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1.
Isoelectric focusing was used to study the multiple forms of acid phosphatase, arylsulfatase, beta-glucuronidase and beta-N-acetylhexosaminidase in lysosomes isolated from rat kidney. The isoelectric points of the main protein and hydrolase peaks were 1-1.5 units lower when electrofocusing was done in a pH 3-10 gradient than in a pH 10-3 gradient, apparently because the lysosomal constituents aggregated strongly at their isoelectric points and tended to settle somewhat in the gradient due to gravity. In the extended pH gradient the acidic form of each hydrolase occurred as asingle, relatively discrete peak. However, when pooled acidic fractions were refocused in a restricted pH gradient (pH 6-3 or 3-5) multiple acidic enzyme and protein components were resolved with isoelectric points between 2.7 and 5.1. When autolysis was minimized by extracting lysosomal fractions at alkaline pH (0.2% Triton X-100, 0.1%p-nitrophenyloxamic acid, 0.1 M glycine buffer, pH9) and including 0.1%p-NITROPHENYLOXAMIC ACID, AN INHIBITOR OF LYSOSOMAL NEURAMINIDASE AND CATHEPSIN D, in the pH gradient, arylsulfatase, beta-glucuronidase and beta-N-acetylhexosaminidase occurred in two forms, an acidic form with an isoelectric point of about 4.4, and a basic form with an isoelectric point close to 6.2, 6.7 and 8.0, respectively. Acid phosphatase occurred in three forms with isoelectric points of 4.1, 5.6 and 7.4. When some autolytic digestion was permitted by extracting lysosomal fractions in an acidic medium (0.2% Triton X-100, 0.1 M sodium acetate buffer, pH 5.2) AT 0-4DEGREES C and omitting p-nitrophenyloxamic acid from the gradient, the acidic form of beta-glucuronidase and the intermediate form of acid phosphatase were lost, the isoelectric points of the acidic forms of acid phosphatase, arylsulfatase and beta-N-acetylhexosaminidase were increased 0.6-1.2 units, and the isoelectric point of the basic forms of acid phosphatase, arylsulfatase and beta-glucuronidase was increased 0.5 unit. When lysosomal extracts were incubated with bacterial neuraminidase before electrofocusing, the acidic forms of acid phosphatase, arylsulfatase and beta-glucuronidase were largely lost, the isoelectric point of the acidic form of beta-N-acetylhexosaminidase was increased from 4.5 to 6.4, and the isoelectric points of the basic forms of all four hydrolases were increased 0.5-1.5 units. Autoincubation of lysosomal extracts in vitro at pH 5.2 PRODUCED SIMILAR, THOUGH LESS MARKED, effects. cont'd  相似文献   

2.
Electrophoresis in a sucrose gradient at pH values between 5 and 8 separated housefly DDT [1,1,1-trichloro-2,2-bis-(p-chlorophenyl)ethane] dehydrochlorinase into two major fractions. GSH S-aryltransferase under similar conditions migrated as a single peak of activity. Separation of housefly homogenates or partially purified enzyme preparations by electrofocusing in a natural pH gradient also showed the presence of multiple forms of DDT dehydrochlorinase.  相似文献   

3.
Abstract— The purification of choline acetyltransferase (ChAc) has been hampered by the increasing instability of the enzyme in the course of purification. By working with a high concentration of protein and by adding glycerol to the enzyme, the stability was increased. The purification was performed by centrifuging twice, at low and high salt concentrations, precipitation by ammonium sulphate and chromatography on carboxymethyl–Sephadex, hydroxylapatite and Sephadex G 100. The final steps were performed by using chromatography on an immunoabsorbent; this consists of agarose-coupled gammaglobulins of antisera devoid of any activity against ChAc itself and directed against other proteins still present in the purest ChAc preparation achieved by conventional biochemical techniques. The purest rat brain ChAc preparation had a specific activity of 20 μmol/min/mg of protein after a 30,000-fold purification. The enzyme was not homogeneous in polyacrylamide gel electrophoresis performed either at pH 4.5 or with sodium dodecyl sulphate. Pure ChAc from rat brain would have a specific activity of approximately 100 μmol/min/mg of protein.  相似文献   

