Your search keyword '"Watabe, Misako"' showing total 113 results

1. The Expression of the KAI1 Gene, a Tumor Metastasis Suppressor, is Directly Activated by p53

Author

Mashimo, Tomoyuki, Watabe, Misako, Hirota, Shigeru, Hosobe, Sadahiro, Miura, Kunio, Tegtmeyer, Peter J., Rinker-Shaeffer, Carrie W., and Watabe, Kounosuke

Published

1998

2. Data from RhoC Promotes Metastasis via Activation of the Pyk2 Pathway in Prostate Cancer

Author

Iiizumi, Megumi, primary, Bandyopadhyay, Sucharita, primary, Pai, Sudha K., primary, Watabe, Misako, primary, Hirota, Shigeru, primary, Hosobe, Sadahiro, primary, Tsukada, Taisei, primary, Miura, Kunio, primary, Saito, Ken, primary, Furuta, Eiji, primary, Liu, Wen, primary, Xing, Fei, primary, Okuda, Hiroshi, primary, Kobayashi, Aya, primary, and Watabe, Kounosuke, primary

Published

2023

3. Data from Hyaluronan Synthase HAS2 Promotes Tumor Progression in Bone by Stimulating the Interaction of Breast Cancer Stem–Like Cells with Macrophages and Stromal Cells

Author

Okuda, Hiroshi, primary, Kobayashi, Aya, primary, Xia, Bo, primary, Watabe, Misako, primary, Pai, Sudha K., primary, Hirota, Shigeru, primary, Xing, Fei, primary, Liu, Wen, primary, Pandey, Puspa R., primary, Fukuda, Koji, primary, Modur, Vishnu, primary, Ghosh, Arnab, primary, Wilber, Andrew, primary, and Watabe, Kounosuke, primary

Published

2023

4. Supplementary Methods, Figures 1-7, Tables 1-7 from Hyaluronan Synthase HAS2 Promotes Tumor Progression in Bone by Stimulating the Interaction of Breast Cancer Stem–Like Cells with Macrophages and Stromal Cells

Author

Okuda, Hiroshi, primary, Kobayashi, Aya, primary, Xia, Bo, primary, Watabe, Misako, primary, Pai, Sudha K., primary, Hirota, Shigeru, primary, Xing, Fei, primary, Liu, Wen, primary, Pandey, Puspa R., primary, Fukuda, Koji, primary, Modur, Vishnu, primary, Ghosh, Arnab, primary, Wilber, Andrew, primary, and Watabe, Kounosuke, primary

Published

2023

5. Supplementary Figure 1 from RhoC Promotes Metastasis via Activation of the Pyk2 Pathway in Prostate Cancer

Author

Iiizumi, Megumi, primary, Bandyopadhyay, Sucharita, primary, Pai, Sudha K., primary, Watabe, Misako, primary, Hirota, Shigeru, primary, Hosobe, Sadahiro, primary, Tsukada, Taisei, primary, Miura, Kunio, primary, Saito, Ken, primary, Furuta, Eiji, primary, Liu, Wen, primary, Xing, Fei, primary, Okuda, Hiroshi, primary, Kobayashi, Aya, primary, and Watabe, Kounosuke, primary

Published

2023

6. Supplementary Figure 2 from RhoC Promotes Metastasis via Activation of the Pyk2 Pathway in Prostate Cancer

Author

Iiizumi, Megumi, primary, Bandyopadhyay, Sucharita, primary, Pai, Sudha K., primary, Watabe, Misako, primary, Hirota, Shigeru, primary, Hosobe, Sadahiro, primary, Tsukada, Taisei, primary, Miura, Kunio, primary, Saito, Ken, primary, Furuta, Eiji, primary, Liu, Wen, primary, Xing, Fei, primary, Okuda, Hiroshi, primary, Kobayashi, Aya, primary, and Watabe, Kounosuke, primary

Published

2023

7. Reactive astrocytes promote the metastatic growth of breast cancer stem‐like cells by activating Notch signalling in brain

Author

Xing, Fei, Kobayashi, Aya, Okuda, Hiroshi, Watabe, Misako, Pai, Sudha K., Pandey, Puspa R., Hirota, Shigeru, Wilber, Andrew, Mo, Yin‐Yuan, Moore, Brian E., Liu, Wen, Fukuda, Koji, Iiizumi, Megumi, Sharma, Sambad, Liu, Yin, Wu, Kerui, Peralta, Elizabeth, and Watabe, Kounosuke

