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Query: UMLS:C0002895 (
sickle cell disease
)
11,747
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Red cell volume regulation is important in
sickle cell anemia
because the rate and extent of HbS polymerization are strongly dependent on initial hemoglobin concentration. We have demonstrated that volume-sensitive K:Cl cotransport is highly active in SS whole blood and is capable of increasing MCHC. We now report that Na+/H+ exchange (Na/H EXC), which is capable of decreasing the MCHC of erythrocytes with pHi less than 7.2, is also very active in the blood of patients homozygous for HbS. The activity of Na/H EXC (maximum rate) was determined by measuring net Na+ influx (mmol/liter cell.hr = FU) driven by an outward H+ gradient in oxygenated, acid-loaded (pHi6.0), DIDS-treated SS cells. The Na/H EXC activity was 33 +/- 3 FU (mean +/- SE) (n = 19) in AA whites, 37 +/- 8 FU (n = 8) in AA blacks, and 85 +/- 15 FU (n = 14) in SS patients (P less than 0.005). Separation of SS cells into four density-defined fractions by density gradient revealed mean values of Na/H EXC four to five times higher in reticulocytes (
SS1
), discocytes (SS2) and dense discocytes (SS3), than in the fraction containing irreversibly sickled cells and dense discocytes (SS4). In contrast to K:Cl cotransport, which dramatically decreases after reticulocyte maturation, Na/H EXC persists well after reticulocyte maturation. In density-defined, normal AA red cells, Na/H EXC decreased monotonically as cell density increased. In SS and AA red cells, the magnitude of stimulation of Na/H EXC by cell shrinkage varied from individual to individual.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Na+/H+ exchange is increased in sickle cell anemia and young normal red cells. 216 62
To understand the role of sickle cell adherence to the vascular endothelium in the pathophysiology of
sickle cell anemia
(SS) vasoocclusion, we have carried out a microcirculatory study utilizing the ex vivo mesocecum vasculature of the rat. A single bolus of washed oxy-normal (AA) erythrocytes or oxy-SS cells (unseparated or density-defined SS cell classes) was infused. Hemodynamic monitoring and intravital microscopic observations of the microvascular flow revealed higher peripheral resistance for SS erythrocytes and adherence of these cells exclusively to the venular endothelium but rare or no adherence of AA cells. The extent of adhesion was inversely correlated with venular diameters (r = -0.812; P less than 0.00001). The adhesion of SS erythrocytes is density-class dependent: reticulocytes and young discocytes (
SS1
) greater than discocytes (SS2) greater than irreversible sickle cells and unsicklable dense discocytes (SS4). Selective secondary trapping of SS4 (dense cells) is found in postcapillary venules where deformable SS cells are preferentially adhered. We conclude that in the oxygenated condition, vasoocclusion can be induced by two events: (i) random precapillary obstruction by a small number of SS4 cells; (ii) increased adhesion of
SS1
and SS2 cells in the immediate postcapillary venules. A combination of precapillary obstruction, adhesion in postcapillary venules, and secondary trapping of dense cells may induce local hypoxia, increased polymerization of hemoglobin S, and rigidity of SS erythrocytes, thereby extending obstruction to nearby vessels.
...
PMID:Microvascular sites and characteristics of sickle cell adhesion to vascular endothelium in shear flow conditions: pathophysiological implications. 249 65
