Research progress of circular RNA in drug resistance of liver cancer / 中国药理学通报

Circular RNAs are novel non-coding RNAs with multiple biological functions, which can participate in biological processes such as the occurrence, development, invasion, and metastasis of liver cancer, as well as drug resistance of liver cancer. This article reviews the roles and mechanisms of circR-NAs in chemotherapy resistance, targeted therapy resistance and immunotherapy resistance in liver cancer, in order to provide new ideas for solving liver cancer resistance.

Pharmacological effects of anti-melanoma DC vaccine sensitized by fusion proteins of G3G6 and HST1 / 中国药科大学学报

@#This study aimed to investigate the effects of fusion proteins GnRH-GRP(G3G6)and HSP65-STEAP1(HST1)on dendritic cells(DC)and the sensitization of DCs to B16F10 melanoma. The fusion proteins G3G6 and HST1 were obtained using the previous engineering strains in our laboratory. Group by unsensitized DC(US-DC), the G3G6 fusion protein sensitized DC, the HST1 fusion protein sensitized DC(HST1-DC)and the combined sensitized DC(GH-DC), the mouse bone marrow-derived DCs were sensitized with fusion protein to obtain the fusion protein sensitized DC vaccines. B16F10 melanoma cells were transplanted into C57BL/6J male mice to construct a melanoma model(1×106 cells per mouse), and DC vaccine was injected for treatment. The antitumor efficacy of DC vaccine was explored by in vitro and in vivo experiments. Flow cytometry analysis showed that the fusion protein can effectively stimulate DC into differentiation and maturation; in the animal experiment, the inhibition rate of melanoma treated with G3G6-DC was 35. 75%, that of HST1-DC group and combination group were 34. 03% and 55. 74%. It was initially proved that both G3G6-DC and HST1-DC can effectively inhibit the growth of transplanted tumors of melanoma B16F10 cells in mice, and the combination therapy is superior to the single therapy.

Predictive Value of Tumor Mutation Burden in Immunotherapy for Lung Cancer / 中国肺癌杂志

The morbidity and mortality of lung cancer is the first in the world, immunotherapy has become a important treatment strategy in addition to chemotherapy, radiotherapy and targeted therapy. In recent years, the US Food and Drug Administration (FDA) has successively approved immunological checkpoint inhibitors as standard programs for non-small cell lung cancer (NSCLC) in second-line or first-line treatment. The National Comprehensive Cancer Network (NCCN) also recommends immunological checkpoint inhibitors as the standard treatment for small cell lung cancer (SCLC). Now, the treatment for lung cancer has entered the era of precision treatment, it is very important to select effective and reliable biomarker for the dominant populations of lung cancer to receive immunotherapy. A large number of researchs indicated that tumor mutation burden (TMB) may be an independent predicted biomarker for immunotherapy, but with limitations. This article reviewed the predictive value of TMB and its limitations in the field of immunotherapy for lung cancer.