Published

2013

8. N‐myc downstream regulated gene 1 modulates Wnt‐β‐catenin signalling and pleiotropically suppresses metastasis

Author

Liu, Wen, Xing, Fei, Iiizumi‐Gairani, Megumi, Okuda, Hiroshi, Watabe, Misako, Pai, Sudha K., Pandey, Puspa R., Hirota, Shigeru, Kobayashi, Aya, Mo, Yin‐Yuan, Fukuda, Koji, Li, Yi, and Watabe, Kounosuke

Published

2012

9. Resveratrol suppresses growth of cancer stem-like cells by inhibiting fatty acid synthase

Author

Pandey, Puspa R., Okuda, Hiroshi, Watabe, Misako, Pai, Sudha K., Liu, Wen, Kobayashi, Aya, Xing, Fei, Fukuda, Koji, Hirota, Shigeru, Sugai, Tamotsu, Wakabayashi, Go, Koeda, Keisuke, Kashiwaba, Masahiro, Suzuki, Kazuyuki, Chiba, Toshimi, Endo, Masaki, Fujioka, Tomoaki, Tanji, Susumu, Mo, Yin-Yuan, Cao, Deliang, Wilber, Andrew C., and Watabe, Kounosuke

Published

2011

10. Cacalol, a natural sesquiterpene, induces apoptosis in breast cancer cells by modulating Akt-SREBP-FAS signaling pathway

Author

Liu, Wen, Furuta, Eiji, Shindo, Kazutoshi, Watabe, Misako, Xing, Fei, Pandey, Puspa R., Okuda, Hiroshi, Pai, Sudha K., Murphy, Laura L., Cao, Deliang, Mo, Yin-Yuan, Kobayashi, Aya, Iiizumi, Megumi, Fukuda, Koji, Xia, Bo, and Watabe, Kounosuke

Published

2011

11. Interaction of KAI1 on tumor cells with DARC on vascular endothelium leads to metastasis suppression

Author

Bandyopadhyay, Sucharita, Zhan, Rui, Chaudhuri, Asok, Watabe, Misako, Pai, Sudha K, Hirota, Shigeru, Hosobe, Sadahiro, Tsukada, Taisei, Miura, Kunio, Takano, Yukio, Saito, Ken, Pauza, Mary E, Hayashi, Sunao, Wang, Ying, Mohinta, Sonia, Mashimo, Tomoyuki, Iiizumi, Megumi, Furuta, Eiji, and Watabe, Kounosuke

Published

2006

12. FAS expression inversely correlates with PTEN level in prostate cancer and a PI 3-kinase inhibitor synergizes with FAS siRNA to induce apoptosis

Author

Bandyopadhyay, Sucharita, Pai, Sudha K, Watabe, Misako, Gross, Steven C, Hirota, Shigeru, Hosobe, Sadahiro, Tsukada, Taisei, Miura, Kunio, Saito, Ken, Markwell, Stephen J, Wang, Ying, Huggenvik, Jodi, Pauza, Mary E, Iiizumi, Megumi, and Watabe, Kounosuke

Published

2005

13. Role of the putative tumor metastasis suppressor gene Drg-1 in breast cancer progression

Author

Bandyopadhyay, Sucharita, Pai, Sudha K, Hirota, Shigeru, Hosobe, Sadahiro, Takano, Yukio, Saito, Ken, Piquemal, David, Commes, Therese, Watabe, Misako, Gross, Steven C, Wang, Ying, Ran, Sophia, and Watabe, Kounosuke

Published

2004

14. Sequence and Functional Analysis of the 5′-Flanking Region of the Mouse Growth Inhibitory Factor Gene

Author

Watabe, Misako, Gross, Steven, Lawyer, Carl, Brewer, Gregory J., Mashimo, Tomoyuki, and Watabe, Kounosuke

Published

1997

15. Fatty acid synthase gene is up-regulated by hypoxia via activation of Akt and sterol regulatory element binding protein-1