4.
Abstract— (1) On analysis of human brain tissue to determine its choline acetyltransferase (ChAc) content the recovery of enzyme from many regions is very poor when the tissue is acetone-dried and then extracted in the standard manner; for this reason the method is unsuitable when quantitative recoveries are required; it is preferable to prepare sucrose homogenates and activate these with ether before incubation.
(2) From measurements made on homogenates of one adult brain the highest concentration of ChAc was found in the putamen and the lowest in the corpus callosum. The caudate nucleus also had a high activity. As in other mammals, the concentration of enzyme in the cerebellum was found to be low. Analogous results were obtained on a nine-year-old brain but the level of ChAc activity was generally higher than in the older brain.
(3) During foetal development up to thirty-two weeks, ChAc is higher in the cerebellum than in the caudate, the thalamus, corpora quadrigemina, medulla and spinal cord. In all regions the concentration and total amount of enzyme rise fairly steadily up to this time; between 24 and 32 weeks, however, its concentration in the cerebellum and corpora quadrigemina falls slightly although the total increases considerably.
(4) Comparison of the results with the data of other authors indicates general agreement between the distribution of the enzyme in the human brain and its distribution in other mammals, especially the rhesus monkey. The corpus callosum may be an exception since in man it contains little ChAc while in lower mammals it seems to have relatively high concentrations of both ACh and ChAc.
(5) In comparing the values for ChAc reported here with the values for AChE reported by others, three tissues, the globus pallidus, substantia nigra and cerebellum are found to be exceptional in that relative to their concentration in the caudate the activity of ChAc is only about one-tenth that of AChE.  相似文献   

5.
A facile and rapid purification procedure, based upon the heat denaturation of extraneous proteins and GMP-Sepharose affinity chromatography, has been used to purify hypoxanthine phosphoribosyltransferase from human brain. A homogeneous enzyme preparation, as judged by sodium dodecyl sulfate and gradient polyacrylamide gel electrophoresis, was obtained. The subunit molecular weight of the enzyme was estimated as 24,000 by sodium dodecyl sulfate polyacrylamide gel electrophoresis. The native molecular weight, determined by gradient gel electrophoresis, was approximately 100,000. These results suggest human brain hypoxanthine phosphoribosyltransferase is a tetramer, consistent with recent results reported for the human erythrocyte enzyme. At least three charge variant forms of the human brain enzyme were distinguished by nondenaturing polyacrylamide gel electrophoresis, electrofocusing, and chromatofocusing. Acidic pI values of approximately 5.7, 5.5, and 5.0 were estimated for the three major species.  相似文献   

6.
Abstract— Choline acetyltransferase (EC 2.3.1.6) was partially purified from human caudate nucleus and putamen, human sciatic nerve, rabbit and rat brain, and rabbit sciatic nerve. Kinetic constants were determined under the same conditions for all six extracts. Extrapolated Km values were between 6.6 and 18 μM for acetyl-CoA and between 0.4 and 1.2 mM for choline. Product inhibition patterns indicated that ChAc from both central and peripheral nervous tissues of man and the rabbit obeys a Theorell-Chance mechanism. Kinetic parameters suggest a possible influence on ACh synthesis of the in vivo concentration ratio, CoA/acetyl-CoA.  相似文献   

7.
Normal human serum contains at least three forms of α-D-mannosidase: an acidic form which has a pH optimum of 4.25, is inhibited by Co2+ and is thermostable; an intermediate form, which has a pH optimum of 5.6–5.7, is stimulated by Co2+ and is heat labile at 50°C; and a neutral form with a pH optimum of 6.0–6.5. In Mucolipidosis II and III sera, the acidic α-mannosidase activity persists while the intermediate activity is absent or altered. Heating the serum does not affect the pH activity curve, the electrofocusing profile or the response to Co2+ of α-mannosidase. During heat inactivation at 55°, 90–100% of the pH 5.6 α-mannosidase activity is lost in normal sera while less than 40% is lost from ML sera. The effect on sera from ML obligate heterozygotes is intermediate. The absent or altered intermediate mannosidase may be responsible for aberrant biochemical properties reported for other glycosidases in Mucolipidosis II and Mucolipidosis III.  相似文献   

