Ink4a / Arf tumor suppressor does not modulate the degenerative conditions or tumor spectrum of the telomerase-deficient mouse

Abstract

The Rb/p16 ^Ink4a and p53/p19Arf tumor suppressor pathways have been linked to diverse cancer-relevant processes, including those governing the cellular responses to telomere dysfunction. In this study, we sought to provide direct genetic evidence of a role for the Ink4a/Arf tumor suppressor gene, encoding both p16 ^Ink4a and p19 ^Arf , in modulating the cellular and tissue phenotypes associated with telomere dysfunction by using the mTerc Ink4a/Arf mouse model. In contrast to the rescue associated with p53 deficiency, Ink4a/Arf deficiency did not attenuate the degenerative phenotypes elicited by telomere dysfunction in the late-generation mTerc −/− mice. Furthermore, in contrast to accelerated cancer onset and increased epithelial cancers of late-generation mTerc −/− p53 mutant mice, late-generation mTerc −/− Ink4a/Arf mutant mice experienced a delayed tumor onset and maintained the lymphoma and sarcoma spectrum. Consistent with the negligible role of Ink4a/Arf in the telomere checkpoint response in vivo , late-generation mTerc −/− Ink4a/Arf −/− tissues show activated p53, and derivative tumor cell lines sustain frequent loss of p53 function, whereas all early generation mTerc Ink4a/Arf −/− tumor cell lines remain intact for p53. In addition, the late-generation mTerc −/− Ink4a/Arf −/− tumors showed activation of the alternative lengthening of telomere mechanism, underscoring the need for adaptation to the presence of telomere dysfunction in the absence of p16 ^Ink4a and p19 ^Arf . These observations highlight the importance of genetic context in dictating whether telomere dysfunction promotes or suppresses age-related degenerative conditions as well as the rate of initiation and type of spontaneous cancers.