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  1. 1.   Cancer stem cells as the source of tumor associated myoepithelial cells in the tumor microenvironment developing ductal carcinoma in situ
  2. Afify, Said M; Hassan, Ghmkin; Zahra, Maram H; Nawara, Hend M; Abu Quora, Hagar A; Osman, Amira; Mansour, Hager; Kumon, Kazuki; Seno, Akimasa; Chen, Ling; Satoh, Ayano; Salomon,David; Seno, Masaharu
  3. Biomaterials. 2023, Jul 20; 301: 122249.
  1. 2.   GSK-3a/ß and MEK inhibitors assist the microenvironment of tumor initiation
  2. Hassan, Ghmkin; Afify, Said M; Zahra, Maram H; Nawara, Hend M; Kumon, Kazuki; Iwasaki, Yoshiaki; Salomon,David; Seno, Akimasa; Seno, Masaharu
  3. Cytotechnology. 2023, Jun; 75(3): 243-253.
  1. 3.   Anti-Cancer Activity of Verteporfin in Cholangiocarcinoma
  2. Golino, Jihye L; Wang, Xin; Bian, Jing; Ruf, Benjamin; Kelly, Michael; Karim,Baktiar; Cam, Maggie C; Xie, Changqing
  3. Cancers. 2023, Apr 25; 15(9):
  1. 4.   Aminoflavone upregulates putative tumor suppressor miR-125b-2-3p to inhibit luminal A breast cancer stem cell-like properties
  2. Mavingire, Nicole; Campbell,Petreena; Liu, Tiantian; Wooten, Jonathan; Khan, Salma; Chen, Xin; Matthews, Jason; Wang, Charles; Brantley, Eileen
  3. Precision Clinical Medicine. 2022, Jun; 5(2): pbac008.
  1. 5.   Different pancreatic cancer microenvironments convert iPSCs into cancer stem cells exhibiting distinct plasticity with altered gene expression of metabolic pathways
  2. Hassan, Ghmkin; Ohara, Toshiaki; Afify, Said M.; Kumon, Kazuki; Zahra, Maram H.; Fu, Xiaoying; Al Kadi, Mohamad; Seno, Akimasa; Salomon,David; Seno, Masaharu
  3. Journal of Experimental & Clinical Cancer Research. 2022, Jan 21; 41(1):
  1. 6.   Cripto-1 as a Potential Target of Cancer Stem Cells for Immunotherapy
  2. Ishii, Hiroko; Afify, Said M.; Hassan, Ghmkin; Salomon,David; Seno, Masaharu
  3. Cancers. 2021, May; 13(10):
  1. 7.   Exogenous Cripto-1 Suppresses Self-Renewal of Cancer Stem Cell Model
  2. Alam, Md Jahangir; Takahashi, Ryota; Afify, Said M.; Oo, Aung Ko Ko; Kumon, Kazuki; Nawara, Hend M.; Khayrani, Aprilliana Cahya; Du, Juan; Zahra, Maram H.; Seno, Akimasa; Salomon, David; Seno, Masaharu
  3. International journal of molecular sciences. 2018, NOV; 19(11):
  1. 8.   Single cell analysis reveals cancer stem cell heterogeneity in hepatocellular carcinoma
  2. Zheng, Hongping; Pomyen, Yotsawat; Hernandez, Maria Olga; Li, Caiyi; Livak, Ferenc; Tang, Wei; Dang, Hien; Greten, Tim F; Davis, Jeremy; Zhao, Yongmei; Mehta, Monika; Levin, Yelena; Shetty, Jyoti; Tran, Bao; Budhu, Anuradha; Wang, Xin Wei
  3. Hepatology. 2018, Jul; 68(1): 127-140.
  1. 9.   Plumbagin, a naphthaquinone derivative induces apoptosis in BRCA 1/2 defective castrate resistant prostate cancer cells as well as prostate cancer stem-like cells
  2. Reshma, R. S.; Sreelatha, K. H.; Somasundaram, V.; Satheesh Kumar, S.; Nadhan, R.; Nair, R. S.; Srinivas, P.
  3. Pharmacological Research. 2016, Mar; 105: 134-45.
  1. 10.   Chemoattractant receptors as pharmacological targets for elimination of glioma stem-like cells
  2. Yao, X. H.; Liu, Y.; Chen, K. Q.; Gong, W. H.; Liu, M. Y.; Bian, X. W.; Wang, J. M.
  3. International Immunopharmacology. 2011, Dec; 11(12): 1961-1966.
  1. 11.   The chemokine CXCL12 and its receptor CXCR4 promote glioma stem cell-mediated VEGF production and tumour angiogenesis via PI3K/AKT signalling
  2. Ping, Y. F.; Yao, X. H.; Jiang, J. Y.; Zhao, L. T.; Yu, S. C.; Jiang, T.; Lin, M. C. M.; Chen, J. H.; Wang, B.; Zhang, R.; Cui, Y. H.; Qian, C.; Wang, J. M.; Bian, X. W.
  3. Journal of Pathology. 2011, Jul; 224(3): 344-354.
  1. 12.   Defining the Molecular Nexus of Cancer, Type 2 Diabetes and Cardiovascular Disease
  2. Cabarcas, S. M.; Hurt, E. M.; Farrar, W. L.
  3. Current Molecular Medicine. 2010, Nov; 10(8): 741-755.
  1. 13.   Arsenic Exposure Transforms Human Epithelial Stem/Progenitor Cells into a Cancer Stem-like Phenotype
  2. Tokar, E. J.; Diwan, S. A.; Waalkes, M. P.
  3. Environmental Health Perspectives. 2010, Jan; 118(1): 108-115.
  1. 14.   Invasive prostate cancer cells are tumor initiating cells that have a stem cell-like genomic signature
  2. Klarmann, G. J.; Hurt, E. M.; Mathews, L. A.; Zhang, X. H.; Duhagon, M. A.; Mistree, T.; Thomas, S. B.; Farrar, W. L.
  3. Clinical & Experimental Metastasis. 2009 26(5): 433-446.
  1. 15.   Glioblastoma stem cells produce vascular endothelial growth factor by activation of a G-protein coupled formylpeptide receptor FPR
  2. Yao, X. H.; Ping, Y. F.; Chen, J. H.; Xu, C. P.; Chen, D. L.; Zhang, R.; Wang, J. M.; Bian, X. W.
  3. Journal of Pathology. 2008 215(4): 369-376.
  1. 16.   Isolation and characterization of cancer stem cells from a human glioblastoma cell line U87
  2. Yu, S. C.; Ping, Y. F.; Yi, L.; Zhou, Z. H.; Chen, H. H.; Yao, X. H.; Gao, L.; Wang, J. M.; Bian, X. W.
  3. Cancer Letters. 2008 265(1): 124-134.
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