Characterization of a new variant of human red cell carbonic anhydrase I,CA if London (Glu-102→Lys)

A new inherited variant of red cell carbonic anhydrase I (CA I), designated CA If London, was discovered during a survey of 1615 individuals from London, England. No electrophoretic variants of the other isozyme of carbonic anhydrase CA II, were observed in the same survey. Sequence analysis of a lysine-blocked tryptic peptide believed to contain the amino acid substitution in CA If showed that the glutamyl residue at position 102 had been substituted by a lysyl residue. This substitution results in a net increase of two positive charges in the mutant enzyme. Densitometric scanning of the electrophoretically separated forms in the variant hemolysate indicates that the levels of the normal and variant enzymes are approximately equal.Supported in part by U.S. Public Health Service grant GM15,419.     

Isoenzymes of hypoxanthine-guanine-phosphoribosyl transferase in a family with partial deficiency of the enzyme

The isoenzymes of hypoxanthine-guanine-phosphoribosyl transferase (HGPRT; E. C. 2.4.2.8) were studied by polyacrylamide gel disc electrophoresis in the erythrocytes of a family in which there was a partial deficiency of this X-linked enzyme. Hyperuricemic males, in whom HGPRT activity was 4% of normal, were found to have a variant enzyme which had altered kinetic and electrophoretic properties. In acrylamide gel, this variant migrated about 15% faster than the normal enzyme, and its K _m for hypoxanthine was twice that of the normal. The sister of two patients had 34% of normal activity in her erythrocytes and was thought to be a heterozygote. Electrophoresis of her hemolysate yielded profiles in which there were two zones of HGPRT activity. The more slowly migrating isoenzyme behaved electrophoretically like the normal isoenzyme. The faster-migrating isoenzyme had a mobility identical to that of the variant enzyme found in hemolysates from her hyperuricemic siblings. However, in her profile the activity of the variant enzyme was three times greater than that of the HGPRT found in the boys. This increased activity appears to be due to an interaction of the variant enzyme with the normal enzyme. Electrophoresis of a mixture of normal enzyme and the variant from a hyperuricemic male yielded a profile similar to that observed in this girl and a dramatic increase in the amount of activity in the variant zone.Aided by U.S. Public Health Service Grants No. HD04608 and GM 17702 from the National Institute of Child Health and Human Development and from the National Institute of General Medical Sciences, respectively, National Institutes of Health. Presented in part at the 1971 Annual Meeting of the Western Society for Pediatric Research, Carmel, California.     

Characterization of the subunit composition of HGPRTase from human erythrocytes and cultured fibroblasts

Hypoxanthine-guanine phosphoribosyltransferase is a ubiquitous human enzyme, the inherited deficiency of which leads to a specific metabolic-neurological syndrome. Native acrylamide isoelectric focusing revealed that the human enzyme consists of different numbers of isoenzymes depending on the tissue of origin. The erythrocytic enzyme has the most isoenzymes while the enzyme from cultured fibroblasts has only a single isoenzyme. The isoenzyme pattern of the erythrocytic enzyme changes on storage of the crude hemolysate at 4 C. Treatment of the stored crude hemolysate with 4.5 m urea and 0.35 mm -mercaptoethanol results in an isoenzyme pattern similar to that of the fresh crude extract. Thus the additional isoenzymes are generated on storage not by covalent modification of the enzyme but probably by binding of small molecules to the enzyme or to association of the enzyme molecules. Hypoxanthine-guanine phosphoribosyltransferase has been purified to 80% homogeneity in three steps, DEAE Sephadex chromatography, heat treatment at 85 C for 5 min, and hydroxylapatite chromatography. Denaturing two-dimensional gel electrophoresis of the erythrocytic enzyme revealed that the erythrocytic enzyme is composed of three major types of subunits (1–3) with the same molecular weight but different isoelectric points. In contrast, the fibroblast enzyme is composed of only a single type of subunit, which comigrates with subunit 1 of the erythrocytic enzyme. Since there is a single genetic locus in humans for HGPRTase (the enzyme is X linked) (Nyhan et al., 1967), the observed subunit modification of the erythrocyte enzyme appears to be the result of posttranslational modification. These findings provide a simple explanation for the observed electrophoretic properties of human HGPRTase. A patient with 0.5% of HGPRTase activity in his erythrocytes was found to have small amounts (> 0.5% but < 5% of normal) of the erythrocytic HGPRTase subunits.This work was supported by a grant from NIAMDD, National Institutes of Health, United States Public Health Service. L. J. G. was supported by a fellowship from the National Institute of Child Health and Human Development. D. W. M. is an Investigator, Howard Hughes Medical Institute.     

