The structure of the dihaem cytochrome b of fumarate reductase in Wolinella succinogenes: circular dichroism and sequence analysis studies

The fumarate reductase from Wolinella succinogenes contains two haem groups with markedly different midpoint potentials (-20 mV and -200 mV). The enzyme is made up of three subunits, the lipophilic one of which (cytochrome b) ligates the haems. Circular dichroism (CD) spectroscopy has been applied to the reductase in order to obtain information on the structure of the haems and of their environment. This approach is integrated with amino acid sequence comparison of the cytochrome b with other quinone-reacting membrane haemoproteins for predicting the axial ligands of the haems as well as their location relative to the membrane. The following results have been obtained: (1) the CD spectra in the Soret region show exciton coupling indicating haem-haem interaction, which is particularly evident in the reduced state and disappears upon denaturation of the enzyme; (2) The apoprotein of cytochrome b is predicted to consist of five hydrophobic helices (helices A-D and cd), four of which should span the membrane. Helices A, B, C and cd contain a histidine residue each which possibly forms one of the ligands of the haems. It is proposed that haem b (-20 mV) is ligated by H44 and H93, and haem b (-200 mV) by H143 and H182.     

A preliminary analysis of the three-dimensional structure of dimeric di-haem split-Soret cytochrome c from Desulfovibrio desulfuricans ATCC 27774 at 2.5-Å resolution using the MAD phasing method: a novel cytochrome fold with a stacked-haem arrangement

Haem-containing proteins are directly involved in electron transfer as well as in enzymatic functions. The "split-Soret" cytochrome (SSC) was isolated from the sulfate- and nitrate-reducing bacterium Desulfovibrio desulfuricans ATCC 27774 and has no significant nitrate or nitrite reductase activity. The protein received its name due its unusual spectral properties. It is a dimer containing two identical subunits of 26.3 kDa, each with two haem-c groups. A preliminary model for the three-dimensional structure of this cytochrome was derived using the Multiple Wavelength Anomalous Dispersion (MAD) phasing method. This model shows that SSC is indeed a dimer containing four haems at one end of the molecule. In each monomer the two haems have their edges overlapped within van der Waals contacts with an iron-to-iron distance of 9?Å. The polypeptide chain of each monomer supplies the sixth axial ligand to the haems of the other monomer. This work shows that SSC constitutes a new class of cytochrome. The stacking of the two haems in the monomer within van der Waals distances of each other, and also the short (van der Waals) distances between the two monomers in the dimeric molecule are unprecedented in hemoproteins. This particular haem arrangement is an excellent model for the spectral study (undertaken several years ago) of haem-haem interaction using the aggregated haem undecapeptide derived from mammalian cytochrome c.     

The Quinol:Fumarate Oxidoreductase from the Sulphate Reducing Bacterium Desulfovibrio gigas: Spectroscopic and Redox Studies

The membrane bound fumarate reductase (FRD) from the sulphate-reducer Desulfovibrio gigas was purified from cells grown on a fumarate/sulphate medium and extensively characterized. The FRD is isolated with three subunits of apparent molecular masses of 71, 31, and 22 kDa. The enzyme is capable of both fumarate reduction and succinate oxidation, exhibiting a higher specificity toward fumarate (K _m for fumarate is 0.02 and for succinate 2 mM) and a reduction rate 30 times faster than that for oxidation. Studies by Visible and EPR spectroscopies allowed the identification of two B-type haems and the three iron–sulphur clusters usually found in FRDs and succinate dehydrogenases: [2Fe-2S]^2+/1+ (S1), [4Fe-4S]^2+/1+ (S2), and [3Fe-4S]^1+/0 (S3). The apparent macroscopic reduction potentials for the metal centers, at pH 7.6, were determined by redox titrations: –45 and –175 mV for the two haems, and +20 and –140 mV for the S3 and S1 clusters, respectively. The reduction potentials of the haem groups are pH dependent, supporting the proposal that fumarate reduction is associated with formation of the membrane proton gradient. Furthermore, co-reconstitution in liposomes of D. gigas FRD, duroquinone, and D. gigas cytochrome bd shows that this system is capable of coupling succinate oxidation with oxygen reduction to water.     

