Yap regulates glucose utilization and sustains nucleotide synthesis to enable organ growth

Author(s)

Cox, Andrew G; Tsomides, Allison; Yimlamai, Dean; Hwang, Katie L; Miesfeld, Joel; Galli, Giorgio G; Fowl, Brendan H; Fort, Michael; Ma, Kimberly Y; Sullivan, Mark R; Hosios, Aaron M; Snay, Erin; Yuan, Min; Brown, Kristin K; Lien, Evan C; Chhangawala, Sagar; Steinhauser, Matthew L; Asara, John M; Houvras, Yariv; Link, Brian; Vander Heiden, Matthew G; Camargo, Fernando D; Goessling, Wolfram; ... Show more Show less

Abstract

The Hippo pathway and its nuclear effector Yap regulate organ size and cancer formation. While many modulators of Hippo activity have been identified, little is known about the Yap target genes that mediate these growth effects. Here, we show that yap−/− mutant zebrafish exhibit defects in hepatic progenitor potential and liver growth due to impaired glucose transport and nucleotide biosynthesis. Transcriptomic and metabolomic analyses reveal that Yap regulates expression of glucose transporter glut1, causing decreased glucose uptake and use for nucleotide biosynthesis in yap−/− mutants, and impaired glucose tolerance in adults. Nucleotide supplementation improves Yap deficiency phenotypes, indicating functional importance of glucose-fueled nucleotide biosynthesis. Yap-regulated glut1 expression and glucose uptake are conserved in mammals, suggesting that stimulation of anabolic glucose metabolism is an evolutionarily conserved mechanism by which the Hippo pathway controls organ growth. Together, our results reveal a central role for Hippo signaling in glucose metabolic homeostasis.

Date issued

2018-10

URI

https://hdl.handle.net/1721.1/125162

Department

Koch Institute for Integrative Cancer Research at MIT

Journal

EMBO Journal

Publisher

EMBO

Citation

Cox, Andrew G. et al. "Yap regulates glucose utilization and sustains nucleotide synthesis to enable organ growth." EMBO Journal 37 (October 2018): e100294 © 2018 The Authors

Version: Original manuscript

ISSN

1460-2075