A fetal-maternal shift in the oxygen equilibrium of hemoglobin from the viviparous caecilian,Typhlonectes compressicauda

• 1. The equilibria and kinetics of oxygen binding by blood and hemoglobin from adult and fetal caecilians,Typhlonectes compressicauda, have been measured.
• 2. The oxygen affinity of fetal blood is higher than that of adult blood.
• 3. Electrophoresis of adult and fetal hemoglobins suggests that they may be identical: a major and minor component occurs in each.
• 4. Adult and fetal hemoglobins have identical oxygen equilibria. Stripped hemoglobins have a high oxygen affinity and no Bohr effect between pH 6.5 and 10.0. An “acid”, reversed Bohr effect is present below pH 6.5. The addition of 1 mM ATP reduces the oxygen affinity markedly and produces a moderate, normal Bohr effect.
• 5. The major nucleoside triphosphate in fetal and adult erythrocytes is adenosine triphosphate: about 10% of the nucleoside triphosphates is guanosine triphosphate. Adult erythrocytes contain 3 times as much ATP as do the fetal erythrocytes.
• 6. The fetal to maternal shift in the oxygen equilibrium is mediated entirely by the difference in ATP content of the maternal and fetal red blood cells.

     

Studies of the functional properties of the hemoglobins ofHoplias malabaricus andHoplerythrinus unitaeniatus

• 1. Hemolysates fromHoplias malabaricus andHoplerythrinus unitaeniatus show blurred hemoglobin patterns with three and four bands, respectively, by alkaline disc gel electrophoresis.
• 2. The oxygen affinity of the stripped hemoglobin fromHoplerythrinus is about a third of that fromHoplias; theP₅₀ value ofHoplias Hb is about 1.3 mm Hg (pH 6.9 and 20°C). The addition of 1 mM ATP lowers the oxygen affinity of each hemoglobin 2.6-fold.
• 3. Both hemoglobins show Root and Bohr effects;Δlog P₅₀ΔpH= −0.40 for a stripped hemoglobins for the interval pH 7–8.
• 4. The rate of dissociation of oxygen from each hemoglobin is similar and is kinetically homogeneous with rate constants decreasing from 200–250/sec at pH 6.2 to about 25–26 at pH 7.7 with or without 1 mM ATP.
• 5. The CO combination reaction forHoplias hemoglobin is kinetically heterogeneous at all pH values and forHoplerythrinus hemoglobin below pH 7.5. The fast and slow phases each account for about half the observed reaction. The kinetic heterogeneity is maximal at low pH for both hemoglobins. The fast phase forHoplias hemoglobin is more than twice as fast as that forHoplerythrinus hemoglobins.

     

The isolation and characterization of the hemoglobin ofBrachyplatystoma sp.: A tropical catfish

• 1. The single hemoglobin component ofBrachyplatystoma sp. has been isolated. The CO-hemoglobin has an apparent molecular weight of 69,000 as determined by gel filtration.
• 2. The hemoglobin displays both acid and alkaline Bohr effects, as organic phosphate effect and no Root effect. The whole bloodp_1/2 for oxygen shifts from 10.7 mm Hg in air equilibrated solutions to 25.1 mm Hg after the addition of 5.6% CO₂ to the equilibration gas. Thep_1/2 of purified hemoglobin varies from 0.3 mm Hg at pH 8.4 to 4.5 mm Hg at pH 5.9. The Bohr effect measured for stripped hemoglobin between pH 8.0 and 7.0 isΔlog p_1/2/ΔpH= −0.23. Additions of 1 mM ATP induce a shift in the Bohr effect toΔlog p_1/2/ΔpH= −0.58 over the same pH range.
• 3. Then value of stripped hemoglobin solutions varies from 1 at pH 5.9 to 1.7 at pH 7.0. Additions of 1 mM ATP shift the variation inn to higher pH values, and cause an increase in then value (n = 2 at pH 7.4).
• 4. The kinetics of carbon monoxide binding and oxygen dissociation are pH dependent. The CO_on rate becomes autocatalytic as the pH is lowered, indicating positive subunit interactions. The O_2off rate was homogeneous at all pH values.
• 5. The Bohr effects ofBrachyplatystoma hemoglobin and other pimelodid hemoglobins are greater than those determined for the unfractionated hemoglobins of more sedentary species from other catfish families such as the Loricariidae and Callichthyidae.

