AI Article Synopsis
- IGF1 is a key target in cancer therapy, and it binds to specific integrins, leading to important signaling through a ternary complex with IGF1R.
- A mutant form of IGF1 (R36E/R37E) that cannot bind to integrins inhibits normal signaling and competes with wild-type IGF1, reducing its effects on cell viability, particularly in anchorage-independent conditions.
- In experiments, R36E/R37E was shown to suppress tumor growth in vivo while wild-type IGF1 promoted it, suggesting R36E/R37E acts as a negative regulator of IGF1 signaling and could have therapeutic potential in cancer treatment.
Article Abstract
Insulin-like growth factor-1 (IGF1) is a major therapeutic target for cancer. We recently reported that IGF1 directly binds to integrins (αvβ3 and α6β4) and induces ternary complex formation (integrin-IGF1-IGF1 receptor (IGF1R)) and that the integrin binding-defective mutant of IGF1 (R36E/R37E) is defective in signaling and ternary complex formation. These findings predict that R36E/R37E competes with WT IGF1 for binding to IGF1R and inhibits IGF signaling. Here, we described that excess R36E/R37E suppressed cell viability increased by WT IGF1 in vitro in non-transformed cells. We studied the effect of R36E/R37E on viability and tumorigenesis in cancer cell lines. We did not detect an effect of WT IGF1 or R36E/R37E in cancer cells under anchorage-dependent conditions. However, under anchorage-independent conditions, WT IGF1 enhanced cell viability and induced signals, whereas R36E/R37E did not. Notably, excess R36E/R37E suppressed cell viability and signaling induced by WT IGF1 under anchorage-independent conditions. Using cancer cells stably expressing WT IGF1 or R36E/R37E, we determined that R36E/R37E suppressed tumorigenesis in vivo, whereas WT IGF1 markedly enhanced it. R36E/R37E suppressed the binding of WT IGF1 to the cell surface and the subsequent ternary complex formation induced by WT IGF1. R36E/R37E suppressed activation of IGF1R by insulin. WT IGF1, but not R36E/R37E, induced ternary complex formation with the IGF1R/insulin receptor hybrid. These findings suggest that 1) IGF1 induces signals under anchorage-independent conditions and that 2) R36E/R37E acts as a dominant-negative inhibitor of IGF1R (IGF1 decoy). Our results are consistent with a model in which ternary complex formation is critical for IGF signaling.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3707660 | PMC |
| http://dx.doi.org/10.1074/jbc.M113.470872 | DOI Listing |
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