AI Article Synopsis
- Patient-derived xenografts (PDXs) offer a valuable approach to study breast cancer (BC) by mimicking real tumor environments and systemic effects, which in vitro models cannot achieve.
- A new method for orthotopic implantation of BC PDXs in immunodeficient mice eliminates the need for anesthesia, is less invasive, and allows for faster and scalable tumor model development.
- The validation process of the tumors includes assessing receptor status, confirming morphology, and verifying genetic similarity to patient samples, facilitating robust research across different BC subtypes.
Article Abstract
Patient-derived xenografts (PDXs) provide a clinically relevant method for recapitulating tumor-involved cell types and the tumor microenvironment, which is essential for advancing knowledge of breast cancer (BC). Additionally, PDX models enable the study of BC systemic effects, which is not possible using in vitro models. Traditional methods for implanting BC xenografts typically involve anesthesia and sterile surgical procedures, which are time-consuming, invasive, and limit the scalability of PDX models in BC research. This protocol describes a simple and scalable method for the orthotopic implantation of BC PDXs in mice. The immunodeficient mouse strain NOD.Cg-PrkdcIl2rg/SzJ (NSG) was used for PDX engraftment. Human BC samples obtained from IRB-consented patients were mechanically and enzymatically dissociated, then resuspended in a solution of basement membrane extract (BME) and RPMI 1640. Animals were restrained by scruffing, and depilatory cream was applied to remove hair from the fat pads at the fourth inguinal nipple, followed by injection. Approximately 2 million cells in a 100 µL suspension were bilaterally injected orthotopically into the mammary fat pads using a 26 G needle. Notably, no anesthetic was required, and the total procedure time was under 5 min, from cell preparation to injection. After a growth period of several months, tumors were excised and processed for authentication. Validation included receptor status assessment using immunohistochemistry with specific antibodies for traditional BC receptors (i.e., ER, PR, HER2). Tumor morphology was confirmed with hematoxylin and eosin (H&E) staining, which was interpreted by a pathologist. Genetic similarity to the patient sample was verified through bulk RNA sequencing and short tandem repeat (STR) analysis. This approach to PDX engraftment and validation supports the rigorous development of models and high-throughput tumor implantation, enabling well-powered studies across various BC subtypes.
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Article Synopsis
- Patient-derived xenografts (PDXs) offer a valuable approach to study breast cancer (BC) by mimicking real tumor environments and systemic effects, which in vitro models cannot achieve.
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