Auto-oxidation of hemoglobin in plasma

Summary The rate of auto-oxidation of human hemoglobin to methemoglobin was measured in plasma at 37°C. Halflives of hemoglobin were found to be 20 h, 12 h and 7 h at the oxygen tensions of 126, 57 and 23 mm Hg, respectively.     

Hemoglobin catabolism and the killing of intraerythrocytic<Emphasis Type="Italic">Plasmodium falciparum</Emphasis> by chloroquine

To evaluate how chloroquine kills malaria parasites, hemoglobin catabolism was studied at the various stages of intraerythrocytic parasite development. We found that hemoglobin catabolism is switched off whenPlasmodium falciparum parasites mature to the late trophozoite or early schizont stages and is switched on again during the ring stage. When hemoglobin catabolism is switched off, the parasites are resistant to the morphologic effects of chloroquine. Although the ring stage parasites failed to mature in the presence of chloroquine, some of them switched on hemoglobin ingestion and became stuffed with hemoglobin-filled vesicles, indicating a distal block in catabolism. In fact, we demonstrated a high-grade block in hemozoin production during a 22 h incubation of synchronized ring forms; ferriprotoporphyrin IX (FP) incorporation into the β-hematin of hemozoin decreased from 900 to 50 pmol/10⁶ parasitized erythrocytes. We propose that the primary effect of chloroquine on hemoglobin catabolism is to block FP polymerization to β-hematin. Secondarily, toxic FP and FP-chloroquine complexes accumulate and are available to exert their several toxicities, which include inhibition of hemoglobindegrading proteases and membrane damage. As a consequence, maturation is arrested and eventually the parasites die and lyse.     

Hemoglobin catabolism and the killing of intraerythrocyticPlasmodium falciparum by chloroquine

To evaluate how chloroquine kills malaria parasites, hemoglobin catabolism was studied at the various stages of intraerythrocytic parasite development. We found that hemoglobin catabolism is switched off whenPlasmodium falciparum parasites mature to the late trophozoite or early schizont stages and is switched on again during the ring stage. When hemoglobin catabolism is switched off, the parasites are resistant to the morphologic effects of chloroquine. Although the ring stage parasites failed to mature in the presence of chloroquine, some of them switched on hemoglobin ingestion and became stuffed with hemoglobin-filled vesicles, indicating a distal block in catabolism. In fact, we demonstrated a high-grade block in hemozoin production during a 22 h incubation of synchronized ring forms; ferriprotoporphyrin IX (FP) incorporation into the -hematin of hemozoin decreased from 900 to 50 pmol/10⁶ parasitized erythrocytes. We propose that the primary effect of chloroquine on hemoglobin catabolism is to block FP polymerization to -hematin. Secondarily, toxic FP and FP-chloroquine complexes accumulate and are available to exert their several toxicities, which include inhibition of hemoglobindegrading proteases and membrane damage. As a consequence, maturation is arrested and eventually the parasites die and lyse.     

Efficient cell proliferation and predominant accumulation of ɛ-globin mRNA in human leukemic K562 cells which produce mostly Hb Gower 1

Summary Long-term cultures of K562(S) cells in 50–75 M hemin allow the selection of hemin-resistant K562 cells together with cells which proliferate efficiently while fully induced to express the human embryonic globin genes, as the hemoglobin Gower 1 (₂₂) is the predominant hemoglobin produced. Our experiments demonstrate that these K562 cells accumulate mostly -globin mRNA (-globin mRNA/-globin mRNA=2.9) suggesting that the control of hemoglobin expression is at a pretranslational level.We thank Dr Irene Bozzoni (Centro degli Acidi Nucleici, Università di Roma) for the pXCR7 probe. Address for reprint request: R.G. Centro Studi Biochimici sul Morbo di Cooley, Via Borsari 46, I-44100 Ferrara.     

Efficient cell proliferation and predominant accumulation of epsilon-globin mRNA in human leukemic K562 cells which produce mostly Hb Gower 1

Long-term cultures of K562(S) cells in 50-75 microM hemin allow the selection of 'hemin-resistant' K562 cells together with cells which proliferate efficiently while fully induced to express the human embryonic globin genes, as the hemoglobin Gower 1 (zeta 2 epsilon 2) is the predominant hemoglobin produced. Our experiments demonstrate that these K562 cells accumulate mostly epsilon-globin mRNA (epsilon-globin mRNA/gamma-globin mRNA = 2.9) suggesting that the control of hemoglobin expression is at a pretranslational level.     

Partielle Sprengung der Erythrocyten

Summary Highly polymerized hyaluronic acid coagulates the hemoglobin of several erythrocytes. The erythrocytes with coagulated hemoglobin do not hemolyze at pH 2 to 3.6, but very soon explode and set free within 1 or 2 sec hundreds of hemoglobin granules. The remaining membranes retain some of the hemoglobin and reveal several splits after the termination of the explosion. Judging from the splits, three layers of erythrocyte-membrane could be surmised. 0,5% tannic acid elicits a similar but less clear-cut phenomenon without a typical explosion.

