The use of diaminobenzidine (DAB) for the histochemical demonstration of cytochrome oxidase activity in unfixed plant tissues

Summary Cytochrome oxidase activity was demonstrated in unfixed root segments from Lupinus albus at the ultrastructural level using the osmiophilic reagent 3,3-diaminobenzidine (DAB). Precipitate, the formation of which was completely inhibited by 0.01 M KCN, and observed almost entirely on mitochondrial cristae, is considered to be produced by cytochrome oxidase activity. Heterogeneity of mitochondria as to the intensity of the reaction in the same cell could not be established with certainity. However, mitochondria of the root tip cells and cells belonging to the plerome consistently did not show histochemically demonstrable cytochrome oxidase activity.     

Microspectrophotometric quantitation of the diaminobenzidine reaction for histochemical demonstration of cytochrome oxidase activity.

Polyacrylamide models in which an extract of cattle heart mitochondria was incorporated, as well as cryostat sections of tongue muscle and epithelium, were used to set up the conditions under which the histochemical reaction for the demonstration of cytochrome oxidase can be quantitated. Using diaminobenzidine in a concentration of 5.5 mM, cytochrome C in a fixed concentration of 76 micron and keeping the incubation medium away from direct light action, enzyme activity can be evaluated by means of direct microphotometry on tissue sections. Each biologic model requires previous individual determination of the measurement limits. These limits can be readily established by using a small chamber for the incubation medium, which can be placed in the microphotometer, allowing the reaction rate to be following using a single section.     

Ultrastructural demonstration of cytochrome oxidase via cytochrome C in cerebral cortex.

A procedure for the ultrastructural cytochemical localization of cytochrome oxidase via cytochrome c in the cerebral cortex is described. Vascular perfusion fixation by formaldehyde and glutaraldehyde of different concentrations and mixtures of the two gave varying results. A mixture of 4% formaldehyde and 0.5% glutaraldehyde gave the best combination of ultrastructural preservation and retention of enzyme activity. Histochemical methods were examined for optimum incubation conditions, based on the oxidative polymerization of 3,3'-diaminobenzidine (DAB) to an osmiophilic product. The reaction product was discretely localized within intercristate and the intermembrane space of mitochondria. The staining pattern was the same in nerve cells and in neuroglia and their processed. The DAB reaction product was also found in mitochondria of the endothelial cells.     

Superoxide dismutase activity of cytochrome oxidase.

Cytochrome oxidase preparations have weak but not negligible superoxide dismutase activity which is inhibited by cyanide and azide as well as alkaline and thermal treatments. The activity does not depend on lipid content of cytochrome oxidase preparations. The activity, probably, cannot be explained by extraneous copper.     

A novel a-type terminal oxidase from Sulfolobus acidocaldarius with cytochrome c oxidase activity

Cytochrome C oxidase was solubilized with a nonionic detergent n-decanoyl-N-methyl glucamide from the membranes of Sulfolobus acidocaldarius, a thermoacidophilic archaebacterium, and was purified. The enzyme oxidized horse heart cytochrome C with a Vmax of 63 mumols/min/mg at 50 degrees C. The activity was sensitive to cyanide. The enzyme also catalyzed oxygen uptake detergent on N, N, N', N'-tetramethyl p-phenylene diamine. An apparent molecular mass was estimated to be 150 kDa. The enzyme is composed of three subunits of 37, 23 and 14 kDa. Spectral characteristics were similar to typical bacterial aa3 except for the presence of a novel 583 nm peak observed in reduced minus oxidized difference spectrum.     

Anomalies in the polarographic measurement of cytochrome oxidase activity

Reaction kinetics of the reduction of O₂ by cytochrome oxidase follow essentially the same rate equation as that proposed for the oxidation of cytochrome c. However, the apparent second order rate constant varies with the oxidase concentration. The redox level of cytochrome c at the steady state was found to be essentially temperature-independent. Currently recognized pathways (or mechanisms) of electron transport from cytochrome c to O₂ do not predict, and cannot account for the occurrence of these phenomena.     

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.     

Some cytochemical correlations between oxidase activity (cytochrome and peroxidase) and chemical structure of bis(phenylenediamines)

Summary A series of 17 bis(phenylenediamine) derivatives have been prepared and compared with 3,3-diaminobenzidine (DAB) with regard to their ability to demonstrate cytochrome oxidase activity, peroxisome activity, horseradish peroxidase activity, erthrocytic peroxidase activity in cytochemical preparations, and bovine catalase activity in in vitro experiments. The results are tabulated, some illustrative photomicrographs are included and interesting correlations are discussed.This investigation was supported by a research grant (CA-02478) from the National Cancer Institute, U. S. Public Health Service.Acknowledgement for technical assistance is due Charles Hatton and William Brown.