     

The hemoglobin ofpseudodoras,a South American catfish: Isolation,characterization and ligand binding studies

• 1. The hemoglobin of the Amazonian catfishPseudodoras sp. was isolated and characterized; it comprises a single component.
• 2. The hemoglobin's subunit composition is similar to that of other teleost hemoglobins. The apparent native molecular weight as determined by gel filtration is 66,000. The apparent subunit molecular weight is 14,300 by sodium dodecyl sulfate electrophoresis. The hemoglobin does not polymerize after oxidation by potassium ferricyanide.
• 3. The hemoglobin lacks a Root effect. A small Bohr effect is evident in the phosphate-free hemoglobin:Δlog p_1/2/ΔpH is no more than about −0.1 to −0.2 and increases toΔlog p_1/2/ΔpH = −0.4 in the presence of 1 mM ATP. The cooperativity, as determined byn of the Hill equation, is low, varying from 0.8 to 1.7 between pH 6.1 and 8.6.
• 4. Thep_1/2 values of stripped hemoglobin solutions are extremely low, less than 0.5 mm Hg at all pH values examined between pH 6.1 and 9.0. The high oxygen affinity is reflected primarily in the CO combination rate which resembles that found in myoglobins and isolated subunits of human hemoglobin.
• 5. Both the CO combination rate and the O₂ dissociation rate determined by stopped-flow spectrophotometry are pH and phosphate sensitive. Between pH 6.2 and 8.1 the CO_on rate increases about 5-fold in the phosphate-free hemoglobin. Addition of 1 mM ATP causes a depression in the rate at all pH values examined. The O_2off rate decreases 7-fold going from pH 6.0 to 8.2 in stripped hemoglobin solutions. Addition of 1 mM ATP induces a 10-fold decrease over the same range. At pH values below 6.0 a depression in the O_2off rate occurs in the stripped hemoglobin, indicative of an acid Bohr effect.

     

Oxygen binding of intact coelomic cells and extracted hemoglobin of the echiuran Urechis caupo

• 1.1. The oxygen affinity of Urechis caupo coelomic cells is the same in normoxic and in hypoxic animals. There is no Bohr effect between pH 6.8 and 8.0.
• 2.2. The oxygen affinity of intact coelomic cells is the same as that of extracted, stripped hemoglobin. The oxygen binding properties of stripped hemoglobin are not affected by 1 mM ATP, IMP, or hydrogen ions between pH 6.8 and 8.0, nor do they clearly show cooperativity. The heat of oxygenation. ΔH, = −13.1 kcal/mol between 10 and 25 C.
• 3.3. Although U. caupo coelomic cell hemoglobin is tetrameric and intracellular, it apparently exhibits neither heterotropic nor homotropic interactions.

     

The effect of temperature on oxygen equilibrium curves of trout blood (Salmo gairdnerii)

• 1.1. Oxygen equilibrium curves were measured on trout red blood cell suspensions at pH 7.8 and 8.4 at 15, 20 and 25 C. Normal red cells and red cells that had been depleted of their ATP content were used.
• 2.2. The equilibrium data were fitted to the Adair's model and the enthalpy (ΔH) and entropy (ΔS) changes for the first and fourth steps of oxygenation and for overall oxygenation were calculated from the temperature dependencies of the Adair constants.
• 3.3. For normal red blood cells, the apparent heat for the first oxygenation step, δh₁, is close to zero.
• 4.4. Temperature insensitivity of this step at physiological pH, combined with a large pH dependence, probably denotes a property of Hb4, the Root effect Hb of trout blood.
• 5.5. At pH 7.8, ΔH₄ is about —4kcal/mol, a small value which may be attributed to the large release of Bohr protons that occurs at the last oxygenation step and corresponds to an endothermic process which opposes to the exothermic oxygenation of the haem.
• 6.6. The ΔH₄ value appears to have a large influence on the enthalpy for overall oxygenation.
• 7.7. Results for ATP-free red cells are consistent with a mere increase in the intracellular pH and suggest that ATP has no specific effect at and above pH_i ~ 7.7.
• 8.8. Effects of temperature and pH on trout red blood cell isotherms emphasize the primary importance of the major component of trout blood, namely Hb4, in trout blood functional properties.

     

Functional properties of the two major hemoglobin components from Leporinus friderici (Pisces)

• 1.1. The hemoglobins of Leporinus friderici were separated by liquid chromatography on DEAE-Sepharose in order to isolate the two major electrophoretic components.
• 2.2. The chromatographic fraction I (electrophoretically slow anodic) showed no Bohr effect and no nucleoside triphosphate modulation.
• 3.3. The chromatographic fraction III (electrophoretically fast anodic) showed a normal Bohr effect and addition of nucleoside triphosphate decreased oxygen affinity but did not alter the Bohr effect.
• 4.4. The whole hemolysate showed a normal Bohr effect and phosphate modulation altered both Bohr effect and oxygen affinity.
• 5.5. No or little difference between the effect of adenosine or guanosine triphosphates on hemoglobin function was observed.

