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Rabbit articular chondrocytes have a limited growth potential in vitro. After four passages in culture, chondrocytes have accomplished more than 50% of their life span. At this stage of culture, they are considered to be senescent-like, since a dramatic decrease in proliferative capacity and enhanced cell size and protein content are observed. These aged cells are, however, still able to respond to fibroblast growth factor (FGF). The addition of either acidic or basic FGF (10 ng/ml) to culture medium permitted an enhanced proliferation. The attenuation of FGF mitogenic activity during aging was not observed for both fractions. Moreover, when treated with acidic or basic FGF, aged chondrocytes had a smaller size and a lower protein content. The acidic FGF was less potent than the basic FGF in delaying the evolution of aged chondrocytes to senescence.  相似文献   
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Primary cultures of rabbit articular chondrocytes have been subcultured within three-dimensional (3D) collagen gels. Under these conditions, the cells remained viable and divided, but with a lower proliferation rate than that observed in control monolayer cultures. Flow cytometric analysis of progression of the cells into the cell cycle has confirmed and extended these findings. Also the cellular volume was decreased in 3D-culture, being in the same range as thein vivo size of cartilage cells. Specific staining for proteoglycans and type II collagen immunolocalization on sections of gels showed the expression of differentiated phenotypes and revealed the accumulation of these matrix components in the immediate surroundings of the cells. The use of Ultroser G (a serum substitute) improved the conditions for 3D- culture of rabbit articular chondrocytes.  相似文献   
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G2 arrest, binucleation, and single-parameter DNA flow cytometric analysis   总被引:1,自引:0,他引:1  
One important facet of flow cytometry involves the effects of pharmacological agents on cell cycle progression. Comparative G2 fraction perturbations were examined: effects of sodium butyrate on articular chondrocytes, effects of an antineoplastic agent (SOAZ) and an antirheumatic drug (D-penicillamine) on HeLa cells. Even though DNA flow cytometric analysis detects preferentially an induction of G2 arrest, the mode of action of these agents on the cell cycle is different. Sodium butyrate and D-penicillamine lead to an increase of binucleate cells due to cytokinesis perturbation. Because of similar fluorescence intensity, distinguishing G2 from binucleate GO/1 cells is not easily possible using DNA content measurement and reflects a failure of flow cytometry in the detection of binucleate cells. Rapid cell cycle analysis of single cells should contribute greatly to the study of pharmacological interactions, but DNA flow cytometric measurements obtained from cultured cells exposed to certain agents must be cautiously interpreted because those may interact on cytokinesis and induce artefacts in histogram interpretation.  相似文献   
5.
The in-vitro proliferation kinetics of young rabbit articular chondrocytes were compared in primary culture and at the first passage. The growth curves labelling and mitotic indices, percentage labelled mitosis (PLM) curves and DNA content distributions by flow-microfluorometric analysis during a 7-day growth period were determined in both cases. The length of the cell cycle and the doubling time calculated from the exponential part of the growth curve were quite similar: Tc = 19 hr and Td = 20 hr for the primary culture, Tc = 17 X 3 hr and Td = 20 hr for the first passage. However, the growth curve and the DNA distribution during the 7-day period showed some differences. The duration of the lag period studied by the growth curve was longer in the primary culture than at the first passage. This phenomenon was also observed using the FCM analysis. The growth fraction determination on the second day of culture was in accordance with the lower proliferation capacity of the cells in primary culture. These data suggest that it would be better to study growth kinetics and drug modifications in articular chondrocytes at the first passage than in primary culture.  相似文献   
6.
The use of the supravital mitochondrial-specific dye Rhodamine 123 (Rh 123) in combination with flow cytometry permits the monitoring of the changes in the mitochondrial transmembrane potential, reflecting the overall mitochondrial activity of the living cell. While this probe appears to be a potent tool for these studies, it also exhibits an important limit in the interpretation of the results: it cannot distinguish between an increase in mitochondrial activity without biogenesis and a modification of mitochondrial content. 10-n-Nonyl Acridine Orange chloride (NAO) constitutes another mitochondrial specific fluorochrome. In contrast with Rh 123, NAO accumulation in the cell does not seem to be driven by the proton-motrice force but does seem to be related to specific interactions with mitochondrial membrane proteins and/or lipids. In this work, the cytotoxicity of NAO, the kinetics of cellular uptake and the release of the dye have been determined using flow cytometry. The use of several ionophores or mitochondrial inhibitors has confirmed the independence of NAO uptake regarding mitochondrial transmembrane potential. NAO was also used to examine the changes in the mitochondrial compartment during the transfer of articular chondrocytes from cartilage to the culture conditions, where Rh 123 evidenced changes in mitochondrial activity and/or biogenesis, in order to know whether the use of probes with different specificity allows one to distinguish between mitochondrial activity and biogenesis.  相似文献   
7.
The cell-growth-inhibitory and phase-specific effects of D-penicillamine on cell-cycle progression were investigated using cell-proliferation patterns, quantitative cell-cycle analysis by flow cytometry, and determination of the mitotic index and binucleate cell fraction of normal (rabbit articular chondrocytes, L 809, rabbit fibroblasts) and transformed (HeLa, L 929) cells. D-penicillamine treatment resulted in an inhibition of growth within a dose range of 5 × 10?4 M to 7.5 × 10?3 M. Examination of DNA by flow cytometric analysis revealed that rabbit articular chondrocytes were preferentially arrested in the G0/1 phase of the cell cycle, whereas the other cell lines were blocked in the G2 + M phase; the increase in the proportion of cells with G2 + M DNA content was partially due to an enhancement of binucleate cells, resulting in a cytokinesis perturbation for HeLa and L 929 cells. These results showed that D-penicillamine affects cell proliferation through different events according to cell type.  相似文献   
8.
Fetal calf serum and a serum substitute, Ultroser G, were compared for their effects on the growth curves, clonal growth and cell cycle progression of rabbit chondrocytes in primary culture and during at least three cell passages and included a screen for the maintenance of cartilage-like differentiation i.e. the presence of type II collagen. Proliferation was also compared with another serum substitute, Nu-Serum. Ultroser G is shown to be equivalent to fetal calf serum as far as chondrocyte proliferation is concerned, clonal growth is improved and biosynthesis of type II collagen is maintained in primary culture.  相似文献   
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