Author

Furuta, Eiji, Pai, Sudha K, Zhan, Rui, Bandyopadhyay, Sucharita, Watabe, Misako, Mo, Yin-Yuan, Hirota, Shigeru, Hosobe, Sadahiro, Tsukada, Taisei, Miura, Kunio, Kamada, Shuichi, Saito, Ken, Iiizumi, Megumi, Liu, Wen, Ericsson, Johan, Watabe, Kounosuke, Furuta, Eiji, Pai, Sudha K, Zhan, Rui, Bandyopadhyay, Sucharita, Watabe, Misako, Mo, Yin-Yuan, Hirota, Shigeru, Hosobe, Sadahiro, Tsukada, Taisei, Miura, Kunio, Kamada, Shuichi, Saito, Ken, Iiizumi, Megumi, Liu, Wen, Ericsson, Johan, and Watabe, Kounosuke

Abstract

The fatty acid synthase (FAS) gene is significantly up-regulated in various types of cancers, and blocking the FAS expression results in apoptosis of tumor cells. Therefore, FAS is considered to be an attractive target for anticancer therapy. However, the molecular mechanism by which the FAS gene is up-regulated in tumor cells is poorly understood. We found that FAS was significantly up-regulated by hypoxia, which was also accompanied by reactive oxygen species (ROS) generation in human breast cancer cell lines. The FAS expression was also activated by H(2)O(2), whereas N-acetyl-L-cystein, a ROS inhibitor, suppressed the expression. We also found that the hypoxia significantly up-regulated sterol regulatory-element binding protein (SREBP)-1, the major transcriptional regulator of the FAS gene, via phosphorylation of Akt followed by activation of hypoxia-inducible factor 1 (HIF1). Moreover, our results of reporter assay and chromatin immunoprecipitation analysis indicate that SREBP-1 strongly bound to the SREBP binding site/E-box sequence on the FAS promoter under hypoxia. In our xenograft mouse model, FAS was strongly expressed in the hypoxic regions of the tumor. In addition, our results of immunohistochemical analysis for human breast tumor specimens indicate that the expressions of both FAS and SREBP-1 were colocalized with hypoxic regions in the tumors. Furthermore, we found that hypoxia-induced chemoresistance to cyclophosphamide was partially blocked by a combination of FAS inhibitor and cyclophosphamide. Taken together, our results indicate that FAS gene is up-regulated by hypoxia via activation of the Akt and HIF1 followed by the induction of the SREBP-1 gene, and that hypoxia-induced chemoresistance is partly due to the up-regulation of FAS.

Published

2008

16. Abstract 1416: BMP 7 regulates dormancy and recurrence of prostate cancer stem cell in bone via P38/NDRG1/P21 signaling axis.

Author

Xing, Fei, primary, Kobayashi, Aya, additional, Okuda, Hiroshi, additional, Pandey, Puspa, additional, Watabe, Misako, additional, Pai, Sudha K., additional, Sharma, Sambad, additional, and Watabe, Kounosuke, additional

Published

2013

17. Abstract 3865: HAS2 promotes tumor progression by stimulating interaction of cancer stem-like cells with tumor associated macrophage and stromal cells through a paracrine loop of growth factors in the bone.

Author

Sharma, Sambad, primary, Okuda, Hiroshi, additional, Xing, Fei, additional, Kobayashi, Aya, additional, Watabe, Misako, additional, Pandey, Puspa R., additional, Pai, Sudha K., additional, Liu, Wen, additional, Fukuda, Koji, additional, Iiizumi, Megumi, additional, and Watabe, Kounosuke, additional

Published

2013

18. miR-7 Suppresses Brain Metastasis of Breast Cancer Stem-Like Cells By Modulating KLF4

Author

Okuda, Hiroshi, primary, Xing, Fei, additional, Pandey, Puspa R., additional, Sharma, Sambad, additional, Watabe, Misako, additional, Pai, Sudha K., additional, Mo, Yin-Yuan, additional, Iiizumi-Gairani, Megumi, additional, Hirota, Shigeru, additional, Liu, Yin, additional, Wu, Kerui, additional, Pochampally, Radhika, additional, and Watabe, Kounosuke, additional

