Microphotometric dynamic analysis of the histochemical acetylcholinesterase reaction

Dynamic analysis of the histochemical reaction of Karnovsky-Roots for acetylcholinesterase activity (AChE) is reported. Two methods were used. The first method was videography and densitometric analysis of frames from the film. The second method was direct microphotometric analysis of the reaction dynamics by the plug-method (measurement of average light transmission through a limited area of preparation or image). Special microchambers were used on the stage of an inverted microscope. The results showed the dynamics of final product accumulation in two structures of rat caudate nucleus: AChE-positive neuropil and the AChE-negative myelin bundle during histochemical incubation. Videography and densitometry of the digital images allowed morphologic and microphotometric analysis of changes in tissue sections during incubation, and the dynamic analysis permitted the study of enzyme kinetics in situ. Problems associated with microphotometric analysis of digital images for quantitative histochemical studies of the enzyme activity are discussed.     

Kinetic microphotometric activity determination in enzyme containing gels and model studies with tissue sections

The dependence of microphotometrically recorded reaction rate on local enzyme concentration was studied as a basic prerequisite of comparative microphotometric enzyme activity determinations at initial rate conditions in tissue sections. Polyacrylamide gels containing defined concentrations of glucose-6-phosphate dehydrogenase served as a model. Optimal conditions of preparing enzyme containing gels are reported. Measurements in which either thickness of gel sections or enzyme concentration was varied proved the linear relationship between local enzyme concentration and microphotometrically recorded reaction rate. Sections of enzyme containing gels as well as cross-sections of rat muscles were used as models for studying possible influences of heterogeneous chromophore distribution (distributional error). No such influences could be detected during the initial phase of the staining reaction which suggests that distributional error is of no significance for kinetic microphotometric enzyme activity determination at initial rate conditions.     

Kinetic microphotometric activity determination in enzyme containing gels and model studies with tissue sections

Summary The dependence of microphotometrically recorded reaction rate on local enzyme concentration was studied as a basic prerequisite of comparative microphotometric enzyme activity determinations at initial rate conditions in tissue sections. Polyacrylamide gels containing defined concentrations of glucose-6-phosphate dehydrogenase served as a model. Optimal conditions of preparing enzyme containing gels are reported. Measurements in which either thickness of gel sections or enzyme concentration was varied proved the linear relationship between local enzyme concentration and microphotometrically recorded reaction rate. Sections of enzyme containing gels as well as cross-sections of rat muscles were used as models for studying possible influences of heterogeneous chromophore distribution (distributional error). No such influences could be detected during the initial phase of the staining reaction which suggests that distributional error is of no significance for kinetic microphotometric enzyme activity determination at initial rate conditions.     

Microphotometric determination of structure-bound oxidoreductase activities avoiding nothing-dehydrogenase artefacts: succinate dehydrogenase

 A tetrazolium-based microphotometric method has been devised for the determination of structure-bound dehydrogenase activities with correction for nothing-dehydrogenase artefacts. The method is based on the microphotometric recording of maximum reaction rates in a simple incubation chamber and consists of two successive measurements on the same section, the first in the absence and the second in the presence of the substrate. Following the first measurement, the substrate-free medium is quickly exchanged with the substrate-containing medium and a second measurement is taken. Subtraction of the first from the second reaction rate yields the enzyme activity corrected for nothing-dehydrogenase. Measurements of succinate dehydrogenase (SDH) in skeletal muscle fibres, liver, cardiac atrium and ventricle demonstrate the feasibility of the method. Measurements on the extensor digitorum longus muscle of rat reveal a range of up to fivefold differences in SDH activity within the fibre population of this muscle. Accepted: 11 April 1997     

Microphotometric determination of enzymes in brain sections. I. Hexokinase

A histochemical procedure was established for the microphotometric determination of hexokinase (HK) in sections of the rat hippocampus, which served as an exemplary brain region. For this quantitative procedure, slides were coated with glucose 6-phosphate dehydrogenase (G6PDH) as an auxiliary enzyme and sections were mounted onto this enzyme film. The sections were then incubated with the following adapted incubation medium: 5 mM D-glucose, 1.5 mM NADP, 7.5 mM ATP, 4 mM nitroblue tetrazolium chloride, 10 mM NaN3, 10 mM MgCl2, 0.25 mM phenazine methosulfate, 1 U/ml G6PDH, 22% polyvinyl alcohol in 0.05 M Hepes buffer; the final pH was 7.5. A linear response of the reaction was observed in the initial 10 min of reaction (kinetic and end-point measurements). The relationship between HK activity and section thickness was linear up to 5 microns. The need for such thin sections is discussed in relation to the limited penetration of the auxiliary enzyme into the section. It is concluded that the quantitative demonstration of HK in brain sections could be a valuable tool for studying the local metabolic entrance of glucose in the glycolytic pathway.     