Observation of fast release of NO from ferrous d₁ haem allows formulation of a unified reaction mechanism for cytochrome cd₁ nitrite reductases

Cytochrome cd1 nitrite reductase is a haem-containing enzyme responsible for the reduction of nitrite into NO, a key step in the anaerobic respiratory process of denitrification. The active site of cytochrome cd1 contains the unique d1 haem cofactor, from which NO must be released. In general, reduced haems bind NO tightly relative to oxidized haems. In the present paper, we present experimental evidence that the reduced d1 haem of cytochrome cd1 from Paracoccus pantotrophus releases NO rapidly (k=65-200 s(-1)); this result suggests that NO release is the rate-limiting step of the catalytic cycle (turnover number=72 s(-1)). We also demonstrate, using a complex of the d1 haem and apomyoglobin, that the rapid dissociation of NO is largely controlled by the d1 haem cofactor itself. We present a reaction mechanism proposed to be applicable to all cytochromes cd1 and conclude that the d1 haem has evolved to have low affinity for NO, as compared with other ferrous haems.     

Redox behaviour of the haem domain of flavocytochrome c3 from Shewanella frigidimarina probed by NMR

Flavocytochrome c3 from Shewanella frigidimarina (fcc3) is a tetrahaem periplasmic protein of 64 kDa with fumarate reductase activity. This work reports the first example of NMR techniques applied to the assignment of the thermodynamic order of oxidation of the four individual haems for such large protein, expanding its applicability to a wide range of proteins. NMR data from partially and fully oxidised samples of fcc3 and a mutated protein with an axial ligand of haem IV replaced by alanine were compared with calculated chemical shifts, allowing the structural assignment of the signals and the unequivocal determination of the order of oxidation of the haems. As oxidation progresses the fcc3 haem domain is polarised, with haems I and II much more oxidised than haems III and IV, haem IV being the most reduced. Thus, during catalysis as an electron is taken by the flavin adenosine dinucleotide from haem IV, haem III is eager to re-reduce haem IV, allowing the transfer of two electrons to the active site.     

Methylobacillus flagellatus KT contains a novel cbo-type cytochrome oxidase

The o-type oxidase from the methanol-grown obligate methylotroph Methylobacillus flagellatus KT has been purified to homogeneity. The complex is composed of four subunits (57, 40, 35 and 30 kDa). It contains six haems (4C:1B:1O) and one copper atom per molecule. It is proposed that the haem O-Cu(B) binuclear centre and a low-spin haem B are located in subunit I (57 kDa), two haems C reside in the cytochrome c homodimer (35 kDa), two haems C belong to the dihaem cytochrome c (30 kDa). The presented data provide evidence that cytochrome cbo is a novel representative of the haem-copper oxidase superfamily.     

NMR studies of electron transfer mechanisms in a protein with interacting redox centres: Desulfovibrio gigas cytochrome c3

The proton NMR spectra of the tetrahaem cytochrome c3 from Desulfovibrio gigas were examined while varying the pH and the redox potential. The analysis of the NMR reoxidation pattern was based on a model for the electron distribution between the four haems that takes into account haem-haem redox interactions. The intramolecular electron exchange is fast on the NMR time scale (larger than 10(5) s-1). The NMR data concerning the pH dependence of the chemical shift of haem methyl resonances in different oxidation steps and resonance intensities are not compatible with a non-interacting model and can be explained assuming a redox interaction between the haems. A complete analysis at pH* = 7.2 and 9.6, shows that the haem-haem interacting potentials cover a range from -50 mV to +60 mV. The midpoint redox potentials of some of the haems, as well as some of their interacting potentials, are pH-dependent. The physiological relevance of the modulation of the haem midpoint redox potentials by both the pH and the redox potential of the solution is discussed.     

