Two-Step Immunoaffinity Purification of Acetylcholinesterase from Rabbit Brain

Acetylcholinesterase (AChE; EC 3.1.1.7) extracted in 1% Triton X-100 from rabbit brain was purified 2,000-fold by chromatography on agarose conjugated with a monoclonal antibody directed against human red blood cell cholinesterase. After elution from the immunoadsorbent with pH 11 buffer, the preparation was purified further by affinity chromatography on phenyltrimethylammonium-Sepharose 4B with decamethonium elution. Overall yield of purified enzyme was 37% of the AChE originally solubilized, with a specific activity of 2,950 units/mg protein. Electrophoresis under reducing conditions in 7.5% sodium dodecyl sulfate polyacrylamide gels revealed only one silver-staining polypeptide band. A streamlined purification procedure enabled the isolation of electrophoretically homogeneous AChE to be completed in fewer than 7 days, at yields exceeding 50%. Electrophoretic analysis of purified AChE indicated an apparent MW of 71,000 for the monomeric subunit. Gel filtration and sucrose density gradient centrifugation in the presence of Triton X-100 showed little difference between the properties of the native and the purified enzyme. The molecular mass of the main species was estimated from the gel filtration and sedimentation data to be 280,000 daltons. Kinetic parameters of the purified protein (Km = 0.16 +/- 0.01 mM) were close to those of the native enzyme (Km = 0.12 +/- 0.01 mM) when examined with acetylthiocholine iodide as substrate. The two-step immunopurification procedure presented in this communication offers a convenient route to homogeneous neural AChE in quantities useful for detailed biochemical and immunochemical study.     

Characterization and purification of a kallikrein from human pancreatic juice and immunological comparison with other kallikreins.

A prekallikrein has been demonstrated in human pancreatic juice and the active enzyme has been purified from this material. The purification procedure included filtration on Sephadex G-100, chromatography on DEAE-cellulose and affinity chromatography on trypsin-inhibitor Sepharose. The purified kallikrein appeared to be homogeneous by polyacrylamide gel electrophoresis at pH 8.3 and by immunoelectrophoresis. Human pancreatic kallikrein is immunologically different from human plasma kallikrein and from pancreatic kallikreins of other species (hog, cat, rat and dog). Human pancreatic kallikrein has common antigenic determinants with human urinary and submandibular kallikreins but probably not with parotid kallikrein.     

Purification and characterization of human seminal plasma acid phosphatase

A 81-fold purification of human seminal plasma acid phosphatase was obtained by a three-step procedure, involving ammonium sulfate precipitation, DEAE-cellulose chromatography and Sephadex G-200 gel filtration. Homogeneity of the preparation during purification steps was tested by polyacrylamide gel electrophoresis and only one major band was obtained after the final step. The pH optimum for the activity of the purified enzyme was 5.6 and thermal stability was obtained even up to 40 degrees C. PNPP was the most specific synthetic substrate. The Km of purified seminal acid phosphatase towards PNPP was 1.5 X 10(-3) M. Among the metal ions tested, Hg+2 showed an I50 value of 4.2 X 10(-7) M. Studies with PCMB, PMSF and EDTA did not show any inhibition, whereas NaF and L(+)tartrate, at 1 mM concentration, inhibited the enzyme by 95% and 85%, respectively.     

Purification and detection of multiple forms of histidine decarboxylase in rat gastric mucosa (author's transl)]

A specific histidine decarboxylase from rat gastric mucosa has been obtained at high purity and good yield (purification about 600-fold). The purification procedure included double (NH4)2SO4 fractionation, ion-exchange chromatography, preparative isoelectric focusing in a granulated gel and gel filtration. Only the specific histidine enzyme was obtained by that procedure; DOPA decarboxylase, a non-specific enzyme, was absent in our final preparation. Each step of the purification was visualized by polyacrylamide gel electrophoresis and analytical isoelectric focusing. The purified enzyme was apparently homogenous by criteria of electrophoresis and gel filtration and has a molecular weight of 94 000. Several protein bands appeared after isoelectric focusing and the enzyme activity was localized in 3 distinct peaks. The gastric enzyme consists of 3 active forms which could be distinguished by their isoelectric points: 5.4, 5.75 and 6. Moleculare weights estimated by SDS polyacrylamide gel electrophoresis were 97 000, 93 000 and 90 000, and no subunits were observed. Pyridoxal phosphate was required as a coenzyme and resolution of the holoenzyme agreed with a portion of the coenzyme tightly bound to the apoenzyme. The purified enzyme was stable at low ionic strength, near neutral pH; concentrated reducing agents inhibit the enzyme.     