Published

2013

19. Abstract C92: Bone morphogenetic protein 7 regulates dormancy and recurrence of prostate cancer stem cell in bone

Author

Kobayashi, Aya, primary, Xing, Fei, additional, Okuda, Hiroshi, additional, Pandey, Puspa R., additional, Pai, Sudha, additional, Watabe, Misako, additional, and Watabe, Kounosuke, additional

Published

2013

20. Abstract A13: Interleukin-1β promotes brain metastasis of breast cancer by activating Notch signaling through reactive astrocytes

Author

Xing, Fei, primary, Kobayashi, Aya, additional, Okuda, Hiroshi, additional, Watabe, Misako, additional, Pandey, Puspa R., additional, Pai, Sudha K., additional, Liu, Yin, additional, Wu, Kerui, additional, and Watabe, Kounosuke, additional

Published

2013

21. Abstract 5169: Roles of lipogenesis in cancer stem-like cells at early stage of breast cancer

Author

Pandey, Puspa Raj, primary, Xing, Fei, additional, Kobayashi, Aya, additional, Gairani, Megumi, additional, Watabe, Misako, additional, Pai, Sudha K., additional, Fukuda, Koji, additional, Hirota, Shigeru, additional, Modur, Vishnu, additional, Sharma, Sambad, additional, and Watabe, Kounosuke, additional

Published

2012

22. Abstract 3323: Hyaluronan synthase 2 promotes breast cancer bone metastasis by stimulating interaction of cancer stem-like cells with tumor-associated macrophage

Author

Okuda, Hiroshi, primary, Xing, Fei, additional, Kobayashi, Aya, additional, Watabe, Misako, additional, Pai, Sudha K., additional, Liu, Wen, additional, Pandey, Puspa R., additional, Fukuda, Koji, additional, and Iiizumi, Megumi, additional

Published

2012

23. Abstract 1531: Reactive astrocytes promote the growth of cancer stem-like cells of metastatic breast tumor by activating Notch signaling in brain

Author

Xing, Fei, primary, Kobayashi, Aya, additional, Okuda, Hiroshi, additional, Watabe, Misako, additional, Pandey, Puspa R., additional, Pai, Sudha K., additional, Fukuda, Koji, additional, Iiizumi, Megumi, additional, and Watabe, Kounosuke, additional

Published

2012

24. Abstract 3419: N-myc downstream regulated gene 1, NDRG1, modulates Wnt-β-catenin signaling and pleiotropically suppresses metastasis

Author

Liu, Wen, primary, Xing, Fei, additional, Iiizumi-Gairani, Megumi, additional, Okuda, Hiroshi, additional, Watabe, Misako, additional, Pai, Sudha K., additional, Pandey, Puspa R., additional, Hirota, Shigeru, additional, Kobayashi, Aya, additional, Fukuda, Koji, additional, Li, Yi, additional, and Watabe, Kounosuke, additional

Published

2012

25. Bone morphogenetic protein 7 in dormancy and metastasis of prostate cancer stem-like cells in bone

Author

Kobayashi, Aya, primary, Okuda, Hiroshi, additional, Xing, Fei, additional, Pandey, Puspa R., additional, Watabe, Misako, additional, Hirota, Shigeru, additional, Pai, Sudha K., additional, Liu, Wen, additional, Fukuda, Koji, additional, Chambers, Christopher, additional, Wilber, Andrew, additional, and Watabe, Kounosuke, additional

Published

2012

26. Hyaluronan Synthase HAS2 Promotes Tumor Progression in Bone by Stimulating the Interaction of Breast Cancer Stem–Like Cells with Macrophages and Stromal Cells

Author

Okuda, Hiroshi, primary, Kobayashi, Aya, additional, Xia, Bo, additional, Watabe, Misako, additional, Pai, Sudha K., additional, Hirota, Shigeru, additional, Xing, Fei, additional, Liu, Wen, additional, Pandey, Puspa R., additional, Fukuda, Koji, additional, Modur, Vishnu, additional, Ghosh, Arnab, additional, Wilber, Andrew, additional, and Watabe, Kounosuke, additional

Published

2012

27. Bone morphogenetic protein 7 in dormancy and metastasis of prostate cancer stem-like cells in bone

Author

Kobayashi, Aya, primary, Okuda, Hiroshi, additional, Xing, Fei, additional, Pandey, Puspa R., additional, Watabe, Misako, additional, Hirota, Shigeru, additional, Pai, Sudha K., additional, Liu, Wen, additional, Fukuda, Koji, additional, Chambers, Christopher, additional, Wilber, Andrew, additional, and Watabe, Kounosuke, additional

