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ABSTRACT: Intracellular transport of endocytosed surfactant protein A (SP-A) and lipid was investigated in isolated rat type II cells. After internalization, SP-A and lipid are taken up via the coated-pit pathway and reside in a common compartment, positive for the early endosomal marker EEA1 but negative for the lamellar body marker 3C9. SP-A then recycles rapidly to the cell surface via Rab4-associated recycling vesicles. Internalized lipid is transported toward a Rab7-, CD63-, 3C9-positive compartment, i.e., lamellar bodies. Inhibition of calmodulin led to inhibition of uptake and transport out of the EEA1-positive endosome and thus of resecretion of both components. Inhibition of intravesicular acidification (bafilomycin A1) led to decreased uptake of both surfactant components. It inhibited transport out of early endosomes for lipid only, not for SP-A. We conclude that in type II cells, endocytosed SP-A and lipid are transported toward a common early endosomal compartment. Thereafter, both components dissociate. SP-A is rapidly recycled to the cell surface and does not enter classic lamellar bodies. Lipid is transported toward lamellar bodies.
AJP Lung Cellular and Molecular Physiology 09/2001; 281(2):L345-60. · 3.66 Impact Factor
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ABSTRACT: Surfactant protein (SP) A and SP-A-mediated lipid uptake by isolated type II cells were investigated with biochemical and morphological methods. Inhibition of coated-pit function by potassium depletion severely reduced both SP-A and SP-A-mediated lipid internalization. Lipid uptake in the absence of SP-A was not affected. With confocal laser scanning microscopy and immunoelectron microscopy, SP-A and lipid predominantly (60%) colocalized in intracellular vesicles carrying early endosomal markers (EEA1) 5 min after endocytosis but were negative for the late endosomal or lysosomal marker LAMP-1. As estimated by subcellular fractionation, at this time point, 23% of the internalized SP-A and 45% of internalized lipid were localized within light (<0.38 M sucrose) fractions, which contain lamellar bodies and are positive for EEA1. The remaining label was predominantly found within EEA1-positive and plasma membrane-containing subfractions (> or = 1 M sucrose). We suggest that in isolated type II cells in vitro, SP-A and lipid are taken up together via the coated-pit pathway and that at early time points, both components reside in the same early endosomal compartment.
AJP Lung Cellular and Molecular Physiology 02/2001; 280(1):L141-51. · 3.66 Impact Factor
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ABSTRACT: The role of surfactant protein (SP)-A in cytomegalovirus (CMV) infection of the lung was investigated. We found that SP-A binds to various immobilized human CMV proteins and those exposed on the surface of infected embryonal lung fibroblasts. The interaction between SP-A and immobilized CMV proteins was found to be calcium-dependent and inhibited by mannan, suggesting involvement of the carbohydrate recognition domain of SP-A and high-mannose carbohydrate residues of viral envelope glycoproteins. Using flow cytometry and confocal laser fluorescence microscopy in the rat model we showed that preincubation of rat CMV with SP-A stimulates its binding and internalization by rat type II pneumocytes and alveolar tissue macrophages. This effect was concentration- and Ca(2+)-dependent but was not inhibited by mannan. Therefore, the domains of SP-A involved in SP-A CMV interaction and in interaction of the SP-A/virus complex with rat lung cells are distinct. Additionally, in the human CMV model, sheep as well as human proteinosis SP-A did not significantly affect human CMV replication in embryonal lung fibroblasts. Thus, SP-A may contribute to CMV-associated pathology of the lung by increasing the efficiency of target cell infection.