     

Respiration in the eastern water dragon,Physignathus lesueurii (agamidae)

• 1.1. Some aspects of the gas exchange system of a diving lizard, Physignathus lesuewii were studied.
• 2.2. Breathing patterns were analysed.
• 3.3. Breathing rate increases logarithmically with temperature and Q₁₀ = 1.8. LogBR = −0.237 + 0.0256 T.
• 4.4. Gas tensions in lung air and arterial and venous blood were measured. Arterial pH declines with increasing temperature.
• 5.5. Temperature has a marked effect on oxygen affinity of the blood (ΔH = −10.1 kcal mol⁻). A Bohr effect was also noted.
• 6.6. CO₂ equilibrium curves were drawn.
• 7.7. The results are considered with a view to anticipating the efficiency of the gas exchange system of this species under conditions of variable temperature and during diving.

     

Functional studies on the single component hemoglobin from an Amazon knife fish,Sternopygus macrurus

• 1. The whole blood of the non-air-breathing gymnotid teleost,Sternopygus macrurus, is half-saturated with oxygen at 5.2 mm Hg (apparent value) at 30°C in the absence of CO₂. Addition of 5.6% CO₂ causes the apparentP₅₀ value to increase over 3-fold.
• 2. The oxygen affinity of the stripped single-component hemoglobin at 20°C increases about 20-fold between pH 5.8 and 8.6 in the absence of ATP. This difference increases to 100-fold in the presence of 1 mM ATP.
• 3. A substantial Root effect is present: the stripped hemoglobin is only 70% saturated with O₂ at pH less than 6 when equilibrated with air.
• 4. The value of the Hill coefficient,n, is maximal near pH 7.0–7.5, and approaches 1.0 at high pH. The value is about 1.5 at low pH in the absence of ATP and 1.0 in the presence of 1 mM ATP.
• 5. The O₂ dissociation kinetics are heterogeneous at all pH values but most heterogeneous at low pH. The rate increases substantially as the pH decreases.
• 6. The CO combination kinetics as measured by the stopped flow technique are largely homogeneous except at high pH, but the CO combination kinetics after flash photolysis are markedly heterogeneous.

     

Adaptative features of amazon fishes: Hemoglobins,hematology, intraerythrocytic phosphates and whole blood Bohr effect of Pterygoplichthys multiradiatus (Siluriformes)

• 1.1. Hemoglobin, hematological parameters, intraerythrocytic phosphates and whole blood Bohr effect of Pterygoplichthys multiradiatus, from the Amazon river, were studied in three different conditions: in their natural environment, acclimated to normoxia and acclimated hypoxia conditions.
• 2.2. Nine anodal hemoglobin fractions were detected on starch gel electrophoresis. No qualitative differences in the Hb electrophoretic patterns were detected in the three studied groups.
• 3.3. Hematocrit, hemoglobin concentration, MCV, MCHC and MCH were different among studied conditions.
• 4.4. GTP was almost absent in the blood of animals in natural conditions and acclimated to hypoxia, but was present at a concentration similar to ATP in normoxic acclimated animals.
• 5.5. There is a tendency for higher Hb-O₂ affinity for hypoxic acclimated/acclimatized animals.

     

Oxygenation characteristics of the polymorphic hemoglobins of coho salmon (Oncorhynchus kisutch) at different developmental stages

• 1.1. The oxygen equilibria of the multiple hemoglobin of the fry and adult life stages of coho salmon (Oncorhynchus kisutch) were investigated. Components A 6–8 comprise 50–55% and >95% of the total hemoglobins of coho adults and fry respectively.
• 2.2. Fry hemoglobins exhibited a high oxygen affinity (P₅₀ = 3.9 mm Hg at 9.8°C, pH 8.5), a very large Bohr shift (ø = Δlog ₅₀/ΔpH = −1.729 at pH 7.1–7.5) which was non-linear in the pH range 6.8–8.5 and a large heat of oxygenation (ΔH = −20.8 kcal/mol).
• 3.3. Adult hemoglobins, however, exhibited a moderate oxygen affinity (P₅₀ = 14.0 mm Hg at 9.8°C, pH 8.2), a very small linear Bohr shift (ø = −0.172 at pH 7.0 −8.2) and a low heat of oxygenation (ΔH = −5.6- −7.5kcal/mol). Adenosine triphosphate had only minor influence on the oxygenation characteristics of adult heolyzates.
• 4.4. The results are discussed in terms of functional adaptation to environmental stresses and metabolic requirements.