8.
—The distribution of choline acetyltransferase (ChAc, EC 2.3.1.6) and l -glutamate 1-carboxylyase (glutamate decarboxylase, GAD, EC 4.1.1.15) was studied in serial frontal slices of the substantia nigra (SN) (pars compacta, PC; pars reticulata, PR; an intermediate region, IR) as well as in other brain areas from post mortem tissue of control and Parkinsonian patients. Within the SN from control brain ChAc and GAD activities showed a distinctive distribution: ChAc activity in PC was higher than in PR and IR by 427% and 253% respectively and within PC the enzyme activity in the rostral part exceeded that in the control part by 353%. The GAD activity in PC was higher by 41% than that in PR and within PC seemed to be higher in the caudal than in the rostral part. For both enzyme activities there were no significant differences between PR and IR or within these regions. In Parkinsonian brain both ChAc and GAD activities were reduced to 15-25% of controls in all 3 regions of the SN. The distinctive distribution of ChAc and GAD activity found in the SN of control brain was abolished: no difference was observed between the 3 regions. However, within PC the ChAc activity was lower in the medial than in the rostral part. Since nigral ChAc is possibly located in interneurons, the decrease in enzyme activity may be connected with the cell loss observed in the SN of Parkinsonian brain. By contrast, nigral GAD is probably contained in terminals of strio-nigral neurons and the decrease in enzyme activity in Parkinson's disease in the absence of striatal cell loss, may reflect a change in the functional state of these GABA neurons. Among various areas of control brains ChAc activity was highest in caudate nucleus and putamen while GAD was highest in SN. caudate nucleus, putamen and cerebral cortex. In Parkinsonian brain the most severe reduction in ChAc and GAD activities was found in the SN.  相似文献   

9.
B Droba  M Droba 《Folia biologica》1992,40(1-2):67-71
Two forms (I and II) of beta-N-acetyl-D-glucosaminidase from cock seminal plasma and one form (III) from spermatozoa were separated by chromatofocusing. The active enzyme forms I and II had pI values of 6.6 and 6.3, respectively, while form III had two subforms with pI values of 6.3 and 6.1, as determined by polyacrylamide gel electrofocusing. The molecular weights were 76,000 for forms I and III and 32,000 for form II. The optimum pH of enzyme forms I and III ranged from 3.6 to 4.0. In contrast, form II showed one distinct maximum at pH 3.7. The Km values obtained with p-nitrophenyl-beta-N-acetyl-D-glucosaminide as substrate were 0.35, 0.28, and 0.39 mM for forms I, II, and III, respectively. It is assumed that both cock spermatozoa and cock seminal plasma contain a common, enzymatically active beta-N-acetyl-D-glucosaminidase subunit with M(r) about 32,000 and pI 6.3.  相似文献   

10.
Aggregation of the enzyme acetyl-CoA: choline-O-acetyltransferase (ChAc, EC 2.3.1.6) which appears to be homogeneous has been observed. The molecular weight of the most abundant form of ChAc was estimated by gel filtration and sucrose gradient centrifugation to be in the range 58,000-62,000. The most frequently encountered aggregates were much larger and eluted in the void volume from Sephadcx® G-100 and G-150 indicating molecular weights in excess of 400,000. In fact, they were subsequently found to be 1.2 × 106 and 1.9 × 106 by sucrose gradient centrifugation. The percentage of activity associated with high molecular weight ChAc increased with purification, but these aggregates disappeared after storage for 2-3 weeks at ?20°C. The loss occurred independently of any fall in enzymic activity in the preparations examined.  相似文献   