Biochemical verification of quantitative histochemical analysis of succinate dehydrogenase activity in skeletal muscle fibres

Summary The purpose of this investigation was to examine critically the validity of a computerized quantitative microphotometric histochemical technique for the determination of succinate dehydrogenase (SDH) activity in skeletal muscle fibres. Sections from the anterior costal diaphragm were removed from Fischer-344 rats (n = 12) and assayed histochemically to determine SDH activity. The SDH activity in individual muscle fibres was computed using a computerized microphotometric histochemical technique which involves measurement of the optical density of deposited diformazan derived from nitroblue tetrazolium within the fibres. To validate the histochemical technique, whole muscle SDH activities were calculated from the histochemical procedure and were compared to SDH activities determined from whole muscle homogenates via a standard quantitative biochemical assay. The mean within-day variability of the computerized microphotometric histochemical technique of determining SDH activity was 6% (range = 0.5–10.9%) for an area containing ~50 fibres and 6.1% (range = 1.05–14.9%) for an individual muscle fibre. Similarly, the mean between-day variability of the microphotometric histochemical technique of determining SDH activity was 5.9% (range = 2.6–13.9%) for an area containing ~50 fibres and 6.6% (range = 2.2–13.9%) for an individual muscle fibre. The inter-class correlation coefficient between biochemically determined SDH activity and histochemically determined SDH activity was r = 0.83 (p < 0.05). Collectively, these data demonstrate that the quantitative histochemical technique of Blanco et al. (1988) is both valid and reliable in the determination of SDH activity in skeletal muscle fibres.     

Comparison of kinetic and end-point microdensitometry for the direct quantitative histochemical assessment of cytochrome oxidase activity

Synopsis Cytochrome oxidase activity has been assessed by a method of kinetic microdensitometry which involves applying tissue sections to gel films containing phenylamine substrates and measuring the rate of azine dye production by continuously recording the rate of change in extinction. Optimum conditions for the technique were defined, and the results compared with those obtained by conventional end-point microdensitometry in which sections are incubated in histochemical substrate solutions and azine dye production estimated by a single measurement of extinction at the end of the incubation period. When compared with biochemically-determined enzyme activity, kinetic microdensitometry gave a better index of the proportionate activity of cytochrome oxidase in various normal tissues than did end-point microdensitometry. In addition, the degree of inhibition of cytochrome oxidase activity in tissues removed from cyanide-poisoned animals was assessed more reliably by kinetic microdensitometry than by end-point measurements. With end-point microdensitometry, the reaction is non-linear over the comparatively long incubation times required and there is also a spontaneous reactivation of cyanide-inhibited cytochrome oxidase during incubation and thus a progressively increased rate of substrate utilization. In contrast, with kinetic microdensitometry the initial linear reaction rate is measured before significant reactivation occurs. Kinetic microdensitometry can be used for direct dynamic quantitation of enzyme activity in tissues or cells; it may be a valuable technique for quantitative histochemical confirmation or extension of biochemical studies; and it appears to be a reliable direct quantitative histochemical method for investigatingin vivo inhibition of enzyme activity, where spontaneous reactivation of the enzyme-inhibitor complex may occur.     

Single motoneuron succinate dehydrogenase activity

We have developed a quantitative histochemical assay for measurement of succinate dehydrogenase (SDH) activity in single motoneurons. A computer image processing system was used to quantify the histochemical enzyme reaction product and to follow the time course of the reaction. The optimal concentration for each of the ingredients of the incubation medium for the SDH reaction was determined and the importance of using histochemical "blanks" in the determination of enzymatic activity was demonstrated. The enzymatic activity was linear with respect to reaction time and tissue thickness. The procedure described meets the criteria generally considered essential for establishment of a quantitative histochemical assay. The assay was then used to examine the SDH activity of cat and rat motoneurons. It was found that motoneurons with a small soma size had a wide range of SDH activity, whereas those with a large soma size were restricted to low SDH activity.     

Quantitative microphotometric succinate dehydrogenase histochemistry in human nephron

A simple method for microphotometric evaluation of cryostat sections from human renal tissue routinely stained for succinate dehydrogenase activity by means of tetranitro-blue tetrazolium chloride is described and tested for validity. Manual absorbance measurement within single nephron segments from the same section allows to directly visualize the distribution pattern of this enzyme along the nephron. Photometric data can be expressed in relative enzyme activities by using the cortical collecting ducts within the same section as reference. This allows to compare measurements of different kidney sections stained by various incubation procedures. The agreement found between relative succinate dehydrogenase activities and recently published morphometric data on mitochondrial inner membranes along the rat nephron suggests that quantitative succinate dehydrogenase microphotometry is a useful histochemical tool for the assessment of renal mitochondrial cristae membranes.     

