The mechanism of glomerular dysmorphic red cell formation in the kidney.
(49/429)
The mechanism of glomerular dysmorphic cell formation was studied in a in vitro system simulating the process of concentrated acidic urine formation along the nephron. Red cells suspended in phosphate buffer were exposed to three sequential pH gradients, (1) pH 7.4-6.6, (2) pH 6.6-6.5, and (3) pH 6.5-5.2, accompanying osmolality gradients, (1) 280-1200 mOsm/kg H2O, (2) 1,200-140 mOsm/kg H2O, and (3) 140-1,100 mOsm/kg H2O, respectively, for 15 to 60 min, and red cell shapes were observed by differential interference microscopy. The appearance rate of glomerular dysmorphic cells was 37.7 to 47.1% after finishing all the gradients. The last gradient, simulating the work of the collecting duct, was essential for the dysmorphic cell formation; maximal formation was at the final pH of 5.0 and osmolality of 1,000 mOsm/kg H2O. No dysmorphic cells were observed in gradients simulating alkaline or diluted urine formation. In 10 glomerulonephritic patients, glomerular dysmorphic cells appeared over five times as frequently in concentrated acidic urine as in alkaline or diluted urine. Results of in vitro and patient studies coincided well with each other, suggesting that in glomerulonephritic patients, dysmorphic cells might be produced while red cells are passing through the tubules, where concentrated acidic urine is formed. (+info)
Monovalent cation transport in irreversibly sickled cells.
(50/429)
Using discontinuous density gradients of Stractan II, we have separated sickle cell blood into discrete subpopulations of reticulocytes, mature discoid cells, and irreversibly sickled cells (ISCs). We have measured active and passive fluxes of monovalent cations in mature discoid cells, ISCs, and normal control cells, also separated upon density gradients. These measurements revealed a decreased active cation transport in ISC-rich populations. However, parallel measurements of Na, K-ATPase activity showed normal ouabain-sensitive ATPase activity in ISCs. Passive permeability to external Rb was also normal in ISCs. The observation of depressed pump activity in intact ISCs, contrasted with normal ATPase activity in ISC membranes, suggests the presence of factors in the intact cell which inhibit the active transport of Na and K in ISCs. (+info)
The (fixed) urinary sediment, a simple and useful diagnostic tool in patients with haematuria.
(51/429)
Examination of the urinary sediment is a simple and indispensable tool in the diagnostic approach to patients with asymptomatic haematuria. Various glomerular and nonglomerular diseases can cause haematuria. A well-trained expert can distinguish between these two forms of haematuria by examining the urinary sediment under a simple light microscope. In glomerular haematuria, dysmorphic erythrocytes and erythrocyte casts are found, whereas in nonglomerular haematuria the erythrocytes are monomorphic and erythrocyte casts are absent. However, few people have sufficient expertise in the examination of the urinary sediment, and consequently this investigation is performed far too seldom. A few years ago, a simple method of fixation of the urinary sediment became available. Fixed specimens can be stored at room temperature for at least two weeks, which enables the sending of a fixed specimen to an expert examiner by regular mail. In this way, the urinary sediment can more frequently be used as the initial investigation in the diagnostic route of patients with asymptomatic haematuria. (+info)
A recombinant human hemoglobin with anti-sickling properties greater than fetal hemoglobin.
(52/429)
A new recombinant, human anti-sickling beta-globin polypeptide designated beta(AS3) (betaGly(16) --> Asp/betaGlu(22) --> Ala/betaThr(87) --> Gln) was designed to increase affinity for alpha-globin. The amino acid substitutions at beta22 and beta87 are located at axial and lateral contacts of the sickle hemoglobin (HbS) polymers and strongly inhibit deoxy-HbS polymerization. The beta16 substitution confers the recombinant beta-globin subunit (beta(AS3)) with a competitive advantage over beta(S) for interaction with the alpha-globin polypeptide. Transgenic mouse lines that synthesize high levels of HbAS3 (alpha(2)beta(AS3)(2)) were established, and recombinant HbAS3 was purified from hemolysates and then characterized. HbAS3 binds oxygen cooperatively and has an oxygen affinity that is comparable with fetal hemoglobin. Delay time experiments demonstrate that HbAS3 is a potent inhibitor of HbS polymerization. Subunit competition studies confirm that beta(AS3) has a distinct advantage over beta(S) for dimerization with alpha-globin. When equal amounts of beta(S)- and beta(AS3)-globin monomers compete for limiting alpha-globin chains up to 82% of the tetramers formed is HbAS3. Knock-out transgenic mice that express exclusively human HbAS3 were produced. When these mice were bred with knock-out transgenic sickle mice the beta(AS3) polypeptides corrected all hematological parameters and organ pathology associated with the disease. Expression of beta(AS3)-globin should effectively lower the concentration of HbS in erythrocytes of patients with sickle cell disease, especially in the 30% percent of these individuals who coinherit alpha-thalassemia. Therefore, constructs expressing the beta(AS3)-globin gene may be suitable for future clinical trials for sickle cell disease. (+info)
In vivo kinetics of micronuclei induction by bifunctional alkylating antineoplastics.
