The DHR96 Nuclear Receptor Controls Triacylglycerol Homeostasis in Drosophila

Matthew H. Sieber; Carl S. Thummel

doi:10.1016/j.cmet.2009.10.010

The DHR96 Nuclear Receptor Controls Triacylglycerol Homeostasis in Drosophila

Matthew H. Sieber, Carl S. Thummel

Research output: Contribution to journal › Article › peer-review

120 Scopus citations

Abstract

Triacylglycerol (TAG) homeostasis is an integral part of normal physiology and essential for proper energy metabolism. Here we show that the single Drosophila ortholog of the PXR and CAR nuclear receptors, DHR96, plays an essential role in TAG homeostasis. DHR96 mutants are sensitive to starvation, have reduced levels of TAG in the fat body and midgut, and are resistant to diet-induced obesity, while DHR96 overexpression leads to starvation resistance and increased TAG levels. We show that DHR96 function is required in the midgut for the breakdown of dietary fat and that it exerts this effect through the CG5932 gastric lipase, which is essential for TAG homeostasis. This study provides insights into the regulation of dietary fat metabolism in Drosophila and demonstrates that the regulation of lipid metabolism is an ancestral function of the PXR/CAR/DHR96 nuclear receptor subfamily.

Original language	English (US)
Pages (from-to)	481-490
Number of pages	10
Journal	Cell Metabolism
Volume	10
Issue number	6
DOIs	https://doi.org/10.1016/j.cmet.2009.10.010
State	Published - Dec 2 2009

Keywords

HUMDISEASE

ASJC Scopus subject areas

Physiology
Molecular Biology
Cell Biology

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10.1016/j.cmet.2009.10.010

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title = "The DHR96 Nuclear Receptor Controls Triacylglycerol Homeostasis in Drosophila",

abstract = "Triacylglycerol (TAG) homeostasis is an integral part of normal physiology and essential for proper energy metabolism. Here we show that the single Drosophila ortholog of the PXR and CAR nuclear receptors, DHR96, plays an essential role in TAG homeostasis. DHR96 mutants are sensitive to starvation, have reduced levels of TAG in the fat body and midgut, and are resistant to diet-induced obesity, while DHR96 overexpression leads to starvation resistance and increased TAG levels. We show that DHR96 function is required in the midgut for the breakdown of dietary fat and that it exerts this effect through the CG5932 gastric lipase, which is essential for TAG homeostasis. This study provides insights into the regulation of dietary fat metabolism in Drosophila and demonstrates that the regulation of lipid metabolism is an ancestral function of the PXR/CAR/DHR96 nuclear receptor subfamily.",

keywords = "HUMDISEASE",

author = "Sieber, {Matthew H.} and Thummel, {Carl S.}",

note = "Funding Information: We thank M. Horner for providing the DHR96 2X stock, B. Milash for advice on microarray analysis; M. Van Gilst for suggesting the use of Orlistat and for technical advice with these experiments; J. Tennessen, A.-F. Ruaud, L. Palanker, M. Horner, and M. Metzstein for helpful discussions; and M. Horner, A.-F. Ruaud, and J. Tennessen for comments on the manuscript. M.H.S. was supported by a National Institutes of Health (NIH) Developmental Biology Predoctoral Training Grant (5T32 HD07491). This research was supported by NIH grant 1R01DK075607. ",

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N2 - Triacylglycerol (TAG) homeostasis is an integral part of normal physiology and essential for proper energy metabolism. Here we show that the single Drosophila ortholog of the PXR and CAR nuclear receptors, DHR96, plays an essential role in TAG homeostasis. DHR96 mutants are sensitive to starvation, have reduced levels of TAG in the fat body and midgut, and are resistant to diet-induced obesity, while DHR96 overexpression leads to starvation resistance and increased TAG levels. We show that DHR96 function is required in the midgut for the breakdown of dietary fat and that it exerts this effect through the CG5932 gastric lipase, which is essential for TAG homeostasis. This study provides insights into the regulation of dietary fat metabolism in Drosophila and demonstrates that the regulation of lipid metabolism is an ancestral function of the PXR/CAR/DHR96 nuclear receptor subfamily.

AB - Triacylglycerol (TAG) homeostasis is an integral part of normal physiology and essential for proper energy metabolism. Here we show that the single Drosophila ortholog of the PXR and CAR nuclear receptors, DHR96, plays an essential role in TAG homeostasis. DHR96 mutants are sensitive to starvation, have reduced levels of TAG in the fat body and midgut, and are resistant to diet-induced obesity, while DHR96 overexpression leads to starvation resistance and increased TAG levels. We show that DHR96 function is required in the midgut for the breakdown of dietary fat and that it exerts this effect through the CG5932 gastric lipase, which is essential for TAG homeostasis. This study provides insights into the regulation of dietary fat metabolism in Drosophila and demonstrates that the regulation of lipid metabolism is an ancestral function of the PXR/CAR/DHR96 nuclear receptor subfamily.

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The DHR96 Nuclear Receptor Controls Triacylglycerol Homeostasis in Drosophila

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