Quantitative histochemical determination of muscle enzymes: biochemical verification

We established quantitative histochemical assays for the enzymatic activity of succinate dehydrogenase and alpha-glycerol phosphate dehydrogenase for cat skeletal muscle. A computer-enhanced image analysis system was used to quantitate the histochemical enzyme-activity reaction products. We describe a series of experiments that verify the reliability and validity of the assays. Histochemically determined enzyme activities were linear with respect to tissue thickness and reaction time. Biochemically determined enzyme activities were also linear with respect to tissue thickness and incubation time. Consecutive tissue sections, assayed either histochemically or biochemically, were used to establish a linear regression equation that allowed quantitative histochemically determined reaction rates, measured in optical density per minute, to be calibrated as nanomoles per minute.     

Histochemical technique for the demonstration of pyruvate kinase activity

We describe an enzyme histochemical multistep technique for the demonstration of pyruvate kinase activity. In this technique, a semipermeable membrane is interposed between the incubation medium and the tissue sections, thus preventing diffusion of the enzyme into the medium during the incubation period. In this histochemical system, phosphoenolpyruvate (PEP) donates its phosphate group to ADP in a reaction catalysed by pyruvate kinase. Next, exogenous and endogenous hexokinase catalyses the reaction between ATP and D-glucose to yield D-glucose-6-phosphate and ADP. The D-glucose-6-phosphate is oxidized by exogenous and endogenous D-glucose-6-phosphate dehydrogenase, and concomitantly, the generated electrons are transported via NADP+, phenazine methosulphate and menadione to nitro-BT, which is finally precipitated as formazan. Sodium azide and amytal are included to block electron transfer to cytochromes. The method proved to be of value for the qualitative demonstration of pyruvate kinase activity in tissue sections of kidneys, heart muscle and skeletal muscle. For quantitative studies and for investigating the activity of this enzyme in liver sections, the method cannot be recommended.     

Enzyme histochemical reactions in unfixed and undecalcified cryostat sections of mouse knee joints with special reference to arthritic lesions

Summary The use of unfixed and undecalcified cryostat sections of mouse knee joints is described for the study of enzyme histochemical reactions. Non-inflamed knee joints and knee joints of mice with antigen induced arthritis have been used. Joints were embedded in gelatin and subsequently cut at low speed with a motor-driven cryostat fitted with a tungsten carbide knife at an obtuse angle (10°). The sections were attached to transparent tape to keep the integrity of the tissue intact. The following histochemical reactions were carried out succesfully: the tetrazolium salt reaction for dehydrogenase and reductase activity, the post-azocoupling method for acid phosphatase and cathepsin B activity and the simultaneous azo-coupling method for esterase activity. In all cases the morphology and integrity of the sections were well kept and serial sections were obtained without any difficulty. Nonspecific staining of the tape did not occur. The localization of the final reaction product was meeting criteria for specific and precise histochemical methods with the exception of the metal salt method because of nonspecific staining of undecalcified bone. Cytophotometry of the final reaction product appeared to be reproducible and valid as demonstrated by reaction for glucose-6-phosphate dehydrogenase activity in synoviocytes from knee joints with induced arthritis. End point measurements as well as kinetic measurements of the formazan production were performed and linear relationships were found between the specific formazan formation and section thickness or incubation time, respectively. It is concluded that cryostat sections attached to transparent tape are an excellent tool for the study of the metabolism in tissues adjacent to bone matrix. Changes of enzyme activities in synoviocytes, chondrocytes and osteoclasts during induced arthritis are discussed.     

Localization of cathepsin B activity in fibroblasts and chondrocytes by continuous monitoring of the formation of a final fluorescent reaction product using 5-nitrosalicylaldehyde

Summary The histochemical fluorescence method using 5-nitrosalicylaldehyde for the demonstration of cathepsin B activity has been used. Precipitation of the fluorescent final reaction product was analysed continuously during incubation for cathepsin B activity. Unfixed cultured human fibroblasts as well as cryostat sections of mouse metacarpal bone explants were used. Continuous monitoring of the formation of the fluorescent reaction product showed that after a certain lag phase, depending on the enzyme activity in the tissue, discrete granules appeared which became increasingly fluorescent with incubation time. Subsequently, recrystallization and redistribution of the final reaction product started to occur. It is concluded that the coupling reaction with 5-nitrosalicylaldehyde is sufficiently fast for a proper localization of proteinase activity and can be used for kinetic analysis of enzyme activity. The method provides indications of relative amounts of cathepsin B activity in different cell types within a tissue section. It appeared from the study on metacarpal bone explants that fibroblasts in perichondrium and periosteum contained a relatively high cathepsin B activity whereas chondrocytes showed a low but distinct activity. This observation suggests that cysteine proteinases are not only involved in collagen degradation by fibroblasts but that they also play a role in the intracellular digestion of collagen by chondrocytes.     

