A novel mode of inhibiting SRC improves drug efficacy and tolerability
Despite the approval of several multikinase inhibitors that target SRC and the overwhelming evidence of the role of SRC in the progression and resistance mechanisms of many solid malignancies, inhibition of its kinase activity has thus far failed to improve patient outcomes. Here we report the small...
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| Veröffentlicht in: | Cancer research (Chicago, Ill.) Ill.), 2021-08, Vol.81 (21), p.5438-5450 |
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| creator | Temps, Carolin Lietha, Daniel Webb, Emily R. Li, Xue-Feng Dawson, John C. Muir, Morwenna Macleod, Kenneth G. Valero, Teresa Munro, Alison F. Contreras-Montoya, Rafael Luque-Ortega, Juan R. Fraser, Craig Beetham, Henry Schoenherr, Christina Lopalco, Maria Arends, Mark J. Frame, Margaret C. Qian, Bin-Zhi Brunton, Valerie G. Carragher, Neil O. Unciti-Broceta, Asier |
| description | Despite the approval of several multikinase inhibitors that target SRC and the overwhelming evidence of the role of SRC in the progression and resistance mechanisms of many solid malignancies, inhibition of its kinase activity has thus far failed to improve patient outcomes. Here we report the small molecule eCF506 locks SRC in its native inactive conformation, thereby inhibiting both enzymatic and scaffolding functions that prevent phosphorylation and complex formation with its partner FAK. This unprecedented mechanism of action resulted in highly potent and selective pathway inhibition, in culture and
in vivo
. Treatment with eCF506 resulted in increased antitumor efficacy and tolerability in syngeneic murine cancer models, demonstrating significant therapeutic advantages over existing SRC/ABL inhibitors. Therefore, this novel mode of inhibiting SRC could lead to improved treatment of SRC-associated disorders. |
| doi_str_mv | 10.1158/0008-5472.CAN-21-0613 |
| format | Article |
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in vivo
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in vivo
. Treatment with eCF506 resulted in increased antitumor efficacy and tolerability in syngeneic murine cancer models, demonstrating significant therapeutic advantages over existing SRC/ABL inhibitors. 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Here we report the small molecule eCF506 locks SRC in its native inactive conformation, thereby inhibiting both enzymatic and scaffolding functions that prevent phosphorylation and complex formation with its partner FAK. This unprecedented mechanism of action resulted in highly potent and selective pathway inhibition, in culture and
in vivo
. Treatment with eCF506 resulted in increased antitumor efficacy and tolerability in syngeneic murine cancer models, demonstrating significant therapeutic advantages over existing SRC/ABL inhibitors. Therefore, this novel mode of inhibiting SRC could lead to improved treatment of SRC-associated disorders.</abstract><pmid>34417202</pmid><doi>10.1158/0008-5472.CAN-21-0613</doi></addata></record> |
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| title | A novel mode of inhibiting SRC improves drug efficacy and tolerability |
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