Purification and characterization of mouse kidney beta-glucuronidase.

Beta-Glucuronidase has been purified from mouse kidneys previously induced by gonadotrophin to a specific enzyme activity 15 times higher than the non-induced kidney. The purification procedure includes ultrasonication to solubilize the enzyme, acid and ammonium sulfate precipitations, gel filtration in Sephadex G-200, DEAE-ion exchange chromatography, and isoelectric focusing. The resulting product has a specific activity of 284,000 Fishman units/mg of protein, representing a 1,090-fold purification and is 17,000-fold higher than the level in the non-induced kidney. The purified beta-glucuronidase is apparently homogeneous by criteria of gel filtration, sodium dodecyl sulfate gel electrophoresis, and immunodiffusion. Characterization of the purified enzyme showed that it is identical with the lysosomal isoenzymic from electrophoretically, has subunit molecular weight of 74,000 (estimated by sodium dodecyl sulfate gel electrophoresis) and oligomer molecular weight of 300,000. The purified enzyme is stable at high temperature (up to 55 degrees) and at wide range of pH (from 4 to 11). It has a pH optimum for its activity at 4.7 and a Km of 1.18 times 10- minus 4 M. The purification and characterization of this enzyme from mouse kidney will have significance in the understanding of the molecular nature of the isoenzymes of beta-glucuronidase and will be useful in future studies on the mechanism of intracellular transport and distribution of this hydrolase.     

Plant nucleases. I. Separation and purification of two ribonucleases and one nuclease from corn

Three enzymes with ribonuclease activity, one of which also had deoxyribonuclease activity, have been isolated and partially purified from corn seeds and seedlings. The purification of Ribonuclease I from mature seed was previously reported. This enzyme has a pH optimum near 5.0, is loosely adsorbed to carboxymethyl-cellulose, and has a molecular weight of 23,000, determined by gel filtration.Ribonuclease II was isolated from the microsomes of corn roots, and was partially purified by gel filtration. It has a pH optimum plateau from 5.4 to 7.0, and molecular weight of 17,000.Nuclease I hydrolyzes both RNA and DNA. It was isolated from the large particles of a corn root homogenate and was partially purified on a carboxymethyl-cellulose column. It has a pH optimum at 6.2 and a molecular weight of 31,000.The relative activities of the 3 enzymes for deoxyribonuclease and at pH 5 and pH 6.2 for ribonuclease may be used to characterize them during purification operations. Assays on homogenates of corn roots, and especially of the root tips, suggested that a fourth enzyme, which possesses deoxyribonuclease activity, is also present.     

Purification of human gamma-interferon to essential homogeneity and its biochemical characterization

A multistep procedure has been developed which enables human gamma-interferon (HuIFN-gamma) to be purified to essential homogeneity. The procedure takes advantage of a modification of a previously described sequential chromatographic technique [Braude, I.A. (1983) Prep. Biochem. 13, 177-190] and the high isoelectric point of HuIFN-gamma (pH 9.5-9.8). The steps include Controlled Pore Glass adsorption chromatography, concanavalin A-Sepharose and heparin-Sepharose affinity chromatography, cation-exchange chromatography, and gel filtration chromatography. The purified HuIFN-gamma had a specific activity of 5.9 X 10(7) units/mg. This represents a purification of more than 70 000-fold and a 33% recovery. In addition, one gel filtration fraction had a specific activity of 2.5 X 10(8) units/mg. This represents a purification of greater than 300 000-fold and a recovery of greater than 17%. This fraction, when analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, was shown to be composed of one major 26-kilodalton (kDa) species and four minor species of 74, 67, 56, and 22 kDa. Analysis of this material with anti-HuIFN-gamma monoclonal antibody immunoabsorbent columns indicates that both the 26- and the 22-kDa species are HuIFN-gamma. Thus, the final product is essentially homogeneous (90-92% HuIFN-gamma), and the specific activity of pure HuIFN-gamma is approximately (2.7-2.8) X 10(8) units/mg of protein. Finally, the 26- and 22-kDa moieties are shown to be similar, if not identical, proteins as judged by amino acid and sequence analyses.     

