@article{10.1172/jci.insight.129398, author = {Charandeep Singh AND George Hoppe AND Vincent Tran AND Leah McCollum AND Youstina Bolok AND Weilin Song AND Amit Sharma AND Henri Brunengraber AND Jonathan E. Sears}, journal = {JCI Insight}, publisher = {The American Society for Clinical Investigation}, title = {Serine and 1-carbon metabolism are required for HIF-mediated protection against retinopathy of prematurity}, year = {2019}, month = {7}, volume = {4}, url = {https://insight.jci.org/articles/view/129398}, abstract = {We determined which metabolic pathways are activated by hypoxia-inducible factor 1–mediated (HIF-1–mediated) protection against oxygen-induced retinopathy (OIR) in newborn mice, the experimental correlate to retinopathy of prematurity, a leading cause of infant blindness. HIF-1 coordinates the change from oxidative to glycolytic metabolism and mediates flux through serine and 1-carbon metabolism (1CM) in hypoxic and cancer cells. We used untargeted metabolite profiling in vivo to demonstrate that hypoxia mimesis activates serine/1CM. Both [13C6] glucose labeling of metabolites in ex vivo retinal explants as well as in vivo [13C3] serine labeling of metabolites followed in liver lysates strongly suggest that retinal serine is primarily derived from hepatic glycolytic carbon and not from retinal glycolytic carbon in newborn pups. In HIF-1α2lox/2lox albumin-Cre–knockout mice, reduced or near-0 levels of serine/glycine further demonstrate the hepatic origin of retinal serine. Furthermore, inhibition of 1CM by methotrexate blocked HIF-mediated protection against OIR. This demonstrated that 1CM participates in protection induced by HIF-1 stabilization. The urea cycle also dominated pathway enrichment analyses of plasma samples. The dependence of retinal serine on hepatic HIF-1 and the upregulation of the urea cycle emphasize the importance of the liver to remote protection of the retina.}, number = {14}, doi = {10.1172/jci.insight.129398}, url = {https://doi.org/10.1172/jci.insight.129398}, }