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1.
THE occurrence in man of drug-induced haemolysis in glucose-6-phosphate dehydrogenase (G6PD) deficient erythrocytes1 suggested the possibility of an analogy to the haemolysis which occurs in vitamin E deficient red blood cells. Cohen and Hochstein2 have shown that haemolysis in G6PD deficient cells is associated with the inability of the cell to generate adequate reduced glutathione (GSH) through GSSG reductase because of the impaired generation of NADPH. Moreover, there is evidence that glucose protects red blood cells from haemolysis by its ability to provide NADPH through G6PD which subsequently generates GSH3. The G6PD deficient cell, however, cannot maintain an adequate concentration of GSH in the cell, even in the presence of glucose4, whereas the normal cell can maintain a normal concentration of GSH in the presence of glucose, preserving the integrity of the red blood cell. Vitamin E protects red blood cells from haemolysis whether supplied in vivo or in vitro and its effect has usually been demonstrated without glucose in the incubation medium. Although selenium prevents many of the same deficiency symptoms as vitamin E, it has not been uniformly effective in preventing the in vitro haemolysis of red blood cells. If a protective action of selenium against haemolysis were dependent on the presence of GSH, or if selenium were involved in the generation of GSH, selenium would not be expected to prevent haemolysis unless glucose was present in the incubation medium to provide a constant source of NADPH for the generation of GSH from GSSG through GSSG reductase (Fig. 1).  相似文献   

2.
Red cell life span within the fetal circulation has not been reported, although erythrocyte life span has been studied in the adult and newborn. The present study quantified red cell life span in 12 chronically catheterized fetal sheep at 97-136 days gestation (term = 150 days) with the use of autologous red cells labeled with [(14)C]cyanate. Cyanate forms a permanent covalent bond with hemoglobin and acts as a permanent red cell label. In the fetuses, blood (14)C activity decreased in a curvilinear fashion with time and reached 50% of the initial activity at 16.4 +/- 1.6 (SE) days. In contrast, (14)C activity of autologous red cells in two adult ewes decreased linearly with time as expected, reached 50% of the initial (14)C activity in 59 days, and yielded life spans of 117 and 121 days. Computer modeling and parameter optimization taking into account growth and skewed life span distribution were used to analyze the (14)C disappearance curve in each fetus. The mean life span of all red cells in the fetal circulation was 63.6 +/- 5.8 days. Mean red cell life span increased linearly from 35 to 107 days as fetal age increased from 97 to 136 days (r = 0.83, P < 0.001). Life span of cells produced at the time of labeling was significantly greater than the mean life span. Fetal growth rate estimated from parameter optimization was 3.28 +/- 0.72%/day; this compared well with the rate of 3.40 +/- 0.14%/day calculated from fetal weights at autopsy. Mean corpuscular volume decreased as a function of gestational age, but the decrease was small compared with the large increase in red cell life span. We conclude the following: 1) red cell life span in the fetal circulation is short compared with the adult; 2) red cells in younger fetuses have shorter life spans than in near-term fetuses; 3) the curvilinear disappearance of labeled red cells in the fetus appears to be due primarily to an expanding blood volume with fetal growth; and 4) red blood cell life span in a growing organism will be significantly underestimated unless the expansion of blood volume with growth is taken into account.  相似文献   

3.
Animal red blood cell in vivo survival curves, obtained by the radioiron tagging of populations of approximately the same age followed by the administration of non-radioactive iron to suppress radioiron reutilization, have been subjected to mathematical analysis on the basis of the three following assumptions:— (A) Red blood cells disappear from the circulation as the result of senescence: there is an average life span around which the life spans of individual cells are distributed in the usual way. (B) Red blood cells may be removed from the circulation by a process of random destruction which continuously removes a constant fraction of the cells present at any moment irrespective of age or other characteristics. (C) Under the conditions of the experiments described, a fraction of the radioiron, constant for each animal, is reutilized in new red cell formation when released by red cell destruction. This mathematical analysis indicates the following average life spans with the respective standard errors of the mean: dog 107 days ± 1.14; rabbit 67.6 days ± 1.94; cat 68.4 ± 1.50. The mathematical treatment presented has permitted a consideration of the theoretical variation of red cell life spans which was found in these experiments to be relatively small for all three species studied. In the rabbit and cat 2.5 per cent of tagged populations of red cells of the same age would theoretically have disappeared by senescence 17 days before the average life span was reached. The variation of red cell life in the dog was slightly less. Animals of the three species studied, in spite of apparently normal health, exhibited varying degrees of random destruction of both autogenous and transfused fresh normal homologous red cells. As yet, we have no explanation for this random loss of cells occurring in apparently healthy normal animals. The method of mathematical analysis presented is applicable to animal red cell survival studies employing radioiron in which differing rates of random destruction are operating in the removal of red cells.  相似文献   

