Quantitative histochemical investigation of semipermeable membrane techniques for the assay of acid phosphatase in skeletal muscle

Summary A post-coupling semipermeable membrane technique for determining the activity of acid phosphatase in sections of skeletal muscle has been developed and investigated for its reproducibility and validity. Cryostat sections of unfixed muscle mounted on dry dialysis membranes are first incubated for 1–4 h at 37° C on a gelled medium containing 4 mM naphthol AS-BI phosphate buffered at pH 5. They are next transferred to another gel containing only hexazotised Pararosanaline and incubated for a further 30 min. Finally, they are treated with 70% ethanol, dried in air, and mounted. The final reaction product (FRP) deposited within muscle fibres is mostly distributed as a fine reticular network, tentatively identified as sarcoplasmic reticulum. Large FRP granules of the kind observed with Meijer's simultaneous coupling membrane technique are not formed. The method is reproducible and valid in terms of several working criteria. For example, the mean absorbance of the FRP at its absorption maximum increases linearly with incubation time; and in model sections containing various amounts of a subcellular fraction rich in acid phosphatase, the mean absorbance after a constant incubation time is proportional to the enzyme concentration. FRP is formed at approximately twice the rate it is deposited in the simultaneous coupling method. The most important advantage of the post-coupling method over the simultaneous coupling method is that the inhibition of the enzyme by coupling reagents is avoided.     

Quantitative histochemical study of acid phosphatase activity in rat liver using a semipermeable membrane technique

Acid phosphatase activity has been demonstrated in rat liver with the semipermeable membrane technique using naphthol AS-BI phosphate as substrate and hexazotized pararosaniline (HPRA) as simultaneous coupling agent. With this method the final reaction product (FRP) appeared in rat liver as intensely colored red granules in liver parenchymal cells and in Küpffer cells. The absorbance spectrum of the FRP peaks between 510 and 550 nm. A nonspecific reaction product, as has been found in skeletal muscle, did not occur in rat liver. A substrate concentration of 5 mM and a HPRA concentration of 10 mM result in optimum localization and activity. We concluded from the results with different enzyme inhibitors that lysosomal acid phosphatase was demonstrated. The mean absorbance of the FRP increased linearly with incubation time (15-60 min). Furthermore, we found a linear increase of the FRP with increasing section thickness (4-10 micron). When the simultaneous coupling method was replaced by a post-coupling technique, the colored reaction product was diffusely located throughout the cytoplasm. In conclusion, the simultaneous coupling technique in combination with the semipermeable membrane method is a valuable tool for detecting and quantifying lysosomal acid phosphatase activity in rat liver. We demonstrated that acid phosphatase activity is 1.2 times higher periportally than pericentrally in rat liver, and that 24 hr fasting before the experiments did not change the acid phosphatase activity.     

Quantitative histochemical investigations of semipermeable membrane techniques for the assay of acid phosphatase in skeletal muscle

Summary Meijer's semipermeable membrane technique for acid phosphatase was modified by treating sections immediately after incubation with 70% ethanol for 30 min at room temperature instead of with formalin. The modification improved the validity of the technique considerably, by stabilising the specific final reaction product formed in presumed enzyme-containing sites. The modified technique thus seems promising for assaying the activity of acid phosphatase in sections of skeletal muscle.     

