Clinicohematologic effects of hemoglobin Altdorf (alpha 2 beta 2 135 Ala replaced by Pro)

Hb Altdorf alpha 2 beta 2 135 Ala leads to Pro is an unstable variant occurring near Lecce in Italy. The abnormal hemoglobin does not separate from Hb A in the electrophoresis. In vitro a marked Heinz body formation is produced with phenylhydrazin. In heterozygous individuals an almost compensated hemolysis and a slight splenomegaly are found. Hemolysis can be aggravated by exogenous factors. A rather severe hemolysis was induced by a viral infection in a 3 years old girl.     

Hemoglobin Wood beta97(FG4) His replaced by Leu. A new high-oxygen-affinity hemoglobin associated with familial erythrocytosis.

The characterization of hemoglobin Wood (beta97(FG4) His replaced by Leu), a high oxygen affinity hemoglobin with reduced Hill constant is described. The amino acid substitution occurs at the alpha1beta2 interface, in the same position as in hemoglobin Malm? (beta97(FG4) His replaced by Gln) and in an homologous position when compared with hemoglobins Chesapeake (alpha92(FG4) Arg replaced by Leu) and J. Capetown (alpha92(fg4) arg replaced by Gln).     

Properties of hemoglobin A and hemoglobin Zurich (beta63 histidine replaced by arginine): quantitative evaluation of functional abnormalities in hemoglobins.

The abnormal hemoglobin Zurich (β₆₃ his→arg) exhibits abnormal properties. Thus, ν_CO occurs at 1951 cm^?1 for HbACO while HbZCO shows bands at 1950 cm^?1 and 1958 cm^?1 for CO bound in α and β chains respectively (the βCOs are displaced less readily by O₂). Acid catalyzed reductive displacement of superoxide by azide is slower on the β chain of HbZO₂ than on the α chain under conditions where with HbAO₂ both chains appear equally reactive. The one electron donor hydroquinone produces metHb and peroxide more rapidly from HbZO₂ than from HbAO₂. These property differences can be related to the β₆₃ residue. Such studies provide generally useful probes of the structural basis for hemoglobin diseases.     

A new hemoglobin variant. HB Yatsushiro alpha 2 A beta 2 60 Val replaced by Leu

This study was performed to establish the structural abnormality of a new hemoglobin variant discover-d in a Japanese patient with angina pectoris. The hybridization of the separated hemoglobin with canine hemoglobin revealed a beta-chain anomaly. Peptide betaTp-6 was found to be abnormally located on the peptide map of tryptic digests of the S-carboxymethylated beta-chain from the variant hemoglobin. A structural study on the abnormal betaTp-6 revealed that the variant hemoglobin differs from hemoglobin A by substitution of leucine for valine at residue 60 of the beta-chain. This new variant hemoglobin is designated as hemoglobin Yatsushiro after the name of the city where the propositus lived. The patient is hematologically healthy and his clinical history has nothing to do with this abnormal hemoglobin.     

Structure of deoxy hemoglobin C (beta six Glu replaced by Lys) in two crystal forms

Five crystal forms of the abnormal human hemoglobin Hb³ C (beta six Glu → Lys) have been grown. Two of them are grown with liganded Hb C, three with deoxy Hb C. The structures of two of the deoxy crystal forms were determined by the method of molecular replacement, using deoxy Hb A as the model structure. Fourier maps were calculated for each Hb C structure, using data to a resolution of 5 Å in one case and 4 Å in the second case. The structural differences between each deoxy Hb C structure and the deoxy Hb A model are found mostly at the molecular surface. Energetically favorable interactions involving the variant residue, beta six lysine, occur in both Hb C crystal forms, and could explain the lowered solubility and enhanced tendency of deoxy Hb C to crystallize in vivo.     

Hemoglobin-Strumica or alpha 2 112(G19) His replaced by Arg beta 2. (With an addendum: hemoglobin-J-Paris-I, alpha 2 12(A10) Ala replaced by Asp beta 2, in the same population).