Structural and chemical characterization of a homogeneous peptide N-glycosidase from almond

A peptide N-glycosidase that catalyzes the hydrolysis of N-linked oligosaccharide chains from glycopeptides and glycoproteins has been purified to homogeneity from almond emulsin and from almond meal. Purification from almond emulsin using ion-exchange chromatography, gel filtration chromatography, and preparative polyacrylamide gel electrophoresis gave an enzyme which was purified more than 700-fold and with a yield of 63%. An alternative procedure, more suitable for efficient large scale purification, used ion-exchange, affinity, and gel filtration chromatography. When purification began with almond emulsin, the enzyme was purified 1200-fold with a 37% yield, while when purification began with almond powder, the enzyme was purified 9000-fold with a yield of 45%. The homogeneous enzyme is stable at 4 degrees C for several months in 10 mM sodium acetate, pH 5.0, buffer. The peptide N-glycosidase is itself shown to be a glycoprotein consisting of a single polypeptide chain with a molecular weight of 66 800 on sodium dodecyl sulfate (SDS)-polyacrylamide gel electrophoresis. Circular dichroism spectra of the native molecule indicate the presence of a high (approximately 80%) alpha-helix content. The amino acid and carbohydrate contents of the enzyme are presented. When a convenient new assay with a turkey ovomucoid glycopeptide as a substrate is used, the enzyme preparation exhibits a broad pH optimum centered between pH 4 and pH 6. The enzyme is readily inactivated by SDS and guanidine hydrochloride, but it is stable in the presence of moderate concentrations of several other protein denaturants.(ABSTRACT TRUNCATED AT 250 WORDS)     

Purification and characterization of human hepatic cysteine-conjugate beta-lyase.

Cysteine-conjugate beta-lyase (EC 4.4.1.13) was purified about 880-fold from human liver obtained post mortem. The purification procedure included (NH4)2SO4 precipitation, chromatography on DEAE-cellulose and hydroxyapatite, gel filtration on Sephadex G-200, and chromatofocusing. The purified enzyme cleaves the C-S bond of several S-aryl-L-cysteines to yield equimolar amounts of thiols, pyruvic acid and ammonia via an alpha beta-elimination reaction. The Mr of the enzyme was estimated to be 88,000 by gel filtration. The enzyme is thermolabile, has a pH optimum of 8.5, and an apparent Km of 0.7 mM towards S-(p-bromophenyl)-L-cysteine. The enzyme requires pyridoxal 5'-phosphate as a cofactor, and hence the enzyme activity was completely abolished by hydroxylamine. No effect of EDTA or thiol-blocking reagents was observed on the activity of the enzyme.     

Use of procainamide gels in the purification of human and horse serum cholinesterases

Two large-scale methods based primarily on the use of procainamide-Sepharose gels were developed for the purification of horse and human serum non-specific cholinesterases. With method I, the procainamide-Sepharose 4B gel was used in the first step to handle large volumes of serum. With method II, the procainamide-Sepharose 4B gel was used in the final step to obtain pure enzyme. Although both methods gave electrophoretically pure cholinesterase preparations in good yields, they were significantly more efficient at purifying the horse enzyme than the human enzyme. To study this problem, the relative binding of human and horse cholinesterases to procainamide-, methylacridinium (MAC)-, m-trimethylammoniophenyl (m-PTA)- and p-trimethylammoniophenyl (p-PTA)-Sepharose 4B gels were measured, by using two approaches. In one, binding was measured by a procedure involving equilibration of pure cholinesterase in a small volume of diluted gel slurry (4%, v/v). A partially purified preparation of Electrophorus acetylcholinesterase was included. Pure human cholinesterase bound consistently more tightly to each of the gels than did horse cholinesterase, and the acetylcholinesterase appeared to bind the gels 10-100 times more tightly than did the non-specific cholinesterases. The order of binding for the cholinesterases, beginning with the tightest, was: procainamide-Sepharose 4B, MAC-Sepharose 4B, p-PTA-Sepharose 4B and m-PTA-Sepharose 4B. For the acetylcholinesterase the order was: MAC-Sepharose 4B, procainamide-Sepharose 4B, p-PTA-Sepharose 4B and m-PTA-Sepharose 4B. The second approach involved passing native sera or partially purified sera fractions through 1 ml test columns of each of the four affinity gels to determine their retention capacity for the cholinesterases. With these impure samples, the MAC-Sepharose 4B gels proved superior to the procainamide-Sepharose 4B gels at retaining human cholinesterase, but the opposite was true for the horse cholinesterase.     

