Alveolar environment influences the metabolic and biophysical properties of exogenous surfactants.
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Several factors have been shown to influence the efficacy of exogenous surfactant therapy in the acute respiratory distress syndrome. We investigated the effects of four different alveolar environments (control, saline-lavaged, N-nitroso-N-methylurethane, and hydrochloric acid) on the metabolic and functional properties of two exogenous surfactant preparations: bovine lipid extract surfactant and recombinant surfactant-associated protein (SP) C drug product (rSPC) administered to each of these groups. The main difference between these preparations was the lack of SP-B in the rSPC. Our results demonstrated differences in the large aggregate pool sizes recovered from each of the experimental groups. We also observed differences in SP-A content, surface area cycling characteristics, and biophysical activities of these large aggregate forms after the administration of the two exogenous surfactant preparations. We conclude that the alveolar environment plays a critical role, influencing the overall efficacy of exogenous surfactant therapy. Thus further preclinical studies are warranted to investigate the specific factors within the alveolar environment that lead to the differences observed in this study. (+info)
Tumor induction relationships in development of transplantable cancers of the colon in mice for chemotherapy assays, with a note on carcinogen structure.
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In an effort to establish an animal colon tumor model suitable for biological and chemotherapy studies, 82 colon tumors were induced and transplanted in four different inbred strains of mice. Four colon tumors survived the first transplant and are now in serial passage. All are suitable for chemotherapy trials. Two tumors are highly metastatic, and at least one of these is known to be suitable for surgery-chemotherapy adjuvant studies. The effective colon carcinogens contained a (see article) molecular similarity. (+info)
Different genetic alterations in rat forestomach tumors induced by genotoxic and non-genotoxic carcinogens.
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Human beings are exposed to a multitude of carcinogens in their environment, and most cancers are considered to be chemically induced. Here we examined differences in genetic alterations in rat forestomach tumors induced by repeated exposure to a genotoxic carcinogen, N-methyl-N'-nitro-N-nitrosoguanidine (MNNG) or N-methylnitrosourethane (MNUR), and chronic treatment with a non-genotoxic carcinogen, butylated hydroxyanisole (BHA) or caffeic acid (CA). A total of 132, 6-week-old male F344 rats were employed. Forty rats were treated with MNNG by intragastric administration at a dose of 20 mg/kg body wt once a week for 32 weeks, and 20 rats received 20 p.p.m. MNUR in their drinking water for 48 weeks. Further groups of 20 animals were administered 2% BHA or 2% CA in the diet for 104 weeks. The remaining rats were maintained without any supplement as controls. Multiple forestomach tumors were observed in all rats of the MNNG-, MNUR-, BHA- and CA-treated groups. Histopathologically, MNUR- and CA-treated groups showed almost the same pattern. On polymerase chain reaction-single strand conformation polymorphism analysis, H-ras and p53 gene mutations were observed at high and relatively low frequencies, respectively, in forestomach tumors induced by MNNG and MNUR. Most H-ras gene mutations were G-->A transitions in codons 7 and 12 of exon 1. On the other hand, forestomach tumors due to the non-genotoxic carcinogens, BHA and CA, had almost no mutations of the H-ras and p53 genes. Moreover, relative overexpression of cyclin D1 and p53 was detected in forestomach tumors induced by the genotoxic carcinogens, while their non-genotoxic counterparts had a tendency to show low expression of those molecules. Mutations of the beta-catenin gene were not detected in any group. The present study demonstrates that rat forestomach tumors induced by genotoxic and non-genotoxic carcinogens have different underlying genetic alterations, even if their pathological features are similar. (+info)
Experimental acute alveolar injury in the dog. Morphologic--mechanical correlations.
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In 26 dogs, a single subcutaneous injection of N-nitroso-N-methylurethane produced acute lung injury characterized by tachypnea cyanosis, increased static lung recoil, and decreased lung compliance. During the first few days, light microscopic examination revealed widespread interstitial and perivascular edema and alveolar collapse. At the same time, electron microscopy showed the major alteration to be widespread necrosis of both types of alveolar epithelial cells without significant injury to the vascular endothelium. During recovery, new epithelial cells appeared which probably were derived from granular pneumocytes. These cells developed into mature granular pneumocytes through a phase in which they resembled fetal granular pneumocytes. The late stage was characterized by a picture resembling diffuse interstitial fibrosis but which was due to irreversible closure of clusters of small airspaces with no apparent increase in collagen. Elastic recoil of the lungs, as reflected by peak inspiratory airway pressure, increased during the acute phase and showed a return toward normal that was coincident with the appearance of mature granular pneumocytes in the regenerating epithelium. Lung compliance decreased during the acute phase and in most animals returned toward normal during the recovery phase. These observations strongly suggest that the alteration in lung mechanics is related to epithelial necrosis and that recovery is related to epithelial regeneration. (+info)
Quantitative microscopy of mouse colon 26 cells growing in different metastatic sites.
