Progression of a Weakly Tumorigenic Mouse Fibrosarcoma at the Site of Early Phase of Inflammation Caused by Plastic Plates

Laboratory Investigation

Kawaguchi

Habelhah

et al. 2000

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SUMMARY:The roles of inflammation in the malignant progression of tumors during multistep carcinogenesis have been much discussed but remain to be elucidated. To determine the direct contribution of inflammation to colon carcinogenesis, we established a new model of progression of human colonic adenoma cells using a nude mouse; the progression is accelerated by coimplantation of a plastic plate. The FPCK-1-1 cell line, derived from a colonic polyp in a patient with familial adenomatous polyposis, is nontumorigenic when injected subcutaneously into nude mice in a cell suspension of up to 5 ϫ 10 6 cells per mouse. However implantation of 1 ϫ 10 5 FPCK-1-1 cells attached to a plastic plate induced first acute and then chronic inflammation, and formed progressively growing tumors that were histologically determined as moderately differentiated adenocarcinoma in 65% of mice. Moreover cell lines established from the growing tumors were found to be tumorigenic when injected into mice even without a plastic plate. The tumor arising from the adenoma cells implanted attached to a plastic plate was surrounded by highly proliferating fibrous stroma. This fibrous tissue was considered essential for malignant progression, rather than for attachment to the plastic plate substrate, because the tumors were formed after injection of FPCK-1-1 cells into the fibrous tissue from which the plastic plate had been removed before the cell injection. The conditioned medium (CM) obtained from the fibroblasts derived from a plastic plate-associated stromal tissue was found to contain factors that stimulated growth of FPCK-1-1 cells, but not of the derivative progressor cell lines. The factor was stable to heating and neuraminidase treatment, but labile to trypsin treatment. The main growth-potentiating activity was contained in the fraction larger than 100 kDa. In contrast, the activity to promote FPCK-1-1 cell growth was not present in the CM of subcutaneous fibroblasts from untreated nude mice or the fibroblast cell lines C3H10T 1/2 and NIH3T3. These results demonstrated that inflammation-associated stroma promoted the conversion of colonic adenoma cells to adenocarcinoma cells. (Lab Invest 2000, 80:1617-1628.

Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 99%

Conversion of Human Colonic Adenoma Cells to Adenocarcinoma Cells Through Inflammation in Nude Mice

Laboratory Investigation

Kawaguchi

Habelhah

et al. 2000

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“…88 By using those foreign bodies, we modulated the quality and duration of the inflammation, and found that the type of inflammation needed for QR cells' growth and progression was acute-phase inflammatory reaction. 87,88,94 By histological examination, we found that neutrophils predominantly infiltrated the sponge. 93,94 In fact, one of the benefits of using gelatin sponge is that it is possible to collect the infiltrated inflammatory cells by treating the sponge with collagenase; the inflamed cells separated from the sponge can convert QR cells into tumorigenic ones if both cells are mixed and injected.…”

Section: Experimental Models Of Foreign-body-induced Carcinogenesis Amentioning

confidence: 99%

“…86 QR cells did not form tumors or metastasis after subcutaneous (2 3 10 5 cells) or intravenous (1 3 10 6 cells) injection into mice. 80 However, implantation of 1 3 10 5 QR cells attached to plastic plate 87 or injection into the preinserted gelatin sponge 88 in subcutaneous space of mice induced lethal tumors. Moreover, the arising tumor exhibited metastatic properties.…”

Section: Experimental Models Of Foreign-body-induced Carcinogenesis Amentioning

confidence: 99%

“…88,94 Namely, our primary observation was that foreign-body-reactive, early-phase inflammatory cells contribute to augment malignancy of QR cells. 87,88,94 To test the role of neutrophils during inflammation, we eliminated neutrophils by administering anti-neutrophils antibody (RB6). Nearly all the arising tumors in the mice, nontreated or treated with control rat IgG, acquired malignant phenotypes.…”

Section: Experimental Models Of Foreign-body-induced Carcinogenesis Amentioning

confidence: 99%

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Beyond foreign‐body‐induced carcinogenesis: Impact of reactive oxygen species derived from inflammatory cells in tumorigenic conversion and tumor progression

2007

Intl Journal of Cancer

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Foreign-body-induced carcinogenesis is a traditional, maybe old, way of understanding cancer development. A number of novel approaches are available today to elucidate cancer development. However, there are things we learn from the old, and thus I bring out some examples of various clinical cases and experimental models of foreign-body-induced tumorigenesis. What is notable is that the foreign bodies themselves are unrelated to each other, whereas commonly underlying in them is to induce inflammatory reaction, especially stromal proliferation, where those exogenous materials are incorporated and undigested. Such foreign-body-induced carcinogenesis is also recognized in the step of tumor progression, the final step of carcinogenesis that tumor cells acquire malignant phenotypes including metastatic properties. And the phenomenon is universally observed in several cell lines of different origins. In this review I would like to show the evidence that tumor development and progression are accelerated inevitably by inflammation caused from foreign bodies, and that reactive oxygen species derived from inflammatory cells are one of the most important genotoxic mediators to accelerate the process. ' 2007 Wiley-Liss, Inc.

Proteomic profiling for cancer progression: Differential display analysis for the expression of intracellular proteins between regressive and progressive cancer cell lines

Hayashi

Kuramitsu²,

et al. 2005

Proteomics

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Tumor development and progression consist of a series of complex processes involving multiple changes in gene expression (Paolo et al. Physiol. Rev., 1993, 73, 161-195; Lance et al. Cell., 1991, 64, 327-336). Tumor cells acquire an invasive and metastatic phenotype that is the main cause of death for cancer patients. Therefore, for early diagnosis and effective therapeutic intervention, we need to detect the alterations associated with transition from benign to malignant tumor cells on a molecular basis. To unravel alterations concerned with tumor progression, the proteomic approach has attracted great attention because it can identify qualitative and quantitative changes in protein composition, including post-translational modifications. In this study, we performed proteomic differential display analysis for the expression of intracellular proteins in the regressive cancer cell line QR-32 and the inflammatory cell-promoting progressive cancer cell line QRsP-11 of murine fibrosarcoma by two-dimensional gel electrophoresis and mass spectrometry using an Agilent 1100 LC/MSD Trap XCT. We found 11 protein spots whose expression was different between QR-32 and QRsP-11 cells and identified nine proteins, seven of which, calreticulin precursor, tropomyosin 1 alpha chain, annexin A5, heat shock protein (HSP)90-alpha, HSP90-beta, PEBP, and Prx II, were over-expressed, and two, Anp32e and HDGF, which were down-regulated. The results suggest an important complementary role for proteomics in identification of molecular abnormalities in tumor progression.