UMLS:C0027627 - FACTA Search

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Query: UMLS:C0027627 (metastases)
103,950 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We previously reported that chemotactic cytokines (chemokines) induce the directional migration of cells derived from the breast carcinoma cell line MCF-7 in vitro, however it was apparent that only a small percentage of cells displayed the ability to migrate upon stimulation. In the present study three sub-lines derived from the parental MCF-7 cell line were selected for their ability to migrate in response to MIP-1alpha, MIP-1beta or RANTES across Transwell filters of 8 microm pore size. The first round selection of migratory cells resulted in sub-populations which demonstrated an increased chemotactic response compared with parental cells. Cells migrating to MIP-1beta were subjected to four further rounds of positive or negative selection, resulting in two sub-lines, MCF-7L4 and MCF-7U4 which displayed an increased and decreased chemotactic response respectively to MIP-1alpha MIP-1beta and RANTES. No difference in chemokine receptor RNA message expression between these sub-lines and the parental MCF-7 line were detected, although increased levels of alpha3, alpha6 and alphav integrin sub-units were shown for MCF-7L4 (positively selected sub-line) compared with MCF-7U4 cells. Moreover, the in vivo growth of cells derived from the two MCF-7 sub-lines was inversely correlated with their chemotactic response. The results of this study depict further the inherent heterogeneity in cancer, suggesting that the chemotactic response may influence the migratory traits of sub-populations within the tumour and potentially contribute to their in vivo behavior, growth and survival.
Clin Exp Metastasis 1999 Jul
PMID:Chemokines induce the cellular migration of MCF-7 human breast carcinoma cells: subpopulations of tumour cells display positive and negative chemotaxis and differential in vivo growth potentials. 1065 5

All of these studies taken together highlight key areas that must be addressed in the future in order for the field to continue to move forward. These issues are many, including but not limited to method of delivery of dendritic cells to patients, maturation status of the dendritic cells, and methods of monitoring responses to these vaccines. Each of these requires some comment. Different strategies of immunization were used in these studies. DCs were injected at various times and in various locations, including intradermally/subcutaneously, intranodally, and intravenously. Investigation of the pattern of spread of subcutaneously injected fluorescently labeled DCs in the chimpanzee was studied at the University of Pittsburgh. Although rodent DCs had previously been shown to remain at the site of injection, these immature primate DCs migrated to draining lymph nodes and interact appropriately with T cells for as long as 5 days after administration. Data not shown in the same study reveal that intravenously administered DCs were undetectable in draining lymph nodes. Two groups have undertaken evaluation of route of administration of DCs in humans. The first of these examined migration of immature, indium-111-labeled dendritic cells after RNA-loading in metastatic cancer patients [44]. The DCs were injected either intravenously, subcutaneously, and intradermally. Only DCs injected intradermally were cleared from the injection site with migration to regional lymph nodes. The immunologic significance of these findings is unclear, however. Another study examined this issue by studying prostatic acid phosphatase (PAP) protein-loaded mature DCs injected intravenously, intradermally, and intralymphatically in prostate cancer patients [45]. Regardless of route of administration, T cell responses were induced as measured by proliferation when PBMCs in vitro were stimulated with the PAP protein. Cytokine analysis of the patients revealed that the majority of patients undergoing either intralymphatic or intradermal injection had increases in measurable interferon-gamma but that none of the intravenously-injected patients did. The intralymphatic and intradermal routes thus seem to lead to stronger Th1 responses. But no data was presented regarding the numbers of PAP precursors induced by vaccination nor their specificity/cytotoxicity. Another issue in DC administration that should also affect route of administration is maturation status of the dendritic cells. Many of the studies used immature dendritic cells to immunize patients whereas others used mature cells. A number of studies have demonstrated that maturation signals such as inflammatory cytokines and CD40 ligation lead to down-regulation of antigen processing and up-regulation of the chemokine receptor CCR7, which leads to homing to lymph nodes [46] as well as the MHC molecules, costimulatory molecules, and maturation markers [8,47,48]. In addition, different maturation agents and sequences of addition of these maturation agents may lead to differences in functions of dendritic cells [48-51]. Others have found that injection of immature DCs pulsed with influenza matrix peptide and KLH, and lead to greater numbers of influenza-specific T cells, but these cells had reduced interferon-gamma production and lacked killer activity [52]. Perhaps the most impressive results in a clinical trial, however, were gained by injecting similar cells loaded with melanoma peptides [21]. In addition, sequence of loading and maturation may be important in creating vaccines. One study using CEA peptides and CEA RNA found that optimal T cell presentation occurs when peptides are loaded after maturation with CD40 ligand and when RNA is transfected before maturation with CD40 ligand [53]. As all of these studies reveal, more investigation into the role of DC maturation as well as its timing and sequence is needed. Finally, a multitude of methods to detect response to vaccination have been attempted in all of the above studies. Many use DTH responses, but these may measure CD4 T cells instead of CD8 T cells. The availability of tetramers allows easier quantification of CTL precursors, but they provide no assessment of the function of these T cells. Enzyme-linked immunospot assays allow identification and quantification of numbers of cells producing cytokines such as interferon-gamma when encountering target antigens, but cytokine production may not correlate with tumor cell killing. Chromium release assays or flow cytometric assays for molecules such as perforin may be used to validate killing, but inability of many tumors to grow in vitro precludes direct assessment of tumor cell killing via this method. Other responses in human subjects may also be measured. Some of the cited studies yielded clinical responses that could be measured via physical examination or radiologic study. This is the exception rather than the rule, however. Others have monitored the decrease in serum tumor markers such as PSA or CEA. But these may not correlate directly with tumor burden. Indirect calculation of tumor burden by using quantitative PCR to estimate the number of circulating tumor cells in peripheral blood may be promising in this regard. Despite the lack of consensus as to what constitutes an effective response, most would agree that monitoring of these patients should include measures of both immunologic response and clinical tumor effect. All of this leads to the conclusion that DC-based cancer vaccines have progressed a great deal but that much work still needs to be done. Only rigorous bench top experimentation followed by careful patient selection and vaccine administration, and then by meticulous patient monitoring, will lead to advances in the field.
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PMID:Dendritic cell gene therapy. 1248 60