Human malic enzyme: High-frequency polymorphism of the mitochondrial form

Polymorphic variation of the human mitochondrial malic enzyme was detected in Caucasians and Negroes. The frequencies of the two alleles determining the three mitochondrial malic enzyme phenotypes were 0.69 and 0.31 in the Caucasian sample and 0.82 and 0.18 in the much smaller Negro sample. The distribution of phenotype frequencies among the 85 Caucasian males shows a significant deviation from Hardy-Weinberg equilibrium proportions. Two interconvertible forms of the cytoplasmic malic enzyme are described in human brain tissue, together with one variant in 132 Caucasian individuals.This study was supported by grant GM 15253 from the National Institutes of Health and by Institutional Cancer Grant IN-26 from the American Cancer Society. One of us (G.S.O.) is a National Genetics Foundation Fellow; formerly Special Fellow, U.S. Public Health Service (5F3-HD 43,122-02).     

Mucolipidoses II and III variants with normal N-acetylglucosamine 1-phosphotransferase activity toward alpha-methylmannoside are due to nonallelic mutations.

Normal N-acetylglucosamine 1-phosphotransferase activity toward mono- and oligosaccharide acceptor substrates was detected in cultured skin fibroblasts from mucolipidoses II and III patients who were designated as variants (one of four mucolipidosis II and three out of six mucolipidosis III patients examined). The activity toward natural lysosomal protein acceptors was absent or deficient in cell preparations from all patients with classical as well as variant forms of mucolipidoses II and III. Complementation analysis, using fused and cocultivated mutant fibroblast combinations, revealed that, while cell lines with variant mucolipidosis III constituted a complementation group distinct from that of classical forms of mucolipidoses II and III, the variant mucolipidosis II cell line belonged to the same complementation group as did the classical forms. In contrast to the mutant enzyme from variant mucolipidosis III patients that failed to recognize lysosomal proteins as the specific acceptor substrates, the activity toward alpha-methylmannoside in the variant mucolipidosis II patient could be inhibited by exogenous lysosomal enzyme preparations (bovine beta-glucuronidase and human hexosaminidase A). These findings suggest that N-acetylglucosamine 1-phosphotransferase is composed of at least two distinct polypeptides: (1) a recognition subunit that is defective in the mucolipidosis III variants and (2) a catalytic subunit that is deficient or altered in the classical forms of mucolipidoses II and III as well as in the mucolipidosis II variant.     

Use of a monoclonal antibody specific for rabbit microsomal cytochrome P-450 3b to characterize the participation of this cytochrome in the microsomal 6 beta- and 16 alpha-hydroxylation of progesterone

A monoclonal antibody was developed that is specific for the 3b electrophoretic class of rabbit liver microsomal cytochrome P-450 as judged by immunoprecipitation and subsequent electrophoretic analysis. The antibody is inhibitory of catalytically distinct, variant forms of P-450 3b prepared from New Zealand White or IIIVO/J rabbits, respectively. Peptide mapping of the immunopurified P-450 3b from NZW and IIIVO/J microsomes indicates that a characteristic difference between the variant forms is exhibited by the antigen. In addition, a competitive assay indicates that the binding properties of the antibody do not differ substantially toward the variant forms of P-450 3b. The inhibitory antibody was used to examine the contribution of P-450 3b to the microsomal 16 alpha- and 6 beta-hydroxylation of progesterone. The antibody inhibits 40-70% of the 16 alpha-hydroxylase activity of microsomes from either New Zealand White or IIIVO/J rabbits. In contrast, it does not inhibit 6 beta-hydroxylation catalyzed by microsomes prepared from strain IIIVO/J but does inhibit this reaction as catalyzed by microsomes from most New Zealand White rabbits. The antibody also inhibits the increased 16 alpha-hydroxylase activity of IIIVO/J microsomes observed in the presence of 5 beta-pregnane-3 beta,20 alpha-diol, an allosteric effector of this variant form of P-450 3b. Use of this monoclonal antibody provides a link between the observed properties of the purified, variant forms of P-450 3b and microsomal metabolism. These results indicate that the antibody can be used to phenotype variant forms of P-450 3b in microsomal fractions.     

