Hemoglobin Binding to the Red Blood Cell (RBC) Membrane Is Associated with Decreased Cell Deformability.

The deformability of red blood cells (RBCs), expressing their ability to change their shape as a function of flow-induced shear stress, allows them to optimize oxygen delivery to the tissues and minimize their resistance to flow, especially in microcirculation. During physiological aging and blood storage, or under external stimulations, RBCs undergo metabolic and structural alterations, one of which is hemoglobin (Hb) redistribution between the cytosol and the membrane. Consequently, part of the Hb may attach to the cell membrane, and although this process is reversible, the increase in membrane-bound Hb (MBHb) can affect the cell's mechanical properties and deformability in particular. In the present study, we examined the correlation between the MBHb levels, determined by mass spectroscopy, and the cell deformability, determined by image analysis. Six hemoglobin subunits were found attached to the RBC membranes. The cell deformability was negatively correlated with the level of four subunits, with a highly significant inter-correlation between them. These data suggest that the decrease in RBC deformability results from Hb redistribution between the cytosol and the cell membrane and the respective Hb interaction with the cell membrane.

Oxidative degradation perturbs physico-chemical properties of hemoglobin in cigarette smokers: a threat to different biomolecules.

CONTEXT: Cigarette smokers develop structural modification in hemoglobin (Hb) and this modification enable Hb to undergo higher rate of auto-oxidation, leading to generation of further intracellular ROS. OBJECTIVE: In this study, we exhibited the possible cause and consequences of Hb modification in cigarette smokers. METHODS: Twenty-two smokers and 16 nonsmokers, aged 25 to 35 years, having a smoking history of 7-10 years were recruited in this study. Carbonyl content, ferryl form, peroxidase-like and esterase-like activities of Hb were assayed. Free iron release by Hb, erythrocyte membrane-bound Hb and plasma Hb were also measured along with assessment of important biomolecular degradations by Hb. RESULTS AND DISCUSSION: Increase in carbonyl content in Hb indicates its oxidative degradation. Increase in ferryl Hb formation, peroxidase-like activity and decrease in esterase like activity of Hb along with increased release of nonheme iron (from Hb) clearly indicates alteration in physico-chemical properties of Hb in smokers. Moreover, increase in erythrocyte membrane-bound Hb and plasma-free Hb provide further evidences for higher rate of Hb oxidation in smokers' erythrocyte. The rates of protein, lipid, sugar and DNA degradation were noticed to be higher by smokers' Hb; and were further attenuated by desferrioxamine as well as mannitol. CONCLUSION: We conclude that in cigarette smokers, there is oxidative degradation of Hb and the degradation causes alteration in its physico-chemical properties, which in turn may degrade different biomolecules in its close vicinity by releasing more iron and production of more superoxide as well as hydroxyl radical.

Molecular cloning, mRNA expression and characterization of membrane-bound hemoglobin in oriental river prawn Macrobrachium nipponense.

Most hemoglobins are respiratory proteins and are ubiquitous in animals, bacteria, fungi, protists, and plants. In this study, we describe a membrane-bound hemoglobin in the oriental river prawn Macrobrachium nipponense (MnHb), which also expresses hemocyanin. MnHb cDNA was cloned using the rapid amplification of cDNA ends (RACE) approach, which afforded a 1201bp gene encoding a 193 amino acid polypeptide. Bioinformatic evaluation suggested MnHb is membrane anchored by N-myristoylation, and immunofluorescence confirmed its location in the membrane of chief cells in the gill. The effect of hypoxia on MnHb expression was investigated, and reverse transcription PCR (RT-PCR) and Western blotting showed that MnHb was expressed almost exclusively in the gill. Quantitative RT-PCR revealed a significant increase in expression after 6h of hypoxia, and levels peaked at 24h due to oxidative stress. Exposure of cultured prawns to the stress inducer H2O2 significantly up-regulated the expression of MnHb in a dose-dependent manner. MnHb may have a role in protecting cell membrane lipids from damage by reactive oxygen species.

Linkage of typically cytosolic peroxidases to erythrocyte membrane - A possible mechanism of protection in Hereditary Spherocytosis.

Hereditary Spherocytosis (HS) is a non-immune hemolytic anemia associated to oxidative stress (OS), namely to the linkage of cytosolic antioxidant enzymes to the erythrocyte membrane. Our aims were to evaluate erythrocyte OS changes and the membrane linkage of peroxiredoxin 2 (Prx2), glutathione peroxidase (GPx) and catalase (CAT) in unsplenectomized (unspl) and splenectomized (spl) HS patients and to search for associations with clinical severity (in unspl HS patients). We studied 114 HS patients (74 unspl and 40 spl) and 30 healthy individuals and we evaluated membrane bound hemoglobin (MBH), membrane lipid-peroxidation (LPO), enzymatic activities of GPx and CAT and the amounts of membrane bound Prx2, GPx and CAT, as well as, clinical and analytical parameters for characterization of HS. We found that unspl HS patients showed clear signs of anemia and in spl HS, a correction to this anemia was observed; the latter patients presented higher levels of OS biomarkers, namely, MBH and LPO. CAT was detected in the membrane of all individuals (control and HS groups), while GPx and Prx2 were only present in HS patients; moreover, their linkage to the membrane (in HS) appears to be cumulative since membrane bound peroxidases amount was higher as the number of peroxidases detected increased. MBH increased with the number/amount of membrane bound peroxidases, however LPO levels remained similar. In conclusion, our data suggest that the binding of these typically cytosolic peroxidases to erythrocyte membrane may be part of a mechanism of membrane protection to maintain its integrity by possibly regulating LPO.