CO-binding pigments and the functional terminal oxidase of the trypanosomatid hemoflagellate Crithidia fasciculata

Terminal oxidases in the trypanosomatid Trypanosoma cruzi

Titration of Trypanosoma cruzi respiration with cyanide, with results treated as Dixon plots, indicated the presence of several terminal oxidases. The inhibitions obtained at low cyanide concentrations (0-300 microM), taken together with cyanide effects on cytochrome aa3-deficient, dyskinetoplastic epimastigotes, supported cytochrome aa3 as T. cruzi main terminal oxidase. By increasing cyanide concentration to 1.0 mM, two alternative terminal oxidases could be detected. One of these was active in both kinetoplastic and dyskinetoplastic (cytochrome aa3-deficient) epimastigotes, and azide- and antimycin-insensitive. Complementary cytochrome studies with intact epimastigotes and mitochondrial membranes revealed the presence of cytochromes aa3, b, c558, o and possibly d, as components of the parasite electron transport system. Fractionation studies demonstrated that both o and d were bound to the mitochondrial membrane. Reduction by endogenous substrates and complex formation with cyanide supported cytochrome o as alternative terminal oxidase. EB-cultured, dyskinetoplastic epimastigotes showed the same respiration rate as the kinetoplastic cells, despite the significant decrease of cytochrome aa3, thus indicating adaptive mechanisms that determine the expression of alternative oxidases, whenever the main terminal activity is depressed.

Photochemical action spectra of CO-liganded terminal oxidases using a liquid dye laser

A method of obtaining photochemical action spectra for the relief of CO inhibition of respiration is described. Continuous readout from a membrane-covered oxygen electrode of dissolved oxygen in a stirred suspension of microorganisms under CO-oxygen gas mixtures in an open reactor enables measurement of increased respiration on illumination. Advantages presented by the use of a liquid dye laser include high intensity of emission and narrow spectral bandwidth; just two dyes (rhodamine 6G and rhodamine 110) are required to match the alpha-absorption maxima of the CO complexes of all known bacterial and mitochondrial terminal oxidases.

Carbon monoxide-reacting haemoproteins in the mitochondrial fraction of Acanthamoeba castellanii

1. Room-temperature (18 degrees C) CO difference spectra of mitochondrial fractions from the amoeba Acanthamoeba castellanii reveal the presence of at least four CO-reacting haemoproteins. As well as cytochrome a3, other components reacting with CO are: (i) a c-type cytochrome; (ii) a b-type cytochrome; and (iii) another a-type cytochrome. 2. The same components can be identified in low-temperature photodissociation experiments with intact cells or mitochondria. 3. The time of exposure to CO and the nature of the reductant are both important in identifying all the components present, in that the b-type cytochrome is more readily distinguished after longer exposure to CO and more of the c-type cytochrome is detectable when NADH is the reductant 4. Treatment of mitochondria with ultrasound releases two components, identifiable in low-temperature difference spectra as a c-type and a b-type cytochrome; only the latter appears to have any reaction with CO, and the CO-reacting c-type cytochrome is retained in submitochondrial particles. 5. The complexity of the CO-reacting haemoproteins in this organism is compared with the simpler systems found in other eukaryotic organisms.

Midpoint potentials of the mitochondrial cytochromes of Crithidia fasciculata

The midpoint potentials of the mitochondrial respiratory chain cytochromes of the protozoan Crithidia fasciculata at pH 7.2, Em7.2, show great similarity to those measured in higher organisms. Values of Em7.2 for cytochromes a and a3 are +165 and +340 mV. Both c cytochromes have Em7.2 = +230 mV. There are two b cytochromes with the same spectral characteristics with Em7.2 = -20 and -135 mV. These values are compatible with two sites of energy conservation for oxidative phosphorylation in these mitochondria. All cytochrome components show potentiometric titrations with n = 1. There is a fluorescent flavoprotein in these mitochondria with Em7.2 = -40 mV and n =2, whose function is not known.