Your search keyword '"Owen T. M. Chan"' showing total 3 results

1. Plasminogen activator inhibitor-2 (PAI-2) overexpression supports bladder cancer development in PAI-1 knockout mice in N-butyl-N- (4-hydroxybutyl)-nitrosamine- induced bladder cancer mouse model

Author

Hideki Furuya, Kazukuni Hayashi, Yoshiko Shimizu, Nari Kim, Yutaro Tsukikawa, Runpu Chen, Yijun Sun, Owen T. M. Chan, Ian Pagano, Rafael Peres, Kanani Hokutan, Fumie Igari, Keith S. Chan, and Charles J. Rosser

Subjects

Plasminogen activator inhibitor-1 (PAI-1) knockout mouse, PAI-1, PAI-2, Serine protease inhibitors, Medicine

Abstract

Abstract Background Accumulating evidence suggests that plasminogen activator inhibitor-1 (PAI-1) plays an important role in bladder tumorigenesis by regulating cell cycle. However, it remains unclear whether and how inhibition of PAI-1 suppresses bladder tumorigenesis. Methods To elucidate the therapeutic effect of PAI-1 inhibition, we tested its tumorigenicity in PAI-1 knockout (KO) mice exposed to a known bladder carcinogen. Results PAI-1 deficiency did not inhibit carcinogen-induced bladder cancer in mice although carcinogen-exposed wild type mice significantly increased PAI-1 levels in bladder tissue, plasma and urine. We found that PAI-1 KO mice exposed to carcinogen tended to upregulate protein C inhibitor (PAI-3), urokinase-type plasminogen activator (uPA) and tissue-type PA (tPA), and significantly increased PAI-2, suggesting a potential compensatory function of these molecules when PAI-1 is abrogated. Subsequent studies employing gene expression microarray using mouse bladder tissues followed by post hoc bioinformatics analysis and validation experiments by qPCR and IHC demonstrated that SERPING1 is further downregulated in PAI-1 KO mice exposed to BBN, suggesting that SERPING1 as a potential missing factor that regulate PAI-2 overexpression (compensation pathway). Conclusions These results indicate that serpin compensation pathway, specifically PAI-2 overexpression in this model, supports bladder cancer development when oncoprotein PAI-1 is deleted. Further investigations into PAI-1 are necessary in order to identify true potential targets for bladder cancer therapy.

Published

2020

2. Effectiveness of two different dose administration regimens of an IL-15 superagonist complex (ALT-803) in an orthotopic bladder cancer mouse model

Author

Hideki Furuya, Owen T. M. Chan, Ian Pagano, Chengjun Zhu, Nari Kim, Rafael Peres, Kanani Hokutan, Sarah Alter, Peter Rhode, and Charles J. Rosser

Subjects

Bladder cancer, Treatment, BCG, IL-15, ALT-803, Medicine

Abstract

Abstract Background We set out to determine if the administration of subcutaneous (SQ) ALT-803 was non-inferior to standard intravesical BCG treatment in a carcinogen induced mouse (C57BL/6J) bladder cancer model. Methods Using this well-established carcinogen induced mouse model, we studied the effects of various dosing schemas of ALT-803 (SQ alone, SQ with intravesical BCG, intravesical alone, intravesical with intravesical BCG) compared to intravesical BCG alone (positive control) and PBS (negative control). The non-inferiority margin for the difference in bladder weight, as a surrogate for tumor mass, was defined as 7%. Results All treatment groups (i.e., ALT-803 SQ alone, ALT-803 SQ with intravesical BCG, ALT-803 intravesical alone, ALT-803 intravesical with intravesical BCG and intravesical BCG alone) demonstrated a significant reduction in tumor burden as evident by bladder weights and H&E stain (p

Published

2019

3. Sphingosine kinase 1 expression enhances colon tumor growth

Author

Hideki Furuya, Yoshiko Shimizu, Paulette M. Tamashiro, Kayoko Iino, Jacek Bielawski, Owen T. M. Chan, Ian Pagano, and Toshihiko Kawamori

Subjects

Sphingolipids, SphK1 KO mouse, Xenograft, SphK1 overexpression mouse, HT-29 cells, Medicine

Abstract

Abstract Background Accumulating evidence suggests that sphingosine kinase 1 (SphK1)/sphingosine 1-phosphate pathway plays a pivotal role in colon carcinogenesis. Methods To further support the evidence, we investigated the effects of SphK1 using three separate animal models: SphK1 knockout mice, SphK1 overexpressing transgenic mice, and SphK1 overexpression in human colon cancer xenografts. Using azoxymethane (AOM, colon carcinogen), we analyzed colon tumor development in SphK1 KO and SphK1 overexpression in intestinal epithelial cells regulated by a tet-on system. Then, we analyzed subcutaneous tumor growth using xenografts of HT-29 human colon cancer cell. Finally, immunohistochemical analyses for SphK1 and COX-2 were performed on human colon cancer tissue microarray. Results SphK1 KO mice, compared to wild-type mice, demonstrated a significant inhibition in colon cancer development induced by AOM (58.6% vs. 96.4%, respectively, P

Published

2017