Comparison of B-NDG and BALB/c mouse models bearing patient-derived xenografts of esophageal squamous cell carcinoma / 南方医科大学学报

OBJECTIVE@#To investigate the difference of tumor formation in different mouse strains bearing patient-derived xenograft of esophageal squamous cell carcinoma(ESCC) and establish a better animal model for preclinical study of individualized treatment of ESCC.@*METHODS@#The tumor tissues collected from 22 ESCC patients were used to establish tumor-bearing mouse models in B-NDG (NSG) mice and BALB/c nude mice. The tumor formation rate and tumor formation time were compared between the two mouse models, and HE staining, immunohistochemistry and genome sequencing were carried out to assess the consistency between transplanted tumor tissues in the models and patient-derived tumor tissues.@*RESULTS@#The tumor-bearing models were established successfully in both NSG mice (50%, 11/22) and BALB/c nude mice (18.18%, 4/22). The average tumor formation time was significantly shorter in NSG mice than in BALB/c nude mice (75.95 91.67 days, < 0.001). In both of the mouse models, the transplanted tumors maintained morphological characteristics identical to those of patient-derived ESCC tumors. Genetic analysis showed that the xenografts in NSG mice had a greater genetic similarity to the patients' tumors than those in BALB/c nude mice ( < 0.0001).@*CONCLUSIONS@#Mouse models bearing xenografts of patient-derived ESCC can be successfully established in both NSG mice and BALB/c nude mice, but the models in the former mouse strain can be more reliable.

Establishment of a lung cancer mouse model with humanized immunity and its role in efficacy evaluation of programmed death-1 inhibitors / 上海交通大学学报（医学版）

Objective:To establish a lung cancer mouse model with humanized peripheral blood mononuclear cells (PBMC) expressing programmed death-ligand 1 (PD-L1), and study the role of the model in evaluating the efficacy of programmed death-1 (PD-1) inhibitors. Methods:Fresh biopsy tissue samples or tumor cells in malignant pleural effusion from the patients with advanced non-small cell lung cancer were inoculated subcutaneously in CB17-SCID mice to establish patient-derived xenograft (PDX) models. The expression of PD-L1 in PDX models was detected by immunohistochemistry. The mature human PBMC and PDX model tumor cells were mixed and then inoculated into NCG mice to establish a PDX model of lung cancer with humanized immunity, on which the efficacy of PD-1 inhibitor was verified. Results:Among the PDX models established by 16 clinical samples, 2 were strongly positive for PD-L1, 4 were positive, and the rest were negative. In the PDX model with strongly positive PD-L1, the tumor growth inhibition rate of cindilimab, an inhibitor of PD-1, was 82.6%, 21 days after the initial administration; in the PDX model with negative PD-L1, the inhibitor of PD-1 showed no antitumor activity. Conclusion:A PD-L1-expressing lung cancer mouse model with humanized immunity is successfully established and the efficacy of PD-1 inhibitor can be evaluated on the model.

Advances in the mouse models of myeloid leukemia / 生物医学工程学杂志

Mouse animal models are the most commonly used experimental tools in scientific research, which have been widely favored by researchers. The animal model of mouse leukemia appeared in the 1930s. During the past 90 years, researchers have developed various types of mouse leukemia models to simulate the development and treatment of human leukemia in order to promote effectively the elucidation of the molecular mechanism of leukemia' development and progression, as well as the development of targeted drugs for the treatment of leukemia. Considering that to myeloid leukemia, especially acute myeloid leukemia, there currently is no good clinical treatment, it is urgent to clarify its new molecular mechanism and develop new therapeutic targets. This review focuses on the various types of mouse models about myeloid leukemia used commonly in recent years, including mouse strains, myeloid leukemia cell types, and modeling methods, which are expected to provide a reference for relevant researchers to select animal models during myeloid leukemia research.

Establishment of patient derived xenograft model of high-grade mucinous carcinoma peritonei accompanied with signet ring cells and identification of biological characteristics / 中华肿瘤杂志

Objective@#To establish the patient derived xenograft (PDX) model of pseudomyxoma peritonei (PMP), and identify the key characteristics of tumor biology of this model, in order to provide a reliable model for studying the pathological mechanisms and new therapeutic strategies of PMP.@*Methods@#PMP tumor tissue was obtained from surgery and cut into pieces after washing. Then tumor pieces were implanted subcutaneously in BAL B/c-nu mice for 6 stable passages. In the 7th passage, tumor tissue was implanted orthotopically into abdomen. Subcutaneous tumor and orthotopic tumor were then homogenized to make tumor cell suspension, implanted into abdomen of 10 BAL B/c-nu mice through midline laparotomy, 100 μl for each. The key experimental parameters including body weight changes in the observation period, experimental peritoneal cancer index (ePCI) score at the autopsy, histopathological and immunohistochemical characteristics, and gene expression profiles by high-throughput whole-genome exon sequencing were detected and recorded.@*Results@#The successful rate of established orthotopic PDX model of human PMP was 100% (10/10). The animals showed smooth body weight increases after tumor inoculation until day 27, then the body weight began to decrease steadily. Widespread tumor dissemination of PMP tumor through the whole abdomen was found by autopsy, including the diaphragm, liver, spleen, stomach, kidney, parietal peritoneum, bowel and mesenterium. Gelatinous ascites was also observed in abdominopelvic cavity. The ePCI score ranged from 5 to 9, with a 8 of median ePCI. Histopathological studies showed peritoneal mucinous carcinomatosis accompanied with signet ring cells (PMCA-S), obvious tumor cell atypia and parenchymal invasion.Immunohistochemistry showed the expressions of MUC1, MUC2, MUC5AC, CEA, CA199, CK20, CDX-2 and Ki-67 were positive, MUC6, CK7 and p53 were negative. Whole-exome sequencing identified that the most significant genetic alteration is the exon10 missense mutation c. 1621A>C of KIT gene, the mutation abundance was 89.7%.@*Conclusion@#PDX model of PMCA-S is successfully established, which displays the characters of high-degree malignancy, high proliferation and strong aggressiveness.

Patient-Derived Xenograft Models of Epithelial Ovarian Cancer for Preclinical Studies / Journal of the Korean Cancer Association, 대한암학회지

PURPOSE: Patient-derived tumor xenografts (PDXs) can provide more reliable information about tumor biology than cell line models. We developed PDXs for epithelial ovarian cancer (EOC) that have histopathologic and genetic similarities to the primary patient tissues and evaluated their potential for use as a platform for translational EOC research. MATERIALS AND METHODS: We successfully established PDXs by subrenal capsule implantation of primary EOC tissues into female BALB/C-nude mice. The rate of successful PDX engraftment was 48.8% (22/45 cases). Hematoxylin and eosin staining and short tandem repeat analysis showed histopathological and genetic similarity between the PDX and primary patient tissues. RESULTS: Patients whose tumors were successfully engrafted in mice had significantly inferior overall survival when compared with those whose tumors failed to engraft (p=0.040). In preclinical tests of this model, we found that paclitaxel-carboplatin combination chemotherapy significantly deceased tumor weight in PDXs compared with the control treatment (p=0.013). Moreover, erlotinib treatment significantly decreased tumor weight in epidermal growth factor receptor–overexpressing PDX with clear cell histology (p=0.023). CONCLUSION: PDXs for EOC with histopathological and genetic stability can be efficiently developed by subrenal capsule implantation and have the potential to provide a promising platform for future translational research and precision medicine for EOC.