Predicting the carboxyhemoglobin levels resulting from carbon monoxide exposures.

Data from a series of human exposures to carbon monoxide (CO) were analyzed to determine the fit to the theoretical Coburn-Forster-Kane (CFK) equation which describes CO absorption and excretion. The equation was found to predict carboxyhemoglobin (HbCO) saturations for both men and women at exercise rates ranging from sedentary to 300 kpm/min when they were exposed to steady CO concentrations of 50, 100, and 200 ppm for 0.33-5.25 h. Methods for determining values of each of the variables in the CFK equation were collected and a rational, efficient procedure for solving the equation by trial and error was outlined. The CFK equation was then used to prepare a graph, relating HbCO saturation to exposure duration and concentration, and also to describe the effect of several variables on the rate of CO uptake and equilibrium HbCO levels, important considerations in the determination of permissible public, occupational, and experimental exposure to CO.     

Rate of formation of carboxyhemoglobin in exercising humans exposed to carbon monoxide.

The purpose of this study was to test the CFK equation for its prediction of the rate of formation of carboxyhemoglobin (HbCO) in exercising humans by use of measured values of the respiratory variables and to characterize the rate of appearance of HbCO with frequent blood sampling. Ten nonsmoking male subjects were exposed to carbon monoxide (CO) on two separate occasions distinguished by the level of activity. Steady-state exercise was conducted on a cycle ergometer at either a low (approximately 45 W) or moderate (approximately 90 W) power output. Each experiment began with an exposure of 3,000 ppm CO for 3 min during a rest period followed by three intermittent exposures ranging from 3,000 ppm CO for 1 min at low exercise to 667 ppm CO for 3 min at moderate exercise. Increases in HbCO were normalized against predicted values to account for individual differences in the variables that govern CO uptake. No difference in the normalized uptake of CO was found between the low- and moderate-exercise trials. However, the CFK equation underpredicted the increase in HbCO for the exposures at rest and the first exposure at exercise, whereas it overpredicted for the latter two exposures at exercise. The net increase in HbCO after all exposures (approximately 10% HbCO) deviated by less than 1% HbCO between the measured and predicted values. The rate of appearance of HbCO fits a sigmoidal shape with considerable overshoot at the end of exposure. This can be explained by delays in the delivery of CO to the blood sampling point (dorsal hand vein) and by a relatively small blood circulation time compared with other regions of the body. A simple circulation model is used to demonstrate the overshoot phenomenon.     

The origin of the Adams-Schuster difference spectrum of oxyhemoglobin.

The characteristic difference spectrum reported by Adams and Schuster (Biochem. Biophys. Res. Commun. 1974, $\text{58}$, 525) on the addition of inositol hexaphosphate to oxyhemoglobin is similar to the difference spectrum between (i) isolated α- and β-chains, (ii) α- and β-semihemoglobins, (iii) addition of inorganic phosphate to oxyhemoglobin, (v) change in temperature of a solution of oxyhemoglobin, (v) change in pH of carp carboxyhemoglobin and (vi) addition of inositol hexaphosphate to α-semihemoglobin. The spectrum may also be generated by differentiation of the spectra of oxyhemoglobin and carboxyhemoglobin, implying that the common feature of the results reported above is a shift in the position of the absorption bands. This shift may arise from several causes and so its interpretation is uncertain.     

