TY - JOUR
T1 - Caenorhabditis elegans DBL-1/BMP regulates lipid accumulation via interaction with insulin signaling
AU - Clark, James F.
AU - Meade, Michael
AU - Ranepura, Gehan
AU - Hall, David H.
AU - Savage-Dunn, Cathy
N1 - Funding Information:
We thank Vanessa Almonte, Allie Dananberg, and Mariya Fabisevich for preliminary fat staining and body size experiments. We thank Hasan Zumrut for performing pharyngeal pumping analyses. We are grateful to Ross Cagan and Alicia Meléndez for critical reading of the manuscript. This work was supported in part by National Institutes of Health (NIH) R15GM112147 and R15GM097692 to C.S.D. and by NIH OD010943 to D.H.H. Some strains were provided by the Caenorhabditis Genetics Center, which is funded by NIH Office of Research Infrastructure Programs (P40OD010440). This work was carried out in partial fulfillment of the requirements for the Ph.D. degree from the Graduate Center of City University of New York (J.F.C.).
Publisher Copyright:
© 2018 Clark et al.
PY - 2018/1/1
Y1 - 2018/1/1
N2 - Metabolic homeostasis is coordinately controlled by diverse inputs. Understanding these regulatory networks is vital to combating metabolic disorders. The nematode Caenorhabditis elegans has emerged as a powerful, genetically tractable model system for the discovery of lipid regulatory mechanisms. Here we introduce DBL-1, the C. elegans homolog of bone morphogenetic protein 2/4 (BMP2/4), as a significant regulator of lipid homeostasis. We used neutral lipid staining and a lipid droplet marker to demonstrate that both increases and decreases in DBL-1/BMP signaling result in reduced lipid stores and lipid droplet count. We find that lipid droplet size, however, correlates positively with the level of DBL-1/ BMP signaling. Regulation of lipid accumulation in the intestine occurs through non-cell-autonomous signaling, since expression of SMA-3, a Smad signal transducer, in the epidermis (hypodermis) is sufficient to rescue the loss of lipid accumulation. Finally, genetic evidence indicates that DBL-1/BMP functions upstream of Insulin/IGF-1 Signaling in lipid metabolism. We conclude that BMP signaling regulates lipid metabolism in C. elegans through interorgan signaling to the Insulin pathway, shedding light on a less well-studied regulatory mechanism for metabolic homeostasis.
AB - Metabolic homeostasis is coordinately controlled by diverse inputs. Understanding these regulatory networks is vital to combating metabolic disorders. The nematode Caenorhabditis elegans has emerged as a powerful, genetically tractable model system for the discovery of lipid regulatory mechanisms. Here we introduce DBL-1, the C. elegans homolog of bone morphogenetic protein 2/4 (BMP2/4), as a significant regulator of lipid homeostasis. We used neutral lipid staining and a lipid droplet marker to demonstrate that both increases and decreases in DBL-1/BMP signaling result in reduced lipid stores and lipid droplet count. We find that lipid droplet size, however, correlates positively with the level of DBL-1/ BMP signaling. Regulation of lipid accumulation in the intestine occurs through non-cell-autonomous signaling, since expression of SMA-3, a Smad signal transducer, in the epidermis (hypodermis) is sufficient to rescue the loss of lipid accumulation. Finally, genetic evidence indicates that DBL-1/BMP functions upstream of Insulin/IGF-1 Signaling in lipid metabolism. We conclude that BMP signaling regulates lipid metabolism in C. elegans through interorgan signaling to the Insulin pathway, shedding light on a less well-studied regulatory mechanism for metabolic homeostasis.
KW - BMP
KW - Caenorhabditis elegans
KW - Homeostasis
KW - Insulin
KW - Lipid
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U2 - 10.1534/g3.117.300416
DO - 10.1534/g3.117.300416
M3 - Article
C2 - 29162682
AN - SCOPUS:85039931896
SN - 2160-1836
VL - 8
SP - 343
EP - 351
JO - G3: Genes, Genomes, Genetics
JF - G3: Genes, Genomes, Genetics
IS - 1
ER -