Histochemical observations on the occurrence of glycolytic and pentose phosphate cycle enzymes in the hepatopancreas and their possible relation to eyestalk factor(s) in the crab Scylla serrata (Forskal).

Histochemical studies were carried out on some of the glycolytic enzymes viz. phosphorylase, aldose, alpha-glycerophosphate dehydrogenase (alpha-GPDH) and lactic dehydrogenase (LDH) and a key enzyme of the pentose phosphatase cycle, glucose-6-phosphate dehydrogenase (G-6-PDH), in the hepatopancreas of Scylla serrata (Forskal). 1. Weak activities of phosphorylase and aldolase and strong-activities of alpha-GPDH and LDH were noticed mainly in the brush border of the tubules and R-cell cytoplasm. A trace activity of G-6-PDH was noticed in the brush border. 2. Bilateral eyestalk removal results in inhibition of both phosphorylase and aldolase. However, enhanced activities of alpha-GPDH and LDH were noticeable 4 h after the operation. The G-6-PDH activity remained unaltered till 24 h. 3. Injection of eyestalk extract into both intact and destalked crabs activated all the enzymes.     

Histochemical classification of neck and limb muscle fibers in a turtle, Pseudemys scripta: a study using microphotometry and cluster analysis techniques

We have attempted to develop an objective, semiquantitative classification of fiber types in turtle neck and limb muscle using microphotometry and multivariate statistical techniques. We first stained serial sections for myosin adenosine triphosphatase (ATPase) (with acid and alkaline preincubation and without preincubation), NADH-diaphorase, and two glycolysis-associated markers, alpha-glycerophosphate dehydrogenase (alpha-GPDH) and glycogen phosphorylase A (GPA). This allowed us to characterize individual muscle fibers in terms of their contraction speed and metabolic properties. Next we used microphotometry to measure the optical density of the reaction product in each fiber, and we subjected the resulting optical density matrix to cluster and discriminant function analyses in order to assign fibers to groups (fiber types) and to determine which stains contribute most to the distinction between groups. As a control, we processed a well characterized mammalian muscle (rat sternomastoid) simultaneously. Our results suggest that both neck and limb muscle in Pseudemys can best be described as falling into three groups: 1) slow oxidative (SO) fibers; 2) fast oxidative glycolytic (FOG) fibers, with relatively high oxidative and glycolytic capacities; and 3) fast glycolytic (Fg) fibers, with low oxidative, low/intermediate alpha-GPDH, and high GPA activities. These three fiber types differ from like-named types in rat muscle both in the pH lability of their myosins and in their metabolic profiles.     

Activity and androgenic control of glycolytic enzymes in the epididymis and epididymal spermatozoa of the rat.

1. Procedures were developed for the extraction and assay of glycolytic enzymes from the epididymis and epididymal spermatozoa of the rat. 2. The epididymis was separated into four segments for analysis. When rendered free of spermatozoa by efferent duct ligation, regional differences in enzyme activity were apparent. Phosphofructokinase, glycerol phosphate dehydrogenase and glucose 6-phosphate dehydrogenase were more active in the proximal regions of the epididymis, whereas hexokinase, lactate dehydrogenase and phosphorylase were more active in the distal segment. These enzymes were less active in the epididymis of castrated animals and less difference was apparent between the proximal and distal segments. However, the corpus epididymidis from castrated rats had lower activities of almost all enzymes compared with other epididymal segments. 3. Spermatozoa required sonication to obtain satisfactory enzyme release. Glycolytic enzymes were more active in spermatozoa than in epididymal tissue, being more than 10 times as active in the case of hexokinase, phosphoglycerate kinase and phosphoglycerate mutase. 4. The specific activities of a number of enzymes in the epididymis were dependent on the androgen status of the animal. These included hexokinase, phosphofructokinase, aldolase, glyceraldehyde phosphate dehydrogenase, phosphoglycerate kinase, pyruvate kinase, glycerol phosphate dehydrogenase, glucose 6-phosphate dehydrogenase, 6-phosphogluconate dehydrogenase and phosphorylase. 5. The caput and cauda epididymidis differed in the extent to which enzyme activities changed in response to an altered androgen status. The most notable examples were hexokinase, phosphofructokinase, aldolase, phosphoglycerate kinase, 6-phosphogluconate dehydrogenase and phosphorylase.     