Fucose expression in skeletal muscle: a lectin histochemical study

Summary Binding sites for three fucose specific lectins, Aleuria aurantia agglutinin (AAA), Lotus tetragonolobus agglutinin (LTA) and Ulex europeus I agglutinin (UEA I), were investigated in sections from normal human and rat muscles, in muscle from patients with Duchenne muscular dystrophy (DMD) and in denervated and devascularized rat muscle. In normal human and rat muscle AAA detected fucosylated glycocompounds in the sarcoplasm, sarcolemma, interfibre connective tissue and vascular structures. In normal human muscle addition of fucose to the AAA incubation medium or treatment of the sections with formaldehyde followed by periodic oxidation before lectin incubation strongly inhibited the staining at all sites other than endothelial cells. In normal rat muscle the same staining procedures strongly inhibited the AAA binding at all sites other than the sarcolemma. Incubation with LTA resulted in a diffuse reaction around the vascular structures in rat muscle, while in human muscle a moderate, homogeneous staining was present in all muscle fibres. Treatment of the sections with formaldehyde and periodic acid before incubation with LTA resulted in strongly labelled muscle capillaries in both human and rat muscle. The only elements in the muscle tissues that were stained with UEA I were human endothelial cells. In denervated and devascularized rat muscle incubation with AAA revealed a novel fucose expression that appeared intracellularly in some necrotic fibres. The AAA-positive fucose residues in the sarcolemma of normal muscle fibres that were resistant to periodic acid oxidation could not be shown by AAA in denervated muscle. In DMD muscle a cryptic sarcolemmal fucose expression could be shown with AAA. It is suggested that both the sarcoplasm and sarcolemma of diseased muscle fibres show altered fucose expression.     

Quantitative histochemistry of three mouse hind-limb muscles: the relationship between calcium-stimulated myofibrillar ATPase and succinate dehydrogenase activities

Summary A quantitative modification of Meijer's calcium-lead capture method, for the demonstration of calcium-stimulated myofibrillar ATPase activity at physiological pH, is described. A range of myofibrillar ATPase activities has been found among fast muscle fibres in two mouse hind-limb muscles. The myofibrillar ATPase activity of fast muscle fibres is 1.5–3 times higher than the myofibrillar ATPase activity of slow muscle fibres.Myofibrillar ATPase activities and succinate dehydrogenase activities of individual muscle fibres have been determined in serial sections. Activities of the two enzymes are correlated positively in soleus (fast and slow fibres), and negatively in plantaris (almost all fast) and extensor digitorum longus muscle (all fast). However, this correlation is not significant among the oxidative fibres in the extensor digitorum longus. The fibres of the latter muscle cannot be classified satisfactorily into two sub-types.     

Biotin carboxylases in mitochondria and the cytosol from skeletal and cardiac muscle as detected by avidin binding

Biotin carboxylases in mammalian cells are regulatory enzymes in lipogenesis and gluconeogenesis. In this study, endogenous biotin in skeletal and cardiac muscle was detected using avidin conjugated with alkaline phosphatase and applied in high concentrations to muscle sections. The avidin binding was subsequently visualized by histochemical demonstration of the alkaline phosphatase activity. All cardiac muscle cells showed high affinity for avidin with only the nuclei and the intercalated discs remaining unstained. In skeletal muscle a diffuse reaction could be detected in the sarcoplasm of the muscle fibres. A granular reaction was noted in the same fibres that showed activity for succinic dehydrogenase. The specificity of the coloured reaction product in the muscle sections was investigated and is suggested to be caused by avidin binding to biotin moieties in mitochondria and the cytosol. Mitochondrial and cytosolic preparations of skeletal muscle were electrophoresed in sodium dodecyl sulphate gels. After blotting and incubation with conjugated avidin, two bands with molecular weights of 75 kDa and 130 kDa respectively were evident in the mitochondrial preparation. It is suggested that the 75-kDa band represents comigration of the biotin-containing subunits of propionyl-CoA carboxylase and methylcrotonyl-CoA carboxylase. The 130-kDa band may represent the biotin-containing pyruvate carboxylase. In the cytosolic preparation a 270-kDa band was stained in blots that had been incubated with conjugated avidin; this band is suggested to represent acetyl-CoA carboxylase. A 190-kDa cytosolic band might be a cleavage product of acetyl-CoA carboxylase. We propose that using alkaline phosphatase-conjugated avidin it is possible to detect the mitochondrial and cytosolic biotin-dependent carboxylases in striated muscle.     