Published

2011

28. KAI1 Gene Is Engaged in NDRG1 Gene-mediated Metastasis Suppression through the ATF3-NFκB Complex in Human Prostate Cancer

Author

Liu, Wen, primary, Iiizumi-Gairani, Megumi, additional, Okuda, Hiroshi, additional, Kobayashi, Aya, additional, Watabe, Misako, additional, Pai, Sudha K., additional, Pandey, Puspa R., additional, Xing, Fei, additional, Fukuda, Koji, additional, Modur, Vishnu, additional, Hirota, Shigeru, additional, Suzuki, Kazuyuki, additional, Chiba, Toshimi, additional, Endo, Masaki, additional, Sugai, Tamotsu, additional, and Watabe, Kounosuke, additional

Published

2011

29. Abstract 1028: Hypoxia induces Notch signaling and promotes breast cancer metastasis by stimulating growth and self renewal of cancer stem-like cells

Author

Xing, Fei, primary, Okuda, Hiroshi, additional, Watabe, Misako, additional, Kobayashi, Aya, additional, Pai, Sudha K., additional, Liu, Wen, additional, Pandey, Puspa R., additional, Fukuda, Koji, additional, Hirota, Shigeru, additional, Sugai, Tamotsu, additional, Wakabayashi, Go, additional, Koeda, Keisuke, additional, Kashiwaba, Masahiro, additional, Suzuki, Kazuyuki, additional, Chiba, Toshimi, additional, Endo, Masaki, additional, and Watabe, Kounosuke, additional

Published

2011

30. Abstract 3409: Hyaluronan synthase 2 promotes tumor progression by stimulating interaction of cancer stem-like cells with tumor associated macrophage and stromal cells in the bone

Author

Okuda, Hiroshi, primary, Kobayashi, Aya, additional, Watabe, Misako, additional, Pai, Sudha K., additional, Liu, Wen, additional, Xing, Fei, additional, Pandey, Puspa R., additional, Fukuda, Koji, additional, Iiizumi, Megumi, additional, and Watabe, Kounosuke, additional

Published

2011

31. Resveratrol suppresses growth of cancer stem-like cells by inhibiting fatty acid synthase

Author

Pandey, Puspa R., primary, Okuda, Hiroshi, additional, Watabe, Misako, additional, Pai, Sudha K., additional, Liu, Wen, additional, Kobayashi, Aya, additional, Xing, Fei, additional, Fukuda, Koji, additional, Hirota, Shigeru, additional, Sugai, Tamotsu, additional, Wakabayashi, Go, additional, Koeda, Keisuke, additional, Kashiwaba, Masahiro, additional, Suzuki, Kazuyuki, additional, Chiba, Toshimi, additional, Endo, Masaki, additional, Fujioka, Tomoaki, additional, Tanji, Susumu, additional, Mo, Yin-Yuan, additional, Cao, Deliang, additional, Wilber, Andrew C., additional, and Watabe, Kounosuke, additional

Published

2010

32. Cacalol, a natural sesquiterpene, induces apoptosis in breast cancer cells by modulating Akt-SREBP-FAS signaling pathway

Author

Liu, Wen, primary, Furuta, Eiji, additional, Shindo, Kazutoshi, additional, Watabe, Misako, additional, Xing, Fei, additional, Pandey, Puspa R., additional, Okuda, Hiroshi, additional, Pai, Sudha K., additional, Murphy, Laura L., additional, Cao, Deliang, additional, Mo, Yin-Yuan, additional, Kobayashi, Aya, additional, Iiizumi, Megumi, additional, Fukuda, Koji, additional, Xia, Bo, additional, and Watabe, Kounosuke, additional

Published

2010

33. Abstract 5762: Role of BMP7 in dormancy and recurrence of prostatic tumor stem cell in the bone metastasis

Author

Kobayashi, Aya, primary, Okuda, Hiroshi, additional, Furuta, Eiji, additional, Pandey, Puspa R., additional, Watabe, Misako, additional, Pai, Sudha K., additional, Xing, Fei, additional, Liu, Wen, additional, and Watabe, Kounosuke, additional

