Objective:To establish a patient-derived tumor xenograft (PDX) model of primary liver cancer (PLC), and to analyze the pathological features, proliferation and drug-related gene mutation characteristics of the primary tumor and the PDX model of primary liver cancer.Methods:A retrospective analysis was conducted on the tumor samples of 64 PLC patients who underwent hepatectomy in the Department of Hepatobiliary Surgery of Tianjin First Central Hospital from January 2019 to December 2020. Among them, there were 46 males and 18 females, with an average age of (60.7±9.4) years. The degree of tumor differentiation and whether there was vascular invasion were recorded. The pathology of the primary tumor and each generation of PDX models was observed. Immunohistochemical staining was used to detect the characteristic proteins and proliferation-related protein of PLC. The genes related to drug use in PLC PDX models were analyzed in the primary tumor.Results:Among the tumor tissues of 64 PLC patients, 31 cases (48.4%) were successfully transplanted into nude mice and passaged to subsequent generations. In the primary tumor tissues and PDX models of hepatocellular carcinoma (HCC), the cancer nodules were clearly distinguishable, the cancer cells were arranged disorderly, and distributed in nests or cords. The tumor cell nuclei were large and deeply stained. In the primary tumor tissues and each generation of PDX models of intrahepatic cholangiocarcinoma (ICC), there were ICC adenocarcinoma-like structures, with well-differentiated tumor glands and glandular structures composed of cuboidal or columnar tumor cells, presenting as small individual glands or interwoven glands. The degree of differentiation of the PDX models of HCC and ICC patients was basically consistent with that of the primary tumors. Immunohistochemistry showed that proliferating cell nuclear antigen staining of the primary tumors and PDX model transplanted tumors of HCC and ICC patients was strongly positive. The Ki-67 staining positive rate of the primary tumors and PDX model transplanted tumors of HCC was > 80%, and that of ICC was > 70%. Alpha-fetoprotein was strongly positive in the primary tumors and PDX model transplanted tumors of HCC and ICC. The common mutations of transplanted tumors and the primary tumors of P24 HCC patients were 90%, and those of P43 ICC patients were 89%, 94%, and 94%, respectively.Conclusion:The constructed PDX model is highly consistent with the biological characteristics of the primary tumor.

Objective:To establish a patient-derived tumor xenograft (PDX) model of primary liver cancer (PLC), and to analyze the pathological features, proliferation and drug-related gene mutation characteristics of the primary tumor and the PDX model of primary liver cancer.Methods:A retrospective analysis was conducted on the tumor samples of 64 PLC patients who underwent hepatectomy in the Department of Hepatobiliary Surgery of Tianjin First Central Hospital from January 2019 to December 2020. Among them, there were 46 males and 18 females, with an average age of (60.7±9.4) years. The degree of tumor differentiation and whether there was vascular invasion were recorded. The pathology of the primary tumor and each generation of PDX models was observed. Immunohistochemical staining was used to detect the characteristic proteins and proliferation-related protein of PLC. The genes related to drug use in PLC PDX models were analyzed in the primary tumor.Results:Among the tumor tissues of 64 PLC patients, 31 cases (48.4%) were successfully transplanted into nude mice and passaged to subsequent generations. In the primary tumor tissues and PDX models of hepatocellular carcinoma (HCC), the cancer nodules were clearly distinguishable, the cancer cells were arranged disorderly, and distributed in nests or cords. The tumor cell nuclei were large and deeply stained. In the primary tumor tissues and each generation of PDX models of intrahepatic cholangiocarcinoma (ICC), there were ICC adenocarcinoma-like structures, with well-differentiated tumor glands and glandular structures composed of cuboidal or columnar tumor cells, presenting as small individual glands or interwoven glands. The degree of differentiation of the PDX models of HCC and ICC patients was basically consistent with that of the primary tumors. Immunohistochemistry showed that proliferating cell nuclear antigen staining of the primary tumors and PDX model transplanted tumors of HCC and ICC patients was strongly positive. The Ki-67 staining positive rate of the primary tumors and PDX model transplanted tumors of HCC was > 80%, and that of ICC was > 70%. Alpha-fetoprotein was strongly positive in the primary tumors and PDX model transplanted tumors of HCC and ICC. The common mutations of transplanted tumors and the primary tumors of P24 HCC patients were 90%, and those of P43 ICC patients were 89%, 94%, and 94%, respectively.Conclusion:The constructed PDX model is highly consistent with the biological characteristics of the primary tumor.

Liver regenerative medicine can use functional liver cells to repair or replace damaged liver tissue and it is expected to be rapidly developed as an alternative treatment to liver transplantation. However, regenerative medicine requires cells with stable proliferation ability and liver cell characteristics. Liver organoids are derived from adult stem cells or pluripotent stem cells. They can be proliferated in large quantities and cultured for a long time in vitro, meanwhile maintain genetic stability, and simulate the structural and functional characteristics of organs in the body, providing a new strategy for liver regeneration. This article reviews liver organoids and their research progress in liver regenerative medicine, and discusses their application potential and existing limitations.

Cholangiocarcinoma (CCA) is a highly malignant biliary tumor with strong invasion and poor prognosis and is insensitive to radiotherapy and chemotherapy. Tumor-associated macrophage (TAM) is an important component of the tumor microenvironment. CCA cells recruit TAM into tumor tissue by releasing cytokines and polarize them into M2 TAM, which promotes the progression of CCA through various mechanisms such as assisting immune escape, promoting tumor cell proliferation, regulating angiogenesis, promoting tumor metastasis, and mediating immune resistance. As an emerging target of tumor immunotherapy, TAM provides new ideas for targeted therapy for CCA. This article reviews the mechanisms of TAM in promoting the progression of CCA and immunotherapy targeting TAM in recent years.

Objective:To establish the patient derived xenograft (PDX) model of liver malignant tumor, analyze the related factors affecting the carcinogenesis of PDX model, and analyze the differences of biological characteristics between the primary tumor and PDX model.Methods:Fresh liver malignant tumor tissue samples were collected from the patients who received the surgery from the Tianjin First Central Hospital and the samples were inoculated subcutaneously into BALB/c-nu mice. The correlations between clinicopathological information and tumor formation rate were analyzed, and the pathological morphology and specific protein expression of PDX model and primary tumor were compared.Results:Thirty-three PDX models were successfully established from 63 cases of liver malignant tumors. The overall tumor formation rate was 52.4% (33/63), including 46.3% (25/54) of primary liver cancer and 88.9% (8/9) of liver metastasis. The main factors affecting the tumor formation rate were tumor pathological type, distant metastasis and TNM stage (all P<0.05). The pathological morphology and specific protein expression of PDX model and primary tumor were similar. Conclusion:The PDX model of liver malignant tumor was successfully constructed, and the tumor formation rate was high, and can maintain the biological characteristics of the primary tumor.