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The development of inhibitors for the tyrosine anaplastic lymphoma kinase(ALK) has advanced rapidly, driven by biology and medicinal chemistry. The first generation ALK inhibitor crizotinib was granted US FDA approval with only four years of preclinical and clinical testing. Although this drug offers significant clinical benefit to the ALK-positive patients, resistance has been developed through a variety of mechanisms. In addition to ceritinib, alectinib is another second-generation ALK inhibitor launched in 2014 in Japan. This drug has a unique chemical structure bearing a 5H-benzo[b]carbazol-11(6H)-one structural scaffold with an IC_(50) value of 1.9 nmol/L, and is highly potent against ALK bearing the gatekeeper mutation L1196 M with an IC_(50) of 1.56 nmol/L. In the clinic, alectinib is highly efficacious in treatment of ALK-positive non-small cell lung cancer(NSCLC), and retains potency to combat crizotinib-resistant ALK mutations L1196 M, F1174 L, R1275 Q and C1156 Y.
The development of inhibitors for the tyrosine anaplastic lymphoma kinase (ALK) has advanced rapidly, driven by biology and medicinal chemistry. The first generation ALK inhibitor crizotinib was granted US FDA approval with only four years of preclinical and clinical testing. clinical benefit to the ALK-positive patients, resistance has been developed through a variety of mechanisms. In addition to ceritinib, alectinib is another second-generation ALK inhibitor launched in 2014 in Japan. This drug has a unique chemical structure bearing a 5H-benzo The carbazol-11 (6H) -one structural scaffold with an IC 50 value of 1.9 nmol / L, and is highly potent against ALK bearing the gatekeeper mutation L1196 M with an IC 50 of 1.56 nmol / L. In the clinic, alectinib is highly efficacious in treatment of ALK-positive non-small cell lung cancer (NSCLC), and retains potency to combat crizotinib-resistant ALK mutations L1196 M, F1174 L, R1275 Q and C1156 Y.