4.
5.
Rabbit red cells are separated by centrifuging them for one hour at 33,000 G in density gradient tubes of bovine serum albumin. The separation represented an equilibrium situation since rebanding experiments showed that the cells from a layer would again seek that density layer when recentrifuged in a new gradient tube. When rabbits were injected with 59Fe, the radioactive red cells at one day were nearly all light, but these labeled cells moved into the more dense layers over the next few days. This not only shows that the separation by density is discriminating but that some red cells became dense very quickly. Bearing in mind the problems of interpreting radioactive iron data because of the possibility of reutilization, it is tentatively concluded that dense red cells are not necessarily senescent red cells since these dense cells appear to persist for the normal life span of the rabbit red cell.  相似文献   

6.
Nearly one hundred amphibian tadpoles were made anemic by phenylhydrazine injection. During the recovery period radioactive thymidine was incorporated into the DNA of the nucleated amphibian red blood cells. Over the next 135 days blood was drawn and smears of circulating red blood cells were prepared. The blood smears from each tadpole were autoradiographed and percentage of labeled nuclei (PLN) determined. The average life span of tadpole red blood cells was calculated from the change in PLN, and is about 100 days. It is concluded that during the transition from tadpole to frog, the tadpole red blood cell life span must be drastically shortened to account for the hemoglobin transition observed during amphibian metamorphosis.  相似文献   

7.
Loading with monosaccharide can improve the quality of human red blood cells (hRBCs) frozen with polymer. But in vivo life span of hRBCs frozen with polymer and sugar is not determined. In this study, following incubation with glucose, mouse red blood cells (mRBCs) were frozen in liquid nitrogen for 24 h using dextran as the extracellular protectant. After thawing, hemolysis, exposure of PS, and osmotic fragility of frozen mRBCs were determined in vitro. After transfusion of fluorescein isothiocyanate (FITC)-labeled mRBCs, the 24 h recovery and half life span of frozen mRBCs were determined. The data indicated the postthaw hemolysis of mRBCs frozen with dextran and glucose were significantly less than that of cells frozen with dextran (17.23% ± 5.21% vs 25.96% ± 10.07%, P = 0.034). But freezing can also result in exposure of phosphatidylserine and increase of osmotic fragility of mRBCs. After transfusion, the 24 h recovery of mRBCs frozen in the absence or presence of glucose was similar to that of the control cells (P = 0.748 and 0.971). However, the half life span of mRBCs frozen in the absence or presence of glucose was significantly less than that of the control cells (P = 0.000). In addition, incubation with glucose can not increase the life span of frozen red blood cells (7.16 ± 0.93 d vs 7.15 ± 0.34 d, P = 0.982). In conclusion, incubation with monosaccharide could significantly increase the recovery of mRBCs frozen with polymer. Although freezing can significantly shorten the half life span of frozen cells, it can not influence the 24 h recovery of frozen mRBCs. In addition, incubation with monosaccharide before freezing can not increase the life span of frozen mRBCs. So according to the above data, to increase the life span of hRBCs frozen with polymer and monosaccharide, the osmotic fragility of the frozen RBCs must be decreased in the future.  相似文献   