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Diese Arbeit wurde von der H.-Buss-Stiftung (Basel) unterstützt.     

On the relationship of hemoglobin oxidation with the conformation of hemoglobin

Summary The rate of hemoglobin oxidation by various oxidants was studied under aerobic and anaerobic conditions, and the mechanism of hemoglobin oxidation was discussed in relation to the conformation of hemoglobin.     

Effects of CO2 exposure on distribution of various forms of iron and copper in guinea-pig tissues

The effects on iron and copper distribution and metabolism of exposure to high levels of CO2 were studied in the guinea-pig. Mature, male animals were placed in an atmosphere of 15% CO2, 21% O2 (balance N2), and sacrificed from 1 h to 1 week thereafter. Total iron and copper concentrations of blood, liver, spleen and bone, as well as concentrations of heme and ferritin iron, were measured together with blood hematocrit, reticulocytes, plasma hemoglobin, plasma ceruloplasmin and copper concentrations. The results show clearly that rapid and sustained red cell damage or hemolysis ensued several h from the start of CO2 treatment. This resulted in loss of iron and copper from the blood, an influx of both elements into liver, spleen and bone, and a rise in plasma ceruloplasmin. Influx of iron into liver and spleen caused an accumulation of ferritin, the main site for iron storage in cells. Following the effect on red cells, there was an accumulation of heme iron, and a decreased hematocrit, best explained by a depressed activity of the reticuloendothelial and erythropoietic systems. A period of adaptation succeeded these events, in which all blood parameters and most tissue values returned to normal, despite the continuing presence of high CO2. The only changes not reversed were the elevations in liver, spleen and bone iron stores. These remained high, with a net accumulation of greater than 2 mg iron, or 3-4 times more than originally present. The results indicate that at least in the guinea-pig, high CO2 exposure results in red cell damage and other events leading to an accumulation of additional iron in the body; also, that iron accumulated as ferritin and hemosiderin in liver and spleen may not be readily available to restore blood hemoglobin concentrations on an acute basis.     

Sigmoid shape of the oxygen equilibrium curve and the P50 of human hemoglobin

The fractional saturation of hemoglobin with oxygen was plotted against P/P₅₀ and the slope of the abscissa at 1 was calculated for 38 OEC data sets of human Hb A. There was a linear correlation between the slope and the Hill coefficient (n_max), and the slope was about one-forth that of n_max. This implies that the slope of the abscissa at 1 of Y vs P/P₅₀ plot can provide information about the magnitude of cooperativity in hemoglobin oxygen binding.     

The chloride effect in human hemoglobin: A new kind of allosteric mechanism

In human hemoglobin hydrogen ions, chloride, 2,3-diphosphoglycerate and CO₂ cooperate to shift the oxygen equilibrium curve to the right. Bovine hemoglobin, by contrast, has an intrinsically low oxygen affinity: when stripped, it is as low as that of human hemoglobin in the presence of 0.1 M NACl+0.1 M DPG.     

The polymerization of sickle hemoglobin in solutions and cells

The polymerization of sickle hemoglobin occurs by the same mechanisms in solutions and in cells, and involves the formation of 14 stranded fibers from hemoglobin molecules which have assumed a deoxy quaternary structure. The fibers form via two types of highly concentration-dependent nucleation processes: homogeneous nucleation in solutions with hemoglobin activity above a critical activity, and heterogeneous nucleation in similarly supersaturated solutions which also contain hemoglobin polymers. The latter pathway is dominant, and creates polymer arrays called domains. The individual polymers bend, but also cross-link, and the resulting mass behaves as a solid. The concentration of polymerized hemoglobin increases exponentially unless clamped by rate limiting effects such as oxygen delivery.     

Evidence for the existence of an agent in the serum of the cyclic hematopoietic dog which influences hemoglobin synthesis

Summary Serum samples collected through the cycle of a cyclic hematopoietic (CH) dog under reduced atmospheric conditions, were assayed for their ability to affect hemoglobin synthesis by normal canine bone marrow. Varying levels of hemoglobin synthesis in the presence of different serum samples suggest an agent cycles in the serum of CH dogs which influences hemoglobin synthesis.     

Evidence for dissociation of ferrihemoglobin by poly-L-lysine.

Circular dichroism and absorption spectra of ferrihemoglobin were shown to be altered upon binding with poly-L-lysine at alkaline pH. When ferrihemoglobin immobilized to Sepharose gel was treated with poly-L-lysine, hemoglobin subunits were released from the gel. These results suggest that ferrihemoglobin was dissociated into subunits by poly-L-lysine.     