American Journal of Respiratory Cell and Molecular Biology 08/2000; 23(1):71-8. · 5.13 Impact Factor
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ABSTRACT: In addition to the primary surfactant deficiency in newborns with respiratory distress syndrome (RDS), in the later course of RDS substantial protein leakage into the alveolar spaces can occur by damage to the alveolocapillary membrane. Acute lung injury results in surfactant dysfunction due in part to inhibition by serum proteins. The aim of this study was to investigate the influence of SP-B on the inhibitory effects of albumin (alb) and fibrinogen (fib) on the surface activity of pulmonary surfactant, using a) surface tension measurement with the pulsating bubble surfactometer in suspensions and b) in surfactant films applying the hypophase exchanger. After hypophase exchange a preformed film of Survanta is very resistant to the inhibitory activity of alb or fib. The surface tensions of suspensions are significantly higher (p <0.001) than the surface tensions of preformed surfactant films if alb or fib were added, e.g., 42 (41 to 43) mN/m vs. 21 (19 to 22) mN/m for Survanta with 20 mg alb/ml. After additional supplementation of Survanta with SP-B the surface activity of Survanta/1% SP-B films did not show inhibition by fib (2 mg/ml), (surface tension 8 (4 to 13) mN/m). These results indicate that SP-B can play an important role to protect the pulmonary surfactant film from inactivation by serum proteins.
European journal of medical research 07/2000; 5(7):277-82. · 1.13 Impact Factor
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ABSTRACT: Biochemical and morphological assays were developed to study surfactant protein A (SP-A) and lipid resecretion kinetics by isolated type II cells in vitro. After a 10-min uptake period with SP-A (3 microg/10(6) cells) in combination with liposomes (60 microg/10(6) cells), the cells were allowed to resecrete. After 5 min of resecretion, only 21.7 +/- 4.6% of the internalized SP-A remained intracellularly compared with 54 +/- 2.9% of the lipids. Extracellular SP-A present during the resecretion period partially inhibited resecretion (SP-A, 36% at 5 min; lipid, approximately 16% at 5 min). Lipid resecretion was also dependent on the SP-A concentration present during the uptake period. Although, as shown by confocal laser scanning microscopy, after a 10-min uptake period at 37 degrees C, most of the fluorescein isothiocyanate-labeled SP-A and rhodamine-phosphatidylethanolamine-labeled lipids colocalized within the cells, after an additional 10 min of resecretion, both the strength of the fluorescence signals and the extent of colocalization had markedly decreased. These data indicate that internalized lipid and SP-A can be resecreted rapidly by type II cells, likely via different pathways.
AJP Lung Cellular and Molecular Physiology 04/2000; 278(3):L580-90. · 3.66 Impact Factor
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ABSTRACT: Recent work on surfactant protein A (SP-A) has shown that Ca(2+) induces an active conformation, SP-A, which binds rapidly to liposomes and mediates their aggregation. Employing sensitive real time assays, we have now studied the lipid binding characteristics of the SP-A liposome interaction. From the final equilibrium level of the resonant mirror binding signal, an apparent dissociation constant of ca. K(d)=5 microM is obtained for the complex between SP-A and dipalmitoylphosphatidylcholine (DPPC) liposomes. At nanomolar SP-A concentrations, this complex is formed with a subsecond (0.3 s) reaction time, as measured by light-scattering signals evoked by photolysis of caged Ca(2+). With palmitoyloleoylphosphatidylcholine (POPC), the complex formation proceeds at half the rate, compared to DPPC, leading to a lower final equilibrium level of SP-A lipid interaction. Distearoylphosphatidylcholine (DSPC) shows a stronger interaction than DPPC. Regarding the phospholipid headgroups, phosphatidylinositol (PI) and sphingomyelin (SM) interact comparable to DPPC, while less interaction is seen with phosphatidylethanolamine (PE) or with phosphatidylglycerol (PG). Thus both headgroup and fatty acid composition determine SP-A phospholipid interaction. However, the protein does not exhibit high specificity for either the polar or the apolar moiety of phospholipids.