Published

2010

34. Abstract 1413: Interleukin-1β promotes brain metastasis of breast cancer by activating Notch signaling through reactive astrocytes

Author

Xing, Fei, primary, Okuda, Hiroshi, additional, Furuta, Eiji, additional, Watabe, Misako, additional, Kobayashi, Aya, additional, Pandey, Puspa R., additional, Pai, Sudha K., additional, Liu, Wen, additional, and Watabe, Kounosuke, additional

Published

2010

35. Abstract 979: Upregulation of lipogenic genes, SREBP-1, ACLY, ACC-1 and FAS, confer proliferation and survival advantages to cancer stem-like cells in ductal carcinoma in situ

Author

Tomoaki Fujioka, Puspa R. Pandey, Tamotsu Sugai, Watabe Misako, Yin-Yuan Mo, Deliang Cao, Aya Kobayashi, Andrew Wilber, Hiroshi Okuda, Go Wakabayashi, Fei Xing, Masaki Endo, Keisuke Koeda, Wen Liu, Kazuyuki Suzuki, Kounosuke Watabe, Toshimi Chiba, Masahiro Kashiwaba, Sudha K. Pai, Koji Fukuda, Shigeru Hirota, and Susumu Tanji

Subjects

Cancer Research, medicine.medical_specialty, biology, CD24, CD44, Cancer, Resveratrol, medicine.disease, medicine.disease_cause, body regions, chemistry.chemical_compound, Endocrinology, Oncology, Downregulation and upregulation, chemistry, Apoptosis, Internal medicine, Lipogenesis, medicine, Cancer research, biology.protein, skin and connective tissue diseases, Carcinogenesis, neoplasms

Abstract

Elevated level of lipogenic enzymes and overall lipogenesis have been reported in a wide variety of cancers, and blocking the lipogenic pathway by chemical inhibitors or RNA interference causes tumor cell death by apoptosis. In this study, we investigated the role of lipogenesis in cancer stem-like cells (CSCs) in ductal carcinoma in situ (DCIS) which is considered as an early stage of breast tumorigenesis. CSCs were isolated using cell surface markers (CD24−/CD44+/ESA+) from the MCF10DCIS. Com (DCIS.com) cell line and transplanted into the mammary fat pad of nude mice. The results of our limiting dilution analysis indicate that CSCs had a significantly higher ability of initiating DCIS in the animals. We then examined the expression profile of various lipogenic genes using an expression microarray and found that CSCs from DCIS.com showed significantly higher level of ACLY, ACC-1 and FAS than the normal non-tumorigenic stem-like cells. The result was also confirmed by qRT-PCR and Western blot. We also examined the expression of these genes in clinical specimens of DCIS by immunohistochemistry and found that these genes are indeed significantly upregulated. Furthermore, we found SREBP1, the master regulator of lipogenic genes, was also significantly upregulated in DCIS clinical specimens as well as in DCIS.com cells and inhibition of SREBP1 significantly downregulated the expression of ACLY, ACC-1 and FAS. These results suggest that the lipogenic enzymes play critical roles in initiation and maintenance of DCIS. We then examined the effects of Resveratrol, a natural polyphenol, on CSCs isolated from DCIS.com. We found that Resveratrol reduced the total lipid content of DCIS CSCs by inhibiting lipogenic genes and induced a series of pro-apoptotic genes causing the death of DCIS CSCs. Resveratrol also hindered the stemness of the DCIS CSCs by inhibiting its mammosphere forming ability. When DCIS CSCs was transplanted into mammary fat pad of nude mice followed by treatment with Resveratrol, we observed that Resveratrol indeed significantly suppressed the formation of DCIS by downregulating lipogenic genes and by upregulating pro-apoptotic genes, DAPK2 and BNIP3. Collectively, our results indicate that lipogenic genes ACLY, ACC-1, FAS and SREBP1 are significantly up regulated in DCIS CSCs at an early stage of breast tumorigenesis and they confer proliferative and anti-apoptotic capacity to CSCs. Anti-growth effect of Resveratrol on DCIS CSCs also provides us with a strong rationale to use this agent for chemo-prevention against DCIS. Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 102nd Annual Meeting of the American Association for Cancer Research; 2011 Apr 2-6; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2011;71(8 Suppl):Abstract nr 979. doi:10.1158/1538-7445.AM2011-979