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Quantitative microdensitometry and computerised interactive image analysis were used to compare the expression of endogenous lectins by cells of mouse colon 26 carcinomas, growing either as primary tumours or metastases, in five different anatomic sites (caecum, liver, lung, spleen, s.c.). Endogenous lectins were visualised in tissue sections using the ABC peroxidase technique with a panel of 17 biotinylated neoglycoproteins representing a variety of carbohydrates found in glycoproteins, glycolipids and proteoglycans. Clear-cut site-associated differences in endogenous lectin expression were detected in cancer cells growing in all five sites. The patterns of these changes were complex and shifts in expression of different lectins were independently variable in both direction and amount. In addition to site-associated variations, differences in lectin expression were also detected in the liver and lungs, between cells in spontaneous metastases and cells in colonies generated by direct injection of cancer cells into the bloodstream. The results demonstrate quantitative, as distinct from qualitative, differences developing in cancer cell populations after delivery of cells to different target organs. The differences between liver and lung metastases are in accord with analogous site-associated differences in metastatic patterns produced by colon carcinoma cells in mice and in humans. (+info)
Comparison of the acute toxicity of N-nitrosocimetidine with three structurally related carcinogens in the rat.
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The acute toxicity of N-nitrosocimetidine, the nitrosated derivative of the histamine H2-receptor blocking agent cimetidine, was compared with the toxicities of three structurally related nitroso compounds known to be potent carcinogens, namely N-methyl-N'-nitro-N-nitrosoguanidine, N-methyl-N-nitrosourea, and N-methyl-N-nitrosourethane, and also with the parent drug cimetidine. The acute toxicity of each compound was investigated in 6-week-old female Fischer-344 rats by estimating the median lethal doses via three different routes of administration, and by assessing the sequence of histopathological alterations induced. According to median lethalities, all three known carcinogens were substantially more toxic than nitrosocimetidine whether administered by the intravenous, intraperitoneal, or oral routes. The widest margin of difference was represented by orally administered N-methyl-N-nitrosourea, the median lethal dose being 59 times greater than oral N-nitrosocimetidine. By this method, the acute toxicities of N-nitrosocimetidine and the parent drug cimetidine were virtually identical for each of the three routes of administration. Sequential histological assessment indicated that the three known carcinogens induced specific pathological alterations mainly in organs which were also known to be targets for their carcinogenic activity. In contrast, no tissue lesions of a specific nature were associated with N-nitrosocimetidine or cimetidine in this study. The comparable results with N-nitrosocimetidine and the parent drug provide biological support for previously obtained biochemical data which suggested that N-nitrosocimetidine is rapidly denitrosated to cimetidine in the rat. (+info)
Normal surface properties of phosphatidylglycerol-deficient surfactant from dog after acute lung injury.
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Lung surfactant was isolated from bronchoalveolar lavage of dogs during the late phase of recovery (15 days) from acute alveolar injury induced by subcutaneous injection of N-nitroso-N-methylurethane. This surfactant was compared with surfactant from control dogs in terms of in vitro surface properties, phospholipid composition and protein content, and those of its subfractions. Phospholipid composition and protein content were similar in the two groups, except that phosphatidylglycerol (PG) was markedly reduced and phosphatidylinositol (PI) was increased in the experimental group. In both, isopycnic densities of their subfractions in continuous sucrose density gradient were identical. The time course of surfactant adsorption was similar in both groups. Minimum surface tension (gamma min) was 4.1 +/- 1.5 dynes/cm in the experimental dogs and 3.8 +/- 1.3 dynes/cm in the controls. Surface compressibility (SC), stability index (SI), and dynamic respreadability (DR) of the surfactants from the two groups were nearly identical. When compared to an artificial surfactant composed of dipalmitoyl phosphatidylcholine (DPPC) and PG in 9:1 molar ratio a mixture of DPPC-PI 9:1 prepared identically showed similar gamma min, SC, SI, and DR, and a much higher surface adsorption rate. These results suggest that PG is not essential for normal in vitro surfactant function and that its role may be assumed by PI. (+info)
Diphosphatidylglycerol in experimental acute alveolar injury in the dog.
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Acute alveolar injury closely resembling that seen in humans was induced in dogs by subcutaneous injection of N-nitroso-N-methylurethane. Necrosis of alveolar epithelial cells was observed during early injury. Proliferation of immature epithelial cells which began during early injury and became massive after peak injury was followed by their differentiation to mature type II cells during recovery. Quantities of diphosphatidylglycerol (DPG) and of phosphatidylglycerol (PG) in alveolar lavage and in post-lavage lung tissue were measured. An increase in tissue DPG coincided with a sharp decrease in tissue and lavage PG during early injury. DPG was not detectable in the lavage. During late recovery, tissue DPG increased threefold over controls. This increase was accompanied by persistence of a 50% decrease in tissue PG and 83% decrease in lavage PG. Biosynthesis of DPG and PG in isolated lung mitochondria demonstrated that DPG was formed from PG in the presence of CDP-diglyceride. These findings suggest that the low level of PG in the surfactant complex during acute alveolar injury is due to increased turnover of PG to DPG in the lung. (+info)