Abstract 878
Background
IGF-1R, a member of the tyrosine receptor family, is well documented in various experimental models to be an important factor in cell transformation, tumor progression, protection from apoptosis and metastasis. In the absence of IGF-1R, most oncogenes are unable to induce malignant transformation, suggesting that some signaling pathways activated by IGF-1R are essential for transformation. We have recently demonstrated that β-arrestin1 (β-arr1), a key regulator of G Protein Coupled Receptor (GPCR), is involved in IGF-1R signaling. Upon ligand binding, β-arr1 brings Mdm2, an E3 ubiquitin ligase, to the IGF-1R resulting in receptor ubiquitination. β-arr1 also functions as a scaffold to activate the MAPK pathway like GPCR. This study aims to investigate whether the β-arr1 mediated signal of IGF-1R is necessary for malignant transformation.
Methods
Mouse embryonic fibroblasts (MEFs) and a bladder cancer cell line, T24 cells were used as target cells. β-arr1 knockdown was performed by siRNA transfection. Activation of MAPK and PI-3K pathways was analysed by western blot. Cell proliferation was evaluated by PrestoBlue assay. Cellular transformation was estimated by colony formation assay in soft agar.
Results
To investigate whether β-arr1 is important for transformation, we stably transfected WT MEF and β-arr1 deficient MEFs with some oncogenes such as HRasV12, PvMT, and vSrc. In the absence of β-arr1, HRasV12 was not able to induce malignant transformation. Similar sensitivity to absence of β-arrestin1 was not observed with PyMT or vSrc. β-arr1 regulates IGF-1-induced activation of the MAPK and PI-3K pathways, both pathways being less active in the absence of β-arr1. These data suggested that β-arr1 is involved in Ras-mediated malignant transformation. In T24 cells with the same mutation in HRas, β-arr1 knockdown attenuate IGF-1 induced MAPK and PI-3K pathways like MEFs. Consistent with less activation of the downstream, IGF-1 induced cell proliferation and colony formation are decreased in β-arr1 knockdown cells, indicating that β-arr1 is required for malignant phenotypes in T24 cells.
Conclusions
These data suggest that β-arr1-dependent signaling by the IGF-1R regulates mechanisms involved in malignant transformation and progression of cancer cells.
Clinical trial identification
Editorial acknowledgement
Legal entity responsible for the study
Karolinska institutes, Department of Oncology-Pathology, Leonard Girnita’s group.
Funding
Swedish Research Council, Swedish Cancer Society, The Swedish Childhood Cancer Foundation.
Disclosure
All authors have declared no conflicts of interest.
Resources from the same session
5939 - Matrix metalloproteinases and their tissue inhibitors genes abnormal DNA methylation in breast cancer
Presenter: Olga Simonova
Session: Poster Display session 1
Resources:
Abstract
2703 - Uveal melanoma cell lines depend on multiple signaling pathways for survival
Presenter: John Park
Session: Poster Display session 1
Resources:
Abstract
4849 - XAF1 and ZNF313 complex stimulates ER stress-induced apoptosis via direct GRP78 inhibition.
Presenter: Sungchan Jang
Session: Poster Display session 1
Resources:
Abstract
4801 - XAF1 assembles a destructive complex to induce BRCA1-mediated apoptosis via suppressing ERa and switching estrogen function
Presenter: Seung-hun Jang
Session: Poster Display session 1
Resources:
Abstract
3416 - Cancer associated fibroblasts promote cancer progression via Wnt2 secretion in colorectal cancer
Presenter: Hideaki Karasawa
Session: Poster Display session 1
Resources:
Abstract
4273 - Paired-related homeobox 1 overexpression promotes invasion and metastasis and is a prognostic factor for worse disease-free survival in patients with lung cancer
Presenter: Jung-jyh Hung
Session: Poster Display session 1
Resources:
Abstract
4241 - LncRNA-GC1 contributes to gastric cancer chemo-resistance through inhibition of miR-551b-3p and the overexpression of dysbindin
Presenter: Xin Guo
Session: Poster Display session 1
Resources:
Abstract
5388 - GLPG 1790, a new selective EPHA2 inhibitor, is active in colorectal cancer cell lines belonging to the CMS4/mesenchymal-like subtype
Presenter: Pietro Paolo Vitiello
Session: Poster Display session 1
Resources:
Abstract
5208 - Characterisation of growth hormone signal transduction in primary melanoma cell lines
Presenter: Karla Sousa
Session: Poster Display session 1
Resources:
Abstract
3156 - LAPTM5 protein can regulate TGF-β mediated MAPK and Smad signaling pathways in ovarian cancer cell
Presenter: Yan Gao
Session: Poster Display session 1
Resources:
Abstract