Time-dependent increase of succinate dehydrogenase activity in low-frequency stimulated rabbit muscle: a comparison between microphotometric and biochemical methods

 We present an improved method for microphotometric measurement of enzyme activity in muscle fibres by determining maximum reaction rates using computer-assisted image analysis. The method was used to determine absolute and relative activities of succinate dehydrogenase (SDH) in 4801 whole-fibre cross-sections of rabbit tibialis anterior muscles stimulated at low frequency (10 Hz) for different time periods of up to 50 days. Measurements were performed on cross-sections of composite blocks from stimulated and contralateral control muscles. The validity of the method was checked by determining SDH activity in homogenates of the same muscles using a standard photometric assay. Both methods yielded similar results for the time-dependent increases of SDH activity in response to chronic low-frequency stimulation. Significant increases in catalytic activity were detected by the two methods only in muscles stimulated for longer than 8 days. According to homogenate measurements, overall SDH activity was 7.4-fold elevated in 50-day-stimulated total muscles. Depending on whether or not measurements were corrected for the so-called nothing-dehydrogenase activity, the average increase in microphotometrically determined SDH activity amounted to approximately 8-fold or 10-fold, respectively. Microphotometry revealed pronounced scattering of SDH activities within the fibre populations of both normal and stimulated muscles. The heterogeneity of the fibre population with regard to SDH activity increased in long-term stimulated muscles ranging between 5-fold and 15-fold elevations. Accepted: 2 September 1996     

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.     

Absence of regional differences in the size and oxidative capacity of diaphragm muscle fibers

The oxidative capacity and cross-sectional area of muscle fibers were compared between the costal and crural regions of the cat diaphragm and across the abdominal-thoracic extent of the muscle. Succinate dehydrogenase (SDH) activity of individual fibers was quantified using a microphotometric procedure implemented on an image-processing system. In both costal and crural regions, population distributions of SDH activities were unimodal for both type I and II fibers. The continuous distribution of SDH activities for type II fibers indicated that no clear threshold exists for the subclassification of fibers based on differences in oxidative capacity (e.g., the classification of fast-twitch glycolytic and fast-twitch oxidative glycolytic fiber types). No differences in either SDH activity or cross-sectional area were noted between fiber populations of the costal and crural regions. Differences in SDH activity and cross-sectional area were noted, however, between fiber populations located on the abdominal and thoracic sides of the costal region. Both type I and II fibers on the abdominal side of the costal diaphragm were larger and more oxidative than comparable fibers on the thoracic side.     

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.     

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.     

Oxidative capacity and capillary density of diaphragm motor units

Motor units in the cat diaphragm (DIA) were isolated in situ by microdissection and stimulation of C5 ventral root filaments. Motor units were classified based on their isometric contractile force responses and fatigue indexes (FI). The muscle fibers belonging to individual units (i.e., the muscle unit) were identified using the glycogen-depletion method. Fibers were classified as type I or II based on histochemical staining for myofibrillar adenosine triphosphatase (ATPase) after alkaline preincubation. The rate of succinate dehydrogenase (SDH) activity of each fiber was determined using a microphotometric procedure. The location of capillaries was determined from muscle cross sections stained for ATPase after acid (pH = 4.2) preincubation. The capillarity of muscle unit fibers was determined by counting the number of capillaries surrounding fibers and by calculating the number of capillaries per fiber area. A significant correlation was found between the fatigue resistance of DIA units and the mean SDH activity of muscle unit fibers. A significant correlation was also observed between DIA unit fatigue resistance and both indexes of muscle unit fiber capillarity. The mean SDH activity and mean capillary density of muscle unit fibers were also correlated. We conclude that DIA motor unit fatigue resistance depends, at least in part, on the oxidative capacity and capillary density of muscle unit fibers.     

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.     

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.     

A comparative microphotometric study of succinate dehydrogenase activity levels in type I,IIA and IIB fibres of mammalian and human muscles

Summary Activity levels of succinate dehydrogenase (SDH) were determined kinetically by means of comparative microphotometric measurements in situ. Activities were correlated with fibre types classified histochemically according to Brooke and Kaiser (1970). Analyses of tibialis anterior muscles in the mouse, rat, guinea pig, rabbit, cat and the human showed pronounced variations in the activity profiles of type I, type IIA and IIB fibres of these muscles. Large scattering of enzyme activity existed in the three fibre populations. Overlaps of varying extent were found for the SDH profiles between the different muscles. Type I fibres reveal species diffeences in aerobic oxidative capacity. Whereas the majority of the IIB fibres in rabbit muscle tended to be low in SDH activity, the main fraction of this fibre population was characterized by high activities in mouse muscle. Similarly, the IIA fibre populations revealed opposite properties in mouse and rabbit muscles. These extremes as well as intermediate activity patterns indicate that no general scheme exists according to which the histochemically assessable myosin ATPase is correlated with the aerobic oxidative capacity of muscle fibres in various mammalian muscles.     

