Mutant spectra of irradiated CHO AL cells determined with multiple markers analyzed by flow cytometry.
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We have previously developed a sensitive and rapid mammalian cell mutation assay which is based on a Chinese hamster ovary cell line that stably incorporates human chromosome 11 (CHO A(L)) and uses flow cytometry to measure mutations in CD59. We now show that multiparameter flow cytometry may be used to simultaneously analyze irradiated CHO A(L) cells for mutations in five CD genes along chromosome 11 (CD59, CD44, CD90, CD98, CD151) and also a GPI-anchor gene. Using this approach, 19 different mutant clones derived from individual sorted mutant cells were analyzed to determine the mutant spectrum induced by ionizing radiation. All clones analyzed were negative for CD59 expression and PCR confirmed that at least CD59 exon 4 was also absent. As expected, ionizing radiation frequently caused large deletions along chromosome 11. This technology can readily be used to rapidly analyze the mutant yield as well as the spectrum of mutations caused by a variety of genotoxic agents and provide greater insight into the mechanisms of mutagenesis. (+info)
Bridge linkage role played by CD98hc of anti-tumor drug resistance and cancer metastasis on cisplatin-resistant ovarian cancer cells.
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Anti-tumor drug resistance and cancer metastasis are always clinically coincidental, which are conducted by different molecules such as P-glycoprotein (P-gp) and CD147, respectively. P-gp and CD147/CD98hc complex are both found highly expressed on cisplatin resistant ovarian cancer cell line SKOV3/DDP but only slightly expressed on its parent cell SKOV3. RNAi targeting CD98hc or CD147 both reduce their own and P-gp expression as well as cisplatin IC50 of drug-resistant tumor cells. CD147 interference only reduced membrane CD98hc rather than its intracellular forms. Stop of CD98hc also diminished CD147 translation. Cloned potential CD98hc promoter region showed promoter activity in luciferase assay under cisplatin pressure. Intracellular cisplatin accumulation was found increased in RNAi groups and the efflux ability of cisplatin resistant SKOV3 cells was disrupted as well. CD147 has been reported to play an important role in tumor metastasis. Taken together, CD98hc was for the first time revealed to be a bridge between MDR phenotype and tumor metastasis. (+info)
Osteoblasts directly control lineage commitment of mesenchymal progenitor cells through Wnt signaling.
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Lineage commitment of mesenchymal progenitor cells is still poorly understood. Here we demonstrate that Wnt signaling by osteoblasts is essential for mesenchymal progenitor cells to differentiate away from a default adipogenic into an osteoblastic lineage. Dominant adipogenesis and reduced osteoblastogenesis were observed in calvarial cell cultures from transgenic mice characterized by osteoblast-targeted disruption of glucocorticoid signaling. This phenotypic shift in mesenchymal progenitor cell commitment was associated with reciprocal regulation of early adipogenic and osteoblastogenic transcription factors and with a reduction in Wnt7b and Wnt10b mRNA and beta-catenin protein levels in transgenic versus non-transgenic cultures. Transwell co-culture of transgenic mesenchymal progenitor cells with wild type osteoblasts restored commitment to the osteoblast lineage. This effect was blocked by adding sFRP1, a Wnt inhibitor, to the co-culture. Treatment of transgenic cultures with Wnt3a resulted in stimulation of osteoblastogenesis and suppression of adipogenesis. Our findings suggest a novel cellular mechanism in bone cell biology in which osteoblasts exert direct control over the lineage commitment of their mesenchymal progenitor through Wnt signaling. This glucocorticoid-dependent forward control function indicates a central role for osteoblasts in the regulation of early osteoblastogenesis. (+info)
L-type amino acid transporters LAT1 and LAT4 in cancer: uptake of 3-O-methyl-6-18F-fluoro-L-dopa in human adenocarcinoma and squamous cell carcinoma in vitro and in vivo.
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Expression of system L amino acid transporters (LAT) is strongly increased in many types of tumor cells. The purpose of this study was to demonstrate that (18)F-labeled amino acids, for example, 3-O-methyl-6-(18)F-fluoro-L-dopa ((18)F-OMFD), that accumulate in tumors via LAT represent an important class of imaging agents for visualization of tumors in vivo by PET. METHODS: (18)F-OMFD uptake kinetics, transport inhibition, and system L messenger RNA expression were studied in vitro in human adenocarcinoma (HT-29), squamous cell carcinoma (FaDu), macrophages (THP-1), and primary aortic endothelial cells (HAEC) and in vivo in the corresponding mouse tumor xenograft models. RESULTS: Uptake of (18)F-OMFD in all cell lines tested was mediated mainly by the sodium-independent high-capacity LAT. We found higher uptake in FaDu cells (V(max), 10.6 +/- 1.1 nmol/min x mg of cell protein) and in the corresponding FaDu tumor xenografts than in the other cells and corresponding xenograft models studied. Quantitative messenger RNA analysis revealed that tumor cells and xenografts have a higher expression of LAT1 than do HAEC and THP-1 macrophages. However, only in the FaDu tumor model did an increased (18)F-OMFD uptake seem to be explained by increased LAT expression. Furthermore, we demonstrated a high expression of LAT4, a recently identified LAT. CONCLUSION: Our findings support the hypothesis that (18)F-OMFD is a tracer for visualization of tumor cells. (18)F-OMFD particularly seems to be a suitable tracer for diagnostic imaging of amino acid transport in poorly differentiated squamous cell head and neck carcinoma with increased LAT1 and LAT4 expression. (+info)
Facts, fantasies and fun in epithelial physiology.