Molecular dynamics simulations indicate that deoxyhemoglobin,oxyhemoglobin, carboxyhemoglobin,and glycated hemoglobin under compression and shear exhibit an anisotropic mechanical behavior

We developed a new mechanical model for determining the compression and shear mechanical behavior of four different hemoglobin structures. Previous studies on hemoglobin structures have focused primarily on overall mechanical behavior; however, this study investigates the mechanical behavior of hemoglobin, a major constituent of red blood cells, using steered molecular dynamics (SMD) simulations to obtain anisotropic mechanical behavior under compression and shear loading conditions. Four different configurations of hemoglobin molecules were considered: deoxyhemoglobin (deoxyHb), oxyhemoglobin (HbO₂), carboxyhemoglobin (HbCO), and glycated hemoglobin (HbA_1C). The SMD simulations were performed on the hemoglobin variants to estimate their unidirectional stiffness and shear stiffness. Although hemoglobin is structurally denoted as a globular protein due to its spherical shape and secondary structure, our simulation results show a significant variation in the mechanical strength in different directions (anisotropy) and also a strength variation among the four different hemoglobin configurations studied. The glycated hemoglobin molecule possesses an overall higher compressive mechanical stiffness and shear stiffness when compared to deoxyhemoglobin, oxyhemoglobin, and carboxyhemoglobin molecules. Further results from the models indicate that the hemoglobin structures studied possess a soft outer shell and a stiff core based on stiffness.     

The oncogenic fusion protein EWS/NOR-1 induces transformation of CFK2 chondrogenic cells

The EWS/NOR-1 fusion protein is encoded by the t(9;22) chromosomal translocation found in approximately 75% of extraskeletal myxoid chondrosarcoma (EMC) tumors. The lack of cellular models in which the oncogenic properties of this fusion protein are expressed has seriously hampered the study of its role in the development of EMC. To generate such a cellular model, we have used the chondrogenic cell line CFK2. We show in this study that although stable expression of EWS/NOR-1 does not alter the population doubling time and the cell cycle distribution of CFK2 cells in subconfluent cultures, it induces their transformation as measured by growth beyond confluency and anchorage-independent growth in soft agarose medium. Glycosaminoglycan accumulation in CFK2(EWS/NOR-1) cell lines indicate that the fusion protein does not appear to interfere with the ability of CFK2 cells to differentiate into chondrocyte-like cells in vitro. These results support the hypothesis that the role of EWS/NOR-1 in EMC may be to disrupt the proliferation properties of cells involved in chondrogenesis.     

Transposon Mutants of Bradyrhizobium japonicum Altered in Attachment to Host Roots

Transposon mutants of Bradyrhizobium japonicum 110 ARS were produced and screened for changes in attachment ability. Mutant CFK4 produced twice as many piliated cells, attached in 2.5-fold-higher numbers to soybean root segments, and colonized roots in about 2-fold-higher numbers than did the parental strain, 110 ARS. Mutants CFK35 and CFK38 were reduced in their attachment about 2-fold and 3.5-fold, respectively. This corresponded to reductions in piliated cells in their populations, reduced reaction with anti-pilus antiserum, and reduced hydrophobic attachment. Mutants CFK4 and CFK38 nodulated soybeans at about the same level as the parent strain, but CFK35 induced only pseudonodules. Two-dimensional gel analyses of the proteins from the mutants showed relatively few changes in proteins.     

Binding of diphosphoglycerate and ATP to oxyhemoglobin dimers

The relative affinity of diphosphoglycerate and ATP for hemoglobin dimers and tetramers can be measured under conditions where the protein is in large molar excess over the polyphosphate. Binding of both compounds to dimers was about 25 times stronger than to tetramers in the case of the three low-spin hemoglobins, oxyhemoglobin, carboxyhemoglobin and cyanomethemoglobin. The mutation in hemoglobin Kansas leads to an increased dissociation into alpha beta dimers. The increase in diphosphoglycerate binding by this hemoglobin was in good agreement with that expected from the dimer-tetramer dissociation constant over a wide range of hemoglobin concentrations. In contrast to the liganded hemoglobins, both deoxyhemoglobin and aquomethemoglobin bind the two polyanions as tetramers.     

