UMLS:C0043167 - FACTA Search

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Query: UMLS:C0043167 (pertussis)
19,595 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The antitumor activity of three preparations of killed Bordetella pertussis (Bp) (Eli Lilly crude and fluid pertussis vaccines and Parke-Davis pertussis vaccine) was studied in the B16 melanoma and CaD2 mammary adenocarcinoma models. In these tumor systems; Bp had weak and variable tumor inhibitory activity and did not augment tumor rejection immunity. The intratumor injection of Bp did not affect the growth of the B16 tumor but significantly inhibited the growth of the CaD2 tumor. However, the established tumor did not regress. Admixture of Bp with B16 cells before inoculation inhibited tumor growth and prolonged survival of inoculated mice. Admixture of Bp with CaD2 cells completely suppressed tumor cell growth in 60% of inoculated mice. Intratumor injection of CaD2 with Bp combined with surgery provided no protection against subsequent development of metastases.
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PMID:Evaluation of antitumor activity of Bordetella pertussis in two murine tumor models. 16 59

Type IV collagen (Coll IV), a component of the extracellular matrix, stimulates motility in the A2058 human melanoma cell line, a response that is inhibited by pertussis toxin (PT). Fibronectin (FN)-induced chemotaxis in this cell line is not affected by PT. To understand the mechanism of cellular signaling, single cell intracellular Ca2+ responses to Coll IV and FN were studied using Fura-2 and digital imaging fluorescence microscopy. Coll IV, at a dose that stimulates motility (100 micrograms/ml, 185 nM), induces a significant rise in cytosolic free Ca2+ concentration ([Ca2+]i) within 100 s. This response is not inhibited by PT. Treatment of the cells with FN 30 micrograms/ml (70 nM), a dose that stimulates near-maximal chemotaxis, does not increase [Ca2+]i appreciably. Removal of extracellular Ca2+ fails to inhibit the Coll IV-stimulated rise in Ca2+ in all cells. Depletion of extracellular Ca2+ and pretreatment of cells with Ca2+ channel blockers only partially inhibits Coll IV-induced motility. Depletion of intracellular Ca2+ inhibits both chemotaxis and the Coll IV-induced increase in intracellular Ca2+. Coll IV does not stimulate membrane phosphoinositide hydrolysis. We conclude that Coll IV treatment induces an inositol 1,4,5-trisphosphate-independent release of intracellular Ca2+ stores which appears to play a necessary role in the chemotactic response of A2058 cells but is not mediated by a PT-sensitive G-protein. This response is not seen in cells exposed to FN, suggesting different intracellular signaling mechanisms for stimulated motility between these two extracellular matrix molecules.
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PMID:Type IV collagen stimulates an increase in intracellular calcium. Potential role in tumor cell motility. 132 49

Tumor-cell migration plays an essential role in invasion into surrounding tissues and the formation of metastatic colonies in distant organs. Metastatic human A2058 melanoma and ras-transfected NIH3T3 cells produce autocrine motility factors (AMFs) which stimulate their own motility, and the A2058 cell AMF (AMF/A2058) has been purified. In this study, we partially purified the AMF produced by N-ras-transfected NIH3T3 cells (AMF/NIH3T3) and compared it with AMF/A2058. The two AMFs differed in their gel filtration patterns and heat stability, although both elicited migration of N-ras-transfected NIH3T3 cells. The receptor for AMF/A2058 in A2058 cells is linked to a pertussis-toxin-sensitive GTP-binding protein. Pre-treatment of N-ras-transfected NIH3T3 cells with pertussis toxin also specifically blocked the promotion of motility by AMF/A2058, but did not affect the activity of AMF/NIH3T3. Stimulation of N-ras-transfected NIH3T3 cells by both AMFs elicited an additive response. Thus, the autocrine mechanisms of these two metastatic tumor cell lines are different with regard to the AMF molecules, receptors, and signal transduction pathways.
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PMID:Comparison of autocrine mechanisms promoting motility in two metastatic cell lines: human melanoma and ras-transfected NIH3T3 cells. 165 97

Autotaxin (ATX) is a potent human motility-stimulating protein that has been identified in the conditioned medium from A2058 melanoma cells. This protein has been purified to homogeneity utilizing a strategy involving five column steps. Homogeneity of ATX was verified by two-dimensional gel electrophoresis. The molecular size of ATX is 125 kDa, and it has an isoelectric point of 7.7 +/- 0.2. Purified ATX was digested with cyanogen bromide and trypsin, and the resulting ATX peptides were purified by reverse-phase high performance liquid chromatography. Eleven peptides were subjected to amino acid sequence analysis, and 114 residues were identified. The partial amino acid sequences and the amino acid composition obtained for ATX show that it does not exhibit any significant homology to known growth factors or previously described motility factors. At picomolar concentrations, ATX stimulates both random and directed migration of human A2058 melanoma cells. Pretreatment of the melanoma cells with pertussis toxin abolishes the response to purified ATX, indicating that ATX stimulates motility through a receptor acting via a pertussis toxin-sensitive G protein.
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PMID:Identification, purification, and partial sequence analysis of autotaxin, a novel motility-stimulating protein. 173 49