     

Seasonal adaptations in oxygen transport in brown trout Salmo trutta fario

• 1.1. Blood parameters determining oxygen capacity and oxygen affinity were measured in brown trout at different times of the year.
• 2.2. Haematological data indicate a slight decrease in blood oxygen capacity during the warm seasons. 3. Oxygen affinity increases significantly during summer and decreases in winter.
• 3.4. The changes in P₅₀ exhibited a positive correlation with the amount of anodic haemoglobin components, and a negative correlation with the amount of cathodic haemoglobin components.
• 4.5. The changes observed in the [ATP]/[Hb] molar ratio were not correlated with oxygen affinity and gave values near one.
• 5.6. We conclude that the oxygen affinity increase could be a physiological adaptation to oxygen transport during the wanner period. A possible mechanism is discussed.

     

Equilibria and kinetics of oxygen and carbon monoxide binding to the haemoglobin of the teleostSynbranchus marmoratus

• 1. The haemoglobins of the air-breathing fishSynbranchus marmoratus have multiple components and demonstrate polymorphism.
• 2. The equilibrium of oxygen with whole cell and isolated haemoglobin has been compared. There is a considerable alkaline Bohr effect and this is more marked in stripped haemoglobin to which 1 mM ATP has been added.
• 3. The kinetics of oxygen dissociation from oxyhaemoglobin and of carbon monoxide combination to deoxyhaemoglobin have been studied, and show surprisingly uniform kinetic time courses for a system composed of multiple components.
• 4. These findings are discussed within the framework of the requirements of the animal in its mixed aerial-aquatic environment.

     

Respiratory properties of blood and hemoglobin solutions from the piranha

• 1. Respiratory properties of piranha blood are distinguished from those of other fish primarily by the high CO₂ buffering capacity (ΔHCO₃/⁻ΔpH= 19.6mmol/l for oxygenated blood and 39.1 mmol/l for deoxygenated blood).
• 2. The concentration of nucleoside triphosphates (NTP) and the half-saturation tension (P₅₀) of whole blood were found to be inversely related to body size.
• 3. The higherP₅₀ in smaller fish, analogous to values obtained in previous studies involving interspecies comparisons, could be adaptive to a higher weight-specific metabolic rate.
• 4. Both ATP and guanosine triphosphate (GTP) lowered the oxygen affinity of purified hemoglobin solutions, accounting for the size-dependent correlation ofP₅₀ and NTP concentration in whole blood.
• 5. While similar in concentration in red cells, GTP is more potent than ATP as an allosteric modifier of hemoglobin function.

     

O2-binding by the blood of the landhopper,Arcitalitrus dorrieni (Hunt) (Crustacea: Amphipoda)

• 1.1. The O₂-binding characteristics of the blood of the euterrestrial amphipod (landhopper) Arcitalitrus dorrieni have been studied.
• 2.2. The blood exhibited a low O₂ affinity, with a p₅₀ (at pH = 7.8) of 21.4 torr (10°C). Affinity decreased with an increase in temperature at constant pH (ΔH = − 79.4kJ/mol) but the Bohr factor (ΔlogP₅₀/Δ pH = −0.67) was unaffected.
• 3.3. The O₂-carrying capacity of the blood was moderate (1.51 ml/100 ml)
• 4.4. The results support the hypothesis that the blood of terrestrial amphipods is characterized by having a low affinity pigment.

     

Functional properties of hemoglobin and whole blood in an aquatic mammal,the Amazonian manatee (Trichechus inunguis)

• 1. Hematocrit (43%) and O₂ binding capacity (18.8 ml O₂/100 ml blood) ofTrichechus inunguis blood are low compared to the values for other diving mammals but are similar to those for land mammals.
• 2. Stripped manatee Hb is similar to human Hb A in its sensitivity to pH, 2,3-diphosphoglycerate and CO₂, but less sensitive to temperature and more prone to dissociate into dimers.
• 3. The unique Hill plots exhibit no cooperativity below 30% O₂-saturation indicating a highly stabilized T or low-affinity state(s); such asymmetric Hill plots together with biphasic O₂-binding kinetics could mean chain heterogeneity.
• 4. The pH dependence of oxygen binding by the apparent T state, hemoglobin as seen in the Hill plots, is enhanced by 2,3-diphosphoglycerate but eliminated by CO₂.