11.
Human placental alpha-fucosidase (EC 3.2.1.51) has been extensively purified and partially characterized with respect to kinetic and structured properties. Although the enzyme seems to be separated by DEAE-cellulose chromatography in two forms which differ in their molecular weight and thermostability, an interconversion between the two forms takes place during storage and/or electrofocusing so that the same peaks of activity, revealed by the latter technique, are found before and after DEAE-cellulose chrome. The heterogeneous peaks of activity revealed by isoelectrofocusing show a reproducible pattern in the different tissues examined, except in serum where their pI values are consistently more acidic.  相似文献   

12.
—Homogenates of corpus striatum, cerebral cortex and hypothalamus excised from rat brain were fractionated on discontinuous Ficoll and sucrose density gradients, and the distribution of choline acetyltransferase (ChAc) in the mitochondrial and synaptosomal fractions was determined. In the hypothalamic and cortical regions the fractions enriched in synaptosomes showed much higher activity of ChAc than those containing mainly mitochondria. On the other hand, the corpus striatum showed an equal distribution of ChAc activity in those two fractions. The localization of ChAc was also studied in the postnuclear supernatants obtained from three brain regions, using continuous sucrose density gradients. The distribution of ChAc was compared to that of monoamine oxidase (MAO), potassium and protein. When the pellets obtained from the fractions collected from the gradient were suspended in sucrose, the peak of ChAc activity was close to that of MAO in all three brain regions. When 0.1 mm EDTA +1% butanol was used in order to liberate the occluded form of ChAc, the maximum liberation occurred in lighter fractions, resulting in a shift of the activity peak toward the top of the gradient. This was found with fractions from hypothalamic and cortical regions. In the striatum, the liberated ChAc remained in the same fractions as the occluded enzyme. The results indicate that ChAc is liberated only in those fractions where it is present in synaptosomes. In agreement with the results on the discontinuous gradients this occurs in particles of lower density than mitochondria in cortex and hypo-thalamus, but in particles of similar density to mitochondria in the corpus striatum, indicating regional differences in the distribution of ChAc in the brain. K+ containing particles centrifuged in less dense fractions than those containing ChAc, indicating that synaptosomes are heterogeneous with respect to these two marker substances.  相似文献   

13.
Abstract— The transport, distribution and turnover of choline O -acetyltransferase (ChAc, EC 2.3.1.6) and acetylcholinesterase (AChE, EC 3.1.1.7) in the vagus and hypoglossal nerves were studied in adult rabbits. The enzymes accumulated proximally and distally to single and double ligatures on both nerves and thus indicated both a proximo-distal and retrograde flow of the enzymes. Double ligature experiments indicated that only 5–20 per cent of the enzymes were mobile in the axon. The rate of accumulation of both enzymes above a single ligature corresponded to the slow rate of axonal flow provided that all the enzymes were mobile, but to an intermediate or fast flow if only a small part of the enzymes was transported. The distribution of ChAc along the hypoglossal neurons was studied and only 2 per cent of ChAc was confined to cell bodies, 42 per cent was localized to the main hypoglossal nerve trunks and 56 per cent to the preterminal axons and axon terminals in the tongue. The ratio of AChE to ChAc was about 3 in the hypoglossal nerve and 32 in the vagus nerve.
Transection of the hypoglossal nerve was followed by a decrease in the activity of ChAc in the hypoglossal nucleus and nerve and in the axons and their terminals in the tongue. The activity of AChE decreased in the hypoglossal nucleus and nerve but not in the tongue. The half-life of ChAc in preterminal axons and terminals of the hypoglossal nerve was estimated to be 16-21 days from the results obtained on transport, axotomy and distribution of the enzyme. Intracisternal injection of colchicine inhibited the cellulifugal transport of both enzymes and led to an increase in enzyme activity in the hypoglossal nucleus.  相似文献   