Hemoglobin-Strumica has been observed in five members of a Macedonian family. Histidyl residue in position 112 of the alpha chain of this variant is replaced by an arginyl residue. Two other variants (hemoglobin-Dakar and hemoglobin-Hopkins-2) in which this histidyl residue has been replaced by a glutaminyl and by an aspartyl residue, respectively, have been described (Rosa et al. (1968) 12 thCongr. Int. Soc. Haematol. New York, abstract, p. 73 and Charache, S. and Osterag, W. (1970) Bloodt 36, 852). The hemoglobin-Strumica heterozygotes have minimal hematological changes although this may not necessarily be associated with the hemoglobinopathy. Subjects heterozygous for hemoglobin-Dakar have a mild hemolytic anemia and hemoglobin-Hopkins-2 heterozygotes exhibit minimal hematological changes.     

Proton nuclear magnetic resonance studies of hemoglobins Osler (beta145HC2 Tyr replaced by Asp) and McKee Rocks (beta145HC2 Tyr replaced by term): an assignment for an important tertiary structural probe in hemoglobin

High-resolution proton nuclear magnetic resonance studies of deoxyhemoglobins Osler (beta145HC2 Tyr replaced by Asp) and McKees Rocks (beta 145HC2 Tyr replaced by term) indicate that these hemoglobins are predominately in the oxy quaternary structure in 0.1 M [bis(2-hydroxyethyl)imino]-tris(hydroxymethyl) methane buffer at pH 7. Upon the addition of inositol hexaphosphate, the proton nuclear magnetic resonance spectra of these hemoglobins become similar to those characteristic of a hemoglobin molecule in the deoxy quaternary structure. The exchangeable proton resonance which is found at -6.4 ppm from H2O in the spectrum of normal human adult deoxyhemoglobin is absent in the spectra of these two mutant hemoglobins. Consequently we believe the hydrogen bond between the hydroxyl group of tyrosine-beta145HC2 and the carboxyl oxygen of valine-beta98FG5 gives rise to this resonance. This assignment allows us to use the -6.4ppm resonance as an important tertiary structural probe in the investigation of the cooperative oxygenation of hemoglobin.     

Some physicochemical properties of hemoglobin-manitoba (alpha2 102Ser replaced by Arg (G9) beta2).

Hb-Manitoba was discovered in 1970 [1] in a Canadian family of British origin. Recently we observed the same variant in a second family, and found that the oxy-derivative of Hb-Manitoba is slightly unstable at 65 degrees C, dissociates less readily at alkaline pH than does Hb-A, and forms asymmetric hybrids with other hemoglobins which are readily detectable by electrophoresis.     

Increased oxygen affinity for hemoglobin Sawara: alphaA4(6) aspartic acid replaced by alanine.

The oxygen binding property of Hb Sawara (alphaA4 Asp replaced by Ala) was studied at different pH values with and without addition of 2,3-diphosphoglycerate. The oxygen affinity of Hb Sawara was shown to be increased, the difference of the log P50 value between normal and abnormal hemoglobins being 0.37 at pH 7.0. Both the magnitude of the alkaline Bohr effect and the effect of 2,3-diphosphoglycerate upon oxygen affinity of Hb Sawara were comparable to those of Hb A. The amino acid substitution of alanine for alphaA4 aspartic acid might result in the loss of a stabilizing force for ionic interaction between the alpha-amino group of NA (1)alpha1 valine and the alpha-carboxyl of HC3(141)alpha2 arginine in the deoxy-form.     

G(i) protein-mediated functional compartmentalization of cardiac beta(2)-adrenergic signaling.

In contrast to beta(1)-adrenoreceptor (beta(1)-AR) signaling, beta(2)-AR stimulation in cardiomyocytes augments L-type Ca(2+) current in a cAMP-dependent protein kinase (PKA)-dependent manner but fails to phosphorylate phospholamban, indicating that the beta(2)-AR-induced cAMP/PKA signaling is highly localized. Here we show that inhibition of G(i) proteins with pertussis toxin (PTX) permits a full phospholamban phosphorylation and a de novo relaxant effect following beta(2)-AR stimulation, converting the localized beta(2)-AR signaling to a global signaling mode similar to that of beta(1)-AR. Thus, beta(2)-AR-mediated G(i) activation constricts the cAMP signaling to the sarcolemma. PTX treatment did not significantly affect the beta(2)-AR-stimulated PKA activation. Similar to G(i) inhibition, a protein phosphatase inhibitor, calyculin A (3 x 10(-8) M), selectively enhanced the beta(2)-AR but not beta(1)-AR-mediated contractile response. Furthermore, PTX and calyculin A treatment had a non-additive potentiating effect on the beta(2)-AR-mediated positive inotropic response. These results suggest that the interaction of the beta(2)-AR-coupled G(i) and G(s) signaling affects the local balance of protein kinase and phosphatase activities. Thus, the additional coupling of beta(2)-AR to G(i) proteins is a key factor causing the compartmentalization of beta(2)-AR-induced cAMP signaling.     