Structure of nitric oxide hemoglobin

We have compared the structure of horse nitric oxide hemoglobin (HbNO) and methemoglobin in the oxy quaternary structure by difference Fourier analysis at 2.8 Å resolution. Both nitric oxide and oxygen assume bent co-ordination geometry and form low-spin complexes in binding to heme; on the basis of preferred ligand and heme stereochemistry, HbNO is the closest analog of HbO₂ (oxyhemoglobin) examined to date. To the resolution of the X-ray data, the stereochemistry of the heme-NO complex in hemoglobin and the corresponding free heme complex appears similar. In contrast, the ligand pockets in hemoglobin hinder binding of cyanide and carbon monoxide in their preferred linear axial co-ordination modes and force them to assume a strained off-axis binding stereochemistry. The structural similarity between HbNO and HbO₂ is reflected in their kinetic behavior, which is similar, and distinct from that of carboxyhemoglobin.     

A charge-transfer interpretation of the interactions of hemoglobin with oxygen and carbon monoxide

It is shown that the use of the charge-transfer theory to describe the interaction between hemoglobin and O₂ or CO leads to the prediction of a linear relationship between log K and the quantity (λ_HbO2 − λ_HbC), where K is the equilibrium constant of the reaction HbO₂ + CO af HbCO + O₂ and λ_HbO2 and λ_HbCO are the wavelengths of the so-called -bands in the absorption spectra of oxyhemoglobin and carboxyhemoglobin. Such a linear relation was long ago observed experimentally for a number of vertebrate hemoglobins, but was never satisfactorily explained. The fact that the charge-transfer theory does explain this seemingly unlikely experimental relationship provides support for the view that the interaction between hemoglobin and O₂ or CO may be regarded and treated as a charge-transfer process.     

Stoichiometry of carbon monoxide binding by cytochrome c oxidase.

The stoichiometry of carbon monoxide binding to beef heart cytochrome c oxidase has been reinvestigated both by titration of the reduced oxidase with CO and by measuring the amount of carboxyhemoglobin that is formed after adding oxyhemoglobin to a solution of the CO-enzyme complex. In the titration experiments the ratio of CO bounds to total heme a present was always less than 0.50 while in the experiments where oxyhemoglobin was added the results were variable and of lower accuracy. These observations do not agree with the recent conclusion of Volpe, J.A., O'Toole, M.C., and Caughey, W.S. (1975) Biochem. Biophys. Res. Commun. 62, 48-53 that CO is bound in a 1:1 ratio with heme a. An explanation for their results is suggested.     

Spectrophotometry of hemoglobin: a comparison of dog and man

1. The absorptivity at 540 nm of hemiglobincyanide (epsilon 540HiCN) from dog blood was determined on the basis of iron and found to be within the range formerly obtained for human hemoglobin. 2. Consequently, epsilon 540HiCN = 11.0, the established value for human hemoglobin, may be used for dog hemoglobin. 3. On this basis the absorption spectra of oxyhemoglobin, de-oxygenated hemoglobin, carboxyhemoglobin, hemiglobin (methemoglobin) and hemiglobincyanide were determined for dog hemoglobin. 4. No significant differences were found between dog and human hemoglobin, except that dog hemiglobin binds less OH- as reflected in a difference between the absorption spectra of dog and human hemiglobin at the same pH.     

Effect of protein and steroidal osteotropic agents on differentiation and epidermal growth factor-mediated growth of the CFK1 osseous cell line.

