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Pleiotrophin deletion alters glucose homeostasis, energy metabolism and brown fat thermogenic function in mice
Aims/hypothesis Pleiotrophin, a developmentally regulated and highly conserved cytokine, exerts different functions including regulation of cell growth and survival. Here, we hypothesise that this cytokine can play a regulatory role in glucose and lipid homeostasis. Methods To test this hypothesis,...
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Published in: | Diabetologia 2019, Vol.62 (1), p.123-135 |
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Main Authors: | , , , , , , , , , , , , , , , |
Format: | Article |
Language: | English |
Subjects: | |
Citations: | Items that this one cites Items that cite this one |
Online Access: | Get full text |
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Summary: | Aims/hypothesis
Pleiotrophin, a developmentally regulated and highly conserved cytokine, exerts different functions including regulation of cell growth and survival. Here, we hypothesise that this cytokine can play a regulatory role in glucose and lipid homeostasis.
Methods
To test this hypothesis, we performed a longitudinal study characterising the metabolic profile (circulating variables and tissue mRNA expression) of gene-targeted
Ptn
-deficient female mice and their corresponding wild-type counterparts at different ages from young adulthood (3 months) to older age (15 months). Metabolic cages were used to investigate the respiratory exchange ratio and energy expenditure, at both 24°C and 30°C. Undifferentiated immortalised mouse brown adipocytes (mBAs) were treated with 0.1 μg/ml pleiotrophin until day 6 of differentiation, and markers of mBA differentiation were analysed by quantitative real-time PCR (qPCR).
Results
Ptn
deletion was associated with a reduction in total body fat (20.2% in
Ptn
+/+
vs 13.9% in
Ptn
−/−
mice) and an enhanced lipolytic response to isoprenaline in isolated adipocytes from 15-month-old mice (189% in
Ptn
+/+
vs 273% in
Ptn
−/−
mice). We found that
Ptn
−/−
mice exhibited a significantly lower QUICKI value and an altered lipid profile; plasma triacylglycerols and NEFA did not increase with age, as happens in
Ptn
+/+
mice. Furthermore, the contribution of cold-induced thermogenesis to energy expenditure was greater in
Ptn
−/−
than
Ptn
+/+
mice (42.6% and 33.6%, respectively). Body temperature and the activity and expression of deiodinase, T
3
and mitochondrial uncoupling protein-1 in the brown adipose tissue of
Ptn
−/−
mice were higher than in wild-type controls. Finally, supplementing brown pre-adipocytes with pleiotrophin decreased the expression of the brown adipocyte markers
Cidea
(20% reduction),
Prdm16
(21% reduction), and
Pgc1-α
(also known as
Ppargc1a
, 11% reduction).
Conclusions/interpretation
Our results reveal for the first time that pleiotrophin is a key player in preserving insulin sensitivity, driving the dynamics of adipose tissue lipid turnover and plasticity, and regulating energy metabolism and thermogenesis. These findings open therapeutic avenues for the treatment of metabolic disorders by targeting pleiotrophin in the crosstalk between white and brown adipose tissue. |
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ISSN: | 0012-186X 1432-0428 1432-0428 |
DOI: | 10.1007/s00125-018-4746-4 |