purification and some molecular properties of horse liver acyl phosphatase

Abstract 1. 1. Acyl phosphatase (acyl phosphate phosphohydrolase, EC 3.6.1.7) has been purified from horse liver. The purification procedure consisted of an acetic acid extraction, an isoelectric precipitation of foreign proteins and three subsequent ion-exchange chromatographies. 2. 2. The molecular weight was determined by sodium dodecylsulfate-polyacrylamide gel electrophoresis and by Sephadex G-75 gel filtration and the amino acid composition by ion-exchange chromatography. 3. 3. The above properties and the substrate specificity were compared with those found for horse muscle acyl phosphatase.

2-Methoxybenzoyl phosphate: a new substrate for continuous fluorimetric and spectrophotometric acyl phosphatase assays.

A new aromatic acyl phosphate, 2-methoxybenzoyl phosphate, has been synthesized. The compound shows an intrinsic fluorescence; it displays an intense emission band at 390 nm upon excitation in the near UV region. This band practically disappears after hydrolysis of the product. On the other hand, the product displays differences in the near UV absorption spectra measured before and after hydrolysis. The Δɛ at 301 nm is 2720 M−1 cm−1, a value that is 4.3-fold higher than that of benzoyl phosphate (the usual substrate for acylphosphatase assay) at 283 nm. The main kinetic parameters of three different acylphosphatase molecular forms (the muscular isoenzyme and two subtypes of the organ common isoenzyme) were determined using both benzoyl phosphate and 2-methoxybenzoyl phosphate as substrates, and then compared. These kinetic data and the UV absorption and fluorescence properties of 2-methoxybenzoyl phosphate sugest that this compound has better substrate features than benzoyl phosphate, and can be used for both high sensitivity continuous fluorimetric and UV absorption spectrophotometric assays of acylphosphatase.

Identification of three continuous antigenic sites in horse muscle acylphosphatase

The main antibody-combining sites of horse skeletal muscle acylphosphatase were mapped by preparing and purifying CNBr, tryptic and peptic peptides from the pure enzyme, and looking for the immunoreactivity of each peptide by the dot-immunobinding assay using specific polyclonal antienzyme antibodies previously purified by immunoaffinity chromatography. The immunoreactive peptides were identified on the basis of either their elution times in the fingerprint analysis or amino acid composition, or both, by comparison with the known enzyme amino acid sequence. All the CNBr as well as two tryptic and two peptic peptides were immunopositive, leading to identification of three main continuous antigenic sites on the enzyme molecule. The strong inhibition (92%) of the antigen-antibody reaction carried out in the presence of antibodies previously incubated with the immunoreactive peptide mixture supports the possibility that, at our experimental condition, the three identified antigenic domains contain the main antigenic determinants of the enzyme. The relationship between structure and antigenicity of the immunoreactive peptides is discussed in detail.

Horse brain acylphosphatase: purification and characterization.

Two structurally different acylphosphatases found in horse brain were purified; they were not immunologically related. The molecular masses were almost identical and the kinetic parameters were rather similar. The data reported indicate that one of the purified brain acylphosphatases and an enzyme, previously isolated from horse muscle, are the same protein. The presence of this acylphosphatase form in the brain has not been reported before. The other acylphosphatase seemed to be the same as the enzyme which had been purified from calf brain and partially characterized by Diederich and Grisolia [(1969) J. Biol. Chem. 244, 2412–2417]. Furthermore, this enzyme seems to be identical to the acylphosphatase recently purified in our laboratory from human erythrocytes.

Isolation and quantitation of ubiquitin from rat brain

A fast and sensitive method for the isolation and quantitation of cytoplasmic ubiquitin from brain by reversed-phase high-performance liquid chromatography is described. Cytosol from brain tissue was obtained by differential centrifugation and, after perchloric acid treatment, the sample was concentrated and ubiquitin was quantitatively isolated by means of a single chromatographic run. The amino acid composition, molecular weight, and primary structure of the pure protein were identified. The addition of monoiodinated 125I-ubiquitin to the sample as an internal standard indicated high native ubiquitin recovery. Statistical analysis carried out on different preparations and standardization of the chromatographic system indicated both the accuracy and the reproducibility of the method.

Purification and characterization of acylphosphatase erythrocyte isoenzyme from turkey muscle.

An acylphosphatase has been purified from turkey muscle in a rapid and high-yield way. The enzyme has been characterized for structural, kinetic, and immunological parameters, as well as with regard to its stability to thermal, urea, and phenylglyoxal inactivation. The enzyme is quite different from the turkey muscular isoenzyme, and shows structural and kinetic properties that are very similar to those previously reported for the erythrocyte isoenzyme from human erythrocytes and from chicken muscle. From the data reported it appears that this enzyme corresponds to the acylphosphatase erythrocyte isoenzyme. Unlike the erythrocyte isoenzymes studied so far, this enzyme is able to cross-react with antibodies that are raised against the muscular isoenzyme.