Analyses of tumor-suppressor genes in germline mouse models of cancer.

Tumor suppressor genes are critical regulators of growth and functioning of cells, whose loss of function contributes to tumorigenesis. Accordingly, analyses of the consequences of their loss of function in genetically engineered mouse models have provided important insights into mechanisms of human cancer, as well as resources for preclinical analyses and biomarker discovery. Nowadays, most investigations of genetically engineered mouse models of tumor suppressor function use conditional or inducible alleles, which enable analyses in specific cancer (tissue) types and overcome the consequences of embryonic lethality of germline loss of function of essential tumor suppressor genes. However, historically, analyses of genetically-engineered mouse models based on germ-line loss of function of tumor suppressor genes were very important as these early studies established the principal that loss of function could be studied in mouse cancer models and also enabled analyses of these essential genes in an organismal context. Although the cancer phenotypes of these early germline models did not always recapitulate the expected phenotypes in human cancer, these models provided the essential foundation for the more sophisticated conditional and inducible models that are currently in use (see Chapters XXX) Here, we describe these “first generation” germline models of loss of function models, focusing on the important lessons learned from their analyses, which helped in the design and analyses of “next generation” genetically-engineered mouse models.