Published

2011

36. RhoC Promotes Metastasis via Activation of the Pyk2 Pathway in Prostate Cancer

Author

Iiizumi, Megumi, primary, Bandyopadhyay, Sucharita, additional, Pai, Sudha K., additional, Watabe, Misako, additional, Hirota, Shigeru, additional, Hosobe, Sadahiro, additional, Tsukada, Taisei, additional, Miura, Kunio, additional, Saito, Ken, additional, Furuta, Eiji, additional, Liu, Wen, additional, Xing, Fei, additional, Okuda, Hiroshi, additional, Kobayashi, Aya, additional, and Watabe, Kounosuke, additional

Published

2008

37. Fatty Acid Synthase Gene Is Up-regulated by Hypoxia via Activation of Akt and Sterol Regulatory Element Binding Protein-1

Author

Furuta, Eiji, primary, Pai, Sudha K., additional, Zhan, Rui, additional, Bandyopadhyay, Sucharita, additional, Watabe, Misako, additional, Mo, Yin-Yuan, additional, Hirota, Shigeru, additional, Hosobe, Sadahiro, additional, Tsukada, Taisei, additional, Miura, Kunio, additional, Kamada, Shuichi, additional, Saito, Ken, additional, Iiizumi, Megumi, additional, Liu, Wen, additional, Ericsson, Johan, additional, and Watabe, Kounosuke, additional

Published

2008

38. The Tumor Metastasis Suppressor Gene Drg-1 Down-regulates the Expression of Activating Transcription Factor 3 in Prostate Cancer

Author

Bandyopadhyay, Sucharita, primary, Wang, Ying, additional, Zhan, Rui, additional, Pai, Sudha K., additional, Watabe, Misako, additional, Iiizumi, Megumi, additional, Furuta, Eiji, additional, Mohinta, Sonia, additional, Liu, Wen, additional, Hirota, Shigeru, additional, Hosobe, Sadahiro, additional, Tsukada, Taisei, additional, Miura, Kunio, additional, Takano, Yukio, additional, Saito, Ken, additional, Commes, Therese, additional, Piquemal, David, additional, Hai, Tsonwin, additional, and Watabe, Kounosuke, additional

Published

2006

39. Mechanism of Apoptosis Induced by the Inhibition of Fatty Acid Synthase in Breast Cancer Cells

Author

Bandyopadhyay, Sucharita, primary, Zhan, Rui, additional, Wang, Ying, additional, Pai, Sudha K., additional, Hirota, Shigeru, additional, Hosobe, Sadahiro, additional, Takano, Yukio, additional, Saito, Ken, additional, Furuta, Eiji, additional, Iiizumi, Megumi, additional, Mohinta, Sonia, additional, Watabe, Misako, additional, Chalfant, Charles, additional, and Watabe, Kounosuke, additional

Published

2006

40. PTEN Up-Regulates the Tumor Metastasis Suppressor GeneDrg-1in Prostate and Breast Cancer

Author

Bandyopadhyay, Sucharita, primary, Pai, Sudha K., additional, Hirota, Shigeru, additional, Hosobe, Sadahiro, additional, Tsukada, Taisei, additional, Miura, Kunio, additional, Takano, Yukio, additional, Saito, Ken, additional, Commes, Therese, additional, Piquemal, David, additional, Watabe, Misako, additional, Gross, Steven, additional, Wang, Ying, additional, Huggenvik, Jodi, additional, and Watabe, Kounosuke, additional

Published

2004

41. Antineoplastic Activity of Solidago virgaurea on Prostatic Tumor Cells in an SCID Mouse Model

Author

Gross, Steven C., primary, Goodarzi, Goodarz, additional, Watabe, Misako, additional, Bandyopadhyay, Sucharita, additional, Pai, Sudha K., additional, and Watabe, Kounosuke, additional