Attempts to use carbodiimide (EDCI) to cross-link hemoglobin for transfusions.

The polymerization of hemoglobin for use as a blood substitute and an oxygen carrier would be of interest because high-mol. wt macromolecules would have a longer vascular retention time than the monomer. We found that the molecules resulting from the treatment of hemoglobin with ethyldimethylaminopropylcarbodiimide did not have a higher mol. wt than free hemoglobin and also had a dissociation curve resembling that of monomers, but seemed more stable.     

Effects of CO2 exposure on distribution of various forms of iron and copper in guinea-pig tissues

Summary The effects on iron and copper distribution and metabolism of exposure to high levels of CO₂ were studied in the guinea-pig. Mature, male animals were placed in an atmosphere of 15% CO₂, 21% O₂ (balance N₂), and sacrificed from 1 h to 1 week thereafter. Total iron and copper concentrations of blood, liver, spleen and bone, as well as concentrations of heme and ferritin iron, were measured together with blood hematocrit, reticulocytes, plasma hemoglobin, plasma ceruloplasmin and copper concentrations. The results show clearly that rapid and sustained red cell damage or hemolysis ensued several h from the start of CO₂ treatment. This resulted in loss of iron and copper from the blood, an influx of both elements into liver, spleen and bone, and a rise in plasma ceruloplasmin. Influx of iron into liver and spleen caused an accumulation of ferritin, the main site for iron storage in cells. Following the effect on red cells, there was an accumulation of heme iron, and a decreased hematocrit, best explained by a depressed activity of the reticuloendothelial and erythropoietic systems. A period of adaptation succeeded these events, in which all blood parameters and most tissue values returned to normal, despite the continuing presence of high CO₂. The only changes not reversed were the elevations in liver, spleen and bone iron stores. These remained high, with a net accumulation of >2 mg iron, or 3–4 times more than originally present. The results indicate that at least in the guinea-pig, high CO₂ exposure results in red cell damage and other events leading to an accumulation of additional iron in the body; also, that iron accumulated as ferritin and hemosiderin in liver and spleen may not be readily available to restore blood hemoglobin concentrations on an acute basis.Acknowledgments. We gratefully acknowledge the technical assistance of Joan R. Moor and Lakshmi Vulimiri with these studies, and the support of Grants No. 17249 and HL22410 from the U.S. Public Health Service.     

Attempts to use carbodiimide (EDCI) to cross-link hemoglobin for transfusions

Summary The polymerization of hemoglobin for use as a blood substitute and an oxygen carrier would be of interest because high-mol. wt macromolecules would have a longer vascular retention time than the monomer. We found that the molecules resulting from the treatment of hemoglobin with ethyldimethylaminopropylcarbodiimide did not have a higher mol. wt than free hemoglobin and also had a dissociation curve resembling that of monomers, but seemed more stable.     

Hemoglobin binding capacity of heat incubated sera of different haptoglobin subtypes

Summary Sera of haptoglobin subtypes Hp 1F-1F and Hp 1S-1S incubated at 56°C show a different degree of reduction in the hemoglobin binding capacity. The difference is small but significant.     

Comparison of human adult and fetal hemoglobin: Aminophenol-induced methemoglobin formation

Summary Human fetal hemoglobin was more susceptible to methemoglobin formation in the presence of aminophenols than was adult hemoglobin. This was due to the intrinsic properties of the proteins rather than the presence of methemoglobin reductases.This work was supported by a grant from the National Institute of General Medical Sciences GM-17184.     

Functional properties of lyophilized hemoglobin in the presence of amino acids after 13 months of conservation

Summary Four lyophilisates of hemoglobin, each protected by an amino acid salt, were conserved for 13 months. The determinations carried out (oxyhemoglobin, methemoglobin, p50, Hill's number, and visible spectrum) demonstrated that the hemoglobin had retained its functional properties.     

Immunological properties of oxygen-transport proteins: hemoglobin,hemocyanin and hemerythrin

It is now well documented that peptides with enhanced or alternative functionality (termed cryptides) can be liberated from larger, and sometimes inactive, proteins. A primary example of this phenomenon is the oxygen-transport protein hemoglobin. Aside from respiration, hemoglobin and hemoglobin-derived peptides have been associated with immune modulation, hematopoiesis, signal transduction and microbicidal activities in metazoans. Likewise, the functional equivalents to hemoglobin in invertebrates, namely hemocyanin and hemerythrin, act as potent immune effectors under certain physiological conditions. The purpose of this review is to evaluate the true extent of oxygen-transport protein dynamics in innate immunity, and to impress upon the reader the multi-functionality of these ancient proteins on the basis of their structures. In this context, erythrocyte–pathogen antibiosis and the immune competences of various erythroid cells are compared across diverse taxa.