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This section gives an overview of the disease, and where available shows the following:
More information can be found in the help pages.
✖Disease ID: | 724 | |
Name: | Ovarian cancer | |
Associated with: | 7 targets | |
1 immuno-relevant target |
Click on the target name to link to its detailed view page
Where available, information is display on the role of the target in the disease; drugs which target the disease and their therapeutic use and side-effects.
If there is mutation data curated in GtoPdb this is indicated, with a link back to the appropriate section on the target detailed view page
Immuno ligand interactions - If available, a table of immuno-relevant ligands is shown. These ligands have been curated as having an association to the disease and possess interaction data with the target in GtoPdb. The approval status of the ligand is shown, along with curator comments and an indication of whether the target is considered the primary target of the ligand.
More information can be found in the help pages.
✖CCR7 | |
References: | 3 |
ADGRB1 | |
References: | 5 |
Mutations: | ADGRB1 is associated with 1 mutation. Click here for details |
ADGRB3 | |
References: | 5 |
Mutations: | ADGRB3 is associated with 1 mutation. Click here for details |
PKR1 | |
References: | 6 |
Mutations: | PKR1 is associated with 1 mutation. Click here for details |
erb-b2 receptor tyrosine kinase 2 |
phosphatidylinositol-4,5-bisphosphate 3-kinase catalytic subunit alpha |
regulator of G-protein signaling 10 |
Click ligand name to view ligand summary page
Click the arrow in the final column to expand comments
More information can be found in the help pages.
✖No ligand related data available for Ovarian cancer
1. Altman MK, Alshamrani AA, Jia W, Nguyen HT, Fambrough JM, Tran SK, Patel MB, Hoseinzadeh P, Beedle AM, Murph MM. (2015) Suppression of the GTPase-activating protein RGS10 increases Rheb-GTP and mTOR signaling in ovarian cancer cells. Cancer Lett, 369 (1): 175-83. [PMID:26319900]
2. Cacan E, Ali MW, Boyd NH, Hooks SB, Greer SF. (2014) Inhibition of HDAC1 and DNMT1 modulate RGS10 expression and decrease ovarian cancer chemoresistance. PLoS ONE, 9 (1): e87455. [PMID:24475290]
3. Cheng S, Han L, Guo J, Yang Q, Zhou J, Yang X. (2014) The essential roles of CCR7 in epithelial-to-mesenchymal transition induced by hypoxia in epithelial ovarian carcinomas. Tumour Biol, 35 (12): 12293-8. [PMID:25168373]
4. Hooks SB, Murph MM. (2015) Cellular deficiency in the RGS10 protein facilitates chemoresistant ovarian cancer. Future Med Chem, 7 (12): 1483-9. [PMID:26293348]
5. Kan Z, Jaiswal BS, Stinson J, Janakiraman V, Bhatt D, Stern HM, Yue P, Haverty PM, Bourgon R, Zheng J, Moorhead M, Chaudhuri S, Tomsho LP, Peters BA, Pujara K, Cordes S, Davis DP, Carlton VE, Yuan W, Li L, Wang W, Eigenbrot C, Kaminker JS, Eberhard DA, Waring P, Schuster SC, Modrusan Z, Zhang Z, Stokoe D, de Sauvage FJ, Faham M, Seshagiri S. (2010) Diverse somatic mutation patterns and pathway alterations in human cancers. Nature, 466 (7308): 869-73. [PMID:20668451]
6. O'Hayre M, Vázquez-Prado J, Kufareva I, Stawiski EW, Handel TM, Seshagiri S, Gutkind JS. (2013) The emerging mutational landscape of G proteins and G-protein-coupled receptors in cancer. Nat Rev Cancer, 13 (6): 412-24. [PMID:23640210]