Inhibition Reactivation Myofibrillar ATPase Technique for Demonstration of Three Fiber Types in a Single Cryostat Muscle Section

An inhibition reactivation technique was used for histochemical staining of human skeletal muscle sections. Myofibrillar ATPase activity was inhibited by sodium hydroxymercuribenzoate (2.5 mM in 0.1 M Tris-HCl buffer, pH 7.2-7.5, 30 min) and successively reactivated by cysteine which was added to incubation solution (10 mM cysteine-HCl, 2.5 mM ATP-disodium salt, 50 mM potassium chloride and 27 mM calcium chloride in barbital buffer, pH 9.4, 35 min at 37 C). This technique allows the distinction of three fiber categories with different staining intensities in single cross-section. Dark, intermediate and light fibers correspond to IIB, I, and IIA types, respectively. Storage of air dried sections in the freezer at -20 C for one month had no influence on staining characteristics.     

Microphotometric determination of glycogen in single fibres of human quadriceps muscle

Synopsis A technique for the quantitation of glycogen in single fibres of human skeletal muscle is described. By using microphotometry the loss of glycogen from cryostat sections during a PAS-staining procedure was shown to be negligible. Further, it was found that nearly all the PAS-positive material (98.5%) inside a muscle fibre is glycogen. A significantly higher mean glycogen concentration (P<0.001) was found in type II fibres than in type I fibres in the resting quadriceps muscle of sedentary young males. The coefficient of variation for the glycogen concentration within each fibre type was found to be 17% and 15% for type I and type II respectively. The specificity of the PAS-staining technique for glycogen was confirmed by a statistically significant correlation (r=0.78,P<0.001) between the glycogen concentration measured biochemically and that calculated from microphotometry and area and thickness measurements. With the technique described, it seems possible to measure the glycogen concentration of single muscle fibres in serial sections and to calculate this in standard biochemical terms.     

Acid phosphatase activity in soleus and plantaris muscle fibres of normal and dystrophic hamsters

Summary The activity of acid phosphatase in skeletal muscle fibres of the plantaris and soleus of normal and dystrophic male hamsters was quantified using a histochemical post-coupling semipermeable membrane technique. Althoug the absolute levels of activity were found to vary widely from one animal to another, the ratio of the mean activities in the two muscles in each animal was virtually constant. In normal muscles, the ratio was about 0.73 and in dystrophic muscles, about 0.77. The activity in plantaris muscle fibres was always significantly lower than that in the corresponding soleus fibres, and in normal fibres compared to dystrophic ones. Another difference was that in normal fibres the mean activity declined to a constant level in mature animals older than about 3 months. In contrast, the activity in dystrophic muscles appeared to fall exponentially throughout life. The functional significance of these findings is discussed.In honour of Prof. P. van Duijn     

Acid phosphatase activity in soleus and plantaris muscle fibres of normal and dystrophic hamsters. A quantitative histochemical study

The activity of acid phosphatase in skeletal muscle fibres of the plantaris and soleus of normal and dystrophic male hamsters was quantified using a histochemical post-coupling semipermeable membrane technique. Although the absolute levels of activity were found to vary widely from one animal to another, the ratio of the mean activities in the two muscles in each animal was virtually constant. In normal muscles, the ratio was about 0.73 and in dystrophic muscles, about 0.77. The activity in plantaris muscle fibres was always significantly lower than that in the corresponding soleus fibres, and in normal fibres compared to dystrophic ones. Another difference was that in normal fibres the mean activity declined to a constant level in mature animals older than about 3 months. In contrast, the activity in dystrophic muscles appeared to fall exponentially throughout life. The functional significance of these findings is discussed.     

Lectin binding in skeletal muscle. Evaluation of alkaline phosphatase conjugated avidin staining procedures