Paralysis of Innervated Cultured Human Muscle Fibers Affects Enzymes Differentially

Increased accumulation of muscle-specific isozyme (MSI) of creatine kinase (CK), lactate dehydrogenase (LDH), glycogen phosphorylase (GP), and phosphoglycerate mutase (PGAM) occurs with development and indicates muscle fiber maturation. The expression of MSIs of those four enzymes is greatly enhanced in innervated-contracting as compared to noninnervated and noncontracting cultured human muscle fibers. We have now studied the effect of contractile activity on developmental accumulation of MSIs in innervated-contracting, innervated-paralyzed (2 microM tetrodotoxin for 30 days), and noninnervated-noncontracting cultured human muscle fibers. Muscle acetylcholinesterase (AChE) and total enzyme activities were also studied under the same conditions. We observed a different dependency on contractile activity between total enzymatic activities of CK, LDH, and AChE, which were substantially reduced after paralysis, and GP and PGAM, which were unchanged. The expression of MSIs of CK, GP, PGAM, and LDH was always significantly increased in innervated as compared to noninnervated fibers. While the expression of MSIs of GP and PGAM was the same in contracting-innervated and paralyzed-innervated muscle fibers, the expression of MSIs of CK and LDH in paralyzed-innervated muscle fibers was very slightly decreased as compared to their contracting-innervated controls. Our studies demonstrate that in human muscle: (1) total enzymatic activities and the expression of MSIs of GP and PGAM are regulated by neuronal effect(s); (2) total enzymatic activities of CK, LDH, and AChE depend mainly on muscle contractile activity; and (3) MSIs of CK and LDH are regulated predominantly by neuronal factors and to a much lesser degree by muscle contractile activity.     

Developmental Changes in Lactate Dehydrogenase and Aldolase Activity of the A2G-adr Mouse with Abnormal Muscle Function: Further Comparison with the 129Re-dy Mutant

Abstract: Lactate dehydrogenase and aldolase activity were reduced in lateral gastrocnemius muscle from two mouse mutants, A2G- adr and 129Re- dy , with abnormal muscle function. The activities of both of these enzymes were significantly reduced in the lateral gastrocnemius muscle from the A2G- adr mice at ages varying from 2 weeks to 32 weeks, whereas the activities in the soleus, heart, liver, and brain were the same as in the control animals. The lactate dehydrogenase isoenzymes in the lateral gastrocnemius and soleus muscles from the A2G mice were quantified, and although those of the soleus were comparable in mutant and control muscle, the lateral gastrocnemius from the adr mutant had reduced activity of LDH 5 and increased activities of the other four isoenzymes. The findings suggest that the adr mutation is expressed in the white (Type II) muscle fibres and not in the red (Type I) fibres or in any of the organs studied. It is suggested that the initiation of differentiation into Type II fibres from the embryonic form is absent or delayed in the A2G mutant. The reduced activities of lactate dehydrogenase and aldolase in 129Re- dy muscle confirm the findings of other workers.     

Changes in the activity of enzymes,participating in glycogen metabolism of alloxan diabetic rats

Summary Alloxan diabetes induced in white rats by intraperitoneal injection of Aloxan-monohydrate (15 mg/100 g body weight) was used to study changes in the glycogen phosphorylase a and b, phosphoprotein phosphatases and hexokinase activities under insulin deficiency conditions. Among the enzymes studied, an increase in muscle phosphorylase a activity as well as the a/b ratio have been obtained. In diabetic muscle phosphoprotein phosphatases and hexokinase activities were diminished.AMP increased the liver glycogen phosphorylase activity twice in diabetic rats whereas in normal animals the enzyme was less sensitive to this effector. The changes in liver hexokinase activity at diabetes were not connected and correlated with the altered phosphorylase and protein phosphatase activities.The logical chain of probable molecular events taking place in muscle glycogen metabolism under the conditions of insulin deficiency is offered.     