Orientation of the haems of the ubiquinol oxidase:O2 reductase, cytochrome bo of Escherichia coli.

The orientation of the two haems of the Escherichia coli ubiquinol oxidase:O2 reductase, cytochrome bo, has been determined by electron paramagnetic resonance studies on oriented multilayer preparations of cytoplasmic membrane fragments. The enzyme contains a low-spin b-like haem and a high-spin b-like haem, designated cytochromes b and o respectively. Both haems are oriented with their planes perpendicular to the membrane plane, further extending the catalogue of structural and functional similarities between this enzyme and the mammalian cytochrome c oxidase, cytochrome aa3.     

Biosynthesis and functional role of haem O and haem A

Haem O and/or haem A are specifically synthesized for the haem-copper respiratory oxidases. A 17-carbon hydroxyethylfarnesyl chain at the pyrrole ring A of the haems seems essential for catalytic functions at the oxygen-reduction site. The discovery of haem O in the cytochrome bo complex from Escherichia coli was a breakthrough in the studies on haem A biosynthesis. Molecular biological and biochemical studies in the past three years demonstrated that the cyoE/ctaB/COX10 genes are indispensable for functional expression of the terminal oxidases and encode a novel enzyme haem O synthase (protohaem IX farnesyltransferase). It has recently been suggested that the ctaA gene adjacent to the ctaB-ctaCDEF gene cluster in Bacillus subtilis encodes haem A synthase (haem O monooxygenase). In this article, we review current knowledge of the genes for haem O and haem A biosyntheses, the location and regulation of haem O synthase, the possible enzymatic mechanism of farnesyl transfer to haem B and the possible roles of the farnesylated haems.     

Site-directed mutagenesis of a phenylalanine residue strictly conserved in cytochromes c 3

 Reduction of the haems in tetrahaem cytochromes c ₃ is a cooperative process, i.e., reduction of each of the haems depends on the redox states of the other haems. Furthermore, electron transfer is coupled to proton transfer (redox-Bohr effect). Two of its haems and a strictly conserved nearby phenylalanine residue, F20, in Desulfovibrio vulgaris (Hildenborough) cytochrome c ₃ form a structural motif that is present in all cytochromes c ₃ and also in cytochrome c oxidase. A putative role for this phenylalanine residue in the cooperativity of haem reduction was investigated. Therefore, this phenylalanine was replaced, with genetic techniques, by isoleucine and tyrosine in D. vulgaris (Hildenborough) cytochrome c ₃. Cyclic voltammetry studies revealed a small increase (30 mV) in one of the macroscopic redox potentials in the mutated cytochromes. EPR showed that the main alterations occurred in the vicinity of haem I, the haem closest to residue 20 and one of the haems responsible for positive cooperativities in electron transfer of D. vulgaris cytochrome c ₃. NMR studies of F20I cytochrome c ₃ demonstrated that the haem core architecture is maintained and that the more affected haem proton groups are those near the mutation site. NMR redox titrations of this mutated protein gave evidence for only small changes in the relative redox potentials of the haems. However, electron/electron and proton/electron cooperativity are maintained, indicating that this aromatic residue has no essential role in these processes. Furthermore, chemical modification of the N-terminal amino group of cytochrome c ₃ backbone, which is also very close to haem I, had no effect on the network of cooperativities. Received: 25 June 1996 / Accepted: 26 August 1996     

ESR studies of cytochrome c3 from Desulfovibrio desulfuricans strain Norway 4: Midpoint potentials of the four haems,and interactions with ferredoxin and colloidal sulphur