Membranes from 2 K1735 murine melanoma clones of high invasive capacity show increased amounts of pertussis toxin (PT) substrate when compared to a weakly invasive cellular counterpart. Using a panel of specific G-protein antibodies, we identified Gi alpha 2 as the PT-sensitive G-protein uniquely abundant in highly invasive cells. In addition, RNA hybridization results confirm the immunoblot observations that Gi alpha 2 is present at higher levels in strongly invasive cells. This result suggests that the elevated expression of Gi alpha 2 in highly invasive cells is not entirely due to differences in either translational efficiency or protein degradation but is related to altered RNA transcriptional initiation, processing and/or degradation. ADP-ribosylation of Gi alpha-subunits by PT inhibited the fibronectin, laminin and collagen type-IV-stimulated motility of the 2 highly invasive clones, while PT treatment of cells from a poorly invasive clone resulted in little or no reduction of the fibronectin, laminin or collagen type-IV-stimulated lower motility. Furthermore, PT treatment of highly or poorly invasive K1735 clones does not result in any alteration in cellular cAMP accumulation, suggesting that the PT substrate is not linked with the adenylyl cyclase enzyme complex. The data suggest that a PT-sensitive G-protein, probably Gi alpha 2 regulates second messenger pathways that contribute to elevated motility in highly invasive K1735 cells.
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PMID:The role of G-protein in matrix-mediated motility of highly and poorly invasive melanoma cells. 185 Mar 81

Tumor cell locomotion is an integral part of the metastatic process. We present a new autocrine motility factor (AMF) derived from the serum-free conditioned medium of the Dunning R-3327 rat prostate adenocarcinoma AT2.1 tumor cell subline AT2.1-AMF, prepared by concentration of components less than or equal to 30 kDa- in size and washed free of low-molecular-weight growth factors, stimulated motility of AT2.1 cells in modified Boyden chamber migration assays. This stimulated migration was dose-dependent, and by checkerboard analysis was both chemotactic and chemokinetic. AT2.1-AMF activity was labile to heat, acid, base, reduction, oxidation, and proteases. Lyophilization and treatment with 6M urea caused a mild decrease (less than 20%) in migration-stimulating capability. Tumor-cell specificity was demonstrated for AMF of AT2.1 and AT3.1 Dunning sublines, and the A2058 human melanoma cell lines. AT2.1 cell migration to AT2.1-AMF was inhibited by 2 hr pre-treatment with cholera toxin (0.1 microgram/ml) or forskolin (100 microM), but not altered by 2 hr pre-treatment with pertussis toxin (1.0 microgram/ml). This indicates that guanine nucleotide binding protein-mediated regulation of cAMP is involved in modulating the AT2.1 cell response to its AMF. The AT2.1-AMF belongs to a related family of tumor autocrine motility factors and represents a new model for understanding the role of tumor-cell migration in the metastatic process of human prostate cancer.
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PMID:An autocrine motility factor secreted by the Dunning R-3327 rat prostatic adenocarcinoma cell subtype AT2.1. 187 63

The in vitro motility of B16-F1 melanoma cells is enhanced by incubation with a monoclonal antibody against gp78, previously characterized as a motility factor receptor. This antibody was used to study the relationship between motility stimulation in vitro and metastatic ability in vivo in the B16-F1 and K-1735 murine melanoma systems. While both high- and low-metastatic variants exhibited enhanced in vitro motility in response to the anti-gp78 monoclonal antibody, only the high-metastatic cells exhibited an increased metastatic ability. Surface immunofluorescence of low-metastatic cells was distributed more diffusely compared to a highly localized patching of gp78 on high-metastatic cells, suggesting that the directed endocytosis of gp78 to form a single leading edge is related to the metastatic ability of a cell, while fluorescence-activated cell sorter analysis revealed decreased gp78 surface expression in high-metastatic clones. Priming of cells by preventing internalization of gp78-antibody complexes by pertussis toxin resulted in a marked enhancement of pulmonary metastases by the treated cells which was directly correlated with decreased surface expression of gp78 following washout of pertussis toxin. These results suggest that cell motility induced by motility factor receptor occupancy may play a role in the process of metastasis and that the ligand-receptor complex internalization from the cell surface is involved in control of cell kinesis during metastasis.
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PMID:The relationship between motility factor receptor internalization and the lung colonization capacity of murine melanoma cells. 202 48