Glyconeogenic and glycogenic enzymes in chronically active and normal skeletal muscle

The chronically active (pseudomyotonic) gastrocnemius muscle in the C57B16J dy2J/dy2J mouse contains both elevated lactate and glycogen as well as fibers that have high amounts of glycogen and enhanced glyconeogenic activity. In the present study we analyze the activities of some key glyconeogenic enzymes to assess the causes of elevated muscle glycogen and to determine the pathway for glycogen synthesis from lactate. Glycogen synthase, malate dehydrogenase, phosphoenolpyruvate carboxykinase, and malic enzyme were all elevated in homogenates of the chronically active muscle. Activities of glycogen phosphorylase and fructose 1,6-bisphosphatase were decreased in whole muscle homogenates. Histochemistry demonstrated that the high-glycogen fibers were typically fast-twitch glycolytic fibers that had high glycogen synthase, glycogen phosphorylase, and malic enzyme activities. Malate dehydrogenase activity followed succinate dehydrogenase activity and did not correlate to high-glycogen fibers. Thus the high-glycogen fibers have an elevated enzymatic capacity for glycogen synthesis from lactate, and the pathway may involve use of the pyruvate kinase bypass enzymes.     

Histochemical localization of glycogen and some representative enzymes of glycolytic cycle in the cheliped muscle of Scylla serrata (Forskal) (Brachyura: Decapoda)

Glycogen, phosphorylase, aldolase, a-glycerophosphate dehydrogenase, lactic dehydrogenase and glucose-6-phosphate dehydrogenase were localized histochemically in the cheliped muscle of Scylla serrata (Forskal) in normal, destalked, destalked receiving eyestalk extract injection and intact injected with eyestalk extract.     

Some physiological and biochemical features of striated muscles reinnervated by preganglionic sympathetic fibers

Skeletal muscle fibers can be reinnervated by motor cholinergic fibers, that is, functional connection can be achieved. However, functional connection implies not only the capacity of the nerve impulse to elicit a contractile response but also the capability of the reinnervating neurons to evoke particular modifications of the physiological and biological features of the muscles. In order to search for some of the modifications due to reinnervation by preganglionic sympathetic fibers, muscle contraction time was studied in three different preparations of adult cats: a) cricothyroid muscle reinnervated by preganglionic fibers; b) cricothyroideus reinnervated by its own nerve; and c) the corresponding normal neuromuscular preparation. The activities of malic dehydrogenase, of aldolase and pyruvic kinase were studied in these three preparations as well as in the denervated cricothyroid muscles. Reinnervation by preganglionic fibers prolonged the twich contraction time, whereas, self-reinnervation did not alter it. On the other hand, the activities of the three enzymes decreased as a result of denervation. In contrast, the muscle reinnervated with sympathetic preganglionic fibers partially recovered the normal level of malic dehydrogenase and the aldolase activities; but showed no modification in the level of pyruvic kinase activity. Conversely, in the muscle fibers reinnervated by their own nerve, the activity of the three enzymes returned to normal levels. The shortening of contraction time of the preganglionic reinnervated muscle correlates well with the features of the enzymic activities found in these muscles. It can be concluded: a) preganglionic sympathetic axons are able to achieve functional connections with striated muscles and b) considering the trophic effect, preganglionic fibers resemble the motor nerve supplying slow muscles.     