Methods of microphotometric assay of succinate dehydrogenase and cytochrome c oxidase activities for use on human skeletal muscle

Microphotometric assay media for the measurement of succinate dehydrogenase (SDH) and cytochrome oxidase activities in sections of human skeletal muscle have been developed. The optimal constitution of these media was determined experimentally. Factors investigated include the effects of substrate concentration, pH, use of different electron acceptors and electron donors, influence of intermediate electron carriers and tissue-stabilizing agents, effects of inhibitors, the extent of endogenous and non-specific reactions and the linearity of the reactions during the time course of the assays. Optimal assay media (SDH) contained 130 mM succinate, 1.5 mM Nitro Blue tetrazolium, 0.2 mM phenazine methosulphate and 1.0 mM sodium azide in 0.1 m phosphate buffer, pH7.0. Cytochrome oxidase was optimally assayed in media containing 4 mM diaminobenzidine and 100 microns cytochrome c. Reactions in individual muscle fibers were found to be linear for incubation times up to 10 min in SDH assays and for more than 15 min in cytochrome oxidase determinations. Some potential uses of these microphotometric assays in the investigation of human metabolic muscle disorders are discussed.     

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.     

Clycerolphosphate oxidase and succinate dehydrogenase activities in IIA and IIB fibres of mouse and rabbit tibialis anterior muscles

Summary Quantitative microphotometric measurements of two mitochondrial flavoproteins, glycerolphosphate oxidase (GP-OX) and succinate dehydrogenase (SDH), were performed on serial sections of mouse and rabbit tibialis anterior (TA) muscles in order to study the distribution of these two enzymes and their activity ratios in IIA and IIB fibres. The measurements showed a large scatter of the two enzyme activities in these two myosin-based fibre types. In rabbit TA, IIA and IIB fibres have similar GP-OX activities, whereas generally IIA fibres have higher SDH activities than IIB fibres. An inverse distribution of the two enzymes exists in mouse muscle. Generally, IIA fibres of mouse TA display low SDH and IIB fibres high SDH activities. The mean activity of GP-OX is slightly higher in IIA than in IIB fibres of mouse TA. Since measurements of both enzymes were taken in the same fibres, the ratio of their activities in each fibre could be evaluated. The SDH/ GP-OX activity ratios vary significantly between the two fibre populations both in rabbit and in mouse. The ratio is high in IIA and low in IIB fibres of rabbit TA, whereas it is low in IIA and high in IIB fibres of mouse TA.     

Glycerolphosphate oxidase and succinate dehydrogenase activities in IIA and IIB fibres of mouse and rabbit tibialis anterior muscles

Quantitative microphotometric measurements of two mitochondrial flavoproteins, glycerolphosphate oxidase (GP-OX) and succinate dehydrogenase (SDH), were performed on serial sections of mouse and rabbit tibialis anterior (TA) muscles in order to study the distribution of these two enzymes and their activity ratios in IIA and IIB fibres. The measurements showed a large scatter of the two enzyme activities in these two myosin-based fibre types. In rabbit TA, IIA and IIB fibres have similar GP-OX activities, whereas generally IIA fibres have higher SDH activities than IIB fibres. An inverse distribution of the two enzymes exists in mouse muscle. Generally, IIA fibres of mouse TA display low SDH and IIB fibres high SDH activities. The mean activity of GP-OX is slightly higher in IIA than in IIB fibres of mouse TA. Since measurements of both enzymes were taken in the same fibres, the ratio of their activities in each fibre could be evaluated. The SDH/GP-OX activity ratios vary significantly between the two fibre populations both in rabbit and in mouse. The ratio is high in IIA and low in IIB fibres of rabbit TA, whereas it is low in IIA and high in IIB fibres of mouse TA.     