When injected subcutaneously, mouse plasmacytoma (MOPC315) grew rapidly in situ, and metastatic cells became detectable first in the lymph nodes (LNs) and bone marrow, and later in the liver and lungs. We studied MOPC315 cell migration by tracking metastatic cells labelled with green fluorescent protein (GFP). We measured the levels of their chemokine receptor mRNA (by semiquantitative and real-time quantitative reverse transcriptase-polymerase chain reaction (RT-PCR), because chemokines can regulate organ predilection of metastasis. Freshly sorted metastatic cells and tumour cell lines derived from the liver of BALB/c mice overexpressed functional CCR6 and CCR7 molecules compared with primary tumour. Preincubation with the CCR6 ligand (CCL20) induced liver-sorted tumour cells to preferentially colonize the liver, demonstrating an association between liver metastasis and CCR6 expression in the mouse. Because the liver is a common site for metastasis, second only to draining LNs, we wished to ascertain whether this finding could be generalized, i.e. whether other cancers can use the similar mechanism of metastasis to the liver, and whether it holds true for humans. We found that CCR6 is overexpressed in small liver metastases of colon, thyroid and ovarian carcinomas compared with normal liver. Because human liver constitutively expresses CCL20, it could attract and select CCR6+ cancer cells. We suggest that chemotaxis via CCR6 might be a common mechanism by which malignant cancers metastasize to the liver. As metastasis in patients with cancer poses the biggest peril for survival, inhibition of CCR6 signalling, either during or after medical or surgical treatment, might be useful in preventing liver metastasis.
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PMID:Liver metastasis of cancer facilitated by chemokine receptor CCR6. 1279 Oct 91

We analyzed the expression of 13 chemokine receptors in mycosis fungoides, in order to assess the contribution of chemotaxis to the pathogenesis of the disease. Material from skin biopsies of six patients with early disease and six patients at the tumor stage of mycosis fungoides was analyzed by immunohistochemistry and partly also by flow cytometry. The receptors CCR1, CCR2, CCR3, CCR5, CCR6, CXCR1, CXCR2, CXCR5, and CX3CR1 were rarely and inconsistently detected in lesional skin and thus their participation in mycosis fungoides could largely be ruled out. In contrast, CCR4, CXCR3, and CXCR4 were substantially expressed on both mycosis fungoides cells and the surrounding reactive T cells in the early patch and plaque stages of the disease, indicating an involvement of these chemokine receptors in the disease process. In the tumor stage of mycosis fungoides, we interestingly observed a loss of a relevant chemokine receptor in four out of six patients. In three patients CXCR3 and in one patient CCR4 was absent on tumor mycosis fungoides cells, whereas the reactive T cells showed normal levels of expression. Within these samples, tumor mycosis fungoides cells exhibited high levels of CCR7, a chemokine receptor central for the entry of T cells to lymphatic tissue. Taken together, our data suggest that the loss of one or more of the chemokine receptors involved in the homing of the mycosis fungoides cells to the skin may trigger the latent potential of these cells to metastasize into regional lymphatic tissue.
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PMID:Chemokine receptor expression on neoplastic and reactive T cells in the skin at different stages of mycosis fungoides. 1470 5

