Title | GLUT5 (SLC2A5) enables fructose-mediated proliferation independent of ketohexokinase. |
Publication Type | Journal Article |
Year of Publication | 2021 |
Authors | Liang RJ, Taylor S, Nahiyaan N, Song J, Murphy CJ, Dantas E, Cheng S, Hsu T-W, Ramsamooj S, Grover R, Hwang S-K, Ngo B, Cantley LC, Rhee KY, Goncalves MD |
Journal | Cancer Metab |
Volume | 9 |
Issue | 1 |
Pagination | 12 |
Date Published | 2021 Mar 24 |
ISSN | 2049-3002 |
Abstract | BACKGROUND: Fructose is an abundant source of carbon and energy for cells to use for metabolism, but only certain cell types use fructose to proliferate. Tumor cells that acquire the ability to metabolize fructose have a fitness advantage over their neighboring cells, but the proteins that mediate fructose metabolism in this context are unknown. Here, we investigated the determinants of fructose-mediated cell proliferation. METHODS: Live cell imaging and crystal violet assays were used to characterize the ability of several cell lines (RKO, H508, HepG2, Huh7, HEK293T (293T), A172, U118-MG, U87, MCF-7, MDA-MB-468, PC3, DLD1 HCT116, and 22RV1) to proliferate in fructose (i.e., the fructolytic ability). Fructose metabolism gene expression was determined by RT-qPCR and western blot for each cell line. A positive selection approach was used to "train" non-fructolytic PC3 cells to utilize fructose for proliferation. RNA-seq was performed on parental and trained PC3 cells to find key transcripts associated with fructolytic ability. A CRISPR-cas9 plasmid containing KHK-specific sgRNA was transfected in 293T cells to generate KHK cells. Lentiviral transduction was used to overexpress empty vector, KHK, or GLUT5 in cells. Metabolic profiling was done with seahorse metabolic flux analysis as well as LC/MS metabolomics. Cell Titer Glo was used to determine cell sensitivity to 2-deoxyglucose in media containing either fructose or glucose. RESULTS: We found that neither the tissue of origin nor expression level of any single gene related to fructose catabolism determine the fructolytic ability. However, cells cultured chronically in fructose can develop fructolytic ability. SLC2A5, encoding the fructose transporter, GLUT5, was specifically upregulated in these cells. Overexpression of GLUT5 in non-fructolytic cells enabled growth in fructose-containing media across cells of different origins. GLUT5 permitted fructose to flux through glycolysis using hexokinase (HK) and not ketohexokinase (KHK). CONCLUSIONS: We show that GLUT5 is a robust and generalizable driver of fructose-dependent cell proliferation. This indicates that fructose uptake is the limiting factor for fructose-mediated cell proliferation. We further demonstrate that cellular proliferation with fructose is independent of KHK. |
DOI | 10.1186/s40170-021-00246-9 |
Alternate Journal | Cancer Metab |
PubMed ID | 33762003 |
PubMed Central ID | PMC7992954 |
Grant List | R35 CA197588 / NH / NIH HHS / United States K08 CA230318 / NH / NIH HHS / United States P50 CA211024 / NH / NIH HHS / United States R25 AI 140472 / / National Institute of Allergy and Infectious Diseases / AACR-DT22-17 / / Standing up to Cancer / F99CA234950 / CA / NCI NIH HHS / United States |
Submitted by bel2021 on April 20, 2021 - 3:18pm