Summary Cryostat sections from rat gracilis muscles were incubated with different biotinylated lectins: Con A (Concanavilin A), WGA (Wheat germ agglutinin), SBA (soybean agglutinin), GS I and GS II (Griffonia simplicifolia agglutinin), LCA (Lens culinaris agglutinin), PNA (peanut agglutinin) and PSA (Pisum sativum agglutinin). The sections were subsequently treated with alkaline phosphatase conjugated avidin. The lectin binding sites were visualized after incubation in substrate media containing: (1) 5-bromo-4-chloro indoxyl phosphate and Nitro Blue tetrazolium or copper sulphate; (2) naphthol AS-MX phosphate or naphthol AS-BI phosphate and various types of diazonium salts; (3) -naphthylphosphate and Fast Blue BB; (4) -glycerophosphate according to the method of Gomori. The results obtained with the alkaline phosphatase methods were compared with those seen with a streptavidin-horseradish peroxidase procedure. Several chromogen protocols for visualizing alkaline phosphatase activity showed differences in the ability to detect lectin binding sites. A sarcoplasmic reaction was evident for Con A, GS II, WGA, LCA, and PSA after incubation in the indoxyl phosphate medium. Sarcoplasmic reaction for GS II was also noticed after incubation with naphthol AS-MX Fast Blue BB and -glycerophosphate. The latter substrate also gave rise to a sarcoplasmic Con A reaction. With the indoxylphosphate tetrazolium salt method some muscle fibres showed a very strong intracellular reaction after incubation with Con A and GS II while the staining intensity was weak in other fibres. The same muscle fibres were stained with PAS. No sarcoplasmic reactions were observed with either naphthol phosphate media or with the diaminobenzidine peroxidase methods. Further, the staining of the muscle fibre periphery, connective tissue, and capillaries was intensified using the indoxyl method. The indoxylphosphate-tetrazolium salt method seems to be suitable for future investigations of lectin binding sites in muscle sections.     

Micro-computed tomography with iodine staining resolves the arrangement of muscle fibres

We illustrate here microCT images in which contrast between muscle and connective tissue has been achieved by means of staining with iodine. Enhancement is shown to be dependent on the concentration of iodine solution (I₂KI), time in solution and specimen size. Histological examination confirms that the arrangement of individual muscle fibres can be visualised on the enhanced microCT images, and that the iodine accumulates in the muscle fibres in preference to the surrounding connective tissues. We explore the application of this technique to describe the fibrous structure of skeletal muscle, and conclude that it has the potential to become a non-destructive and cost-effective method for investigating muscle fascicle architecture, particularly in comparative morphological studies.     

Intrafibre distribution of succinate dehydrogenase in cat tibialis anterior motor units.

Using isolated ventral root filament stimulation and glycogen depletion techniques, 14 motor units from the cat tibialis anterior were studied. Based on their mechanical properties, the units were classified as either slow-fatigue resistant, fast-fatigue resistant, fast-fatigue intermediate, or fast-fatigable. Quantitative histochemical and computer assisted image analysis techniques were used to determine the activity of succinate dehydrogenase in a population of fibres in each unit. In addition, the intrafibre distribution of succinate dehydrogenase activity was measured in those same fibres by calculating the enzymatic activity of circumferential layers every 0.5 microns starting from the fibre edge to its centre. It was established that enzymatic activity and radial distance were linearly related in the fibres. A range in succinate dehydrogenase activity (mean coefficient of variation, 29%) was observed among the fibres of a unit. In contrast, the intrafibre distribution of that activity was rather consistent (mean variation, 4%) across the fibres of a unit. Further, the intrafibre distribution was similar among the fibres of units classified as the same type. However, the intrafibre distribution was disparate among the different unit types. These data suggest that the intrafibre distribution of mitochondrial enzymes may contribute to the mechanical properties of a motor unit. In this regard, a hypothesis is proposed that describes how the absolute activity of a mitochondrial enzyme, and the intrafibre distribution of that activity, may interactively contribute to the fatigue resistance of a unit.     

Initial reaction kinetics of succinate dehydrogenase in mouse liver studied with a real-time image analyser system.

The initial reaction kinetics of succinate dehydrogenase in situ were investigated in sections of mouse unfixed liver using an ARGUS-100 image analyser system. The sections were incubated on substrate-containing agarose gel films. Images of a section, illuminated with monochromatic light (584 nm), were captured with the image analyser in real time at intervals of 10 s during the incubation. The absorbances of selected hepatocytes in the successive images were determined as a function of time. In every cell, the absorbance increased nonlinearly after the first minute of incubation. The initial velocity of the dehydrogenase was calculated from the linear activities during the first 20 s of incubation. Hanes plots of the initial velocities and succinate concentration yielded the following mean kinetic constants. For periportal hepatocytes, the apparent Km = 1.2 +/- 0.8 mM and Vmax = 29 +/- 2 mumol hydrogen equivalents formed/cm3 hepatocyte cytoplasm per min. For pericentral hepatocytes, Km = 1.4 +/- 1.0 mM and Vmax = 21 +/- 2 mumol hydrogen equivalents/cm3 per min. The Km values are very similar to those determined previously from biochemical assays. These results, and the observed dependence of the initial velocity on the enzyme concentration, suggest that the technique reported here is valid for the histochemical assay of succinate dehydrogenase.     

