Project description
A closer mechanistic look at how glucose is transported into cells
Glucose transporters (GLUTs), specifically GLUT1-14 in mammals, transport glucose into cells across the cell membrane. While essential for glucose distribution, details about specific GLUT isoforms and the effects of insulin resistance on GLUT4 trafficking remain unclear. The ERC-funded MEMSUGAR project will identify the roles of all GLUT isoforms and develop tool compounds for structural studies. By combining nuclear magnetic resonance with cryo-electron microscopy and other techniques, the project will examine how protein dynamics affect substrate specificity and proton coupling. It will also focus on resolving GLUT transporter structures and imaging Golgi GLUT4 storage vesicles. The findings are expected to significantly aid drug development for GLUTs and other solute carrier transporters.
Objective
From molds to mammals, glucose is the most important fuel for life on earth. The rate-limiting step for the utilization of glucose is its uptake into cells. Mammals have fourteen different sugar transporters belonging to the SLC2A family, referred to as GLUTs. GLUT1-14 transporters have varied tissue expression and kinetics, and their activities must be synchronized and regulated for the appropriate whole-organism-wide distribution of glucose and other sugars. Even at the most basic level, we still do not know the physiological substrates for a number of GLUT isoforms and if, or how, some members use proton-gradients to energize transport. Although GLUT transport activity is thought to be regulated through the binding of accessory factors, e.g. thioredoxin-interacting protein, we still have no molecular details for such interactions of high medical importance. Moreover, a major determinant of insulin resistance leading to type-2-diabetes is the impairment of insulin-stimulated GLUT4 trafficking. Despite extensive investigation, we still do not know what GLUT4 storage vesicles (GSVs) look like at the molecular level and how their composition changes in insulin resistance. Here, we will combine state-of-the-art methods to establish the physiological substrates for all GLUTs and develop tool compounds specific to each GLUT isoform to aid structural studies and for better assessing their contribution to metabolic reprogramming in cancer. We will combine NMR with cryo EM structures and computational and biochemical approaches to establish how protein dynamics dictates substrate specificity and proton coupling. We will resolve native-like structures of GLUT transporters directly from membranes and image GSVs using in situ cryo EM to build transport models beyond the individual transporters. By uncovering novel insight into a fundamental mechanism for life we will aid the development of drugs targeting GLUTs and other SLC transporters in general.
Fields of science (EuroSciVoc)
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CORDIS classifies projects with EuroSciVoc, a multilingual taxonomy of fields of science, through a semi-automatic process based on NLP techniques. See: The European Science Vocabulary.
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Project’s keywords as indicated by the project coordinator. Not to be confused with the EuroSciVoc taxonomy (Fields of science)
Project’s keywords as indicated by the project coordinator. Not to be confused with the EuroSciVoc taxonomy (Fields of science)
Programme(s)
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HORIZON.1.1 - European Research Council (ERC)
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(opens in new window) ERC-2024-ADG
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10691 Stockholm
Sweden
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