(53/429)
The aim of the present study was to determine in vivo the kinetics of micronucleated polychromatic erythrocyte (MN-PCE) induction in mice, as an approach for studying the mechanism of micronuclei induction by mitomycin C, cis-diamine dichloroplatinum, busulfan and bis-chloroethylnitrosourea, bifuctional alkylating antineoplastic agents having different patterns of crosslink induction. The kinetics of MN-PCE induction was established by scoring the frequency of MN-PCE in 2000 PCE in peripheral blood, for periods of 8 or 10 h after acute treatment and up to 80 h, with different doses of the agent. The kinetics of MN-PCE induction and particularly the times of maximal induction by different bifunctional alkylating agents were compared with the kinetics previously obtained for ethylnitrosourea, methylnitrosourea and 6-mercaptopurine, agents that cause MN-PCE mainly in the first, second and third divisions after exposure, respectively. The results obtained in the present study allow us to conclude that: (i) bifunctional alkylating agents have very different efficiencies of genotoxic and cytotoxic action; (ii) all assayed bifunctional alkylating agents induced micronuclei during the first cell division, owing to the mistaken repair of primary lesions, e.g. excision; (iii) busulfan and bis-chloroethylnitrosourea showed an additional late mechanism of micronuclei induction, which is expressed at the third division and seems to be related to the mismatch repair process. (+info)
Comparative evaluation of schistocyte counting by an automated method and by microscopic determination.
(54/429)
Schistocytes are circulating RBC fragments. The morphologic identification of schistocytes is difficult because the shapes to which they correspond are still under discussion. Automated hematology systems permit the possibility of direct measurement of RBC fragments. We compared schistocyte counts performed by different biologists and technicians with the automated counts by the ADVIA 120 (Bayer Health Care, Tarrytown, NY). The agreement between the ADVIA 120 and the average of the observers gives a correlation coefficient of 0.7274 (95% confidence interval, 0.6285-0.8019). The ADVIA 120 has a tendency to overestimate the count (average, +0.445%). No false-negative case was recorded. The maximum sensitivity (detection of 100% of samples with schistocytes) of the analyzer was determined at a threshold value of 0.25%, but the specificity was low (20%). Therefore, a blood smear examination remains necessary to confirm schistocyte presence. However, the clinical features correlated particularly with negative automated RBC fragments, and the high negative predictive value of RBC fragments ruled out thrombotic events (macroangiopathies or microangiopathies). (+info)
Ability of Plasmodium falciparum to invade Southeast Asian ovalocytes varies between parasite lines.
(55/429)
Plasmodium falciparum, the causative agent of the most lethal form of human malaria, uses multiple ligand-receptor interactions to invade host red blood cells (RBCs). We studied the invasion of P falciparum into abnormal RBCs from humans carrying the Southeast Asian ovalocytosis (SAO) trait. One particular parasite line, 3D7-A, invaded these cells efficiently, whereas all other lines studied invaded SAO RBCs to only about 20% of the extent of normal (non-SAO) cells. This result is consistent with the clinical observation that SAO individuals can experience high-density P falciparum infections and provides an explanation for previous discrepant results on invasion of SAO RBCs. Characterization of the invasion phenotype of 3D7-A revealed that efficient invasion of SAO RBCs was paralleled by relatively efficient invasion of normal RBCs treated with either neuraminidase, trypsin, or chymotrypsin and a novel capacity to invade normal RBCs treated sequentially with both neuraminidase and trypsin. Our results suggest that only parasites able to use some particular invasion pathways can invade SAO RBCs efficiently in culture. A similar situation might occur in the field. (+info)
Epinephrine acts through erythroid signaling pathways to activate sickle cell adhesion to endothelium via LW-alphavbeta3 interactions.
(56/429)
The possible role of physiologic stress hormones in enhancing adhesion of sickle erythrocytes (SS RBCs) to endothelial cells (ECs) in sickle cell disease (SCD) has not been previously explored. We have now found that up-regulation of intracellular cyclic adenosine monophosphate (cAMP)-dependent protein kinase A (PKA) by epinephrine significantly increased sickle but not normal erythrocyte adhesion to both primary and immortalized ECs. Inhibition of serine/threonine phosphatases also enhanced sickle erythrocyte adhesion at least partially through a PKA-dependent mechanism. Adhesion was mediated through LW (intercellular adhesion molecule-4 [ICAM-4], CD242) blood group glycoprotein, and immunoprecipitation studies showed that LW on sickle but not on normal erythrocytes undergoes increased PKA-dependent serine phosphorylation as a result of activation. The major counter receptor for LW was identified as the alphavbeta3 integrin on ECs. These data suggest that adrenergic hormones such as epinephrine may initiate or exacerbate vaso-occlusion and thus contribute to the association of vaso-occlusive events with physiologic stress. (+info)