ABSTRACT
As an important tumor driver gene, epidermal growth factor receptor (EGFR) gene plays an important role in the development and progression of non-small cell lung cancer (NSCLC). As the latest generation of EGFR-tyrosine kinase inhibitor (TKI) drugs, osimertinib has brought significant therapeutic efficacies and encouraging results both in patients with sensitive EGFR mutations and patients with rare EGFR mutations. Compared with previous EGFR-TKI drugs, osimertinib has strong blood-brain barrier penetration, which can effectively prevent the occurrence of lung cancer brain metastasis. After the resistance of first and second generation of targeted drugs, osimertinib is still effective in the follow-up treatment process. This article reviews the characteristics of EGFR mutation, the action mechanism of osimertinib, and the latest progress of osimertinib in treatment of EGFR mutations in NSCLC.
ABSTRACT
Objective:To screen new drugs for treatment of phenylalanine hydroxylase deficiency.Methods:From October 2019 to October 2020, virtual drug screening was performed in Center of Genetic Medicine, Nanjing Maternity and Child Health Care Hospital, Women's Hospital of Nanjing Medical University computer according to the characteristics of the binding ability of phenylalanine hydroxylase to drug spatial structure. Ten candidate drugs were screened from the FDA drug library (including 2 697 kinds of active pharmaceutical ingredients). A eukaryotic expression system was used to determine the effects of drugs on the activity of phenylalanine hydroxylase at the molecular level. Drug-sensitive mutants were screened.Results:Among the 10 candidate drugs, neoplasm hydrochloride, fluocinonide acetate and risperidone increased 23% [ t = 18.21, P < 0.001, vs. non-drug-treated phenylalanine hydroxylase group (i.e., only solvent and no drug added to the reaction system)], 21% ( t = 3.44, P < 0.05, vs. non-drug-treated phenylalanine hydroxylase group), 31% ( t = 19.57, P < 0.001, vs. non-drug-treated phenylalanine hydroxylase group) of the activity of phenylalanine hydroxylase. The remaining drugs exhibited weak even inhibitory effects on the activity of phenylalanine hydroxylase. 25% of p.D101N mutant could be activated by risperidone ( t = 15.86, P < 0.001, vs. non-drug-treated p.D101N mutant group). Conclusion:Neoplasm hydrochloride, fluocinonide acetate and risperidone can be used as potential therapeutic drugs for phenylalanine hydroxylase deficiency, and p.D101N mutant can be used as the drug-sensitive mutation site.
ABSTRACT
Precise medicine is an emerging clinical therapeutic concept based on genomic and genetic information of patients. Epidermal growth factor receptor tyrosine kinase inhibitors (EGFR-TKIs) is an important component of precise therapy for lung cancer patients. EGFR mutations occur mainly in exon 18 to 21, in which exon 19 deletion and exon 21 L858R point mutation that are known as sensitive mutations account for nearly 45% and 40%, respectively. Except for the above two mutations and T790M point mutation, the rest are rare mutations, including Ins19, Ins20, E709, G719, S768, L861 and some compound mutations. Some previous retrospective studies of small sample size and case reports showed that most of EGFR exon19 (Ins), exon 21 (L861), exon 18 (G719X) and exon20 (S768I) mutations were sensitive to TKIs. And although the exon 20 insertion mutation is usually predicted to the first and second generations of EGFR-TKIs resistance, some specific types are sensitive to the third generation of EGFR-TKIs. Currently, targeted drugs for Ins20 -Ap32788 mutation has entered into clinical trials. Patients with complex mutations have similar efficacy on EGFR-TKIs in comparison with those with single sensitivity mutations. In conclusion, when patients with rare sensitive mutations received EGFR-TKIs therapy, the efficacy and progression-free survival time is similar to or slightly lower than those with classical sensitive mutations, whereas it is higher than those with wild-type EGFR. Compared with the first generation of EGFR-TKIs, second generation EGFR-TKIs may be more suitable for the treatment of lung cancer patients harboring rare sensitive EGFR mutations.