Human erythrocyte glutathione reductase. I. Purification and properties.

1. Glutathione reductase (NAD(P)H:oxidized-glutathione oxidoreductase, EC. 1.6.4.2) from human erythrocytes was purified 49 000-fold with an overall yield of 15% and a 280/460 nm absorbance ratio of 6.03. The procedure used was the method of Worthington and Rosemeyer modified by addition of heating and recrystallization. 2. It was concluded from the results of purification, electrofocusing and inhibition studies that glutathione reductase is a single enzyme which used both NADPH and NADH as hydrogen donors. 3. Apoenzyme cross-reacts with the antibody to the holoenzyme but has a slightly reduced affinity to the antibody. Apoenzyme can be removed from the hemolysate by heating and centrifugation without loss of holoenzyme. 4. Indirect immunological assay of the specific activity of the erythrocyte glutathione reductase is possible in the enzyme saturated with FAD.     

Purification and characterization of activated human erythrocyte prolidase

Prolidase (E.C. 3.4.13.9) has been purified 7500-fold to homogeneity from human erythrocytes in a Mn2+-activated form using conventional and fast protein liquid chromatography columns. The procedure includes a 1-h incubation of the crude hemolysate at 50 degrees C with 1 mM MnCl2. Following this novel step, prolidase retains full activity, obviating the requirement for preincubation of each enzyme fraction with Mn2+ prior to assay. Preincubation with MnCl2 does not change the isoelectric point of the enzyme. The molecular weight of the purified enzyme was 58,000 when measured by SDS-PAGE. Western blotting, using rabbit antibody raised to human kidney prolidase, with partially purified erythrocyte enzyme revealed a cross-reacting band at Mr 58,000.     

Polyclonal antibodies against rat liver cytosolic casein kinase II (CK-2) cross-react with CK-2 from other tissues and nuclear form (PK-N2) of the enzyme

Casein kinase II (CK-2) is a ubiquitous serine/threonine protein kinase, and is localized to both the cell nucleus and cytoplasm. Despite extensive biochemical similarities in their properties, there is evidence that the two forms of the enzyme exhibit certain distinctions (1). This prompted us to produce antibodies against CK-2, which could be utilized as a possible tool for investigations of the various forms of this enzyme. Specific polyclonal antibodies against the rat liver cytosolic CK-2 were raised in egg yolk of laying hens; the enzyme had repeatedly failed to elicit an immunogenic response in rabbits. The purified polyclonal antibody (egg yolk immunoglobulin, IgY) recognized all three subunits (42, 38, and 28 kDa) of the enzyme in immunoblots. The antibody when bound to a matrix was capable of removing CK-2 from solution, and the bound enzyme could be recovered from the immunoaffinity matrix with 0.1 M diethylamine. The antibody exhibited a high affinity towards CK-2 prepared from cytosol of liver, ventral prostate, and several other rat tissues, but no immunoreactivity was detected towards a number of other protein kinases tested. The subunits of the nuclear form of CK-2 (PK-N2) migrated differently when electrophoresed in parallel in the same gel. However, the antibody did cross-react with the various subunits of PK-N2 suggesting a significant homology in the immunogenic domains in the various subunits of the two forms of the enzyme.     