A Calcium-Citro-Phosphate Technique for the Histochemical Localization of Myosin ATPase

A simple and sensitive calcium precipitation method is described for the histochemical demonstration of myosin ATPase in striated muscle. In this technique inorganic pyrophosphate is incorporated in the fixative to protect the sites of myosin ATPase activity, thus minimizing enzymatic inactivation during fixation. The incubation medium used contains Ca⁺⁺ (70 mM) as the capturing agent, ATP (4 mM) as substrate, citric acid (7.5 mM) and gelatin. During incubation, the enzyme catalyzes the hydrolysis of ATP to ADP and inorganic phosphate. The liberated phosphate is precipitated as “calcium-citro-phosphate”. The latter is then converted to black cobalt sulphide. The calcium-citro-phosphate is rapidly formed during incubation (within 10 min) and can not be washed off the tissue sections.     

Interrelationships of myofibrillar ATPase activity and metabolic properties of myosin heavy chain-based fibre types in rat skeletal muscle

 Myofibrillar ATPase (mATPase), succinate dehydrogenase (SDH) and α-glycerophosphate dehydrogenase (GPD) activities and cross-sectional area (CSA) were measured in fibres of rat medial gastrocnemius muscle using quantitative histochemistry. The same fibres were typed immunohistochemically using monoclonal antibodies specific to selected myosin heavy chain (MHC) isoforms. The values of mATPase, SDH, GPD and CSA formed a continuum, but significant differences in mean values were observed among fibre types of presumed homogeneous MHC content. Type I fibres had the lowest mATPase activity, followed in rank order by type IIA<type IID/X<type IIB. Type IIA fibres had the highest SDH activity, followed in rank order by type IID/X>type I>type IIB. The mean GPD activity was consistently ranked according to fibre type such that type IIB>type IID/X >type IIA>type I. Type IIA fibres were the smallest, type IIB fibres were the largest and types I and IID/X were of intermediate size. Significant interrelationships between mATPase, SDH, GPD and CSA values were found on a fibre-to-fibre basis. Consequently, discrimination of fibres according to their MHC content was possible on the basis of their mATPase, SDH, GPD and CSA profiles. These intrafibre interrelationships suggest that the MHC isoform is associated with phenotypic differences in contractile, metabolic and size properties of muscle fibre types. Accepted: 30 November 1998     

Endogenous peroxidase in mast cells localized with a semipermeable membrane technique

Synopsis Hamster mast cells have been found to give strong peroxidatic reactions at pH 5, 7.5 and 10 when sections of skeletal muscle are incubated for 2.5 h in the dark at room temperature on semipermeable membranes covering a gelled incubation medium consisting of 0.01% hydrogen peroxide, 5.5 mM diaminobenzidine and 1.36% agar dissolved in Universal buffer. The techniques is very efficient: with it, all mast cells react in marked contrast to the negative reaction they usually give with conventional techniques.The peroxidatic reactions are abolished if tissues are perfused beforehand with either aminotriazole or KCN but not if these inhibitors are incorporated in the gelled incubation medium. This and other evidence suggests that the mast cell reactions are not due to either catalase or haemoglobin adsorbed onto mast cell granules from lysed red blood cells.Skeletal muscle fibres do not exhibit any visible-peroxidase activity with the membrane technique.     

The increase in activity of acid hydrolases in muscles of rats after subcutaneous administration of dimethyl-para-phenylene diamine. A combined histochemical and biochemical investigation. I. The histochemical investigation.

