排序方式: 共有13条查询结果,搜索用时 15 毫秒
1.
V L Lew A Hockaday M I Sepulveda A P Somlyo A V Somlyo O E Ortiz R M Bookchin 《Nature》1985,315(6020):586-589
Much recent interest in the mechanism of dehydration of the dense subpopulation of sickle-cell anaemia (SS) red cells, including the 'irreversibly sickled cells' (ISCs), stems from the view that these relatively rigid cells have a major role in the two main clinical features of the disease, namely haemolytic anaemia and microvascular occlusion. The discovery that SS red cells have an elevated calcium content and accumulate Ca2+ during deoxygenation-induced sickling suggested a working hypothesis of wide appeal for the mechanism of cell dehydration: retained calcium would activate the red cell Ca2+-sensitive K+ channels, causing progressive net loss of KCl and water. However, retained calcium, which seemed as weakly bound to cytoplasmic buffers as in normal red cells, failed to show any measurable activation of K+ channels or Ca2+ pumps in metabolically normal SS cells, despite the apparent functional normality or near-normality of these transport systems. We now offer a possible explanation for this failure. We show that, contrary to the traditional views, SS cells, and to a lesser extent normal human red cells, possess intracellular vesicles with ATP-dependent Ca2+-accumulating capacity, and that nearly all the measurable calcium of fresh SS cells is contained within such vesicles, probably in the form of precipitates with inorganic or organic phosphates. 相似文献
2.
3.
It has long been assumed that a rise in cytosolic free Ca2+, [Ca2+]i, is a necessary and sufficient event for the stimulation of a variety of cellular processes. The development of a technique which allows monitoring of [Ca2+]i in small intact cells has led to a critical revision of this simple postulate. We have recently shown that in neutrophils, Ca2+-ionophore-induced elevations of [Ca2+]i, quantitatively similar to those caused by chemotatic peptides, are ineffective in stimulating cell responses, which suggests that an additional signal is required for receptor-mediated activation. Here we show that subthreshold concentrations of phorbol myristate acetate (PMA) and of a Ca2+ ionophore can quantitatively mimic the effect of a physiological agonist. However, PMA at higher concentrations can trigger NADPH-oxidase activity, exocytosis and protein phosphorylation, even when [Ca2+]i is lowered 10-20 times below the normal resting level. These results strongly suggest that activation of protein kinase C is sufficient, by itself, to induce NADPH-oxidase activation and exocytosis of secondary granules in neutrophils. 相似文献
4.
5.
Physiological [Ca2+]i level and pump-leak turnover in intact red cells measured using an incorporated Ca chelator 总被引:14,自引:0,他引:14
The physiological actions of Ca2+ as a trigger and second messenger depend on the maintenance of large inward resting Ca2+ gradients across the cell plasma membrane. An ATP-fuelled Ca-pump, originally discovered and still best characterized in human red cells, is now believed to mediate resting Ca2+ extrusion in most animal cells. However, even in red cells, the truly physiological pump-leak turnover rate and cytoplasmic free Ca2+ level are unknown. Previous estimates were only very imprecise upper limits because normal intact red cells have a minute total pool of exchangeable Ca of less than 1 mumol 1 cells; Ca fluxes could not be measured without artificially increasing that pool with ionophores or disrupting the membrane to incorporate Ca buffers. Both procedures leave the membrane considerably leakier than in intact cells. Here, we have increased the exchangeable Ca pool by non-disruptively loading a Ca-chelator into intact cells, using intracellular hydrolysis of a membrane-permeant ester. The trapped chelator made the free cytoplasmic calcium concentration, [Ca2+]i, an easily defined function of directly measurable total cell Ca. We were then able to establish the physiological steady-state [Ca2+]i and pump-leak turnover rate of fresh cells suspended in their own plasma. If [Ca2+]i was lowered below the normal resting level, the Ca pump rate decreased according to the square of [Ca2+]i, and the inward Ca leak increased. The increase in leak did not develop if the cells were depleted of ATP and ADP. 相似文献
6.
María N. F. de Lew H. Cingolani N. Gonzalez E. S. Blesa J. C. Marsiglia 《Cellular and molecular life sciences : CMLS》1967,23(4):314-315
Résumé Etude de l'équilibre acide-basique de la préparation cur-poumon de l'étourneau, réalisée avec la technique habituelle et les moyens de corriger les altérations constatées. La recherche des causes de ces altérations a permis de conclure que l'alcalose respiratoire est due à la ventilation dont on se sert habituellement, tandis que l'acidose métabolique est due à une production de métabolites acides déclanchés surtout par la saignée des animaux donneurs et par la glucolyse qui se produit à partir de l'extraction du sang et jusqu'au moment de son emploi dans la préparation.
This work has been supported by a grant from the Consejo Nacional de Investigaciones Científicas y Técnicas, Argentina. 相似文献
This work has been supported by a grant from the Consejo Nacional de Investigaciones Científicas y Técnicas, Argentina. 相似文献
7.
8.
Rohmann E Brunner HG Kayserili H Uyguner O Nürnberg G Lew ED Dobbie A Eswarakumar VP Uzumcu A Ulubil-Emeroglu M Leroy JG Li Y Becker C Lehnerdt K Cremers CW Yüksel-Apak M Nürnberg P Kubisch C Kubisch C Schlessinger J van Bokhoven H Wollnik B 《Nature genetics》2006,38(4):414-417
Lacrimo-auriculo-dento-digital (LADD) syndrome is characterized by lacrimal duct aplasia, malformed ears and deafness, small teeth and digital anomalies. We identified heterozygous mutations in the tyrosine kinase domains of the genes encoding fibroblast growth factor receptors 2 and 3 (FGFR2, FGFR3) in LADD families, and in one further LADD family, we detected a mutation in the gene encoding fibroblast growth factor 10 (FGF10), a known FGFR ligand. These findings increase the spectrum of anomalies associated with abnormal FGF signaling. 相似文献
9.
The phagocytic function of neutrophils is a crucial element in host defence against invading microorganisms. Two main specific receptor-mediated mechanisms operate in the phagocyte plasma membrane, one recognizing the C3b/bi fragment of complement and the other the Fc domain of immunoglobulin G (ref. 1). There is evidence that phagocytosis mediated by these receptors differs in the number and nature of the intracellular signals generated. However, the mechanisms by which receptor binding is transduced into a signal that generates the formation of the phagocyte pseudopod is not known, although extensive biochemical evidence has allowed the postulate that calcium ion gradients in the peripheral cytoplasm, by interacting with calcium-sensitive contractile proteins, initiate the process of engulfment. Using the high-affinity fluorescent calcium indicator quin2 both to measure and to buffer intracellular calcium ([Ca2+]i), we show here that in human neutrophils two mechanisms of phagocytosis coexist: a [Ca2+]i-dependent and modulated phagocytosis, triggered by activation of the Fc receptor, and a [Ca2+]i-independent mechanism triggered by the activation of the C3b/bl receptors. 相似文献