Genetic independence of two forms of carbonic anhydrase from bovine erythrocytes]

The two major forms of bovine erythrocyte carbonic anhydrase have been designated as CI and CII because their high activity of the C type. Separation of both forms and isolation of CI from the ethanol chloroform extract of the hemolysate were obtained by either column chromatography on DEAE-cellulose DE 23 or on DEAE-sephadex A-50. But pure preparations of the CII form were only obtained from DEAE-sephadex A-50 which separated CII from a minor component CIv1. Comparative studies of the CI and CII forms and of the minor component CIv1 strongly suggest that CIv1 is a conformational variant of CI and CII are genetic variants differing at least in their primary structure by one Arg yields Gln substitution 56 residues from the N-acetylated terminus. Based on the large variability of the proportion of the two isozymes in heterozygous individuals, the modality of the inheritance of these enzymes is discussed.     

Analysis of transketolase and identification of an enzyme variant in human leukocytes

Human leukocyte transketolase of fresh cell extracts has been analyzed by isoelectrofocusing on agarose gels (pH 3-10). The enzyme was then transblotted on nitrocellulose and detected with specific anti-transketolase IgG coupled to an avidin/biotin-immunoperoxidase system. Each sample yielded multiple enzyme forms, within a pI range of about 7.4-8.4. Transketolase profile, however, was not identical in all extracts. There are two mainly distinct patterns, showing qualitative and quantitative differences: a standard profile, which is predominant, and a variant, found in three unrelated subjects out of the two hundred and twenty. Standard and variant enzyme have similar Km values for ribose 5-P and xylulose 5-P and the same mobility on SDS-PAGE.     

Differential splicing of Pneumocystis carinii f. sp. carinii inosine 5'-monophosphate dehydrogenase pre-mRNA

Inosine 5'-monophosphate dehydrogenase (IMPDH) is a rate-limiting enzyme in guanine nucleotide metabolism that has drawn attention as a drug target in several organisms. Pneumocystis carinii f. sp. carinii IMPDH mRNA (GeneBank Accession No: U42442) previously identified from cultured organisms yielded a predicted amino acid sequence about 70 amino acids shorter at the amino terminus than IMPDH from other species. Recent research has shown that the amino terminal region is important for enzyme activity, suggesting that the previous putative P. carinii IMPDH might not represent full length, functional enzyme. To test this hypothesis, RT-PCR was performed with total RNA isolated from P. carinii f. sp. carinii. Three IMPDH splicing variants were found and splicing preference was observed: P. carinii isolated from infected rat lung contained primarily splicing variant one (introns two and four deleted), but organisms from spinner flask culture contained primarily splicing variant three (all four introns deleted). Importantly, splicing variant one (GeneBank Accession No: AF196975) contained an open reading frame for 529 amino acids, a size comparable to that of other eukaryotic IMPDH forms. The other variants contained the same open reading frame (454 amino acids) previously reported. Sequence analysis and complementation studies suggest variant one represents the full length, catalytically active form of P. carinii IMPDH. The differential splicing of the enzyme may reflect a mechanism by which the organism regulates the expression of IMPDH in response to environmental stresses.     

Purification and Properties of Three Pig Erythrocyte Carronic Anhydrases

Three distinct forms of the zinc containing enzyme carbonic anhydrase were isolated from pig erythrocytes. One low activity type enzyme and two genetic variants of the high activity type enzyme with identical CO2 hydratase activities which were 8 times as high were isolated from Danish Black and White Swine. In the isolation procedure described, the hemoglobin was eliminated by precipitation with chloroform-ethanol, and the isoenzymes were separated by DEAE-Sephadex chromatography. A number of enzymatically active minor components were separated. They were apparently all genetically linked to one of the three major components. The three purified isoenzymes behaved as homogeneous components during isoelectric focusing and electrophoresis at different pH values. They were characterized in terms of molecular weight, isoelectric pH, zinc content, amino acid composition, and enzymatic activity against CO2, p-nitrophenyl acetate, and β-napthyl acetate. The circular dichroism of the enzymes in the ultraviolet region was studied. The properties of the enzymes were similar to those of carbonic anhydrases of corresponding types isolated from other mammalian species. Sulphur containing amino acid residues were absent in the low activity type enzyme. The amino acid composition of the two high activity mutants deviated only in that an arginine residue in the most widespread genetic variant was replaced by a histidine residue in the less frequent variant. Otherwise the two mutants showed identical properties.     