The effects of factors known to influence bone metabolism were examined using the osseous cell line CFK1. Parathyroid hormone (PTH) and dexamethasone (DEX) appeared to enhance the formation of cell foci of CFK1 cells in culture whereas retinoic acid (RA) caused a marked alteration in individual cell morphology. Bone morphogenetic protein (BMP-2) and PTH increased alkaline phosphatase activity, however, this index of differentiation was suppressed by epidermal growth factor (EGF), DEX, and RA. BMP-2 and EGF each stimulated DNA synthesis in a dose-dependent manner and enhanced cell numbers, but, no synergistic response of EGF and BMP-2 was observed. PTH and DEX failed to significantly alter cell number or EGF-stimulated DNA synthesis or cell proliferation. Although RA treatment of CFK1 cells resulted in a reduction in cell number compared to control, pretreatment with RA enhanced EGF-stimulated DNA synthesis and proliferative effects. At least part of this effect was by increasing the EGF receptor binding capacity of the cells. Furthermore, using cell cycle analysis, addition of EGF stimulated the progression of RA-treated cells into the DNA synthesis (S) phase with a reduced lag time. EGF and BMP-2, therefore, appear to exert a role in the expansion dynamics of the CFK1 population although BMP-2 may also enhance differentiation. PTH and DEX may act primarily to modulate the differentiated function of the CFK1 cells. RA inhibited cell proliferation and may mediate differentiation towards a less established cell population with upregulation of EGF receptors. The CFK1 cell model may, therefore, provide insight into microenvironmental control of growth and differentiation of precursor osseous cells.     

Establishment of an osseous cell line from fetal rat calvaria using an immunocytolytic method of cell selection: characterization of the cell line and of derived clones

Using selective media and complement-mediated lysis of primary cultures of a fetal rat calvarial cell population, we have developed a cell line (OBCK6) that exhibits osteoblastic characteristics. OBCK6 cells demonstrated enhanced parathyroid hormone (PTH)-stimulated adenylate cyclase activity relative to the primary calvarial population, production of alkaline phosphatase activity and type 1 collagen, and the capacity to form mineralized nodules in unsupplemented medium after prolonged (22-26 day) culture. Two sublines, CFK1 and CFK2, which were isolated by dilution cloning, differed morphologically and with respect to growth rate. CFK1 cells demonstrated high PTH and prostaglandin E2-stimulated adenylate cyclase activity, whereas only low PTH-stimulated activity was observed in CFK2 cells. Retinoic acid and 1,25-dihydroxyvitamin D3 [1,25(OH)2D3] each reduced PTH-stimulated adenylate cyclase activity in both the cell types. Retinoic acid and dexamethasone reduced and 1,25(OH)2D3 enhanced alkaline phosphatase activity in these cells. PTH significantly augmented alkaline phosphatase activity to a much greater extent in CFK1 than in CFK2 cells. Both CFK1 and CFK2 cells expressed type I but type III collagen, and neither expressed osteocalcin. Strong Alcian blue staining of CFK2 cells was suggestive of a cartilaginous phenotype. These three cell lines, therefore, demonstrated discrete characteristics of skeletal cell function and should provide important models for evaluation of mechanisms of mineralization and for control of skeletal cell growth and mesenchymal differentiation in vitro.     

Mathematical models of the oxygen-binding function of intact human hemoglobin and hemoglobin modified by UV-radiation in the presence of carbon oxide

The influence of carbon oxide and UV-radiation in doses of 151-453 J/m2 on the physiological properties of human oxyhemoglobin has been studied. Mathematical models of the oxygen-binding function of intact and modified hemoprotein have been developed. It has been found that saturation of human hemoglobin with oxygen obeys the logistic dependence. In the presence of carboxyhemoglobin, the oxygenation parameters change and saturation curves are described by the equations of degree dependence. It has been shown that UV light had the stimulating influence on the functional properties of human hemoglobin modified by carbon oxide if the concentration of carboxyform of the hemoprotein in solution was no higher than 10 per cent. The disturbance of the oxygen-binding ability of hemoglobin by the action of higher concentrations of carboxyhemoglobin was irreversible and was not corrected by UV-radiation.     