Glycolytic enzymes in the premolt field crab Paratelphusa hydrodromus (Milne-Edwards) (Crustacea)

The quantitative assay of hexokinase (HK), phosphorylase, phosphofructokinase (PFK), glucose 6-phosphate dehydrogenase (G-6-PDH), glycerol 3-phosphate dehydrogenase (G-3 PDH) and lactate dehydrogenase (LDH) revealed that coxal muscles compared to hepatopancreas contained higher activities of all the enzymes investigated. It appears that the coxal muscles of the premolt field crab has carbohydrate-based fuel economy. The hepatopancreas is a rich source of lipid and very poor source of glycogen. The activity of G-6-PDH is moderately high in the hepatopancreas. It seems that in this lipogenic tissue conversion of G-6-P to triose phosphate occurs predominately via pentose-phosphate pathway thus generating NADPH for lipogenesis. The relative G-3PDH ad LDH activities in hepatopancreas and coxal muscles led us to believe that the reconversion of NAD from NADH in hepatopancreas nd muscle flexor is effected by glycerol 3-phosphate shuttle, whereas in muscle extensor it is achieved by both G-3PDH and LDH activities.     

SERUM ENZYMES—Variations of Activity in Disease of Muscle

In a study of 58 patients with various diseases of muscle or of the neuromuscular system, the serum activity of various enzymes was measured. Abnormal elevation of serum activities of aldolase, lactic dehydrogenase and, to a lesser extent, glutamic-oxalacetic transaminase and phosphohexose isomerase, was an almost constant feature in patients with progressive muscular dystrophy. These elevations were very frequent in dermatomyositis, common in acute cerebral vascular accidents, and rarely seen in other neurological disorders. Abnormal serum activity of iso-citric dehydrogenase was not observed in the course of the present study.Supplementary protein feeding of patients with muscular dystrophy had no effect on serum enzyme activity, no consistent effect on urinary creatine excretion and no effect on the strength of the patient or the course of the disease.Dystrophic muscles from a dystrophic strain of mice showed a decrease in activity of lactic dehydrogenase and aldolase below that of control muscle and an increase of iso-citric dehydrogenase activity. These findings, taken with the differences in serum activities of lactic dehydrogenase, aldolase and isocitric dehydrogenase in the dystrophic animals, support the conclusion that dystrophic animals handle these soluble enzymes in quite different ways.     

Newer drug treatment in dermatology

In a study of 58 patients with various diseases of muscle or of the neuromuscular system, the serum activity of various enzymes was measured. Abnormal elevation of serum activities of aldolase, lactic dehydrogenase and, to a lesser extent, glutamic-oxalacetic transaminase and phosphohexose isomerase, was an almost constant feature in patients with progressive muscular dystrophy. These elevations were very frequent in dermatomyositis, common in acute cerebral vascular accidents, and rarely seen in other neurological disorders. Abnormal serum activity of iso-citric dehydrogenase was not observed in the course of the present study. Supplementary protein feeding of patients with muscular dystrophy had no effect on serum enzyme activity, no consistent effect on urinary creatine excretion and no effect on the strength of the patient or the course of the disease. Dystrophic muscles from a dystrophic strain of mice showed a decrease in activity of lactic dehydrogenase and aldolase below that of control muscle and an increase of iso-citric dehydrogenase activity. These findings, taken with the differences in serum activities of lactic dehydrogenase, aldolase and isocitric dehydrogenase in the dystrophic animals, support the conclusion that dystrophic animals handle these soluble enzymes in quite different ways.     

Histochemical localization of lactate dehydrogenase isoenzymes in human skeletal muscle fibers.

Lactate dehydrogenase (LDH) activity was histochemically localized in fibers of the vastus lateralis muscle of men and for comparative purpose in the soleus and plantaris muscleo of rats. Human muscle fibers were identified as fast twitch (FT) or slow twitch (ST) from the histochemical stain for myofibrillar adenosine triphosphatase activity. Rat skeletal muscle fibers were classified as fast-twitch-oxidative-glycolytic (FOG), fast-twitch-glycolytic (FG), or slow-twitch-oxidative (SO) on the basis of NADH-diaphorase and myofibrillar adenosine triphosphatase activities. Heart-type (H) LDH was identified by inhibition of the muscle-type (M) isozyme with 4 M urea. Total LDH as estimated histochemically was highest in the human FT and rat FG fibers. This was predominantly the M-LDH isozyme. ST fibers of human and SO fibers of rat skeletal muscle had the least total LDH but the most H-LDH activity. The FOG fibers of rat muscle contained a total LDH activity intermediate to that of the FG and SO fibers and a combination of H- and M-LDH. There were no fibers in the human muscle samples studied that had LDH activities similar to the FOG fibers of rat muscle.     