Published

2002

42. Identification of tumor metastasis suppressor region on the short arm of human chromosome 20

Author

Goodarzi, Goodarz, primary, Mashimo, Tomoyuki, additional, Watabe, Misako, additional, Cuthbert, Andrew P., additional, Newbold, Robert F., additional, Pai, Sudha K., additional, Hirota, Shigeru, additional, Hosobe, Sadahiro, additional, Miura, Kunio, additional, Bandyopadhyay, Sucharita, additional, Gross, Steven C., additional, Balaji, Kethandapatti C., additional, and Watabe, Kounosuke, additional

Published

2001

43. Activation of the Tumor Metastasis Suppressor Gene, KAI1, by Etoposide Is Mediated by p53 and c-Jun Genes

Author

Mashimo, Tomoyuki, primary, Bandyopadhyay, Sucharita, additional, Goodarzi, Goodarz, additional, Watabe, Misako, additional, Pai, Sudha K., additional, Gross, Steven C., additional, and Watabe, Kounosuke, additional

Published

2000

44. Localization of a novel tumor metastasis suppressor region on the short arm of human chromosome 2

Author

Mashimo, Tomoyuki, primary, Goodarzi, Goodarz, additional, Watabe, Misako, additional, Cuthbert, Andrew P., additional, Newbold, Robert F., additional, Pai, Sudha K., additional, Hirota, Shigeru, additional, Hosobe, Sadahiro, additional, Miura, Kunio, additional, Bandyopadhyay, Sucharita, additional, Gross, Steven C., additional, and Watabe, Kounosuke, additional

Published

2000

45. Effects of synthetic form of tracheal antimicrobial peptide on respiratory pathogens

Author

Lawyer, Carl, primary, Pai, Sudha, additional, Watabe, Misako, additional, Bakir, Haithem, additional, Eagleton, Lanie, additional, and Watabe, Kounosuke, additional

Published

1996

46. Differential gene expression in experimental hepatocellular carcinoma induced by woodchuck hepatitis B virus

Author

Darabi, Ali, primary, Gross, Steven, additional, Watabe, Misako, additional, Malafa, Mokenge, additional, and Watabe, Kounosuke, additional

Published

1995

47. Organ distribution and stability of phosphorothioated oligodeoxyribonucleotides in mice

Author

Goodarzi, Goodarz, primary, Watabe, Misako, additional, and Watabe, Kounosuke, additional

Published

1992

48. Binding of oligonucleotides to cell membranes at acidic pH

Author

Goodarzi, Goodarz, primary, Watabe, Misako, additional, and Watabe, Kounosuke, additional

Published

1991

49. Organ-specific distribution of isozymes of 5′-nucleotide phosphodiesterase in mouse

Author

Gross, Steven C., primary, Watabe, Misako, additional, Goodarzi, Goodarz, additional, Darabi, Ali, additional, and Watabe, Kounosuke, additional

Published

1990

50. Bone morphogenetic protein 7 in dormancy and metastasis of prostate cancer stem-like cells in bone

Author

Kobayashi, Aya, Okuda, Hiroshi, Xing, Fei, Pandey, Puspa R., Watabe, Misako, Hirota, Shigeru, Pai, Sudha K., Liu, Wen, Fukuda, Koji, Chambers, Christopher, Wilber, Andrew, and Watabe, Kounosuke

Abstract

Metastatic disease is the major cause of cancer deaths, and recurrent tumors at distant organs are a critical issue. However, how metastatic tumor cells become dormant and how and why tumors recur in target organs are not well understood. In this study, we demonstrate that BMP7 (bone morphogenetic protein 7) secreted from bone stromal cells induces senescence in prostate cancer stem-like cells (CSCs) by activating p38 mitogen-activated protein kinase and increasing expression of the cell cycle inhibitor, p21, and the metastasis suppressor gene, NDRG1 (N-myc downstream-regulated gene 1). This effect of BMP7 depended on BMPR2 (BMP receptor 2), and BMPR2 expression inversely correlated with recurrence and bone metastasis in prostate cancer patients. Importantly, this BMP7-induced senescence in CSCs was reversible upon withdrawal of BMP7. Furthermore, treatment of mice with BMP7 significantly suppressed the growth of CSCs in bone, whereas the withdrawal of BMP7 restarted growth of these cells. These results suggest that the BMP7–BMPR2–p38–NDRG1 axis plays a critical role in dormancy and recurrence of prostate CSCs in bone and suggest a potential therapeutic utility of BMP7 for recurrent metastatic disease.

Published

2011