Development of a quantitative histochemical method for determination of succinate dehydrogenase activity in autonomic neurons and its application to the study of aging in the autonomic nervous system

An accurately validated method was developed for quantitative determination of succinate dehydrogenase (EC 1.3.99.1; SDH) activity in individual sympathetic neuron perikarya by microdensitometric measurement of an SDH-nitroblue tetrazolium-derived formazan final reaction product. Optimal incubation medium and reaction conditions were determined for measurement of reaction product in cryostat sections of rat superior cervical and celiac-superior mesenteric ganglia. The Beer-Lambert laws were verified for the ganglion tissue, and microdensitometric measurements (expressed as mean cell density readings; MCDR/min-1), characteristic of the Michaelis-Menten equation, enabled the results to be used for enzyme kinetic determinations of SDH activity. Km and Vmax values were obtained following Hans linear transformation of the readings. Between the ages of 6-24 months no significant variations in Km values were recorded, indicating an unchanged structure for SDH (overall mean Km = 0.083 +/- 0.055 mM). However, in both ganglia there were significant decreases (ranging from 43-54%) in Vmax values for SDH at 24 months. The overall mean Vmax value at 6 months was 4.01 +/- 0.61 (MCDR) and at 24 months was 2.07 +/- 0.76 (MCDR). This suggests that an overall decrease in metabolic activity takes place with age in sympathetic neurons of the rat superior cervical and celiac-superior mesenteric ganglia.     

Quantitative succinate dehydrogenase histochemistry in the hippocampus of aged rats

Quantitative histochemical methods (microphotometric kinetic and end-point measurements, and morphometric analyses of reactive areas) were used to investigate the levels of succinate dehydrogenase (SDH) in the hippocampus of young adult (3-6 months old) and aged male rats (24-27 months old). Methodological studies concerning the demonstration of SDH activity, which were performed using hippocampi of young animals, revealed a linear relationship between the reaction time and the amount of reaction product for up to 20 min; kinetic (continuous) and end-point measurements provided the same results. In a number of experiments, it was established that an incubation medium consisting of 100 mM succinate, 10 mM sodium azide, 3 mM nitro blue tetrazolium chloride, 0.25 mM phenazine methosulfate, and 7.5% polyvinylalcohol in 0.05 M Hepes buffer (final pH 7.5) was optimal for quantitative SDH histochemistry in the hippocampus. Comparative quantitative investigations of SDH activity in rat hippocampi showed that, in most regions and layers of the hippocampus of both young and aged rats, the levels of SDH activity increased along the rostrocaudal axis of the hippocampus, i.e., higher levels were present in the caudal than in the rostral pole. In both groups, the highest SDH levels were observed in the molecular layer of the cornu ammonis (CA)-1, the CA-3, and the fascia dentata (middle and outer thirds), most of which are termination fields of the excitatory perforant path arising from the regio ento-rhinalis. Furthermore, in almost all of the investigated layers, the older animals exhibited lower SDH levels than young animals. These differences were statistically significant in the molecular layer of the fascia dentata and in most layers of the CA-3. The lower SDH levels in aged animals are discussed in relation to the reduced capacity for energy metabolism in the aging brain.     

Histochemical and electronmicroscopical analysis of muscle fiber in myotomes of teleost fish (Noemacheilus barbatulus L.)

A quantitative histochemical study was carried out on axial musculature of Noemacheilus barbatulus L. On the basis of succinate dehydrogenase (SDH) and myofibrillar ATP-ase activity, 5 types of muscle fibers are described. When the SDH method was used, red, tonic, intermediate, and white muscle fibers were easily observed. However, histochemical reaction for myofibrillar ATP-ase activity, after alkaline preincubation (pH = 10.4), revealed another type of fiber zone laying between the intermediate and white muscle fiber regions and forming a transitional zone. Electron microscopic observation showed significant differences in sarcomere organization and thickness of myosin filaments of the various muscle fiber types.     

Quantitative succinate dehydrogenase analysis in normal and ragged-red muscle fibers

Summary Single fiber analyses were performed in normal and diseased muscle by means of a high-resolution microphotometric method. We investigated the activity distribution of a mitochondrial marker enzyme, succinate dehydrogenase, within single muscle fibers. We differentiated between the central and the subsarcolemmal region. Both normal muscle fibers, and ragged-red fibers from patients with a mitochondrial myopathy showed significantly higher succinate dehydrogenase activities in the subsarcolemmal region. Since the fibers' supply of oxygen is accomplished by diffusion from capillaries located close to the sarcoplasmic membrane our results are of functional importance.     

