Summary The possible role of microtubules and microfilaments in the secretory process of the rat exocrine pancreas was analysed in vitro using isolated pancreatic lobules. Colchicine and vinblastine as microtubule inhibitors, hexylene glycol as a microtubule stabilizer, and cytochalasin B as a disruptive agent for microfilaments were used in increasing concentrations to test their effects on protein synthesis, intracellular transport, zymogen discharge, and cellular respiration.Colchicine only at 10–2 M concentrations inhibits protein synthesis, while vinblastine inhibits at 10–6 and 10–5 M by 20% and at 10–4 M by 55%. A similar inhibition is observed with 1.5% concentrations of hexylene glycol while cytochalasine B at 1,5 and 10 g/ml is without effect on protein synthesis. Colchicine and vinblastine have their major effects on intracellular transport both in secretion studies and cell fractionation experiments. Colchicine in concentrations between 10–3 to 10–5 M inhibits discharge of newly synthesized proteins by 50%, while vinblastine shows a dose-response relationship of 40% inhibition at 10–6 M to 90% at 10–4 M. Discharge of amylase is uniformly reduced by 30% by both colchicine and vinblastine in the whole dose range. The pronounced effect of colchicine and vinblastine is evident in cell fractionation studies: both drugs inhibit the disappearance of protein radioactivity from microsomes and its appearance in zymogen granules; similarly the peak radioactivity in smooth microsomes (Golgi) appears delayed. No differential effect on the secretory process was observed with 1.5% concentrations of hexylene glycol or cytochalasin B at 1.5 and 10 g/ml concentrations. A fines tructural analysis of microtubules and microfilaments in the exocrine pancreatic cell reveals their distribution in all parts of the cytoplasm and in relation to all cell organelles. Both systems (microtubules, microfilaments) seem to be connected, at least in certain areas of the cytoplasm and at the plasma membrane.The reduction of transport efficiency by microtubule inhibitors results in a deposition of secretory material in the cisternal space of the rough endoplasmatic reticulum, which leads to the formation of paracrystals. Colchicine at 10–3 M concentrations leads to an enlargement of condensing vacuoles in the Golgi complex.A short communication on the same subject was presented at a Symposion on Stimulus-Secretion-Coupling in the Gastro-intestinal Tract, Titisee (May 27–29, 1975).Supported by Deutsche Forschungsgemeinschaft (Ke 113/8). 相似文献
Sixty-two ragweed-sensitive adult subjects volunteered to take part in a 2-year, placebo-controlled efficacy study of polyethylene glycol (PEG)-modified ragweed extract, in ragweed pollen-induced rhinoconjunctivitis. At the beginning of the study, subjects were stratified according to skin sensitivity to ragweed extract and PEG-modified ragweed and the severity of hay fever in the previous year. There was random allocation of half to active treatment and half to placebo treatment. Before the first ragweed pollen season the 36 most sensitive subjects received 10 weekly injections (group 1), and the remaining 26 received six injections (group 2). Before the second season all subjects received 10 injections. Doses increased by half a log concentration each week unless there were adverse reactions. The mean total dose received by group 1 in year 1 was 385 micrograms of protein (28.9 micrograms AgE) and received by group 2 was 218 micrograms of protein (16.4 micrograms AgE). In year 2 the mean total dose was 1829 micrograms (137.2 micrograms AgE). Sixty-six percent of injections elicited no reaction or a mild local reaction; the remaining injections produced local redness and swelling more than 2 inches in diameter. Four percent of injections produced systemic symptoms. PEG-modified ragweed stimulated increases in ragweed specific IgG antibody both years, but increases in ragweed specific IgE antibody were significant only in group 1 in year 1. The magnitude of the IgG antibody changes was directly related to the total dose injected. At the beginning of the second year, PEG-modified ragweed-treated subjects still had elevated IgG antibody levels.(ABSTRACT TRUNCATED AT 250 WORDS) 相似文献
Articular cartilage has a limited capacity for self-repair. To overcome this problem, it is expected that functional cartilage replacements can be created from expanded chondrocytes seeded in biodegradable scaffolds. Expansion of chondrocytes in two-dimensional culture systems often results in dedifferentiation. This investigation focuses on the post-expansion phenotype of human nasal chondrocytes expanded on macroporous gelatin CultiSpher G microcarriers. Redifferentiation was evaluated in vitro via pellet cultures in three different culture media. Furthermore, the chondrogenic potential of expanded cells seeded in polyethylene glycol terephthalate/ polybuthylene terephthalate (PEGT/PBT) scaffolds, cultured for 14 days in vitro, and subsequently implanted subcutaneously in nude mice, was assessed.
Chondrocytes remained viable during microcarrier culture and yielded doubling times (1.07±0.14 days) comparable to T-flask expansion (1.20±0.36 days). Safranin-O staining from pellet culture in different media demonstrated that production of GAG per cell was enhanced by microcarrier expansion. Chondrocyte–polymer constructs with cells expanded on microcarriers contained significantly more proteoglycans after subcutaneous implantation (288.5±29.2 μg) than those with T-flask-expanded cells (164.0±28.7 μg). Total collagen content was similar between the two groups.
This study suggests that macroporous gelatin microcarriers are effective matrices for nasal chondrocyte expansion, while maintaining the ability of chondrocyte differentiation. Although the exact mechanism by which chondrocyte redifferentiation is induced through microcarrier expansion has not yet been elucidated, this technique shows promise for cartilage tissue engineering approaches. 相似文献
A simple technique for controlling cell adhesion on glass substrates by surface modification using a commercially available poly(ethylene glycol) (PEG) disilane, which can bind directly to glass in a single step, in combination with photolithographic micropatterning, was developed, characterized, and evaluated for patterning of HepG2 hepatoma cells and 3T3 fibroblasts. The optimal concentration of PEG-disilane for surface modification was 5 mM, and patterning of strongly adherent cells such as HepG2 required the chelation of divalent metal cations in order to inhibit nonspecific binding and cell aggregation. Whereas the average thickness of the PEG-disilane layer was 18±3.5 nm, the perimeters of patterned areas of exposed glass exhibited ridges of average height 857±50 nm, which may have aided in constraining cell spreading and migration. Although unpatterned PEG-treated substrates were hydrophilic (contact angle 46±1°), micropatterned surfaces behaved as if they were somewhat hydrophobic (contact angle 90°), necessitating special protocols for preventing deleterious dewetting of cells. For optimized protocols, the probability of adhesion of HepG2 cells to a patterned area of exposed glass was almost 15 times higher than the probability of adhesion to a PEG-treated background region of equal area. Our technique is useful for short- to intermediate-term patterning of cell or tissue morphology, e.g., for investigation of the effects of cell–cell interactions or cell geometry. 相似文献
The septum of male hooded rats (N = 59) was completely isolated from the rest of the brain (ISS) or was partially isolated by severing dorsal (DP), ventral (VP), anterior (AP), or posterior (PP) fiber tracts using a knife-cut technique. Daily water intakes and intakes following hypertonic NaCl and polyethylene glycol (PG) injections were measured. The septum totally degenerated for the ISS group and these rats had normal or hypodipsic daily intakes, likewise for intakes following NaCl and PG. Rats of the VP group sustained little septal damage, yet these cuts yielded the highest percentage (55 percent) of hyperdipsic daily drinkers of any group. The daily hyperdipsic rats drank normally in response to NaCl and PG, demonstrating a dissociation between daily drinking and drinking in response to specific thirst stimuli. The results indicate the importance of ventral fiber systems in the production of Septal Hyperdipsia, and support the notion that the septum has multiple effects upon water regulation. 相似文献