8.
The replicative life span ofSaccharomyces cerevisiaewas previously shown to be modulated by the homologous signal transducers Ras1p and Ras2p in a reciprocal manner. We have used thermal stress as a life span modulator in order to uncover functional differences between theRASgenes that may contribute to their divergent effects on life span. Chronic exposure of cells throughout life to recurring heat shocks at sublethal temperatures decreased their replicative life span.ras2mutants, however, suffered the largest decrease compared to wild-type andras1mutant cells. The decrease was correlated with a substantial delay in resumption of budding upon recovery from these heat shocks, indicating an impaired renewal of cell cycling. Detailed analysis of gene expression showed that, during recovery,ras2mutants were selectively impaired in down-regulation of stress-responsive genes and up-regulation of growth-promoting genes. Our results suggest that one of the functions ofRAS2in maintaining life span, for whichRAS1does not substitute, is to ensure renewal of growth and cell division after bouts of stress that cells encounter during their life. This activity ofRAS2is effected by the cyclic AMP pathway. Overexpression ofRAS2,but notRAS2ser42which is deficient in the activation of adenylate cyclase, completely reversed the effect of chronic stress on life span. Thus,RAS2is limiting for longevity in the face of chronic stress. SinceRAS2is known to down-regulate stress responses, this demonstrates that for longevity the ability to recover from stress is at least as important as the ability to mount a stress response.  相似文献   

9.
Previous studies have shown that ferriprotoporphyrin IX (FP) and non-heme iron have a marked inhibitory effect on the Ca2+-Mg2+-ATPase activity of isolated red cell membranes, the biochemical counterpart of the plasma membrane Ca2+ pump (PMCA). High levels of membrane-bound FP and non-heme iron have been found in abnormal red cells such as sickle cells and malaria-infected red cells, associated with a reduced life span. It was important to establish whether sublytic concentrations of FP and non-heme iron would also inhibit the PMCA in normal red cells, to assess the possible role of these agents in the altered Ca2+ homeostasis of abnormal cells. Active Ca2+ extrusion by the plasma membrane Ca2+ pump was measured in intact red cells that had been briefly preloaded with Ca2+ by means of the ionophore A23187. The FP and nonheme iron concentrations used in this study were within the range of those applied to the isolated red cell membrane preparations. The results showed that FP caused a marginal inhibition (∼20%) of pump-mediated Ca2+ extrusion and that non-heme iron induced a slight stimulation of the Ca2+ efflux (11–20%), in contrast to the marked inhibitory effects on the Ca2+-Mg2+-ATPase of isolated membranes. Thus, FP and non-heme iron are unlikely to play a significant role in the altered Ca2+ homeostasis of abnormal red cells. Received: 22 November 1999/Revised: 29 February 2000  相似文献   

10.
《Molecular membrane biology》2013,30(3-4):187-202
Human red blood cells were separated according to density by centrifugation through mixtures of phthalate esters. The densest 20% of the erythrocyte population (old cells) had reduced volume and water content compared to the lightest 20% of the cells (young cells). Corpuscular hemoglobin content was unchanged. Young cells had 50% more potassium (K+) than old cells, but their total intracellular concentration was only slightly higher; old cells had a small increase in sodium (Na+) concentration. Active K+ transport of young cells was 37% higher than that of old cells. [3H] + Ouabain binding revealed that this difference was the result of more K+ pump sites on young cells, which bound 530 ouabain molecules per cell at 100% K+ pump inhibition, as compared to 400 for old cells; unseparated cells bound 450-500 molecules. The relative rates of ouabain binding were identical for the two cell types. Old cells exhibited a greater passive permeability to K+, haying a rate coefficient for ouabain-insensitive K+ influx 1.8 times that of young cells. There is evidence to suggest that in the face of reduced pump activity this augmented K+ “leak” might enhance the osmotic stability of the old cells and function to lengthen their life span.  相似文献   

11.
Summary The effect of Eagle's minimal essential medium, containing different fetal bovine serum (FBS) concentrations, on the proliferation and replicative life span of cultured chick cells has been studied. Our results showed that the rate of chick cell proliferation and the cell density at stationary phase increased as a function of serum concentration between 5 and 30% FBS. The replicative life span of cultured chick cells was dependent on the FBS concentration between 5 and 20% in a medium volume of 0.20 ml/cm2. The maximum replicative life span of chick cells was obtained by serially propagating cells in a medium volume of 0.20 ml/cm2 containing 20 or 30% FBS, or, alternatively, in 0.53 ml/cm2 containing 10, 20 or 30% FBS. Cells grown in medium containing 5% serum had a calendar life span of 35 days, whereas cells propagated in medium containing higher serum concentrations had a calendar life span of 50 days. These results reenforce the concept that, although the kinetics of cell population aging can be affected by the culture medium composition, the aging of cells in culture is controlled by alterations within the cell. This work was supported by IIT Research Institute.  相似文献   

