High Clinical Concordance of Drug Resistance in Patient-derived Orthotopic Xenograft (PDOX) Mouse Models: First Step to Validated Precise Individualized Cancer Chemotherapy.

Abstract

Finding an effective drug for individual cancer patients among the many chemotherapies available and ruling out ineffective drugs are important challenges, especially for patients with advanced cancer. To accomplish this goal, we have pioneered and developed the patient-derived orthotopic xenograft (PDOX) nude mouse model for all cancer types, enabling the discovery and evaluation of novel therapeutics, as well as individualized therapy of patients with cancer. PDOX models can more precisely reproduce the original tumor microenvironment (TME) compared to subcutaneous-implanted xenografts including patient-derived xenograft (PDX) models. The present review presents the concordance of drug resistance in individual cancer patients and their PDOX models. There are 28 PDOX publications with 12 PDOX models from patients who were treated with chemotherapy. Sixteen chemotherapeutics were administrated to these patients and all of them were clinically ineffective. In PDOX models established from these patients' tumors, fourteen chemotherapeutics were resistant with a concordance rate of 88%. PDOX models should be established as early as possible from patients to predict and improve outcome. PDOX models mimic the clinical tumor aggressiveness, therefore enabling a high concordance with clinical outcomes. The present review shows a high concordance for drug resistance between cancer patients and their corresponding PDOX models. Future studies will include prospective clinical trials comparing both drug efficacy and resistance in patients and their PDOX models.