Quantitative succinate dehydrogenase histochemistry in the hippocampus of aged rats

Summary Quantitative histochemical methods (microphotometric kinetic and end-point measurements, and morphometric analyses of reactive areas) were used to investigate the levels of succinate dehydrogenase (SDH) in the hippocampus of young adult (3–6 months old) and aged male rats (24–27 months old). Methodological studies concerning the demonstration of SDH activity, which were performed using hippocampi of young animals, revealed a linear relationship between the reaction time and the amount of reaction product for up to 20 min; kinetic (continuous) and end-point measurements provided the same results. In a number of experiments, it was established that an incubation medium consisting of 100 mM succinate, 10 mM sodium azide, 3 mM nitro blue tetrazolium chloride, 0.25 mM phenazine methosulfate, and 7.5% polyvinylalcohol in 0.05M Hepes buffer (final pH 7.5) was optimal for quantitative SDH histochemistry in the hippocampus. Comparative quantitative investigations of SDH activity in rat hippocampi showed that, in most regions and layers of the hippocampus of both young and aged rats, the levels of SDH activity increased along the rostrocaudal axis of the hippocampus, i.e., higher levels were present in the caudal than in the rostral pole. In both groups, the highest SDH levels were observed in the molecular layer of the cornu ammonis (CA)-1 the CA-3, and the fascia dentata (middle and outer thirds), most of which are termination fields of the excitatory perforant path arising from the regio entorhinalis. Furthermore, in almost all of the investigated layers, the older animals exhibited lower SDH levels than young animals. These differences were statistically significant in the molecular layer of the fascia dentata and in most layers of the CA-3. The lower SDH levels in aged animals are discussed in relation to the reduced capacity for energy metabolism in the aging brain.Dedicated to Professor Dr. T.H. Schiebler on the occasion of his 65th birthdaySupported by the Deutsche Forschungsmeinschaft (Ku 541/2-1)     

Changes in ATPase and SDH reactions of the rat extrafusal and intrafusal muscle fibres after preincubations at different pH.

The dependence of adenosine-triphosphatase (ATPase) and succinic dehydrogenase (SDH) histochemical reactions on the pH of the preincubation medium was studied in serial cross sections of 1- to 6-month-old rat extensor digitorum longus (EDL) and soleus (SOL) muscles. The use of a wide spectrum of pH values confirmed the previous results showing that: (1) according to their ATPase and SDH reactions 3 types of extrafusal muscle fibres, i.e., fast-twitch glycolytic (FG), fast-twitch oxidative-glycolytic (FOG) and slow-twitch oxidative (SO) and 3 types of intrafusal muscle fibres, i.e. typical and intermediate nuclear bag fibres and nuclear chain fibres were observed; (2) only acid preincubation (pH 4.35) is necessary to demonstrate the reversal of the ATPase reaction; while (3) alkali preincubation (pH 10.4) does not provide any new important information as compared with ATPase without preincubation. Furthermore, it was shown that: (4) fast-twitch muscle fibres exhibited high ATPase activity on preincubations at pH 4.9 to 10.4, slow-twitch fibres had very high ATPase activity on preincubation at pH 4.3 and 4.5; (5) after preincubation at pH 4.5 two types of FOG fibres were observed, differing in their ATPase activity; (6) in both muscles there were fibres with intermediate ATPase activity both after acid and/or alkali preincubations; (7) the intrafusal muscle fibres exhibited some specific characteristics when compared with extrafusal fibres. In contrast to the ATPase reactions, SDH activity was decreased equally, in both extra- and intrafusal fibres, with increasing acidity and alkality of the preincubation medium.     

Changes in ATPase and SDH reactions of the rat extrafusal and intrafusal muscle fibres after preincubations at different pH

Summary The dependence of adenosine-triphosphatase (ATPase) and succinic dehydrogenase (SDH) histochemical reactions on the pH of the preincubation medium was studied in serial cross sections of 1- to 6-month-old rat extensor digitorum longus (EDL) and soleus (SOL) muscles.The use of a wide spectrum of pH values confirmed the previous results showing that: (1) according to their ATPase and SDH reactions 3 types of extrafusal muscle fibres, i.e., fast-twitch glycolytic (FG), fast-twitch oxidative-glycolytic (FOG) and slow-twitch oxidative (SO) and 3 types of intrafusal muscle fibres, i.e. typical and intermediate nuclear bag fibres and nuclear chain fibres were observed; (2) only acid preincubation (pH 4.35) is necessary to demonstrate the reversal of the ATPase reaction; while (3) alkali preincubation (pH 10.4) does not provide any new important information as compared with ATPase without preincubation. Furthermore, it was shown that: (4) fast-twitch muscle fibres exhibited high ATPase activity on preincubations at pH 4.9 to 10.4, slow-twitch fibres had very high ATPase activity on preincubation at pH 4.3 and 4.5; (5) after preincubation at pH 4.5 two types of FOG fibres were observed, differing in their ATPase activity; (6) in both muscles there were fibres with intermediate ATPase activity both after acid and/or alkali preincubations; (7) the intrafusal muscle fibres exhibited some specific characteristics when compared with extrafusal fibres.In contrast to the ATPase reactions, SDH activity was decreased equally, in both extra- and intrafusal fibres, with increasing acidity and alkality of the preincubation medium.