ESR spectra were recorded of cytochrome c₃ from Desulfovibrio desulfuricans, strain Norway 4, after poising at different redox potentials in the presence of dye mediators. The spectra of the four different haems were resolved by their different g values and redox potentials. Estimation of the midpoint potentials indicated that there are two higher-potential haems (both −125 ± 15 mV) and two lower-potential haems (−305 and −325 ± 15 mV). The ESR spectrum of the oxidized cytochrome was slightly shifted by interaction with ferredoxin I from D. desulfuricans, Norway strain. Addition of the oxidizing substrate, colloidal sulphur, to the cytochrome c₃ reduced in the presence of hydrogen + hdrogenase, caused a partial reoxidation of the cytochrome, as judged by ESR and spectrophotometry. If redox titrations were carried out in the presence of colloidal sulphur, only the two higher-potential haems could be reduced, with potentials − 110 ± 15 mV. A mechanism of sulphur reduction by an exposed, low-potential haem is discussed. The reaction may involve insoluble S₈ molecules as reaction intermediates.     

Reactivities of hydroxylamine and sodium bisulphite with carbonyl-containing haems with the prosthetic groups of the erythrocyte green haemoproteins

The reactivities of alkaline NH(2)OH and neutral NaHSO(3) with carbonyl and olefinic groups conjugated with the tetrapyrrole nucleus of haems were studied. The reactions were carried out with 2-3nmol of haem a, spirographis haem, isospirographis haem, 2,4-diacetyldeuterohaem and protohaem. Vinyl side chains were found to be insensitive to the chemical action of both alkaline NH(2)OH and neutral NaHSO(3). The formyl-containing haems reacted rapidly with both reagents at room temperature, as evidenced by sizable hypsochromic shifts of the reduced pyridine haemochrome spectrum. In less alkaline solution, the reactions of these formyl-containing haems with NH(2)OH were much slower. 2,4-Diacetyldeuterohaem reacted with alkaline NH(2)OH, but not with neutral NaHSO(3). These rapid, simple and straightforward tests are readily usable in differentiating among formyl, acetyl and other electron-withdrawing side chains conjugated with the tetrapyrrole ring of haems. We applied these observations to an investigation of the two unique prosthetic groups of the bovine erythrocyte green haemoproteins. The prosthetic groups of these two proteins were isolated and spectrally characterized. Under the conditions used, the haems did not react with either NH(2)OH or NaHSO(3), but were altered by dithionite, suggesting that the previous interpretation that a formyl group was present [Hultquist, Dean & Reed (1976) J. Biol. Chem.251, 3927-3932] may have been premature. These studies also provide evidence that the alpha-hydroxyfarnesylethyl side chain of haem a affects the alpha-band maximum, but not the beta- or Soret bands of the reduced pyridine haemochrome spectrum of haem a.     

Electron paramagnetic resonance studies on Pseudomonas nitrosyl nitrite reductase. Evidence for multiple species in the electron paramagnetic resonance spectra of nitrosyl haemoproteins.

The e.p.r. spectra of reduced 14NO- and 15NO-bound Pseudomonas nitrite reductase have been investigated at pH 5.8 and 8.0 in four buffer systems. At pH 8.0, absorption spectra indicated that only the haem d1 was NO-bound, but, although quantification of the e.p.r. signals in all cases accounted for NO bound the the haem d1 in both subunits of the enzyme, the precise form of the signals varied with buffer and temperature. A rhombic species, with gx = 2.07, gz = 2.01 and gy = 1.96, represented in the low-temperature spectra seen in all the buffers was converted at high temperatures (approx. 200K) into a form showing a reduced anisotropy. Hyperfine splitting on the gz component of this rhombic signal indicated a nitrogen atom trans to NO and it is proposed that histidine provides the endogenous axial ligand for haem d1. At pH 5.8, absorption spectra indicated NO binding to both haems c and d1 and e.p.r. quantifications accounted for NO-bound haems c and d1 in both enzyme subunits. The e.p.r. spectra at pH 5.8 were generally similar to those at pH 8.0 with respect to g-values and hyperfine coupling constants, but were broader with less well defined hyperfine splittings. As at pH 8, rhombic signals present in spectra at low temperatures were converted to less anisotropic forms at high temperatures. The results are discussed in relation to work on model nitrosyl-protohaem complexes [Yoshimura, Ozaki, Shintani & Watanabe (1979) Arch. Biochem, Biophys. 193, 301-313]. No. e.p.r. signal was observed from oxidized NO-bound Pseudomonas nitrite reductase at pH 6.0, over the temperature range 6-100K.     

