Literature DB >> 24982199

Positron emission tomography probe demonstrates a striking concentration of ribose salvage in the liver.

Peter M Clark1, Graciela Flores2, Nikolai M Evdokimov3, Melissa N McCracken4, Timothy Chai5, Evan Nair-Gill4, Fiona O'Mahony6, Simon W Beaven6, Kym F Faull7, Michael E Phelps8, Michael E Jung9, Owen N Witte10.   

Abstract

PET is a powerful technique for quantifying and visualizing biochemical pathways in vivo. Here, we develop and validate a novel PET probe, [(18)F]-2-deoxy-2-fluoroarabinose ([(18)F]DFA), for in vivo imaging of ribose salvage. DFA mimics ribose in vivo and accumulates in cells following phosphorylation by ribokinase and further metabolism by transketolase. We use [(18)F]DFA to show that ribose preferentially accumulates in the liver, suggesting a striking tissue specificity for ribose metabolism. We demonstrate that solute carrier family 2, member 2 (also known as GLUT2), a glucose transporter expressed in the liver, is one ribose transporter, but we do not know if others exist. [(18)F]DFA accumulation is attenuated in several mouse models of metabolic syndrome, suggesting an association between ribose salvage and glucose and lipid metabolism. These results describe a tool for studying ribose salvage and suggest that plasma ribose is preferentially metabolized in the liver.

Entities:  

Keywords:  Slc2a2; molecular imaging; sugar metabolism

Mesh:

Substances:

Year:  2014        PMID: 24982199      PMCID: PMC4104878          DOI: 10.1073/pnas.1410326111

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


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  12 in total

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6.  129Xe NMR-Protein Sensor Reveals Cellular Ribose Concentration.

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Review 7.  Imaging tumor metabolism using positron emission tomography.

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8.  Noninvasive Imaging of Drug-Induced Liver Injury with 18F-DFA PET.

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9.  Glycation of human cortical and cancellous bone captures differences in the formation of Maillard reaction products between glucose and ribose.

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