Frontiers in Oncology (Jan 2023)

Separate and combined effects of advanced age and obesity on mammary adipose inflammation, immunosuppression and tumor progression in mouse models of triple negative breast cancer

  • Laura A. Smith,
  • Dalton M. Craven,
  • Magdalena A. Rainey,
  • Alyssa J. Cozzo,
  • Meredith S. Carson,
  • Elaine M. Glenny,
  • Nishita Sheth,
  • Shannon B. McDonell,
  • Erika T. Rezeli,
  • Stephanie A. Montgomery,
  • Laura W. Bowers,
  • Michael F. Coleman,
  • Stephen D. Hursting,
  • Stephen D. Hursting,
  • Stephen D. Hursting

DOI
https://doi.org/10.3389/fonc.2022.1031174
Journal volume & issue
Vol. 12

Abstract

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IntroductionAdvanced age and obesity are independent risk and progression factors for triple negative breast cancer (TNBC), which presents significant public health concerns for the aging population and its increasing burden of obesity. Due to parallels between advanced age- and obesityrelated biology, particularly adipose inflammation, we hypothesized that advanced age and obesity each accelerate mammary tumor growth through convergent, and likely interactive, mechanisms.MethodsTo test this hypothesis, we orthotopically transplanted murine syngeneic TNBC cells into the mammary glands of young normoweight control (7 months), young diet-induced obese (DIO), aged normoweight control (17 months), and aged DIO female C57BL/6J mice.ResultsHere we report accelerated tumor growth in aged control and young DIO mice, compared with young controls. Transcriptional analyses revealed, with a few exceptions, overlapping patterns of mammary tumor inflammation and tumor immunosuppression in aged control mice and young DIO mice, relative to young controls. Moreover, aged control and young DIO tumors, compared with young controls, had reduced abundance ofcytotoxic CD8 T cells. Finally, DIO in advanced age exacerbated mammary tumor growth, inflammation and tumor immunosuppression.DiscussionThese findings demonstrate commonalities in the mechanisms driving TNBC in aged and obese mice, relative to young normoweight controls. Moreover, we found that advanced age and DIO interact to accelerate mammary tumor progression. Given the US population is getting older and more obese, age- and obesity-related biological differences will need to be considered when developing mechanism-based strategies for preventing or controlling breast cancer.

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