Electron conduction between b cytochromes of the mitochondrial respiratory chain in the presence of antimycin plus myxothiazol

The b haems of the bc1 complex of bovine heart mitochondria were poised with succinate and fumarate so that only the high-potential haem (b-562) was reduced, and then isolated from further redox exchange with the ubiquinone pool by adding antimycin and myxothiazol. A transmembrane electric potential difference was then developed, either by electron flow from [Ru(NH3)6]Cl2 to oxygen or by ATP hydrolysis. The small difference spectrum, caused by the electric field, indicated 32-55% oxidation of b-562 with concomitant reduction of b-566. No lag greater than 0.1 s was detectable between the initiation of respiration and the development of the difference spectrum, thus providing a direct demonstration of (fairly) rapid electron transfer between the b haems.     

Structure of the three-haem core of cytochrome c 551.5 determined by 1H NMR

 The trihaem cytochrome c _551.5, formerly known as cytochrome c ₇, from the organism Desulfuromonas acetoxidans, has been studied in the reduced state by 2D proton NMR. The haem proton resonances were assigned, and several nuclear Overhauser enhancements (NOEs) between resonances arising from different haems were detected and assigned. The relative orientations of the three haems were calculated by fitting both the intensities of the interhaem NOEs and the magnitudes of the ring current shifts of the haem resonances, following the strategy previously used by the authors to reassess the X-ray structure of the haem core in tetrahaem cytochrome c ₃ from Desulfumicrobium baculatum. It is concluded that, although the comparison of the protein sequence with those of the tetrahaem cytochromes c ₃ shows that in cytochrome c _551.5 about 40% of the sequence is deleted, including the region involved in the attachment of the second of the four haems, this does not induce any significant rearrangement of the remaining three haems other than a slight decrease in the iron-iron distance between two of the haems, namely those corresponding to haems I and IV of cytochrome c ₃. Received: 2 February 1996 / Accepted: 26 March 1996     

CYTOCHROMES IN BRAIN MITOCHONDRIA FROM LAMBS WITH ENZOOTIC ATAXIA

Mitochondria from the cerebral cortex of untreated lambs from areas in which enzootic ataxia occurred showed a lower content of haem a (from cytochromes a and a 3) than mitochondria from control lambs with adequate copper but the haems of cytochromcs b2 c1 and c were not depleted. Cytochrome oxidase activity was closely correlated with the content of haem a (P<0.001) but there was no correlation with total mitochondrial copper which was always present in molar exccss of haem a. It is concluded that the lowered cytochrome oxidase activity in mitochondria from untreated lambs is immediately attributable to depletion of haem a. In clinically ataxic lambs that showed degradation of myelin in thc spinal cord, brain cytochrome oxidase was depressed by no more t han 60%. Arguments are advanced that this depletion was not sufficiently severe to have led to respiratory constraint     

Determination of the orientation of the axial ligands and of the magnetic properties of the haems in the tetrahaem ferricytochrome from Shewanella frigidimarina

The unambiguous assignment of the nuclear magnetic resonance (NMR) signals of the alpha-substituents of the haems in the tetrahaem cytochrome isolated from Shewanella frigidimarina NCIMB400, was made using a combination of homonuclear and heteronuclear experiments. The paramagnetic (13)C shifts of the nuclei directly bound to the porphyrin of each haem group were analysed in the framework of a model for the haem electronic structure. The analysis yields g-tensors for each haem, which allowed the assignment of some electron paramagnetic resonance (EPR) signals to specific haems, and the orientation of the magnetic axes relative to each haem to be established. The orientation of the axial ligands of the haems was determined semi-empirically from the NMR data, and the structural results were compared with those of the homologous tetrahaem cytochrome from Shewanella oneidensis MR-1 showing significant similarities between the two proteins.     

