15-HYDROXYPROSTAGLANDIN DEHYDROGENASE IS A TGF-beta INDUCED SUPPRESSOR OF HUMAN COLORECTAL CANCER

Yan, Min

January 2005

No description available.

Health Sciences, Oncology

PGDH

TGF-¿¿¿¿

Colon

Colon Cancer

PGDH Expression

Induction Of PGDH

CANCER

Colon Cancer and its Molecular Subsystems: Network Approaches to Dissecting Driver Gene Biology

Patel, Vishal N.

January 2011

No description available.

Bioinformatics

Biostatistics

Systems Science

Systems biology

proteomics

bioinformatics

network

coexpression

colon cancer

Optimization of Synthetic Flavonolignans to Target Embryonic Signaling in Metastatic Ovarian and Colon Cancer.

Amawi, Haneen

January 2017

No description available.

Pharmacology

Ovarian cancer

Colon cancer

silybin

silymarin

metastasis

apoptosis

epithelial - mesenchymal transition

zebrafish

drug discovery

The Ron Receptor Tyrosine Kinase in Tissue Morphogenesis

Meyer, Sara

January 2009

No description available.

Cellular Biology

colon cancer

mammary gland

development

receptor tyrosine kinase

morphogenesis

Genome-wide Approaches for Discovery of Novel Genetic and Epigenetic Events in Gastrointestinal Cancer

Fecteau, Ryan E.

03 September 2015

No description available.

Pathology

Genetics

Oncology

Gastrointestinal cancer

translational

next generation sequencing

colon cancer

Barretts esophagus

esophageal adenocarcinoma

Development of an <i>in vitro</i> three-dimensional model for colon cancer study and drug efficacy analysis

Robinson, Clayt Austin

24 August 2005

No description available.

colon cancer

drug screening

three-dimensional

tissue engineering

cell seeding

cell culture

fluorescence

The Effect of Digestive Modification on the Anticancer Activity of Tea Catechins in the HT-29 Human Colon Cancer Cell Line

Cenky, Marti A.

27 August 2009

No description available.

Food Science

Health

Nutrition

Oncology

Tea Catechins

EGCG

Colon Cancer

HT-29

Probing cytochrome P450-mediated activation with a truncated azinomycin analogue

Vinader, Victoria, Sadiq, Maria, Sutherland, Mark, Huang, M.Y., Loadman, Paul, Elsalem, Lina M.I., Shnyder, Steven, Cui, H.J., Afarinkia, Kamyar, Searcey, M., Patterson, Laurence H., Pors, Klaus

2014 October 1922

Yes / A deactivated alkene precursor (IC50=81 mu M) to the azinomycin epoxide natural product can be bioactivated by several cytochromes P450 (CYP) to generate antiproliferative metabolites with increased potency (IC50=1-30 mu M) in CHOwt cells. CYP1A1 and 3A4 were shown to generate exclusively the unnatural and the natural-configured azinomycin epoxide diastereoisomer respectively, while CYP1B1 produced both epoxides in a 3:1 mixture. The antiproliferative activity is linked to DNA damage as demonstrated using the comet assay.

Antitumor antibiotics

Sequence selectivity

Colon-cancer

cyp2w1

DNA

Cytotoxicity

Expression

Mechanism

Epoxide

Liver

In vitro 3D colon tumor penetrability of SRJ09, a new anti-cancer andrographolide analog

Wong, C.C., Periasamy, Nagarajan, Sagineedu, S.R., Sidik, S., Sumon, S.H., Loadman, Paul, Phillips, Roger M., Lajis, N.H., Stanslas, J.

31 May 2014

No / Limited tumor penetrability of anti-cancer drugs is recognized as one of the major factors that lead to poor anti-tumor activity. SRJ09 (3,19-(2-bromobenzylidene) andrographolide) has been identified as a lead anti-cancer agent for colon cancer. Recently, this compound was shown by us to be a mutant K-Ras binder. In this present study, the penetrability of SRJ09 through the DLD-1 colon cancer multicell layer (MCL) was evaluated. The amount of SRJ09 that penetrated through the MCL was quantitated by utilizing high performance liquid chromatography (HPLC). Histopathological staining was used to visualize the morphology of MCL. A chemosensitivity assay was performed to assess the anti-cancer activity of SRJ09 in DLD-1 cells. SRJ09 was able to penetrate through DLD-1 MCL and is inversely proportional with the MCL thickness. The flow rates for SRJ09 through MCL were 0.90 ± 0.20 μM/min/cm2 and 0.56 ± 0.06 μM/min/cm2 for days 1 and 5, respectively, which are better than doxorubicin. Histopathological examination revealed that the integrity of the DLD-1 MCL was retained and no visible damage was inflicted on the cell membrane, confirming the penetration of SRJ09 was by diffusion. Short term exposure (1 h) in DLD-1 cells demonstrated SRJ09 had IC50 of 41 μM which was approximately 4-folds lower than andrographolide, the parent compound of SRJ09. In conclusion, SRJ09 successfully penetrated through DLD-1 MCL by diffusion and emerged as a potential candidate to be developed as a clinically viable anti-colon cancer drug.

Andrographolide analogue

Colon cancer

Tumor penetration

DLD-1

Multi cell layer

Stem Cell Organoids in Primary Cultures of Human Non-Malignant and Malignant Colon

Tariq, S., Tahseen, M., Hassan, M., Masood, M.A., Khattak, S., Syed, A.A., Ahmad, A.H., Hussain, M., Yusuf, M.A., Sutton, Chris W.

26 May 2017

Yes / A sub-population of cells named cancer stem cells (CSCs) that initiate and promote tumour growth have been demonstrated to exist in several malignancies including colon carcinoma. The objective of our pilot study was to isolate CD133+CD26+CD44+ CSCs from patient colon tumours, culture spheres or organoids and observe their proliferation in primary cultures. Parallel cultures of non-cancer controls from colon normal lining and nonadenomatous polyps were set up. Magnetic activated cell sorting was used to isolate CD133+CD26+CD44+ cell populations followed by primary cell culturing under stem cell culture conditions. Number, cells/organoid and daughter generations of organoids were calculated using phase contrast microscope. Trypan blue exclusion method was used to test the viability of the cells. Both colon tumour and colon non-adenomatous polyp formed floating organoids in suspension; however non-adenomatous polyp cultures did not show self-renewal properties for more than 1 passage. Normal colon singlecell suspension did not create organoids. Metastatic colon tumours rapidly produce cancer cell organoids in less than 24 hours in larger numbers compared to non-metastatic colon tumours (1-3 weeks). Metastatic colon tumour organoids have the ability for proliferation for upto five daughter generations in primary culture compared to three generations for those grown from non-metastatic tumours. This in vitro CSC organoid model will help study colon cancer biology, in particular providing a valuable source of primary cell-derived tissue for studying personalized molecular profiling using ‘omics strategies to direct therapeutic intervention.

Colon cancer

Primary culture

Cancer cell sphere

Cancer stem cells

In vitro assay