A rapid four column purification of 2-deoxy-D-glucoside-2-sulphamate sulphohydrolase from human liver

2-Deoxy-D-glucoside-2-sulphamate sulphohydrolase was extracted from human liver and purified 40 000-fold by a simple four column procedure. The purification was followed using a specific substrate isolated from an acid hydrolysate of heparin, O-(alpha-2-sulphamino-2-deoxy-D-glucopyranosyl)-(1 leads to 3)-L-[6,3H]idonic acid. Only one form of the enzyme was seen on either ion exchange chromatography or isoelectric focussing, with a pI of 6.8. The apparent Mr of the holoenzyme as determined by gel filtration was 190 000 +/- 20 000. Two other larger Mr protein peaks observed on gel filtration appear to be an inactive dimer of the 190 000 dalton peak and a larger aggregate near the exclusion limit of the column. On polyacrylamide disc gel electrophoresis in sodium dodecyl sulphate, with or without prior reduction, each protein peak from the gel filtration column electrophoresed as a single major band with an apparent Mr corresponding to 55 000 +/- 6000.     

Plant Nucleases. II. Properties of Corn Ribonucleases I and II and Corn Nuclease I

Three enzymes with ribonuclease activity, one of which also had deoxyribonuclease activity, have been isolated and partially purified from corn seeds and seedlings. The purification of Ribonuclease I from mature seed was previously reported. This enzyme has a pH optimum near 5.0, is loosely adsorbed to carboxymethyl-cellulose, and has a molecular weight of 23,000, determined by gel filtration.

Ribonuclease II was isolated from the microsomes of corn roots, and was partially purified by gel filtration. It has a pH optimum plateau from 5.4 to 7.0, and molecular weight of 17,000.

Nuclease I hydrolyzes both RNA and DNA. It was isolated from the large particles of a corn root homogenate and was partially purified on a carboxymethyl-cellulose column. It has a pH optimum at 6.2 and a molecular weight of 31,000.

The relative activities of the 3 enzymes for deoxyribonuclease and at pH 5 and pH 6.2 for ribonuclease may be used to characterize them during purification operations. Assays on homogenates of corn roots, and especially of the root tips, suggested that a fourth enzyme, which possesses deoxyribonuclease activity, is also present.

     

An automatic multidimensional chromatography system for purification of human uterine progesterone receptor and induction of polyclonal antibodies

This paper reports on the synthesis of Org2058-bonded microparticulate silicas and their use in affinity chromatography as the first step for the purification of human progesterone receptor. The development of microprocessor-controlled instruments allows all the various steps to be performed automatically. The various steps used for the purification of human progesterone receptor were carried out with the FPLC system: affinity chromatography, desalting of eluate on Sephadex G-25, anion-exchange chromatography using a Mono Q column. With this procedure the receptor was purified approx. 10,000-fold within 24 h. The yield of receptor was generally 85-95%. Investigations with induced anti-progesterone receptor antibodies obtained after the fourth immunization show their immunoreactive behaviour towards progesterone receptor in crude cytosol, which was proved by sucrose density gradient centrifugation and by gel filtration on the FPLC system using a Sepharose 12 column. This implies that progesterone receptor was efficiently purified by our purification procedure.     

The activator of cerebroside sulphatase. Purification from human liver and identification as a protein.

1) A heat-stable activator of human sulphatase A (cerebroside sulphatase) was purified from human liver. It is required for the enzymatic degradation of cerebroside sulphates (sulphatides) in buffers (ionic strength greater than or equal 0.2) with osmolarity in the physiological range. 2) The purification steps involve extraction, acetone precipitation, heat treatment, isoelectric focusing and gel filtration. 3) Based on the definition of a specific activator unit, the purification of the final preparation was approximately 2000-fold over the acetone precipitation and several thousand-fold in the overall procedure. 4) The purified activator migrated as a single protein band when subjected to gel electrophoresis. Its effect was abolished after treatement with pronase E. The apparent molecular weight as determined by gel filtration was 21 500 +/- 1500; the isoelectric point was 4.3. 5) The activating effect of this protein factor and of taurodeoxycholate on cerebroside sulphatase activity was compared on a weight and molar basis.     

Purification and characterization of a collagenase from the mackerel,Scomber japonicus

Collagenase from the internal organs of a mackerel was purified using acetone precipitation, ion-exchange chromatography on a DEAE-Sephadex A-50, gel filtration chromatography on a Sephadex G-100, ion-exchange chromatography on DEAE-Sephacel, and gel filtration chromatography on a Sephadex G-75 column. The molecular mass of the purified enzyme was estimated to be 14.8 kDa by gel filtration and SDS-PAGE. The purification and yield were 39.5-fold and 0.1% when compared to those in the starting-crude extract. The optimum pH and temperature for the enzyme activity were around pH 7.5 and 55 degrees, respectively. The K(m) and V(max) of the enzyme for collagen Type I were approximately 1.1mM and 2,343 U, respectively. The purified enzyme was strongly inhibited by Hg2+, Zn2+, PMSF, TLCK, and the soybean-trypsin inhibitor.     