Comparative spectral absorption characteristics of hemoglobins in elasmobranches,cartilaginous ganoids,and Teleostei

The spectrophotometric parameters of the main hemoglobin forms, deoxy-, oxy-, and carboxyhemoglobin, were studied in representatives of cartilaginous ganoids (giant sturgeon), elasmobranches (piked dogfish, thresher), and bony fish (the Mediterranean horse mackerel). It was established that the hemoglobin absorption spectra in the studied fish species do not have distinct specific features with respect to positions of maxima of absorption bands, their number, and extinctions. There were differences revealed in the process of deoxygenation of oxyhemoglobin in cartilaginous fish, on one hand, and cartilaginous ganoids and bony fish, on the other hand. Incomplete deoxygenation of the piked dogfish oxyhemoglobin appears to be due to the presence of two hemoglobin fractions with different values of the Bohr effect.Translated from Zhurnal Evolyutsionnoi Biokhimii i Fiziologii, Vol. 41, No. 1, 2005, pp. 29–32.Original Russian Text Copyright © 2005 by Vasilev.     

The purification,characterization and ligand-binding kinetics of hemoglobins from root nodules of the non-leguminous Casuarina glauca — Frankia symbiosis

The presence of a membrane-bound hemoglobin in aqueous extracts of nitrogen-fixing Casuarina root nodules (Davenport, H.E. (1960) Nature 186, 653–654) has been confirmed. By strictly anaerobic grinding and extraction under carbon monoxide, with inclusion of soluble polyvinylpyrrolidone and zwitterionic detergent in extraction buffer, soluble carboxyhemoglobin was obtained. This was purified by anaerobic ‘adsorption’ chromatography on Sephacryl S-200 (Pharmacia) followed by aerobic molecular exclusion chromatography on Sephadex G-75 (Pharmacia) to yield very stable oxyhemoglobin. By preparative-scale isoelectric focusing Casuarina oxyhemoglobin is separable into three major components comprising approx. 20% of applied protein, and very many minor components. Monomeric Casuarina hemoglobin is similar to other plant hemoglobins in respect of molecular weight (≈ 17 500), optical spectra, extremely rapid kinetics of binding to oxygen and carbon monoxide and high oxygen affinity (P₅₀ ≈ 0.074 torr). Hence, it is possible that this protein functions in the Casuarina symbiosis as does leghemoglobin in leguminous nitrogen-fixing symbioses. Western blot analysis showed close immunological relationships between the non-leguminous Casuarina and Parasponia hemoglobins and a weaker relationship between these two proteins and soybean leghemoglobin. It is proposed that these hemoglobins from widely separated plant orders have a common evolutionary origin.     

A model of oxygen exchange between an arteriole or venule and the surrounding tissue

A mathematical model is developed to study the effect of capillary convection on oxygen transport around segments of arterioles and venules that are surrounded by capillaries. These capillaries carry unidirectional flow perpendicular to the vessel. The discrete capillary structure is distributed in a manner determined by the capillary blood flow and capillary density. A nonlinear oxyhemoglobin dissociation curve described by the Hill equation is used in the analysis. Oxygen flux from the vessel is expressed as a relationship between Sherwood and Peclet numbers, as well as other dimensionless combinations involving parameters of the capillary bed. A numerical solution is obtained with a finite difference method. The numerical results obtained within the physiological range of parameters allow the prediction of longitudinal gradients of hemoglobin-oxygen saturation along the arterioles and venules.     

Hemin (Fe(3+))-- and heme (Fe(2+))--smectite conjugates as a model of hemoprotein based on spectrophotometry