The Glu-Leu-Arg(+) (ELR(+)) CXC chemokines are potent promoters of angiogenesis and have been demonstrated to induce a significant portion of nonsmall cell lung cancer-derived angiogenic activity and support tumorigenesis. ELR(+) CXC chemokines share a common chemokine receptor, CXCR2. We hypothesized that CXCR2 mediates the proangiogenic effects of ELR(+) CXC chemokines during tumorigenesis. To test this postulate, we used syngeneic murine Lewis lung cancer (LLC; 3LL, H-2(b)) heterotopic and orthotopic tumor model systems in C57BL/6 mice replete (CXCR2(+/+)) and deficient in CXCR2 (CXCR2(-/-)). We first demonstrated a correlation of the expression of endogenous ELR(+) CXC chemokines with tumor growth and metastatic potential of LLC tumors. Next, we found that LLC primary tumors were significantly reduced in growth in CXCR2(-/-) mice. Moreover, we found a marked reduction in the spontaneous metastases of heterotopic tumors to the lungs of CXCR2(-/-) mice. Morphometric analysis of the primary tumors in CXCR2(-/-) mice demonstrated increased necrosis and reduced vascular density. These findings were further confirmed in CXCR2(+/+) mice using specific neutralizing Abs to CXCR2. The results of these studies support the notion that CXCR2 mediates the angiogenic activity of ELR(+) CXC chemokines in a preclinical model of lung cancer.
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PMID:Depletion of CXCR2 inhibits tumor growth and angiogenesis in a murine model of lung cancer. 1497 86

In general, metastases to the small intestine are rare, and mostly occur in melanoma. CCR9 has been shown to be the principal chemokine receptor for the thymus expressed chemokine (TECK), a chemokine selectively expressed in the small intestine and thymus. Here we show that CCR9 is highly expressed on melanoma cells and all melanoma cell lines isolated from small intestinal metastases, and on a proportion of cell lines from other sites. Only melanoma cells and cell lines from small intestinal metastases, however, were responsive to the CCR9 ligand TECK, as assessed by receptor downregulation and by actin polymerization. CCR9 expression was also found on the adenocarcinoma cell line CaCo-2 expressing characteristics of enterocytic differentiation, but not on any other cell line isolated from colorectal, breast, and lung cancer. Our data provide evidence that the aberrant functional cell surface expression of an organ-specific chemokine receptor is associated with metastasis to this site. The regulation of receptor function seems to be a critical step in the metastatic process.
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PMID:Functional CCR9 expression is associated with small intestinal metastasis. 1508 89

The natural course of cutaneous melanoma (CM) is determined by its metastatic spread and depends on tumor thickness, ulceration, gender, localization, and the histologic subtype of the primary tumor. CM metastasis develops via three main metastatic pathways and occurs as satellite or in-transit metastasis, as regional lymph node metastasis or as distant metastasis at the time of primary recurrence. About 50% of all CM patients with tumor progression firstly develop regional lymph node metastases. In the other 50% the first metastases are satellite or in-transit metastases (about 20%), or immediately distant metastases (about 30%). Development of distant metastasis appears to be an early event in metastatic spread and may in the majority of cases originate from the primary tumor, only few cases may develop secondarily to locoregional metastasis. Reporting of organ involvement in distant metastasis greatly differs between the results of imaging techniques and autopsy results in respect to the metastatic patterns detected, pointing out that there is a need of improved imaging systems. Proliferation, neovascularization, lymphangiogenesis, invasion, circulation, and embolism are important steps in the pathogenesis of CM metastasis, with tumor vascularity as an important independent significant prognostic factor. The expression of chemokine receptors in cancer cells associated with the expression of the respective chemokine receptor ligands in the target sites of the metastasis is an interesting observation which may stimulate the development of new therapeutic strategies.
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PMID:The natural course of cutaneous melanoma. 1522 23