Independent regulation of cytochromes and glycolytic enzymes in human fibroblasts

Growth of cultured human fibroblasts in low oxygen resulted in reciprocal changes in the levels of cytochrome oxidase and several glycolytic enzymes. After five days' growth in low oxygen, cytochrome oxidase specific activity fell to 40% of the level of control cultures, while lactic dehydrogenase (LDH), aldolase, and triose phosphate dehydrogenase (TDH) levels were increased by 2- to 3-fold. These changes were accompanied by a change in the LDH isoenzyme pattern resulting from an increase in the proportion of LDH A subunits; the aldolase electropherogram was unchanged. When fibroblasts were grown for five days in medium containing chloramphenicol, cytochrome oxidase specific activity fell to 10% of control values, but LDH, aldolase and TDH specific activities and LDH and aldolase electropherograms did not differ significantly from controls. These findings are interpreted to indicate that the increased accumulation of LDH, aldolase and TDH induced by low oxygen is not mediated by the rate of accumulation of cytochrome oxidase.     

Studies on cartilage formation. XX. Histochemical investigation of some enzymes of glycogen metabolsim in regenerative articular surfaces.

In 28 dogs the distal articular cartilage of the femur was removed and the regenerating articular surface on the 70th postoperative day was studied histochemically for hexokinase, glucose-6-phosphatase, phosphohexose-isomerase, fructose-1, 6-diphosphatase, aldolase, glyceraldehyde-3-phosphate dehydrogenase, lactate dehydrogenase, lactate dehydrogenase isoenzymes, phosphoglucomutase, phosphorylase, glycogen synthetase, UDP--glucose dehydrogenase, and UDP-glucuronic acid-4-epimerase. The articular surface consisted of fibrous tissue and of cartilage islets. The latter contained cells differentiating into cartilage and young chondrocytes. The glycolytic enzymes reacted positively in the regenerative articular surface. Enzyme activities were higher in the cells (particularly the chondroblasts and young chondrocytes) of the cartilage islets than in the connective tissue. In the cells differentiations into cartilage, beside the LDH isoenzymes characteristic of glycolysis, a significant LDH1 and LDH2 activity was observed. At the same site the presence of fructose-1, 6-diphosphatase-activity could be assumed, but there was no glucose-6-phosphatase activity. Glycogen synthesis proceeded in the cells of the cartilage islets and UDP-glucuronic acid-4-epimerase activity was observed in the differentiated cells. UDP-glucose dehydrogenase activity was positive in every section of the articular surface.     

Immunofluorescent localization of glycogenolytic and glycolytic enzyme proteins and of malate dehydrogenase isozymes in cross-striated skeletal muscle and heart of the rabbit.

Specific antisera against glycogen phosphorylase, phosphofructokinase, aldolase, glyceraldehyde-phosphate dehydrogenase, enolase, lactate dehydrogenase, cytosolic and mitochondrial malate dehydrogenase from rabbit muscle were obtained from sheep. The gamma-globulins were used for indirect immunofluorescent localization of the respective enzymes in rabbit skeletal muscle and heart. In stretched skeletal muscle a cross-striation like distribution was observed for all enzymes studied. In the case of mitochondrial malate dehydrogenase this pattern is due to the staining of I-band mitochondria. In cross-sections, an intense staining of the sarcolemma and of subsarcolemmal mitochondria was observed. Comparative analyses with polarized light revealed that the cytosolic enzymes under study are distributed in the relaxed muscle fibre predominantly within the isotropic zones. The same distribution holds also for heart. In contracting muscle a decrease in cross-striated fluorescence and a faint staining of the interfibrillar spaces suggests a location also within the interfibrillar space.     

