Need Help?

Small-molecule inhibitors in melanoma - Kenski / Kong - WES (2019-04-11)

Small-molecule inhibitors targeting the most commonly activated pathway in melanoma, MAPK pathway (either alone or in combination) are already given to melanoma patients for few years, and initially reduce tumour burden dramatically, eventually melanomas become resistant and tumours progress while on treatment. Resistance to this treatment occurs by acquisition of additional mutations or other alterations that affect the mitogen-activated protein kinase (MAPK) pathway by either direct or indirect signalling. Many resistance mechanisms somehow lead to reactivation of extracellular signal-regulated kinase (ERK), thereby restoring signalling of the oncogenic BRAF/MEK/ERK pathway. In addition, PI3K pathway activation contributes to resistance to BRAF inhibition. Less frequent but equally important to the phenomenon of targeted drug resistance is the observation that B15-20% of BRAF mutant melanoma patients fail to respond to BRAF inhibition already early on treatment, owing to intrinsic resistance. These patients have little therapeutic options, unless immunotherapy can be given. To better understand the resistance mechanisms in MAPK inhibitor-treated melanoma patients and melanoma biology, our lab generated a big panel of MAPK inhibitor resistant melanoma cell lines by continuous drug exposure. The understanding of the genetic landscape and gene expression as well as cross resistance to other treatment regimens, and other aspects of melanoma biology such as phenotype switch, will allow us to better exploit new therapeutic strategies for melanoma patients. . This dataset contains all the data available for this study on 2019-04-11.

Request Access

Wellcome Trust Sanger Institute Data Sharing Policy

Studies are experimental investigations of a particular phenomenon, e.g., case-control studies on a particular trait or cancer research projects reporting matching cancer normal genomes from patients.

Study ID Study Title Study Type
Cancer Genomics

This table displays only public information pertaining to the files in the dataset. If you wish to access this dataset, please submit a request. If you already have access to these data files, please consult the download documentation.

ID File Type Size Located in
EGAF00002278041 cram 2.2 GB
EGAF00002278042 cram 2.8 GB
EGAF00002278043 cram 1.9 GB
EGAF00002278044 cram 2.0 GB
EGAF00002278045 cram 1.9 GB
EGAF00002278046 cram 2.0 GB
EGAF00002278047 cram 2.6 GB
EGAF00002278048 cram 2.6 GB
EGAF00002278049 cram 2.4 GB
EGAF00002278050 cram 1.9 GB
EGAF00002278051 cram 2.6 GB
EGAF00002278052 cram 2.7 GB
EGAF00002278053 cram 3.4 GB
EGAF00002278054 cram 2.3 GB
EGAF00002278055 cram 2.1 GB
EGAF00002278056 cram 2.2 GB
EGAF00002278057 cram 2.0 GB
EGAF00002278058 cram 2.2 GB
EGAF00002278059 cram 2.2 GB
EGAF00002278060 cram 2.3 GB
EGAF00002278061 cram 1.6 GB
EGAF00002278062 cram 2.9 GB
EGAF00002278063 cram 1.8 GB
EGAF00002278093 cram 2.2 GB
EGAF00002278094 cram 2.2 GB
EGAF00002278095 cram 2.0 GB
EGAF00002278096 cram 2.2 GB
EGAF00002278097 cram 2.1 GB
EGAF00002278098 cram 2.1 GB
EGAF00002278099 cram 2.0 GB
EGAF00002278100 cram 1.9 GB
EGAF00002278101 cram 2.0 GB
EGAF00002278102 cram 2.4 GB
EGAF00002278103 cram 2.3 GB
34 Files (75.8 GB)