Hemin (Fe(3+)) was adsorbed onto synthetic smectite (clay mineral) in acetone to form a hemin-smectite conjugate. The hemin-smectite conjugate became soluble in water to form a transparent colloidal solution with a dark brown color. Its absorption spectrum in water showed a sharp Soret band at 398 nm with the molar extinction coefficient as epsilon(398nm) = 11.6 x 10(4) M(-1) cm(-1), which is in good agreement with epsilon(398nm) = (12.2 +/- 3) x 10(4) M(-1) cm(-1) of monomeric hematin (1). Hemin (Fe(3+))-smectite conjugate had a peroxidase-like activity in the presence of hydrogen peroxide (a hydrogen acceptor) and guaiacol (a hydrogen donor) in aqueous solution and its activity was higher than that of hematin. Hemin (Fe(3+))-smectite conjugate in water was reduced by adding sodium dithionite to form a heme (Fe(2+))-smectite conjugate which is also a transparent colloidal solution in water. Its absorption spectrum in aqueous solution was surprisingly in close agreement with that of oxyhemoglobin. Its peak positions of alpha, beta, and Soret bands were located in only a 9--3 nm shift to shorter wavelengths in comparison with those of oxyhemoglobin. Therefore, heme (Fe(2+))-smectite conjugate was bound to O(2) to form O(2)-heme (Fe(2+))-smectite conjugate. The addition of carbon monoxide, CO, to O(2)-heme (Fe(2+))-smectite conjugate caused the formation of CO-heme (Fe(2+))-smectite conjugate with a similar absorption spectrum of carboxyhemoglobin (HbCO) accompanied by shifting 8--10 nm to shorter wavelength. Therefore, the transformation of O(2)-heme (Fe(2+))-smectite conjugate to CO-heme (Fe(2+))-smectite conjugate was accompanied by shifting of 7, 4, and 3 nm to shorter wavelengths in the alpha, beta, and Soret bands respectively, which are similar to the spectral change from oxyhemoglobin to carboxyhemoglobin. Also the ratio (1:1.6) of the molar extinction coefficient of Soret band of O(2)-heme (Fe(2+))-smectite conjugate and CO-heme (Fe(2+))-smectite conjugate was surprisingly agreement with ratio (1:1.5) of oxyhemoglobin and carboxyhemoglobin. The phenomenon shown above was unexpectedly found during the course of study of bioconjugate of a bioactive substance, hemin (Fe(3+)) or heme (Fe(2+)), and a clay mineral, smectite, in place of the protein of globin in hemoglobin.     

The binding of chloride ions to ligated and unligated human hemoglobin and its influence on the Bohr effect.

The contribution of the interaction of chloride ions with deoxy and oxyhemoglobin to the Bohr effect can be described by a simple binding model. Applying this model to experiment data reveals that at physiological pH and ionic strength about half of the release of Bohr protons is due to a difference in chloride ion binding to deoxy- and oxyhemoglobin. The chloride-independent part of the Bohr effect corresponds with the shift in pK which His-146 beta shows upon oxygenation. The proton absorptioon by hemoglobin observed upon oxygenation below pH 6 is apparently due to a chloride-ion-induced proton uptake, which is larger for oxyhemoglobin than for deoxyhemoglobin. The analysis of the experimental data indicates the existence of only two oxygen-linked chloride ion binding sites in both deoxy and oxyhemoglobin. In deoxyhemoglobin the binding sites most likely consist of Val-1 alpha of one chain and Arg-141 alpha of the partner chain. The sites in oxyhemoglobin consist of groups with a pK value in the neutral pH range; they do not contain lysyl or arginyl residues.     

Spectrophotometry of Hemoglobin: Absorption Spectra of Bovine Oxyhemoglobin, Deoxyhemoglobin, Carboxyhemoglobin, and Methemoglobin

The absorptivity at 540 nm of bovine hemiglobincyanide (cyanmethemoglobin) was determined on the basis of the iron content and found to be equal to the established value for human hemiglobincyanide (11.0 L · mmol⁻¹ · cm⁻¹). On this basis the absorption spectra of the common derivatives were determined for bovine hemoglobin. There proved to be only slight differences in the oxyhemoglobin, deoxyhemoglobin, and carboxyhemoglobin spectra between bovine and human hemoglobin. For comparison of the methemoglobin spectra a new series of measurements was made for human hemoglobin. As also found in the rat, the methemoglobin spectrum of bovine blood differed considerably from that in the human. These differences should be taken into account in multicomponent analysis.