Author
Listed:
- Rachel K. Zwick
(Yale University)
- Michael C. Rudolph
(University of Colorado)
- Brett A. Shook
(Yale University)
- Brandon Holtrup
(Yale University)
- Eve Roth
(Yale University)
- Vivian Lei
(Yale University)
- Alexandra Keymeulen
(Université Libre de Bruxelles (ULB))
- Victoria Seewaldt
(City of Hope)
- Stephanie Kwei
(Yale University)
- John Wysolmerski
(Yale University)
- Matthew S. Rodeheffer
(Yale University
Yale University)
- Valerie Horsley
(Yale University
Yale University)
Abstract
Adipocytes undergo pronounced changes in size and behavior to support diverse tissue functions, but the mechanisms that control these changes are not well understood. Mammary gland-associated white adipose tissue (mgWAT) regresses in support of milk fat production during lactation and expands during the subsequent involution of milk-producing epithelial cells, providing one of the most marked physiological examples of adipose growth. We examined cellular mechanisms and functional implications of adipocyte and lipid dynamics in the mouse mammary gland (MG). Using in vivo analysis of adipocyte precursors and genetic tracing of mature adipocytes, we find mature adipocyte hypertrophy to be a primary mechanism of mgWAT expansion during involution. Lipid tracking and lipidomics demonstrate that adipocytes fill with epithelial-derived milk lipid. Furthermore, ablation of mgWAT during involution reveals an essential role for adipocytes in milk trafficking from, and proper restructuring of, the mammary epithelium. This work advances our understanding of MG remodeling and tissue-specific roles for adipocytes.
Suggested Citation
Rachel K. Zwick & Michael C. Rudolph & Brett A. Shook & Brandon Holtrup & Eve Roth & Vivian Lei & Alexandra Keymeulen & Victoria Seewaldt & Stephanie Kwei & John Wysolmerski & Matthew S. Rodeheffer & , 2018.
"Adipocyte hypertrophy and lipid dynamics underlie mammary gland remodeling after lactation,"
Nature Communications, Nature, vol. 9(1), pages 1-17, December.
Handle:
RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-05911-0
DOI: 10.1038/s41467-018-05911-0
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