The activity of acid hydrolases in skeletal muscles of normal rats and of rats after subcutaneous administration of dimethyl-para-phenylene diamine (DPPD) was studied with a combined histochemical and biochemical investigation. In this communication the histochemical findings are presented. After 4 days of DPPD treatment, coagulation necrosis, fragmentation and disintegration of fibres were seen in the muscles. An inflammatory infiltrate was seen between the muscle fibres. These pathological changes reached maximum intensity after 7 to 9 days. After 11 days the changes became less, despite continued treatment with DPPD. From the histochemical findings it appeared that the activity of acid phosphatase, beta-glucuronidase and E600 resistant non-specific esterase was increased in both a granular and a diffuse pattern in the skeletal muscles of the DPPD rats. The increase in activity of leucine aminopeptidase was much less pronounced and was mainly granular. The increase in the activity of acid hydrolases ran parallel to the severity of the pathological changes and reached a maximum after 7 to 9 days of DPPD treatment. The statistical calculations of the histochemical findings revealed that the increased activity of one acid hydrolase was significantly paralleled by an increased activity of a second hydrolase. There was a moderate probability that the activity of all other histochemically studied acid hydrolases, with the exception of leucine aminopeptidase, was increased. There was no difference in activity and localization of the acid hydrolases studied in aerobic type I and anaerobic type II fibres. The localization of acid phosphatase and beta-glucuronidase activity in muscle fibres and in inflammatory infiltrate mostly coincided. In cases where these enzymes were localized both centrally and in the subsarcolemnal areas of the muscle fibres, the activity of E600 resistant non-specific esterase was usually, and the activity of leucine aminopeptidase was exclusively located in the subsarcolemnal areas. All of the acid hydrolases examined were found to be present in the inflammatory exudate and in the connective tissue.     

A valid quantitative histochemical technique for assaying cytochrome c oxidase in single cells

A quantitative histochemical method for assaying cytochrome c oxidase (COX) has been validated with two new findings concerning the optimal tissue thickness and a suitable substrate. The kinetics of a COX-catalysed reaction coupled to the oxidation of diaminobenzidine (DAB) were followed at 37 degrees C in single muscle fibres in unfixed sections of mouse gastrocnemius using a real-time image analysis system. The optimum composition of the substrate medium for the reaction was 0.1 mM reduced cytochrome c, 4 mM DAB, 2% dimethylsulphoxide, 2% polyvinyl alcohol and 0.1 mM HEPES buffer, final pH 7.5. The absorbances at 451 nm of the final reaction products, DAB polymer oxides, deposited in the intermyofibrillar mitochondria increased linearly as a function of incubation time for at least 80 s after the start of incubation. The initial velocities (v(i)) of the COX reaction calculated from the gradients of the linear regression best fits for times between 40 and 60 s were reproducible. The v(i) determined in single muscle fibres at a saturated concentration of cytochrome c (0.1 mM) were proportional to section thickness for thicknesses less than 3 microns, but they decreased exponentially when the thickness was greater than 4 microns. Thus, for the quantitative assay, unfixed sections 3 microns thick must be used. The Michaelis constants (Km) determined for commercial cytochrome c in the range of 20-26 microM for COX in three types of skeletal muscle fibres of mouse gastrocnemius were higher than the corresponding in situ Km (12-13 microM) for reduced cytochrome c. However, the Km values for commercial cytochrome c were in good agreement with the value previously determined with homogenates of rat hind limb muscle. Therefore, reduced cytochrome c is a more suitable substrate for the kinetic study and assay of COX in situ.     

Relationship between myoglobin and succinate dehydrogenase in mouse soleus and plantaris muscle fibres

Summary This report describes a quantitative histochemical study of myoglobin in skeletal muscle fibres. The muscle fibres were classified as fast or slow on the basis of their quantitative myofibrillar ATPase histochemistry. A large range of myoglobin absorbance values was found among fast skeletal muscle fibres. This range was relatively small among slow fibres. The concentrations of myoglobin and the activities of succinate dehydrogenase in individual muscle fibres in serial sections are weakly correlated in both the mouse soleus and plantaris muscle. The myoglobin concentration is higher in fast and slow oxidative soleus muscle fibres and the succinate dehydrogenase activity in these fibres is lower than in oxidative plantaris muscle fibres in the same range of cross-sectional area.