乙型肝炎表面抗原单克隆抗体的制备及其应用

目的：研制能够同时检测乙型肝炎表面抗原(HBsAg) 野生株和多种变异株的单克隆抗体（mAb）,将筛选出的mAb进行纯度、免疫学性状鉴定,并对其应用效果及质量做初步评价。方法：用中国乙型肝炎病毒感染者血清中分离的HBsAg免疫小鼠,利用杂交瘤细胞融合技术制备抗HBsAg野生株和多种变异株的mAb,将筛选出的mAb经饱和硫酸铵纯化后通过聚丙烯酰胺凝胶电泳、琼脂糖凝胶电泳、ELISA鉴定其纯度、特性,初步评价其应用效果及质量。结果：获得了一株能够同时检测HBsAg野生株和多种变异株的mAb,命名为D12。其纯度较高,特异性强,灵敏度好,Ig亚类测定结果为IgG1,识别位点存在于自然抗原上,其检测HBsAg野生株的能力优于现行3种国产试剂盒,检测HBsAg变异株的能力明显优于现行5种国产试剂盒。结论：成功研制了可以同时识别HBsAg野生株和大多数变异株的mAb,为进一步提高我国当前乙型肝炎病毒变异株的检出率以及加强预防和控制乙型肝炎病毒的传播奠定新的基础。     

Human glucose 6-phosphate dehydrogenase: Purification and characterization of negro type variant (A+) and comparison with normal enzyme (B+)

Human glucose 6-phosphate dehydrogenase (d-glucose 6-phosphate: NADP oxidoreductase, EC 1.1.1.49) (A+), an electrophoretically distinguishable variant found in Negroes, was purified by column chromatographic techniques. The sedimentation patterns of analytical ultracentrifugation and interference patterns of sedimentation equilibrium indicate a homogeneous preparation. The molecular weight (by sedimentation equilibrium method) was estimated as 230,000, which was closely similar to that of the normal wild type enzyme (B+). The sedimentation constant of the variant enzyme (S _20,w=9.0) was smaller than that of the B+ enzyme (S _20,w=10.0). The molecular weight was about 45,000 in 4 mguanidine hydrochloride, indicating that the A+ enzyme, as well as the B+ enzyme, consisted of six subunits of similar size. The optimal pH of the variant enzyme was slightly higher than that of the B+ enzyme. In contrast to the B+ enzyme, magnesium ion increased the A+ enzyme activity with NAD as substrate. The Michaelis constants and the turnover rate were similar to those of the B+ enzyme. The A+ enzyme was serologically indistinguishable from the B+ enzyme when the anti-B+ serum was used as antibody. No significant difference was found in the amino acid composition of acid hydrolysates of the B+ and the A+ enzymes. This does not exclude an amino acid substitution, and, in fact, a single amino acid substitution, i.e., asparagine in B+ and aspartic acid in A+ enzyme, has been found and is being being reported separately.Supported by Research Grant HD-02497-01 and H-3901 from the National Institutes of Health.     

Multiple forms of cytosol and membrane-bound protein kinase activity in human erythrocytes

Both cytosol and membranes of human erythrocytes display protein kinase activity towards exogenous protein substrates such as casein, phosvitin andhistones. The histone kinase activity, unlike casein kinase, of both cytosol and membranes is increased by cyclic AMP. The protein kinase forms removed from the membranes with 0.7 M NaCl, phosphorylate only serine residues of both casein and histones through a mechanism cyclic AMP-independent.The protein kinase activity located in the cytosol (hemolysate) is due also to enzyme forms phosphorylating both serine and threonine residues of casein, in addition to forms phosphorylating only serine residues of casein and histones.Also the cytosol kinase forms, once partially purified by Sepharose 6B filtration, appear to be cyclic AMP-independent.     

Multiple forms of cytosol and membrane-bound protein kinase activity in human erythrocytes.