Conformation in solution of hemoglobin Osler (alpha 2 A beta 2 145 Tyr replaced by Asp).

Computer simulations of Gelin and Karplus ((1977) Proc. Natl. Acad. Sci. U.S.A. 74, 801-805) suggest that in hemoglobin upon ligation the penultimate tyrosyl residues of the subunits are not expelled from the hydrophobic pockets described in the crystals between the helices E and F (Perutz, M.F. (1970) Nature 228, 726-737). This implies that both the liganded and unliganded conformations of hemoglobin may be affected by mutations involving such residues. Investigation of the conformational behavior of liganded and unliganded hemoglobin Osler was conducted measuring the functional properties, the subunits dissociation, the CD and electronic spectra, the protons absorption upon interaction with polyanions, and the reactivity of the -SH groups of the protein. The results suggest that both the liganded and unliganded conformations of the system are affected by the mutation, confirming the anticipations of Gelin and Karplus on the relevance of tyrosine at beta 145 for both allosteric states of hemoglobin.     

Hemoglobin New Mexico: beta 100 (G2) Pro----Arg. A variant hemoglobin associated with erythrocytosis

Hemoglobin New Mexico beta 100 Pro----Arg was found in a 4-year-old black male and represents a new mutation. The propositus is also heterozygous for Hb S. The variant shows high oxygen affinity, reduced cooperatively, and a lowered alkaline Bohr effect. Addition of allosteric effectors leads to improved cooperativity and a Bohr effect that is similar to that of Hb A. The high percentage of the variant (53.5%) and its increased oxygen affinity result in erythrocytosis in this patient. The hemoglobin level and packed cell volume values are elevated. In spite of these factors the patient appears healthy and shows no discomfort. The altered oxygen-linked properties of this variant can be related to the fact that the substituted residue contributes to the alpha 2 beta 1/alpha 1 beta 2 subunit interface, an area that is critical not only to the allosteric transitions between the oxy and deoxy states but also to stabilizing the hemoglobin tetrameer.     

Hemoglobin Fannin-Lubbock [alpha2 beta 2 119 (GH2) Gly replaced by Asp]. A new hemoglobin variant at the alpha1 beta 1 contact.

Hemoglobin Fannin-Lubbock was found in a 9-year-old Mexican-American female. The abnormal hemoglobin was detected as a fast-moving variant by electrophoresis on cellulose acetate at pH 8.4. Structural analysis indicated a substitution in the beta-chain of aspartic acid for glycine at position 119, a position involved in the alpha1beta1 contact of the hemoglobin tetramer. This contact between unlike chains is larger and undergoes a smaller shift during the process of oxygenation and deoxygenation that the alpha1beta2 contact (Perutz, M.F., Muirhead, H., Cox, J.M. and Goaman, L.C.G. (1968) Nature 219, 131-139). Mutations in this contact tend to cause slight or no changes in functional behavior. Apart from a mild anemia, the propositus did not exhibit any obvious clinical symptoms.     

The structure of hemoglobin Creteil (beta 89 Ser replaced by Asn) is similar to that of abnormal human hemoglobins having sequence changes at Tyr 145 beta

In normal deoxyhemoglobin A, the beta chain COOH-terminal peptide adopts a well ordered structure which is needed for the full expression of allosteric action. Our crystallographic studies of deoxyhemoglobin Creteil (beta 89 Ser replaced by Asn), a variant hemoglobin characterized by high oxygen affinity and a very low level of allosteric function, show that replacement of Ser 89 beta by asparagine causes severe disordering of the beta chain COOH-terminal tetrapeptide. This results, as shown by our spectroscopic studies, in the destabilization of the quaternary structure of deoxyhemoglobin Creteil. We find, furthermore, that the changes in tertiary structure observed in deoxyhemoglobin Creteil are common to other variant hemoglobins having similar functional abnormalities but very different changes in primary structure. In particular, direct comparison of the difference electron density map of deoxyhemoglobin Creteil with that of deoxyhemoglobin Nancy (beta 145 Tyr replaced by Asp) suggests that these two abnormal hemoglobins may have the same mechanism of dysfunction despite the very different nature of their respective sequence changes.