14.
A glycosidase displaying endo-N-acetylmuramoylhydrolase specificity (EC 3.2.1.17) was isolated from calf rennet. This lysozyme was also present in abomasal secretions from calf and adult cattle. Multiple molecular forms revealed by electrofocusing might be artefacts. The main enzyme form had Mr approx. 15 000, pH optimum 5.0, pI7.5, and a remarkable conformation stability. Competitive inhibition was observed with both N-acetylglucosamine and N-acetylmuramic acid, with apparent Ki values of 29 mM and 2.4 mM respectively. The isolated enzyme also displayed significant chitinase activity.  相似文献   

15.
实验以太行山猕猴为材料,用活性电脉(G-PAGE)方法分析研究了神经系统中蛋白水解酶的种类、活性及pH依赖性,结果表明:(1)神经系统各部分均具有31、30、29ku三种酸性蛋白水解酶;(2)94ku的中性蛋不解酶普遍存在于神经系统各器官中;(3)在中性和碱性条件下,坐骨神经中蛋白水解酶活性较强,其余部分生微弱。  相似文献   

16.
WE have found that several different forms of choline acetyl-transferase (ChAc) from rat brain can be separated by isoelectric focusing. Such heterogeneity of ChAc is of particular interest in the context of its ultrastructural localization. Subcellular fractionation1–4 and histochemistry5 have shown that the enzyme in rat, in conditions of low ionic strength and pH, adhered to several different membranous structures.  相似文献   

17.
1. The behaviour of choline acetyltransferase from pigeon, guinea-pig, rat and cat brain on isoelectric focusing was studied. 2. Choline acetyltransferase from pigeon and guinea-pig brain showed single peaks with isoelectric points at pH6.6 and 6.8 respectively. Only one molecular form of the enzyme was therefore detected in these species. 3. Three peaks of choline acetyltransferase activities with isoelectric points 7.3-7.6, 7.7-7.9 and 8.3 were obtained with enzyme preparations from rat brain. 4. The separate identities of each of the three forms were confirmed by refocusing. 5. Choline acetyltransferase activity from a high-speed supernatant of rat brain homogenate was distributed similarly to a partially purified enzyme preparation from rat brain in the isoelectric gradient. 6. The enzyme activities from cat brain were separated into two distinct peaks with isoelectric points 7.0 and 8.4, and a possible third peak with isoelectric point 7.6. 7. The two main peaks showed considerable differences in stability on storage, and their identities were confirmed by refocusing. 8. The distribution of the enzyme activities was unaltered by isoelectric focusing in the presence of 3m-urea. 9. The apparent K(m) for choline of choline acetyltransferase from rat, cat and guinea-pig brain was 0.8mm, whereas for the pigeon enzyme it was 0.4mm.  相似文献   