Evidence for glycolytic enzyme binding during anaerobiosis of the foot muscle ofPatella caerulea (L.)

Summary The effect of anaerobiosis and aerobic recovery on the degree of binding of glycolytic enzymes to the particulate fraction of the cell was studied in the foot muscle of the marine molluscP. caerulea, in order to assess the role of glycolytic enzyme binding in the metabolic transition between aerobic and anoxic states. Short periods of anoxia (2 h, 4 h) resulted in an increase in enzyme binding in association with the increased glycolytic rate observed; this was particularly pronounced for phosphorylase, phosphofructokinase, aldolase, pyruvate kinase and lactate dehydrogenase. Decreased enzyme binding was observed after prolonged periods of anoxia. These effects were reversed and control values re-established when animals were returned to aerobic conditions. The results suggest that glycolytic rate could be regulated by changes in the distribution of glycolytic enzymes between free and bound forms inP. caerulea foot muscle. This reversible interaction of glycolytic enzymes with structural proteins may constitute an additional mechanism for metabolic control.     

Purification of muscle enzymes by pseudoaffinity chromatography

A method based on pseudoaffinity chromatography has been developed for the separation of lactate dehydrogenase (LDH), pyruvate kinase (PK) and aldolase from rabbit muscle extract using cross-linked guar (CLG) and cross-linked pectin (CLP) as the matrices, and dyes as the ligands. Screening of several dyes revealed that dyes No. 1014 and No. 1015, immobilized on CLG and CLP displayed a higher affinity for LDH and PK. Aldolase was not retained on any of the dye columns. It was observed that 1014-CLP and 1014-CLG columns retained 90% and 55% LDH activities, respectively, whereas 1015-CLP and 1015-CLG retained 83% LDH and 72% PK. A coupled-column system comprising 1014-CLP and 1015-CLP or 1014-CLG and 1015-CLG could separate LDH, PK, and aldolase from a mixture of these enzymes, as well as from rabbit muscle extract. Enzymes were found to be homogeneous on polyacrylamide gel electrophoresis. The method has been found to be simple and economical.     

Antivibrionic activity of some glycolytic cycle enzymes of animal cells.

The antivibrionic activity of crystalline preparations of five enzymes of the glycolytic cycle of animals cells was investigated. Phosphorylase "a" (0.5 mg/ml), aldolase (15 mg/ml) and pyruvate kinase (0.1 mg/ml) were found to inhibit the proliferation of Vibrio cholerae cells; phosphoglucomutase and glyceraldehyde-3-phosphate dehydrogenase at a concentration of 0.25 mg/ml were found to be vibriocidal. A mixture of these enzymes containing 0.062 mg/ml of phosphorylase "a" and 0.125 mg/ml of each phosphoglucomutase, aldolase, glyceraldehyde-3-phosphate dehydrogenase and pyruvate kinase showed vibriocidal activity.     

The resting metabolism of dodder seeds

Extracts of mature seeds of Cuscuta reflexa were examined for any deficiency in key enzymes. The activities of malate dehydrogenase, β-amylase and fructose 1,6-diphosphate aldolase exceeded 5.0 μmol substrate/min/g, while those of starch phosphorylase, α-amylase, acid phosphatase, phosphogluconate dehydrogenase (decarboxylating), aspartate aminotransferase, glucose 6-phosphate dehydrogenase, fructose 1,6-diphosphatase and alanine aminotransferase fell within the range 1 to 5 μmol/min/g and hexokinase, isocitrate dehydrogenase and alkaline phosphatase were below 1 μmol substrate/min/g seed powder. No activity of the following were found: acid invertase, alkaline invertase, phytase and glutamate dehydrogenase. Some of these observations were made also for seeds of Cuscuta campestris and Cuscuta indicora.