A quantitative histochemical study of D-amino acid oxidase activity in rat liver in relationship with feeding conditions.

The histochemical method for the demonstration of D-amino acid oxidase activity in rat liver, based on the use of cerium ions and the diaminobenzidine-cobalt-hydrogen peroxide procedure, was improved by the application of unfixed cryostat sections and a semipermeable membrane interposed between section and gelled incubation medium. The amount of final reaction product precipitated in a granular form was about four times higher with this technique in comparison with conventional procedures using fixed sections and aqueous incubation media. The specificity of the reaction was proven by the 70% reduction of the amount of final reaction product when incubating in the presence of substrate and D,L-beta-hydroxybutyrate, a specific inhibitor of D-amino acid oxidase activity. Cytophotometric analysis of liver sections revealed that the specific test minus control reaction was linear with incubation time and section thickness. The Km value of the enzyme of 10.3 +/- 2.7 mM, as determined in periportal areas, is about five times the value found with biochemical methods in liver cell homogenates. The enzyme activity in periportal areas is about five times the activity in pericentral areas. Fasting (24 and 48 hr) induced a significant decrease in D-amino acid activity in periportal and pericentral areas. The possible physiological role of the enzyme in liver is discussed.     

Quantitative assessment of primary cerium reaction product formed by glucose-6-phosphatase activity in a male rat liver: an image analysis study

 Glucose-6-phosphatase (G6Pase) activity has been determined in periportal and pericentral areas of the liver of normal male rats. Measurements were performed on unfixed cryostat sections mounted on semipermeable membranes. In the present study, the oxidized primary reaction product of a cerium-based histochemical method [Ce(IV)perhydroxyphosphate] instead of the final reaction product after a second-step incubation was measured. For quantification of the amount of Ce(IV)perhydroxyphosphate formed the digital image analyzing system Quantimet 500+ was used. Estimated values of optical densities of Ce(IV)perhydroxyphosphate over test areas were employed for calculation of kinetic parameters of (G6Pase). Highest activities of G6Pase (higher K _m and V _max levels) were found in periportal areas of the rat liver, indicating a higher amount of active enzyme molecules and a lower affinity for the substrate. Differences in values for both K _m and V _max between periportal and pericentral zones were highly significant and closely comparable to those for male fed rats. Correlations between K _m and V _max were significant for periportal as well for pericentral liver areas. The results of the present study thus allow the same biological implications as histochemical methods employing a final reaction for quantification of enzyme activities. The present method avoids the drawbacks of enhancement reactions and demonstrates the feasibility of in situ analysis of enzyme kinetic parameters by quantification of oxidized primary cerium reaction products. Accepted: 8 January 1996     

Microphotometric determination of enzymes in brain sections. V. Glycerophosphate dehydrogenases

An incubation medium was adapted for the microphotometric determination (kinetic and end-point measurements) of the activities of mitochondrial alpha-glycerophosphate dehydrogenase (GPDH) in the rat hippocampus. For comparison, the activities of the cytoplasmic NAD-linked alpha-glycerophosphate dehydrogenase were also measured. The study showed that in the demonstration of both enzymes the use of an exogenous electron carrier is necessary. Both enzymes react to phenazine methosulfate (PMS) which transfers reduction equivalents to the electron acceptor nitroblue tetrazolium chloride (NBT), thus causing a coreaction of GPDH in the demonstration of NAD-GPDH. Therefore, only the NAD-independent GPDH which is stimulated by menadione, can be selectively demonstrated in the histochemical procedure applied. The final incubation medium of GPDH consisted of 15 mM L-glycerol 3-phosphate, 5 mM NBT, 0.4 mM menadione, 7.5% polyvinyl alcohol in 0.5 M Hepes buffer, pH 8; the final pH of the incubation medium was 7.5. A linear response of the reaction lasted about 5 min. There was a linear relationship between section thickness and the formation of reaction product up to a section thickness of 14 microns. The apparent Km value at 25 degrees C was 0.6 mM. It is concluded that using menadione histochemical methods are suited to determine the mitochondrial GPDH activities in brain sections whereas using PMS a coreaction of GPDH takes place in the demonstration of NAD-GPDH, so that a histochemical quantification of NAD-GPDH cannot be recommended.     