Biochimica et Biophysica Acta 11/1999; 1441(1):23-35. · 4.66 Impact Factor
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ABSTRACT: alpha-Tocopherol transfer protein (alpha-TTP) supplements nascent very-low-density lipoprotein (VLDL) preferentially with alpha-tocopherol by selecting the alpha-isomers against other stereoisomers of tocopherol. It is exclusively expressed in liver. We investigated whether the expression of the hepatic alpha-TTP can be induced by dietary tocopherols. Vitamin E-depleted rats were fed with a diet containing alpha- and delta-tocopherol (ratio 1:3). The expression of alpha-TTP mRNA was measured in liver tissue. The ratio of tocopherol stereoisomers was determined in plasma, plasma lipoproteins and tissues to measure the metabolic action of alpha-TTP. Refeeding a diet containing either alpha- or delta-tocopherol, or both, caused a steady increase of the expression of alpha-TTP mRNA. In parallel the alpha/delta-tocopherol ratio increased in plasma, VLDL, high-density lipoprotein and low-density lipoprotein as well as in liver tissue, when the diet was fed containing both isomers. The alpha-tocopherol/delta-tocopherol ratio of heart, kidney, lung, lamellar bodies of lung and in lung lavage showed no or a comparatively low increase. The data show that both tocopherol isomers were able to induce alpha-TTP mRNA in rat liver and, thus, the ability of liver to select for the alpha-isomer. On the other hand, tocopherol depletion did not change the expression of hepatic alpha-TTP mRNA in the rat.
Biochemical Journal 04/1998; 331 ( Pt 2):577-81. · 4.90 Impact Factor
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ABSTRACT: Apart from dipalmitoyl phosphatidylcholine, cholesterol is the most abundant surfactant lipid. About 90 to 99% of cholesterol of the alveolar surfactant is derived from serum lipoproteins. The aim of this study was to identify the lipoprotein which preferentially supplements type II pneumocytes with cholesterol destined for surfactant production. Ultrastructural investigations revealed that type II pneumocytes bind and take up HDL, LDL and VLDL. Binding and uptake of VLDL occurred even in the presence of excess LDL indicating that, besides LDL receptors, type II pneumocytes express additional binding sites for VLDL. Type II pneumocytes in primary culture are able to take up cholesterol added in the form of HDL, LDL and VLDL. Cholesterol uptake was lowest from HDL and highest from VLDL. The maximal velocity of cholesterol uptake from VLDL was more than three times that of cholesterol uptake from LDL. The half-maximal saturation of cholesterol uptake from VLDL was nearly half that of LDL. From these kinetic data and the distribution of free cholesterol among the serum lipoproteins, we calculated that the cholesterol uptake from VLDL is more than three times that of cholesterol uptake from LDL. In double-labeling experiments type II pneumocytes secreted palmitic acid-labeled phospholipids together with labeled free cholesterol taken up from lipoproteins. The secretion rates of both phospholipids and free cholesterol were stimulated to nearly the same extent by isoproterenol. From our results we conclude that type II pneumocytes interact specifically with HDL, LDL and VLDL. Cholesterol taken up in the form of the individual lipoproteins shows no difference in its availability for the formation of cholesterol ester and surfactant by type II pneumocytes in vitro. Based on the kinetic studies, it appears that VLDL is the major gateway through which cholesterol is provided to satisfy the cholesterol requirements of type II pneumocytes for the synthesis of surfactant.
European Journal of Cell Biology 11/1997; 74(2):197-207. · 2.81 Impact Factor
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ABSTRACT: Surfactant protein A (SP-A) is crucial for lung function, including tubular myelin formation and lipid uptake by type II pneumocytes. Known properties of SP-A in vitro are its Ca2+-dependent interaction with phospholipids and its role in the aggregation of liposomes. To dissect and to analyze these processes, we have immobilized SP-A and measured binding of liposomes by the resonant mirror technique. Liposome aggregation was followed separately by kinetic light scattering in suspensions. It was found that SP-A-mediated binding and aggregation of liposomes have a common K0.5 of 20 microM for free Ca2+, independent of the species (sheep, rat, or cow) and of the phospholipid composition, and that both reactions exhibit the same high cooperativity (Hill coefficients of 6-9) for Ca2+ ions. However, binding of liposomes to SP-A is >10-fold faster than aggregation. Both processes are completely reversed by low Ca2+ concentrations, but liposomes dissociate from SP-A in <0.3 s, whereas disaggregation of the liposomes takes approximately 30 s. At equilibrium, the level of aggregation depends on the concentration of free SP-A. We interpret these results to be a rapid and reversible sequence of three reactions: (i) a cooperative Ca2+-dependent conformational change in SP-A, (ii) binding of Ca2+-bound SP-A to liposomes, and (iii) aggregation of the Ca2+/SP-A-bound liposomes.
