Cellular and physiological circadian mechanisms drive diurnal cell proliferation and expansion of white adipose tissue

Aleix Ribas-Latre,Zhanguo Gao,Mikhail G Kolonin,Christopher Kwok,John T Heiker,Alaa M T Mohamed,Kai Sun,Kristin L Eckel-Mahan,Angielyn Rivera,Samay Shivshankar,Corrine Baumgartner,Baharan Fekry,Brad E Snyder,Rafael Bravo Santos,Yomna M Tamim,Claudia Gebhardt

doi:10.1038/s41467-021-23770-0

Abstract

Hyperplastic expansion of white adipose tissue (WAT) relies in part on the proliferation of adipocyte precursor cells residing in the stromal vascular cell fraction (SVF) of WAT. This study reveals a circadian clock- and feeding-induced diurnal pattern of cell proliferation in the SVF of visceral and subcutaneous WAT in vivo, with higher proliferation of visceral adipocyte progenitor cells subsequent to feeding in lean mice. Fasting or loss of rhythmic feeding eliminates this diurnal proliferation, while high fat feeding or genetic disruption of the molecular circadian clock modifies the temporal expression of proliferation genes and impinges on diurnal SVF proliferation in eWAT. Surprisingly, high fat diet reversal, sufficient to reverse elevated SVF proliferation in eWAT, was insufficient in restoring diurnal patterns of SVF proliferation, suggesting that high fat diet induces a sustained disruption of the adipose circadian clock. In conclusion, the circadian clock and feeding simultaneously impart dynamic, regulatory control of adipocyte progenitor proliferation, which may be a critical determinant of adipose tissue expansion and health over time.

Highlights

Hyperplastic expansion of white adipose tissue (WAT) relies in part on the proliferation of adipocyte precursor cells residing in the stromal vascular cell fraction (SVF) of WAT
Similar to other peripheral organs studied from a circadian context, adipocytes and adipose tissue are highly rhythmic in rodents and humans alike, with similar phase oscillations for the core clock components in brown adipose tissue (BAT), inguinal, and epididymal[4,5,6,7,8,9,10,11]
D-Box Binding PAR BZIP Transcription Factor (Dbp), a target gene of CLOCK:BMAL1, was rhythmic in lean and obese conditions in both WAT depots, though its amplitude was reduced in diet-induced obese (DIO) (Figs. 1a and S1a)

Summary

Introduction

Hyperplastic expansion of white adipose tissue (WAT) relies in part on the proliferation of adipocyte precursor cells residing in the stromal vascular cell fraction (SVF) of WAT. This study reveals a circadian clock- and feeding-induced diurnal pattern of cell proliferation in the SVF of visceral and subcutaneous WAT in vivo, with higher proliferation of visceral adipocyte progenitor cells subsequent to feeding in lean mice. Fasting or loss of rhythmic feeding eliminates this diurnal proliferation, while high fat feeding or genetic disruption of the molecular circadian clock modifies the temporal expression of proliferation genes and impinges on diurnal SVF proliferation in eWAT. Adipose tissue is comprised of mature adipocytes (MA) and resident stromal vascular cell fraction (SVF), which include adipocyte progenitor cells (APCs) having the ability to proliferate and undergo adipogenesis to form MA. Enlarged adipose tissue can be due to an elevated number of adipocytes comprising the white adipose tissue (WAT) pad (hyperplasia), or an increase in the size of resident adipocytes (hypertrophy), both of which are dependent on dynamic processes and heavily influenced by diet[2].

Methods

Results

Conclusion