18.
1. Rat kidney lysosomal glycoproteins, prelabelled in the N-acetylneuraminic acid and polypeptide portions with N-acetyl[(3)H]mannosamine and [(14)C]lysine, or with N-acetyl-[(14)C]glucosamine, were incubated under various conditions. Autolytic cleavage of labelled N-acetylneuraminic acid and peptide was maximum at pH5.0. 2. N-Acetylneuraminic acid was released more rapidly than peptide during incubation at 37 degrees or 4 degrees C at pH5. p-Nitrophenyloxamic acid, an inhibitor of bacterial neuraminidase (Edmond et al., 1966), inhibited the cleavage of N-acetylneuraminic acid and peptide, and also inhibited cathepsin D activity. 3. Galactono-, mannono-, and glucono-lactone, inhibitors of the corresponding glycosidases, blocked the autolytic cleavage of N-acetyl[(14)C]glucosamine and protein without inhibiting beta-N-acetylhexosaminidase or cathepsin D activity. These findings suggest that the carbohydrate side chains protect the polypeptide portion of the lysosomal glycoproteins against proteolytic attack by lysosomal cathepsins. 4. In electrofocusing experiments, autolysis was minimized by adding 0.1% p-nitrophenyloxamic acid to the media used for extraction and electrofocusing, and by maintaining an alkaline pH (pH8.8-9) during extraction and dialysis. Arylsulphatase occurred in two forms with pI values of 4.4 and 6.4-6.7, and beta-glucuronidase in two forms with pI values of 4.4 and 6.1. When [(14)C]lysine and N-acetyl[(3)H]mannosamine were given to rats 1.5 and 1 h before killing, (14)C and (3)H were largely restricted to highly acidic glycoprotein species with pI values of 2.1-5.1. 5. When a lysosomal extract was adjusted to pH5 and incubated at 20 degrees C for 16h and then at 37 degrees C for 1 h before electrofocusing, 32 and 58% of the labelled peptide and N-acetylneuraminic acid was cleaved and the pI values of the labelled glycoproteins were markedly increased. About 80% of the acidic form of arylsulphatase and beta-glucuronidase was recovered with the basic form, and the pI of the basic form of both enzymes rose to 7.0. Similar, though less marked changes, were observed when a lysosomal extract was kept at pH5 for 2h at 4 degrees C before electrofocusing. 6. When an acidic lysosomal fraction (pI4.2-4.6) was incubated at pH5 for 2.5h and refocused, 80% of the arylsulphatase now occurred in two forms with pI values of 5 and 6.4. When a basic lysosomal fraction (pI5.8-6.4) was similarly incubated, the pI of arylsulphatase increased from 6.4 to 7.2. The relative increase in pI of arylsulphatases was accompanied by a proportional loss of N-acetylneuraminic acid from the glycoprotein associated with these forms. 7. These experiments show that lysosomal glycoproteins and two representative hydrolases, when exposed to a mildly acidic pH, readily undergo autolytic degradation and their pI values increase. These observations may have a bearing on the origin of the molecular heterogeneity of the lysosomal enzymes.  相似文献   

19.
—The presence of phenylethanolamine-N-methyltransferase (EC 2.1.1.-) and dopamine-β-hydroxylase (EC 1.14.2.1) activities was demonstrated in the sciatic nerve of the toad, Bufo marinus. The rates of accumulation of phenylethanolamine-N-methyltransferase (PNMT) and dopamine-β-hydroxylase (DBH) proximal to a ligation of the sciatic nerve were studied. DBH accumulated proximal to the ligation at a more than 10-fold faster rate than PNMT. By measuring the rate of loss of enzyme activity distal to a ligation, an estimate of per cent clearance of each enzyme was made. Based on the per cent of enzyme activity free to move, the absolute transport rates for each enzyme were estimated to be: PNMT, 3.6 mm/24 h; DBH, 102 mm/24 h. PNMT activity (89 per cent) was recovered in the soluble fraction of sciatic nerve homogenates with no change occurring in the subcellular distribution of the enzyme proximal to ligations. In contrast, 43 per cent of DBH activity was found in the soluble fraction of sciatic nerve homogenates; but a disproportionate increase in paniculate DBH activity was found proximal to sciatic nerve ligations. Reduction of toad body temperature to 4°C resulted in a complete but totally reversible block of the axonal transport of both PNMT and DBH.  相似文献   

20.
The multiple molecular forms of choline acetyltransferase (ChAT) were analysed during the postnatal development of rat brain. Changes in the sodium-dependent, high affinity uptake of [3H]choline (HAUC) and in the efficiency of conversion of labelled choline into ACh in vitro were also examined. Both mature and 7-day old brain contained three molecular forms of ChAT, with isoelectric points of pH 7.3, 7.9 and 8.3, but the immature brain appeared to contain smaller concentrations of the most basic form of the enzyme (pI = 8.3). Of the total choline uptake measured in slices of frontal cortex, adult samples exhibited a greater proportion of HAUC than 7-day samples and appeared to acetylate more efficiently the [3H]choline accumulated by high affinity uptake. This evidence suggests a basic molecular form of ChAT, appearing in rat brain during postnatal development, might be responsible for the efficient coupling of the high affinity uptake and subsequent acetylation of choline in cholinergic nerve terminals.  相似文献   

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