12.
Aging is a degenerative process characterized by a progressive deterioration of cellular components and organelles resulting in mortality. The budding yeast Saccharomyces cerevisiae has been used extensively to study the biology of aging, and several determinants of yeast longevity have been shown to be conserved in multicellular eukaryotes, including worms, flies, and mice 1. Due to the lack of easily quantified age-associated phenotypes, aging in yeast has been assayed almost exclusively by measuring the life span of cells in different contexts, with two different life span paradigms in common usage 2. Chronological life span refers to the length of time that a mother cell can survive in a non-dividing, quiescence-like state, and is proposed to serve as a model for aging of post-mitotic cells in multicellular eukaryotes. Replicative life span, in contrast, refers the number of daughter cells produced by a mother cell prior to senescence, and is thought to provide a model of aging in mitotically active cells. Here we present a generalized protocol for measuring the replicative life span of budding yeast mother cells. The goal of the replicative life span assay is to determine how many times each mother cell buds. The mother and daughter cells can be easily differentiated by an experienced researcher using a standard light microscope (total magnification 160X), such as the Zeiss Axioscope 40 or another comparable model. Physical separation of daughter cells from mother cells is achieved using a manual micromanipulator equipped with a fiber-optic needle. Typical laboratory yeast strains produce 20-30 daughter cells per mother and one life span experiment requires 2-3 weeks.Open in a separate windowClick here to view.(75M, flv)  相似文献   

13.
The peculiarities of osmoregulation of circulating red blood cells of the stenohaline giant gobyGobius cobitis and the euryhaline toad gobyGobius batrachocephalus have been studied under experimental conditions. In the giant goby, volume of the red blood cells increased steadily by 10.6–18.1% (p < 0.05) after reduction of the medium salinity from 15–17 to 6.0–6.8‰ and this volume increase remained during the entire experimental period (40–45 days). Lysis of red blood cells was noticed in some cases, which was indicated by a decrease of the number of red blood cells and an increase of concentration of free hemoglobin in the blood plasma. No similar reactions were observed in the euryhaline toad goby; the mean cell volume did not change statistically significantly. The volume regulation resulted in K+ efflux from red blood cells. The blood red cells of the toad goby had a high resistance to osmotic stress. The Na+,K+-ATPase activity in the red blood cell membranes of the toad goby was higher by 18.8% (p < 0.001) than in the giant goby.  相似文献   

14.
15.
2,4,6-Trinitro-3-methyl-phenol (trinitrocresol, H+TNC-) was found to inhibit anion and stimulate cation movements across the membranes of both high potassium (HK) and low potassium (LK) sheep red blood cells. The concentration of TNC- required to inhibit SO4 - and Cl- efflux (10-5-10-3 M) was less than that required to increase Na+ and K+ leakage (10-3-10-2 M). Both the inhibition of anion and stimulation of cation permeation were reversed if TNC- was washed from the red cells. The cation leak caused by TNC- was much greater at 0° and 37°C than at room temperature (23°C). In sheep red cells, TNC- was found to be about 20 times more effective than salicylate and about 40 times more effective than thiocyanate in increasing cation leak. TNC- also inhibited the ouabain-sensitive potassium influx.  相似文献   

16.
The peculiarities of osmoregulation of circulating red blood cells of the stenohaline giant gobyGobius cobitis and the euryhaline toad gobyGobius batrachocephalus have been studied under experimental conditions. In the giant goby, volume of the red blood cells increased steadily by 10.6–18.1% (p (WENA) 0.05) after reduction of the medium salinity from 15–17 to 6.0–6.8‰ and this volume increase remained during the entire experimental period (40–45 days). Lysis of red blood cells was noticed in some cases, which was indicated by a decrease of the number of red blood cells and an increase of concentration of free hemoglobin in the blood plasma. No similar reactions were observed in the euryhaline toad goby; the mean cell volume did not change statistically significantly. The volume regulation resulted in K+ efflux from red blood cells. The blood red cells of the toad goby had a high resistance to osmotic stress. The Na+,K+-ATPase activity in the red blood cell membranes of the toad goby was higher by 18.8% (p (WENA) 0.001) than in the giant goby.  相似文献   