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Regulation of alternative macrophage activation by galectin-3.
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Alternative macrophage activation is implicated in diverse disease pathologies such as asthma, organ fibrosis, and granulomatous diseases, but the mechanisms underlying macrophage programming are not fully understood. Galectin-3 is a carbohydrate-binding lectin present on macrophages. We show that disruption of the galectin-3 gene in 129sv mice specifically restrains IL-4/IL-13-induced alternative macrophage activation in bone marrow-derived macrophages in vitro and in resident lung and recruited peritoneal macrophages in vivo without affecting IFN-gamma/LPS-induced classical activation or IL-10-induced deactivation. IL-4-mediated alternative macrophage activation is inhibited by siRNA-targeted deletion of galectin-3 or its membrane receptor CD98 and by inhibition of PI3K. Increased galectin-3 expression and secretion is a feature of alternative macrophage activation. IL-4 stimulates galectin-3 expression and release in parallel with other phenotypic markers of alternative macrophage activation. By contrast, classical macrophage activation with LPS inhibits galectin-3 expression and release. Galectin-3 binds to CD98, and exogenous galectin-3 or cross-linking CD98 with the mAb 4F2 stimulates PI3K activation and alternative activation. IL-4-induced alternative activation is blocked by bis-(3-deoxy-3-(3-methoxybenzamido)-beta-D-galactopyranosyl) sulfane, a specific inhibitor of extracellular galectin-3 carbohydrate binding. These results demonstrate that a galectin-3 feedback loop drives alternative macrophage activation. Pharmacological modulation of galectin-3 function represents a novel therapeutic strategy in pathologies associated with alternatively activated macrophages. (+info)
Chloroquine, an anti-malarial agent, acts as a novel regulator of beta 1-integrin-mediated cell-cell adhesion.
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Chloroquine is one of the disease-modifying antirheumatic drugs (DMARDs) with anti-malarial effect. In this study, we examined the modulatory effect of chloroquine on the functional activation of beta1-integrins (CD29) using CD29- and CD98 (a functional regulator of CD29)-mediated U937 cell-cell adhesion, comparing macrophage functions and T cell proliferation. Chloroquine effectively suppressed U937 cell-cell adhesion mediated by CD29 and CD98, in a protein kinase (PK) C, PKA, protein tyrosine kinase (PTK), extracellular signal-regulated kinase (ERK) and actin cytoskeleton-independent manner. Other lysomotropic agents (monesin, methylamine and ammonium chloride) also significantly diminished both CD29- and CD98-mediated cell-cell adhesion, indicating that lysomotropic character may play a critical role in regulating beta1-integrin functions. Therefore, these results suggest that chloroquine may act as a novel regulator of CD29 function in a lysomotropic character-dependent novel manner. (+info)
CD98 activation increases surface expression and clusteringof beta1 integrins in MCF-7 cells through FAK/Src- and cytoskeleton-independent mechanisms.
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CD98, a disulfide-linked 125-kDa heterodimeric type II transmembrane glycoprotein, regulates beta1 integrin- mediated cell adhesion. However, the molecular mechanisms underlying CD98-mediated activation of beta1 integrin are presently unclear. In this study, the effects of CD98 signaling on the expression and clustering of beta1 integrin were investigated. Activation of CD98 augmented surface expression of beta1 integrin on MCF-7 cells. Cross-linking CD98 induced clustering of beta1 integrins. Inhibition of phosphorylation of focal adhesion kimase (FAK) by PP2, an inhibitor of Src family kinase, reduced cell-extracellular matrix adhesion, but not surface expression and clustering of beta1 integrin on MCF-7 cells. This result was confirmed by over-expression of dominant negative forms of FAK. In addition, phalloidin or cytochalasin D inhibited CD98-mediated induction of cell-ECM adhesion, but not surface expression and clustering of beta1 integrins. The inhibitory effects of PP2, cytochalasin D or phalloidin on CD98-stimulated cell adhesion were diminished by pretreatment of cells with Mn2+, which is shown to induce conformational change of integrins. These results provide the first evidence that CD98 activation increases not only beta1 integrin affinity but also its surface expression and clustering and the latter is independent of FAK/Src and cytoskeleton. (+info)