Philip G. Cavanaugh scite author profile

We previously found that transferrin (Tf) differentially stimulated the growth of highly metastatic variant lines of murine melanoma and that these highly metastatic cells also had greater numbers of Tf receptors on their cell surfaces. In the present study we found that highly metastatic rat mammary adenocarcinoma cell lines also responded differentially to Tf in proliferation assays, and cell monolayers bound Tf in relation to their metastatic potential (MTPaB10 > MTPaB5 > MTLn3 > MTLn2 > MTC > MTF7 > MTPa). The brain-colonizing lines PaB10 and PaB5 were the most responsive to Tf and had the highest numbers of Tf receptors. Different human breast cancer cell lines also responded differentially to Tf in proliferation assays and bound different amounts of Tf to their cell surface Tf receptors. Transferrin binding, but not growth response, correlated with metastatic and invasive properties of lines selected from the human MCF-7 series (MCF7/LCC2 > MCF7/LCC1 > MCF7). In examining the transferrin binding and growth response of lines from the human MDA series, the Tf binding and growth response was MDA231 > MDA435 > MDA468. The lines MDA435 and MDA231 were metastatic in nude mouse assays, whereas the line MDA468 was not. Scatchard analysis indicated the presence of a single class of receptor for Tf on the rat and human mammary cell lines. The results suggest that neoplastic cells displaying various metastatic properties may express differing numbers of Tf receptors and respond differently to growth factors such as Tf.

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Tumor Cell-Platelet Aggregation: Induced by Cathepsin B-Like Proteinase and Inhibited by Prostacyclin

Honn

Cavanaugh

Evens

et al. 1982

Science

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The ability of tumor cells to metastasize may be related to their ability to promote aggregation of host platelets. The use of inhibitors of cysteine proteinases resulted in parallel inhibition of B16 amelanotic melanoma-induced platelet aggregation and of a cathepsin B activity. The antimetastatic agent prostacyclin inhibited platelet aggregation induced by the tumor cells and by papain, a cathepsin B-mimicking agent.

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Separable growth and migration factors for large-cell lymphoma cells secreted by microvascular endothelial cells derived from target organs for metastasis

Hamada

Cavanaugh²,

Lotan³

et al. 1992

Br J Cancer

102

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Summary Metastatic variant sublines of the murine large-cell lymphoma cell line RAW 117 were tested for their growth and migration properties in vitro in medium conditioned by soluble factors released from syngeneic mouse liver-, lung-, and brain-derived microvessel endothelial cells. Medium conditioned with hepatic sinusoidal endothelial cells stimulated the growth of highly liver-colonising (RAWl 17-H10) and highly liver-and lung-colonising (RAW117-L17) sublines at higher rates than the poorly metastatic parental line (RAW117-P) (H10>L17>P). Medium conditioned with lung microvessel endothelial cells selectively stimulated the growth of the lung-colonising RAW117-L17 subline. Medium conditioned with brain microvessel endothelial cells showed no growth selectivity, and equivalently stimulated the growth of various RAW117 cell sublines. Medium conditioned with hepatic sinusoidal endothelial cells preferentially promoted the migration of the liver-colonising H10 and L17 sublines, and medium conditioned with lung endothelial cells differentially stimulated the migration of the lung-colonising L17 subline; whereas medium conditioned with brain endothelial cells only slightly stimulated the migration of L17, but not H10 or P cells. Fractionation of medium conditioned with hepatic sinusoidal endothelial cells by DEAE Sephacel anion exchange chromatography revealed that the growth-stimulating activities were clearly separable from migrationstimulating activities. The growth-and migration-stimulating activities released from organ microvessel endothelial cells may be important in determining the ability of RAW 117 cells to selectively form metastatic colonies in particular organs.

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Involvement of a cathepsin B-like cysteine proteinase in platelet aggregation induced by tumor cells and their shed membrane vesicles

et al. 1983

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Murine 15091A mammary adenocarcinoma cells and membrane vesicles spontaneously shed from these tumor cells in culture can induce aggregation of washed human platelets. A spectrum of proteinase inhibitors was tested for their ability to inhibit 15091A induced platelet aggregation. Of the inhibitors tested the most effective were those selective for cysteine proteinases. The effect of the spectrum of proteinase inhibitors on 15091A induced platelet aggregation was compared to the effect on cathepsin B-like cysteine proteinase activity in homogenates of 15091A tumor cells and their spontaneously shed vesicles. The results suggest that there is a correlation between activity of a cathepsin B-like proteinase in 15091A cells and vesicles and the ability of these cells and vesicles to induce aggregation of washed human platelets.

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Tumor Metastasis to Brain: Role of Endothelial Cells, Neurotrophins, and Paracrine Growth Factors

et al. 1994

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An important clinical endpoint in patients with cancer is formation of metastases in the brain. Understanding this phenomenon is important in several types of malignancies, including melanoma, lung and breast cancers. Metastatic tumor cells use specific adhesion molecules to home to brain, and there they must attach to microvessel endothelial cells and respond to brain endothelial cell-derived motility factors and brain invasion factors to invade the CNS. Neurotrophins are important invasion factors in this process, and the ability to invade into the brain may well depend on metastatic cell responses to neurotrophins and production of basement membrane-degradative enzymes capable of locally destroying the blood-brain barrier. Brain-metastatic human melanoma cells express low-affinity p75 receptor for neurotrophins such as nerve growth factor, but they do not express the high-affinity-type receptors for nerve growth factor encoded by the protooncogene trkA. Tumor cells can proliferate in the CNS in response to local paracrine growth factors and inhibitors, but their growth also depends on their producing and responding to autocrine growth factors. A major organ-derived (paracrine) growth factor has been isolated that differentially stimulates the growth of cells metastatic to the brain. Characterization of this mitogen demonstrated that it is a transferrin-like glycoprotein; cells that are metastatic to brain express greater numbers of transferrin receptors on their surfaces than cells that are poorly metastatic or metastatic to other sites. Transferrin-like factors are expressed in fetal brain and could represent the transferrin-like factors that stimulate growth of brain-metastatic melanoma and breast cancer cells. These and other factors are probably important in determining whether metastatic cells can successfully invade, colonize, and grow in the CNS.

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