Rapid purification and direct spectrophotometric assay for 5-aminolevulinic acid dehydratase

A two-step purification procedure for 5-aminolevulinic acid dehydratase (EC 4.2.1.24) from human red blood cells has been developed. It involves one ion exchange and one gel filtration step. The purification is about 1000-fold, and the yield is more than 85%. With the purified enzyme a direct spectrophotometric assay of product formation without subsequent reaction with Ehrlich's reagent is described.     

Extracellular proteinase fromEnterococcus faecalis subsp.liquefaciens

An extracellular proteinase from Enterococcus faecalis subsp. liquefaciens has been purified 780-fold by a method including gel filtration on Sephadex G-50 and affinity chromatography with gramicidin J as ligand. Approximately 15% of the original enzyme activity was recovered. A purification of 14,800-fold, with 11.4% yield, may be reached using chromatofocusing as final step in the purification procedure. The molar mass of the enzyme has been estimated to be approximately 30 kDa by Sephadex gel filtration and approximately 26 kDa by SDS-PAGE. The isoelectric point has been found to be 4.6. Maximum enzyme activity of the proteinase has been observed at pH 7.5 and 45 degrees C. The enzyme hydrolyzed bovine serum albumin, alpha-lactoalbumin, beta-lactoglobulin, casein and pork myofibrillar and sarcoplasmic proteins. The extracellular proteinase was very stable; the enzyme maintained its activity in cell-free extracts over a very wide range of temperatures (-25 to 37 degrees C) for at least 2 months. At 12 degrees C, it was stable in the pH range of 5.5 to 8.0.     

One-step purification of chitinase from Serratia marcescens NK1, a soil isolate

AIMS: A simple single step technique of gel filtration was developed for the purification of chitinase from Serratia marcescens NK1. METHODS AND RESULTS: Chitinase from Ser. marcescens NK1 was purified to homogeneity by gel filtration chromatography with 9.2% recovery. The enzyme had a pH optimum of 6.2 and a temperature optimum of 47 degrees C. It was stable in a wide pH range of 3.0 to 10.0, retaining 60% activity at pH 3.0 and 65% activity at pH 10.5. It retained 70% activity at 28 degrees C after 72 h and nearly 50% activity at 50 degrees C up to 24 h. CONCLUSION: The chitinase from Ser. marcescens NK1 can be efficiently purified in a single step by gel filtration chromatography. The chitinase of Ser. marcescens NK1, a soil isolate, is highly stable and as active as that of other reported isolates of Ser. marcescens. SIGNIFICANCE AND IMPACT OF THE STUDY: This purification scheme is advantageous because of its simplicity and can therefore be applied for the purification of other enzymes. The yield is sufficient for initial characterization studies of the enzyme, and an improved resolution can be obtained if the chromatography is done under fast flow systems.     

A single-step purification of assembled insulin on a resource RPC column

We have designed an efficient single step purification process using Resource RPC column in conjunction with triethyl amine/acetonitrile solvent system at similar pH at which the in vitro assembly of insulin is carried out from its two chains. The conditions have been optimized to separate native insulin from its single chain precursors as well as from other by-products. This method obviates the need of acidification, centrifugation, gel filtration, and concentration steps before HPLC purification of insulin from assembly mixture. The system offers wide pH stability, rapid regenerability, excellent pressure/flow characteristics, and high loading capacity. The authenticity and purity of human insulin purified by this procedure was evaluated by analytical reverse phase HPLC, peptide mapping, and isoelectric focusing.     

UPTAKE AND METABOLISM OF 5-METHYL-TETRAHYDROFOLIC ACID BY RAT BRAIN SLICES

DNA-dependent DNA polymerases were partially purified from nuclei of cells from the occipital lobe of human brain. The purification procedure included successive DEAE-cellulose and phosphocellulose column chromatography, gel filtration and sucrose density gradient centrifugation steps. Four enzymes corresponding to DNA polymerases-α, β, γ, and terminal deoxynucleotidyl transferase were found. Brain DNA polymerases could be differentiated from one another by size, template preferences and sensitivity to sulfhydryl blocking agents.