     

Effects of erythrocytic nucleoside triphosphates on oxygen equilibria of composite and fractionated hemoglobins from the facultative air-breathing amazonian catfish,Hypostomus andPterygoplichthys

• 1. Oxygen equilibria ofHypostomus andPterygoplichthys hemoglobins and their sensitivities to the erythrocytic nucleotide triphosphates (NTP), ATP and guanosine triphosphate (GTP) are studied to investigate the mechanisms by which blood adapts to air- and water-breathing (cf. Weberet al., 1979).
• 2. Hemoglobins of both species are heterogeneous. All hemoglobin fractions isolated by iso-electric focusing reveal a high sensitivity to NTP, but GTP depresses O₂ affinity about twice as effectively as ATP. A cathodal hemoglobin component with a reversed Bohr effect was found inPterygoplichthys but not inHypostomus.
• 3. The data are discussed in relation to thein vivo cofactor modulation of blood O₂ affinity and the adaptive significance of functional heterogeneity of fish hemoglobins.

     

Comparative study of hemoglobins from different Artemia populations. The influence of temperature on the oxygen equilibria

• 1.1. The P50 values of extracellular hemoglobin (Hb) of five Artemia populations from different geographical origin are affected by temperature.
• 2.2. The free oxygen binding energy is high for all the populations (ΔH between −34.7 and −56.2kj/mol).
• 3.3. A possible correlation between thermal sensitivity of Hb and the ambient temperature of the habitat must be considered very carefully.
• 4.4. The occurence of different quantities of Hb1 (αα chains) Hb2 (αβ chains) and Hb3 (ββ chains) in the different populations possibly influences thermal sensitivity.

     

Equilibria and kinetic of oxygen and carbon monoxide binding to the haemoglobin of the South American lungfish,Lepidosiren paradoxa

• 1. The haemoglobin of the South American lungfishLepidosiren paradoxa has a single component.
• 2. The equilibria of this respiratory protein with oxygen have been investigated both in the blood and with the purified haemoglobin. There is a substantial, normal, alkaline Bohr effect and marked sensitivity to organic phosphates in the haemoglobin solutions.
• 3. Studies on the pH dependence of the kinetics of oxygen dissociation can be interpreted in terms of a normal Bohr effect.
• 4. The kinetics of combination of carbon monoxide have an unusual pH dependence.
• 5. These findings are discussed in terms of the two-state model of Monodet al. (1965)

     

Phosphofructokinase from the anterior byssus retractor muscle of Mytilvs edulis: Modification of the enzyme in anoxia and by endogenous protein kinases

• 1.1. Anoxia exposure resulted in a stable modification of the kinetic properties of 6-phosphofructo-1-kinase (PFK) from the anterior byssus retractor muscle (ABRM) of the sea mussel Mytilus edulis L.
• 2.2. Compared to the aerobic enzyme, the anoxic form of PFK. showed a reduced affinity for both substrates, fructose-6-phosphate (F6P) and ATP, and an increased sensitivity to inhibition by phosphoenolpyruvate.
• 3.3. To analyze the involvement of protein kinases in the modification of PFK, extracts from aerobic or anoxic muscle were incubated with ATP and Mg²⁺ plus protein kinase second messengers cyclic 3',5'-adenosine monophosphate (cAMP), cyclic 3',5'-guanosine monophosphate (cGMP) or Ca²⁺ plus phorbol 12-myristate 13-acetate (PMA).
• 4.4. Both forms of the enzyme responded to the presence of cAMP with a strong increase in affinity for F6P.
• 5.5. In response to cGMP affinity of the aerobic enzyme for F6P decreased whereas that of the anoxic enzyme form was not affected (at 0.5 mM ATP) or increased (at 3 mM ATP).
• 6.6. Incubation with Ca²⁺ + PMA had only a limited effect on PFK kinetics but appeared to enhance the response to cGMP when the three compounds were given together.
• 7.7. Treatment of PFK-aerobic with alkaline phosphatase resulted in a strong decrease in enzyme activity and affinity for F6P; subsequent treatment with cAMP reversed the effect on S_0.5 F6P.
• 8.8. The data indicate that PFK activity is altered during the aerobic-anaerobic transition by a change in the phosphorylation state of the enzyme and that cAMP and cGMP act oppositely to regulate PFK activity, and thereby alter glycolytic rate, during this transition.