Tumor metastasis requires highly motile cells that can respond to appropriate stimuli. A2058 human melanoma cells were shown previously to secrete a highly potent autocrine motility factor (AMF) that stimulates chemokinetic movement. We have shown that the insulin polypeptides (IPs; insulin-like growth factors I and II [IGF-I, -II] and insulin) stimulated A2058 cell chemotaxis and chemokinesis. We now report that the IPs and AMF stimulate locomotion in other human malignant cell lines. Insulin (100 nM) induced motility of up to 50% of the magnitude of the AMF response in human carcinoma lines MDA-231 (breast), T24 (bladder), and OVCAR3 (ovarian). The tumorigenic and metastatic 5R Haras-transfected rat embryo fibroblast cell line responded to insulin with both chemotaxis and chemokinesis and was 100% of that seen for AMF. The ED50 for IGF-I in the carcinoma cell lines was in the order of I nM, but the magnitude of the responses at this concentration was 40% of the AMF-stimulated response, with the exception of the A2058 cells, which were maximally stimulated at I nM. IGF-II induced maximal motility of 75 to 130% of the AMF-stimulated response in the carcinoma lines with ED50 of less than or equal to 10 nM. IGF-II-stimulated motility in the carcinoma lines was predominantly chemotactic by modified checkerboard analysis. Cell pretreatment with pertussis toxin inhibited 90-100% of AMF-induced motility, whereas migration to the IPs was not pertussis toxinsusceptible. In growth studies, IGF-I induced mitogenesis up to 140% of basal media control growth. In general, maximal growth stimulation was seen at 100 nM IGF-I, and optimal migration was seen at 10 nM IGF-I. The IGFs are secreted by normal stroma in a number of organs that are common sites for primary and metastatic disease. Therefore, we suggest that IPs may be important homing and mitogenic signals for tumor cells in the process of invasion and metastasis and that the differential motility stimulation and respective mechanisms of action by these physiologically important agents may underlie the diversity of the metastatic process.
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PMID:Heterogeneity of the motility responses in malignant tumor cells: a biological basis for the diversity and homing of metastatic cells. 211 98

B16-F1 melanoma cells express augmented glycosylation of a Mr 78,000 (gp78) cell surface glycoprotein in response to cell shape modulation which is correlated to an increased metastatic ability in vivo and motility in vitro. A monoclonal antibody (mAb) directed against gp78 was used to study its surface distribution and possible function in cell locomotion. On motile cells, gp78 is localized by immunofluorescence to the leading lamella as well as to the trailing edge, suggesting shuffling of gp78 during cell migration. When bound to the cells the mAb induced locomotory activity similar to the effect of the cells' autocrine motility-like factor (AMLF). The enhanced motility induced by either anti-gp78 mAb or autocrine motility factor (AMF) were both inhibited by pertussis toxin, indicating that the 3F3A mAb induces cell kinesis via the same pertussis toxin-sensitive G protein pathway as has been described for other motility factors. The binding of anti-gp78 mAb to its ligand was inhibited (10-fold) by preincubation with B16-F1 AMLF containing conditioned media. Based on such functional properties, it was concluded that gp78 behaves as an AMF receptor of the B16-F1 melanoma cell.
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PMID:Identification of B16-F1 melanoma autocrine motility-like factor receptor. 215 51

The biochemical pathways through which tumor cell locomotion is mediated are poorly understood. Autocrine motility factor (AMF), which is produced by and stimulates motility in A2058 human melanoma cells, was used to characterize phosphoinositide (PtdIns) metabolism activated in association with tumor cell motility. AMF stimulated up to a 400% increase in de novo incorporation of 3H-myo-inositol into cellular lipids beginning 40 minutes after exposure. In cells prelabeled with 3H-myo-inositol, AMF stimulated a 200% increase in total inositol phosphates (inositol monophosphate, InsP1; inositol bisphosphate, InsP2; inositol trisphosphate, InsP3) after 90 minutes of exposure, with a 300% maximal increase in InsP3 at 120 minutes. InsP1 and InsP2 were maximally increased 130% of control values. Treatment with AMF stimulated a parallel dose-dependent increase in both motility and PtdIns levels. We have shown previously that the A2058 motile response to AMF is inhibited markedly by cell pretreatment with pertussis toxin (PT). Inositol phosphate production was inhibited by a 2-hour pretreatment of cells with PT (0.5 microgram/ml). PT treatment of A2058 membranes was associated with ADP-ribosylation of a 40-kDa protein consistent with the presence of an alpha subunit of a guanine nucleotide-binding protein (G protein). These data indicate that AMF elicits increases in cell motility and phosphoinositide metabolism via a PT-sensitive G protein signal transduction pathway.
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PMID:Autocrine motility factor stimulates a three-fold increase in inositol trisphosphate in human melanoma cells. 215 19

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