17.
Dielectric breakdown of membranes of red blood cells was observed in high electric fields (approx. 103–104 V/cm) using an improved Coulter Counter with hydrodynamic focussing. In making measurements of the size distributions of red blood cells as a function of increasing electric field strenght it was found that a sharp discontinuity occurred in the otherwise linear relation between the pulse heights in the Coulter Counter and the electric field strength due to dielectric breakdown of the membranes. Solution of Laplace's equation for the electric field generated at breakdown in the cell membranes yields a mean value of about 1.6 V for the membrane potential of red blood cells. Due to the dielectric break-down, release of hemoglobin occurred. Mechanical rupture of the red blood cells by the hydrodynamic forces in the orifice of the Coulter Counter or thermal rupture could be excluded as hemolysing mechanisms. The leaky ghost cells resealed at 37 °C as shown by incorporation of 131I-labeled albumin and repeated dielectric breakdown.  相似文献   

18.

Background

Infection with Plasmodium berghei ANKA (PbA) in susceptible mice induces a syndrome called experimental cerebral malaria (ECM) with severe pathologies occurring in various mouse organs. Immune mediators such as T cells or cytokines have been implicated in the pathogenesis of ECM. Red blood cells infected with PbA parasites have been shown to accumulate in the brain and other tissues during infection. This accumulation is thought to be involved in PbA–induced pathologies, which mechanisms are poorly understood.

Methods and Findings

Using transgenic PbA parasites expressing the luciferase protein, we have assessed by real-time in vivo imaging the dynamic and temporal contribution of different immune factors in infected red blood cell (IRBC) accumulation and distribution in different organs during PbA infection. Using deficient mice or depleting antibodies, we observed that CD8+ T cells and IFN-γ drive the rapid increase in total parasite biomass and accumulation of IRBC in the brain and in different organs 6–12 days post-infection, at a time when mice develop ECM. Other cells types like CD4+ T cells, monocytes or neutrophils or cytokines such as IL-12 and TNF-α did not influence the early increase of total parasite biomass and IRBC accumulation in different organs.

Conclusions

CD8+ T cells and IFN-γ are the major immune mediators controlling the time-dependent accumulation of P. berghei-infected red blood cells in tissues.  相似文献   

19.
A family with congenital non-spherocytic hemolytic anemia associated with glucose-6-phosphate dehydrogenase (G6PD) deficiency was studied. Two females, heterozygous for the enzyme deficency, had evidence of a hemolytic anemia. The results of chromium-51 erythrocyte life span studies prior to, during, and after periods of primaquine administration suggested that the hemolytic anemia in these women was due to the presence of two populations of red blood cells in their circulation. One population had normal G6PD levels and a normal life span, whereas the other had diminished enzyme activity and a shortened life span.In vitro metabolic studies of the erythrocytes of a heterozygous female and a hemizygous male suggested that, in spite of G6PD deficiency, the synthesis and breakdown of adenosine triphosphate and 2,3-diphosphoglyceric acid was similar to that in normal erythrocytes.  相似文献   

20.
Summary Anti-L serum prepared by immunization of a high-potassium-type (HK) (blood type MM) sheep with blood from a low-potassium-type (LK) (blood type ML) sheep contained an antibody which stimulated four- to sixfold K+-pump influx in LK (LL) sheep red cells. In long-termin vitro incubation experiments, LK sheep red cells sensitized with anti-L showed a net increase in K+ after two days of incubation at 37°C, whereas HK-nonimmune (NI)-serum-treated control cells lost K+. The antibody could be absorbed by LK (LL) sheep red cells but not by HK sheep red cells. Kinetic experiments showed that the concentration of external K+ ([K+]0) required to produce halfmaximum stimulation of the pump ([Na+]0=0, replaced by Mg++) was the same (0.25 mM) in L-antiserum-treated or untreated LK cells. LK cells with different [K+]i (Na+ replacement) were prepared by the p-chloromercuribenzene sulfonate (PCMBS) method. At [K+]0=5 mM, pump influx decreased as [K+]i increased from 1 to 70 mM in L-antiserum-treated LK cells, whereas LK cells treated with HK-NI-serum ceased to pump at [K+]i=35 mM. Exposure to anti-L serum produced an almost twofold increase in the number of pump sites of LK cells as measured by the binding of tritiated ouabain by LK sheep red cells. These findings indicate that the formation of a complex between the L-antigen and its antibody stimulates active transport in LK sheep red cells both by changing the kinetics of the pump and by increasing the number of pump sites.  相似文献   

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