Chemokines and their receptors have emerged as attractive targets regulating the migration of tumor cells in vivo, a process known as cancer metastasis. The control of metastasis is critical to the control of cancer progression. Two chemokine receptors and their ligands stand out as likely targets for therapeutics: CCR7/CCL21 for lymph node metastases, and CXCR4/CXCL12 for lung, liver, bone marrow, and brain metastases. The most widely expressed chemokine receptor among cancers is likely to be CXCR4.
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PMID:Chemokines in neoplastic progression. 1524 53

Chemokines, small pro-inflammatory chemoattractant cytokines, that bind to specific G-protein-coupled seven-span transmembrane receptors present on plasma membranes of target cells are the major regulators of cell trafficking. In addition some chemokines have been reported to modulate cell survival and growth. Moreover, compelling evidence is accumulating that cancer cells may employ several mechanisms involving chemokine-chemokine receptor axes during their metastasis that also regulate the trafficking of normal cells. Of all the chemokines, stromal-derived factor-1 (SDF-1), an alpha-chemokine that binds to G-protein-coupled CXCR4, plays an important and unique role in the regulation of stem/progenitor cell trafficking. First, SDF-1 regulates the trafficking of CXCR4+ haemato/lymphopoietic cells, their homing/retention in major haemato/lymphopoietic organs and accumulation of CXCR4+ immune cells in tissues affected by inflammation. Second, CXCR4 plays an essential role in the trafficking of other tissue/organ specific stem/progenitor cells expressing CXCR4 on their surface, e.g., during embryo/organogenesis and tissue/organ regeneration. Third, since CXCR4 is expressed on several tumour cells, these CXCR4 positive tumour cells may metastasize to the organs that secrete/express SDF-1 (e.g., bones, lymph nodes, lung and liver). SDF-1 exerts pleiotropic effects regulating processes essential to tumour metastasis such as locomotion of malignant cells, their chemoattraction and adhesion, as well as plays an important role in tumour vascularization. This implies that new therapeutic strategies aimed at blocking the SDF-1-CXCR4 axis could have important applications in the clinic by modulating the trafficking of haemato/lymphopoietic cells and inhibiting the metastatic behaviour of tumour cells as well. In this review, we focus on a role of the SDF-1-CXCR4 axis in regulating the metastatic behaviour of tumour cells and discuss the molecular mechanisms that are essential to this process.
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PMID:CXCR4-SDF-1 signalling, locomotion, chemotaxis and adhesion. 1533 43

Transitional cell carcinoma of the urinary bladder remains life threatening due to the high occurrence of metastases. Emerging evidence suggests that chemokines and their receptors play a critical role in tumor metastases. In our study, we performed a systematic analysis of the mRNA and protein expression levels of all 18 chemokine receptors in normal urothelium and bladder cancer. CXCR4 was the only chemokine receptor whose mRNA expression level was upregulated in bladder cancer cell lines as well as in invasive and locally advanced bladder cancer tissue samples (pT2-pT4). In contrast, superficial bladder tumors (pTa and pT1) displayed low CXCR4 expression levels and normal urothelial cells were negative for CXCR4. Immunohistochemistry of a bladder cancer tissue microarray (TMA) confirmed that a subgroup of invasive bladder cancers revealed a high CXCR4 protein expression, while superficial bladder tumors showed low immunoreactivity. To investigate the functional significance of CXCR4 expression, we performed migration and invasion assays. Exposure of CXCR4-positive bladder cancer cells to CXCL12 in a Boyden chamber type assay provoked a significant increase in migration as well as invasion across a Matrigel barrier. Enhanced migration and invasion were inhibited by a CXCR4-specific blocking antibody. In contrast, normal urothelial cells did not respond to CXCL12 and lacked chemotactic migration. In conclusion, bladder cancer cells express CXCR4 progressively with advanced tumorigenesis and this receptor interacts with CXCL12 to mediate tumor chemotaxis and invasion through connective tissue. These properties identify CXCR4 as a potential target for the attenuation of bladder cancer metastases.
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PMID:CXCR4 expression reflects tumor progression and regulates motility of bladder cancer cells. 1554 Feb 5

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