Both cytosol and membranes of human erythrocytes display protein kinase activity towards exogenous protein substrates such as casein, phosvitin and histones. The histone kinase activity, unlike casein kinase, of both cytosol and membranes is increased by cyclic AMP. The protein kinase forms removed from the membranes with 0.7 M NaCl, phosphorylate only serine residues of both casein and histones through a mechanism cyclic AMP-independent. The protein kinase activity located in the cytosol (hemolysate) is due also to enzyme forms phosphorylating both serine and threonine residues of casein, in addition to forms phosphorylating only serine residues of casein and histones. Also the cytosol kinase forms, once partially purified by Sepharose 6B filtration, appear to be cyclic AMP-independent.     

Altering catalytic properties of 3-chlorocatechol-oxidizing extradiol dioxygenase from Sphingomonas xenophaga BN6 by random mutagenesis

The 2,3-dihydroxybiphenyl 1,2-dioxygenase from Sphingomonas xenophaga strain BN6 (BphC1) oxidizes 3-chlorocatechol by a rather unique distal ring cleavage mechanism. In an effort to improve the efficiency of this reaction, bphC1 was randomly mutated by error-prone PCR. Mutants which showed increased activities for 3-chlorocatechol were obtained, and the mutant forms of the enzyme were shown to contain two or three amino acid substitutions. Variant enzymes containing single substitutions were constructed, and the amino acid substitutions responsible for altered enzyme properties were identified. One variant enzyme, which contained an exchanged amino acid in the C-terminal part, revealed a higher level of stability during conversion of 3-chlorocatechol than the wild-type enzyme. Two other variant enzymes contained amino acid substitutions in a region of the enzyme that is considered to be involved in substrate binding. These two variant enzymes exhibited a significantly altered substrate specificity and an about fivefold-higher reaction rate for 3-chlorocatechol conversion than the wild-type enzyme. Furthermore, these variant enzymes showed the novel capability to oxidize 3-methylcatechol and 2,3-dihydroxybiphenyl by a distal cleavage mechanism.     

A radioimmunoassay for human glucose phosphate isomerase: Measurement of immunoreactive enzyme from genetic variants

Glucose phosphate isomerase has been isolated to homogeneity from human placenta and monospecific antibody generated against the protein. The enzyme was radiolabeled with ¹²⁵I and purified by specific substrate-induced elution from cellulose phosphate. A radio-immunoassay was developed and the ratio of catalytic activity to immunoreactivity of the enzyme (molecular specific activity) was determined in hemolysates from five individuals heterozygous for genetic variant forms of the enzyme. In four cases involving point mutations no change in the molecular specific activity was noted. However, in a fifth case involving a deletion mutation, a decreased molecular specific activity was observed. Erythrocytes were fractionated on a density gradient and the molecular specific activity of the enzyme was measured in cells of different ages. A lower molecular specific activity was found in older cells, suggesting the accumulation of catalytically inactive, immunoreactive material during the aging of the erythrocyte.     

Immunoelectron microscopic analysis of the binding of monoclonal antibodies to molecular variants of human placental alkaline phosphatase

Three monoclonal antibodies with distinct antigenic specificities were examined by electron microscopy for their binding to three common genetic variants (SS, FS, and FF) of human placental alkaline phosphatase. In the reaction with the monoclonal antibody H5, all three variants of human placental alkaline phosphatase preferentially formed circular immune complexes composed of two antibodies and two enzyme molecules. In separate reactions with the F11 and B2 monoclonal antibodies, the SS variant formed circular complexes and the FS variant formed Y-shaped complexes composed of one antibody and two enzyme molecules, whereas the FF variant scarcely reacted. These results confirm immunochemical data showing that H5 binds to both S and F subunits with similar affinities, whereas F11 and B2 bind the S subunit with markedly higher affinity than they do the F subunit. Furthermore, the formation of circular complexes in the reaction of the mixture of the two antibodies, F11 and B2, with FS molecules suggests that these two antibodies bind to different sites on the S subunit. Therefore, the F and S subunits differ from one another at more than one site. This is the first indication that alleles of human placental alkaline phosphatase may result from more than just single point mutations in the gene encoding them.