The haem-copper oxygen reductase of Desulfovibrio vulgaris contains a dihaem cytochrome c in subunit II

The genome of the sulphate reducing bacterium Desulfovibrio vulgaris Hildenborough, still considered a strict anaerobe, encodes two oxygen reductases of the bd and haem-copper types. The haem-copper oxygen reductase deduced amino acid sequence reveals that it is a Type A2 enzyme, which in its subunit II contains two c-type haem binding motifs. We have characterized the cytochrome c domain of subunit II and confirmed the binding of two haem groups, both with Met-His iron coordination. Hence, this enzyme constitutes the first example of a ccaa3 haem-copper oxygen reductase. The expression of D. vulgaris haem-copper oxygen reductase was found to be independent of the electron donor and acceptor source and is not altered by stress factors such as oxygen exposure, nitrite, nitrate, and iron; therefore the haem-copper oxygen reductase seems to be constitutive. The KCN sensitive oxygen reduction by D. vulgaris membranes demonstrated in this work indicates the presence of an active haem-copper oxygen reductase. D. vulgaris membranes perform oxygen reduction when accepting electrons from the monohaem cytochrome c553, thus revealing the first possible electron donor to the terminal oxygen reductase of D. vulgaris. The physiological implication of the presence of the oxygen reductase in this organism is discussed.     

Structural studies of Desulfovibrio vulgaris ferrocytochrome c3 by two-dimensional NMR.

Two-dimensional NMR has been used to make specific assignments for the four haems in Desulfovibrio vulgaris (Hildenborough) ferrocytochrome c3 and to determine their haem core architecture. The NMR signals from the haem protons were assigned according to type using two-dimensional NMR experiments which led to four sets of signals, one for each of the haems. Specific assignments were obtained by calculating the ring current shifts which arise from other haems and aromatic residues. Observation of interhaem NOEs confirmed the assignments and established that the relative orientation of the haems is identical to that found in the crystal structure of D. vulgaris (Miyazaki F.) ferricytochrome c3. Assignments were also made for all the aromatic residues except for the haem ligands and F20, which is shifted under the main envelope of signals. The NOEs observed between these aromatic protons and haem protons confirm the similarity between the structures in solution and in the crystal. The assignments reported here are the basis for the cross-assignments of the four microscopic haem redox potentials to specific haems in the protein structure [Salgueiro, C. A., Turner, D. L., Santos, H., LeGall, J. and Xavier, A. V. (1992) FEBS Lett., in the press]     

The purified SoxABCD quinol oxidase complex of Sulfolobus acidocaldarius contains a novel haem

A respiratory quinol oxidase complex that is encoded by the soxABCD operon has been purified from the thermoacidophilic archaeon Sulfolobus acidocaldarius. The enzyme was solubilized with dodecyl maltoside and purified in the presence of this detergent and ethylene glycol. The complex is hydro-dynamically homogeneous and contains at least five different polypeptides. In addition to the major subunits SoxA, SoxB and SoxC, it has two small polypeptides. One of these is the translation product of a short open reading frame (now called the soxD gene) at the end of the operon. The optical and electron paramagnetic resonance spectra of the SoxABCD compiex have been characterized. It probably contains four A-type haems which are bound to SoxB and SoxC. The structure of these haems is not identical to haem A. The novel haem A_a has a 2-hydroxyethyl geranylgeranyl in position 2 of the porphyrin ring whereas haem A has the related farnesyl-containing side-chain.