Journal of Biological Chemistry 06/1997; 272(23):14600-5. · 4.77 Impact Factor
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ABSTRACT: The mechanism of surfactant protein (SP)-A-mediated lipid uptake by rat type II pneumocytes was investigated. In the absence of SP-A, freshly isolated type II pneumocytes actively take up very little if any liposomes. Most of the increase with time is independent of energy or temperature but is most likely due to spontaneous exchange of labeled lipids between liposomes and cell membranes. With 5 micrograms/ml SP-A, type II cells actively take up liposomes (244 pmol dipalmitoylphosphatidylcholine.h-1.10(6) cells-1). The effect of SP-A on uptake is temperature dependent and can be abolished by ATP depletion of the cells. Coincubation with an auto-anti-idiotypic antibody against the SP-A-binding protein BP55 on the cell membrane of type II pneumocytes inhibits SP-A-mediated lipid uptake by type II cells. With increasing amounts of extracellular SP-A present, increasing amounts of liposomes are taken up and directed toward a nondegrading compartment. We suggest that SP-A-mediated surfactant lipid uptake is a receptor-mediated endocytotic process involving BP55.
The American journal of physiology 10/1996; 271(3 Pt 1):L432-40.
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ABSTRACT: Antibodies against a type II pneumocyte component were developed by an auto-anti-idiotypic approach using surfactant-associated protein A (SP-A) as the immunogen. The antibodies recognize an SP-A-binding protein (approximately 170-200 kDa under non-reducing conditions, 55 kDa under reducing conditions) on the cell membrane of rat type II pneumocytes. One of the antibodies competes with SP-A for binding to type II cells. In immunization assays in vitro, with this antibody as the antigen, anti-SP-A antibodies have been generated. The SP-A-binding cell membrane protein recognized by this auto-anti-idiotypic antibody may be involved in the interaction of extracellular SP-A with the type II pneumocyte and may play a role in the regulation of alveolar surfactant metabolism.
Biochemical Journal 06/1995; 308 ( Pt 1):77-81. · 4.90 Impact Factor
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ABSTRACT: Lung surfactant is exposed to strongly oxidizing conditions. We examined the hypothesis that in lung, lipophilic antioxidants are secreted together with surfactant to counteract the peroxidation of surfactant constituents. Lung lavage and the subfractions of the alveolar surfactant contain the lipophilic antioxidants vitamin E, vitamin A, and plasmalogens. The specific radioactivity of vitamin E isolated from serum, lung homogenate, lamellar bodies, and lung lavage increased linearly up to 3 h after intraperitoneal application of [3H]tocopherol. [3H]tocopherol was secreted in situ together with [14C]palmitic acid-labeled phospholipid in response to isoproterenol. Type II cells cultured in presence of [3H]tocopherol or of [3H]cholecalciferol and [14C]palmitic acid responded to isoproterenol by a time-dependent increase in secretion of [3H]tocopherol and of 14C-labeled phospholipids but not of [3H]cholecalciferol. The isoproterenol-stimulated secretion of [3H]tocopherol and of 14C-labeled phospholipids by type II cells is inhibited by surfactant protein A. We conclude that the alveolar surfactant contains lipophilic antioxidants as integral constituents. [3H]tocopherol seems to be secreted together with surfactant.
The American journal of physiology 09/1993; 265(2 Pt 1):L133-9.
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ABSTRACT: Surfactant-associated protein (SP-A) was measured in tracheal aspirates of ventilated infants with (n = 51) and without (n = 21) respiratory distress syndrome (RDS). SP-A concentrations in samples collected after birth were significantly lower in RDS than in infants ventilated for other reasons than RDS (median 0.03 vs. 1.60 micrograms/ml). As a biochemical test to diagnose RDS early after birth, the sensitivity of measuring SP-A in tracheal aspirates was 87% and specificity 81%. SP-A content in tracheal aspirates of infants with RDS was monitored during the first 7 days of life. A significant (P less than 0.001) increase within the first 4 days was found in those infants who survived, whereas no such change was found in those infants who died.
European Journal of Pediatrics 09/1992; 151(8):596-600. · 1.88 Impact Factor