The histochemical demonstration of aniline hydroxylase activity in rat liver

Synopsis A procedure is described for the histochemical demonstration of aniline hydroxylase activity in cryostat sections of rat liver. Tissue sections are incubated in a medium containing aniline; thep-aminophenol formed as a result of enzymatic action is coupledin situ with Fast Blue RR. The staining reaction is found to be confined to the cytoplasm of the hepatocytes. Confirmatory tests for true enzymatic staining reaction include the incubation of sections in medium from which aniline is omitted, and under conditions of enzyme inhibibition. A method for the quantitation of the histochemical staining reaction is also described.The histochemical reactions have been investigated on rat livers subjected to conditions eliciting microsomal enzyme stimulation and inhibition, bothin vitro andin vivo. A close correlation was found between the staining reactions observed and the results of the quantitative histochemical method and the biochemical estimations of aniline hydroxylase activity in liver microsomal fractions obtained by differential centrifugation.     

Quantitation of glucose-6-phosphate dehydrogenase activity in cortical fractions of the nephron in sodium-depleted and sodium-loaded rabbits

Summary Glucose-6-phosphate dehydrogenase activity was measured quantitatively in isolated cortical fractions of the nephron in sodium-depeleted and sodium-loaded rabbits. The samples consisted of isolated fractions of macula densa, proximal convoluted tubule, distal convoluted tubule and glomerulus. In sodium-depleted rabbits enzyme activity was identical to that of normal rabbits. In sodium-loaded rabbits a significant decrease in enzyme activity was found in the macula densa and proximal convoluted tubule. However, using conventional histochemical incubation methods semiquantitative estimation of glucose-6-phosphate dehydrogenase showed a slight decrease in enzyme activity in the macula densa and distal convoluted tubule, and a slight increase in the proximal convoluted tubule during sodiumdepletion. During sodium-load a pronounced decrease in enzyme activity was seen in the macula densa and distal convoluted tubule. These results show that semiquantitative histochemical evaluation of changes in enzyme activity is less reliable than the more precise quantitative method especially when there are only slight changes in enzyme activity. Only where there were marked changes in histochemical enzyme activity might the results of quantitative and semiquantitative methods be in accord.     

Freeze substituted tissue in 5'-nucleotidase histochemistry. Comparative histochemical and biochemical investigations

The suitability of freeze-substitution in n-butanol and paraffin embedding of tissues for the histochemical demonstration of 5'-nucleotidase was investigated and compared with commonly used preparation techniques, such as fresh frozen sections and cryostate sections of cold formalin and glutaraldehyde-fixed rat liver. The influences of each step of the preparation techniques on the enzyme activity were controlled by a quantitative radiochemical assay. Freeze substitution was revealed to be superior to the commonly used preparation techniques with respect to: 1) high sensitivity and specificity of the histochemical 5'-nucleotidase reaction (this is based on the fact that incubation media with very low lead concentrations (0,6 mM/1) can be used); 2) excellent morphological appearance of the tissues showing cytological details of enzyme localization; 3) unlimited storage of the tissue materials and ease of sectioning.     

Microphotometric determination of enzymes in brain sections

Summary A histochemical procedure was established for the microphotometric determination of hexokinase (HK) in sections of the rat hippocampus, which served as an exemplary brain region. For this quantitative procedure, slides were coated with glucose 6-phosphate dehydrogenase (G6PDH) as an auxiliary enzyme and sections were mounted onto this enzyme film. The sections were then incubated with the following adapted incubation medium: 5 mM d-glucose, 1.5 mM NADP, 7.5 mM ATP, 4 mM nitroblue tetrazolium chloride, 10 mM NaN₃, 10 mM MgCl₂, 0.25 mM phenazine methosulfate, 1 U/ml G6PDH, 22% polyvinyl alcohol in 0.05 M Hepes buffer; the final pH was 7.5. A linear response of the reaction was observed in the initial 10 min of reaction (kinetic and end-point measurements). The relationship between HK activity and section thickness was linear up to 5 m. The need for such thin sections is discussed in relation to the limited penetration of the auxiliary enzyme into the section. It is concluded that the quantitative demonstration of HK in brain sections could be a valuable tool for studying the local metabolic entrance of glucose in the glycolytic pathway.Supported by the Deutsche Forschungsgemeinschaft (Ku 541/2-1, 2-2)