Literature DB >> 25605917

Suppression of cancer relapse and metastasis by inhibiting cancer stemness.

Youzhi Li1, Harry A Rogoff1, Sarah Keates1, Yuan Gao1, Sylaja Murikipudi1, Keith Mikule1, David Leggett1, Wei Li1, Arthur B Pardee2, Chiang J Li2.   

Abstract

Partial or even complete cancer regression can be achieved in some patients with current cancer treatments. However, such initial responses are almost always followed by relapse, with the recurrent cancer being resistant to further treatments. The discovery of therapeutic approaches that counteract relapse is, therefore, essential for advancing cancer medicine. Cancer cells are extremely heterogeneous, even in each individual patient, in terms of their malignant potential, drug sensitivity, and their potential to metastasize and cause relapse. Indeed, hypermalignant cancer cells, termed cancer stem cells or stemness-high cancer cells, that are highly tumorigenic and metastatic have been isolated from cancer patients with a variety of tumor types. Moreover, such stemness-high cancer cells are resistant to conventional chemotherapy and radiation. Here we show that BBI608, a small molecule identified by its ability to inhibit gene transcription driven by Stat3 and cancer stemness properties, can inhibit stemness gene expression and block spherogenesis of or kill stemness-high cancer cells isolated from a variety of cancer types. Moreover, cancer relapse and metastasis were effectively blocked by BBI608 in mice. These data demonstrate targeting cancer stemness as a novel approach to develop the next generation of cancer therapeutics to suppress cancer relapse and metastasis.

Entities:  

Keywords:  BBI608; cancer stemness; relapse

Mesh:

Substances:

Year:  2015        PMID: 25605917      PMCID: PMC4330785          DOI: 10.1073/pnas.1424171112

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


  45 in total

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Authors:  Yuko Kato; Atsushi Iwama; Yuko Tadokoro; Kazuya Shimoda; Mayu Minoguchi; Shizuo Akira; Minoru Tanaka; Atsushi Miyajima; Toshio Kitamura; Hiromitsu Nakauchi
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  150 in total

1.  Mutations in the linker domain affect phospho-STAT3 function and suggest targets for interrupting STAT3 activity.

Authors:  Claudia Mertens; Bhagwattie Haripal; Sebastian Klinge; James E Darnell
Journal:  Proc Natl Acad Sci U S A       Date:  2015-11-09       Impact factor: 11.205

2.  Epithelial-mesenchymal transition: a new target in anticancer drug discovery.

Authors:  Fabrizio Marcucci; Giorgio Stassi; Ruggero De Maria
Journal:  Nat Rev Drug Discov       Date:  2016-01-29       Impact factor: 84.694

3.  Targeting the Tumor Core: Hypoxia-Responsive Nanoparticles for the Delivery of Chemotherapy to Pancreatic Tumors.

Authors:  Matthew I Confeld; Babak Mamnoon; Li Feng; Heather Jensen-Smith; Priyanka Ray; James Froberg; Jiha Kim; Michael A Hollingsworth; Mohiuddin Quadir; Yongki Choi; Sanku Mallik
Journal:  Mol Pharm       Date:  2020-07-22       Impact factor: 4.939

4.  Cancer recurrence monitoring using hyperpolarized [1-13C]pyruvate metabolic imaging in murine breast cancer model.

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Journal:  Magn Reson Imaging       Date:  2017-07-15       Impact factor: 2.546

5.  Glucosamine decreases the stemness of human ALDH+ breast cancer stem cells by inactivating STAT3.

Authors:  Rendy Hosea; Novi Silvia Hardiany; Osamu Ohneda; Septelia Inawati Wanandi
Journal:  Oncol Lett       Date:  2018-07-26       Impact factor: 2.967

Review 6.  Current status and contemporary approaches to the discovery of antitumor agents from higher plants.

Authors:  Garima Agarwal; Peter J Blanco Carcache; Ermias Mekuria Addo; A Douglas Kinghorn
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Review 8.  Beyond Alkylating Agents for Gliomas: Quo Vadimus?

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Review 9.  Chemotherapy for advanced gastric cancer: future perspective in Japan.

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10.  Overcoming Tamoxifen Resistance of Human Breast Cancer by Targeted Gene Silencing Using Multifunctional pRNA Nanoparticles.

Authors:  Yijuan Zhang; Marissa Leonard; Yi Shu; Yongguang Yang; Dan Shu; Peixuan Guo; Xiaoting Zhang
Journal:  ACS Nano       Date:  2016-12-16       Impact factor: 15.881
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