Mammary duct luminal epithelium controls adipocyte thermogenic programme.
Sanil PatelNjeri Z R SparmanDouglas ArnesonAlexandra AlvarssonLuís C SantosSamuel J DuesmanAlessia CentonzeEphraim HathawayIn Sook AhnGraciel DiamanteIngrid CelyChung Hwan ChoNoble Kumar TalariAbha K RajbhandariLeigh GoedekePeng WangAtul Janardhan ButteCédric BlanpainKarthickeyan Chella KrishnanAldons J LusisSarah A StanleyXia YangPrashant RajbhandariPublished in: Nature (2023)
Sympathetic activation during cold exposure increases adipocyte thermogenesis via the expression of mitochondrial protein uncoupling protein 1 (UCP1) 1 . The propensity of adipocytes to express UCP1 is under a critical influence of the adipose microenvironment and varies between sexes and among various fat depots 2-7 . Here we report that mammary gland ductal epithelial cells in the adipose niche regulate cold-induced adipocyte UCP1 expression in female mouse subcutaneous white adipose tissue (scWAT). Single-cell RNA sequencing shows that glandular luminal epithelium subtypes express transcripts that encode secretory factors controlling adipocyte UCP1 expression under cold conditions. We term these luminal epithelium secretory factors 'mammokines'. Using 3D visualization of whole-tissue immunofluorescence, we reveal sympathetic nerve-ductal contact points. We show that mammary ducts activated by sympathetic nerves limit adipocyte UCP1 expression via the mammokine lipocalin 2. In vivo and ex vivo ablation of mammary duct epithelium enhance the cold-induced adipocyte thermogenic gene programme in scWAT. Since the mammary duct network extends throughout most of the scWAT in female mice, females show markedly less scWAT UCP1 expression, fat oxidation, energy expenditure and subcutaneous fat mass loss compared with male mice, implicating sex-specific roles of mammokines in adipose thermogenesis. These results reveal a role of sympathetic nerve-activated glandular epithelium in adipocyte UCP1 expression and suggest that mammary duct luminal epithelium has an important role in controlling glandular adiposity.
Keyphrases
- adipose tissue
- insulin resistance
- poor prognosis
- high fat diet
- single cell
- binding protein
- fatty acid
- high fat diet induced
- type diabetes
- rna seq
- clinical trial
- gene expression
- genome wide
- preterm infants
- long non coding rna
- high glucose
- endothelial cells
- protein protein
- high throughput
- amino acid
- hydrogen peroxide
- drug induced
- radiofrequency ablation