Molecular Dynamics Simulations of the Human Glucose Transporter GLUT1

Glucose transporters (GLUTs) provide a pathway for glucose transport across membranes. Human GLUTs are implicated in devastating diseases such as heart disease, hyper- and hypo-glycemia, type 2 diabetes and cancer. The human GLUT1 has been recently crystalized in the inward-facing open conformation....

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Published in	PloS one Vol. 10; no. 4; p. e0125361
Main Author	Park, Min-Sun
Format	Journal Article
Language	English
Published	United States Public Library of Science 28.04.2015 Public Library of Science (PLoS)
Subjects	Amino acids Analysis Binding Sites Biochemistry Biological Transport Blood glucose Cardiovascular diseases Chemical properties Computer simulation Conformation Coronary artery disease Crystal structure Cytoplasm Diabetes mellitus E coli Glucose Glucose - metabolism Glucose transport Glucose transporter Glucose Transporter Type 1 - chemistry Glucose Transporter Type 1 - metabolism Heart diseases Helices Homology Humans Intracellular Ligands Membranes Molecular dynamics Molecular Dynamics Simulation Molecular interactions Mutagenesis Next-generation sequencing Permease Protein Binding Protein Structure, Secondary Protein Structure, Tertiary Residues Structural Homology, Protein Substrate Specificity Substrates Sugar Water - metabolism Xylose
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ISSN	1932-6203 1932-6203
DOI	10.1371/journal.pone.0125361

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Abstract	Glucose transporters (GLUTs) provide a pathway for glucose transport across membranes. Human GLUTs are implicated in devastating diseases such as heart disease, hyper- and hypo-glycemia, type 2 diabetes and cancer. The human GLUT1 has been recently crystalized in the inward-facing open conformation. However, there is no other structural information for other conformations. The X-ray structures of E. coli Xylose permease (XylE), a glucose transporter homolog, are available in multiple conformations with and without the substrates D-xylose and D-glucose. XylE has high sequence homology to human GLUT1 and key residues in the sugar-binding pocket are conserved. Here we construct a homology model for human GLUT1 based on the available XylE crystal structure in the partially occluded outward-facing conformation. A long unbiased all atom molecular dynamics simulation starting from the model can capture a new fully opened outward-facing conformation. Our investigation of molecular interactions at the interface between the transmembrane (TM) domains and the intracellular helices (ICH) domain in the outward- and inward-facing conformation supports that the ICH domain likely stabilizes the outward-facing conformation in GLUT1. Furthermore, inducing a conformational transition, our simulations manifest a global asymmetric rocker switch motion and detailed molecular interactions between the substrate and residues through the water-filled selective pore along a pathway from the extracellular to the intracellular side. The results presented here are consistent with previously published biochemical, mutagenesis and functional studies. Together, this study shed light on the structure and functional relationships of GLUT1 in multiple conformational states.
AbstractList	Glucose transporters (GLUTs) provide a pathway for glucose transport across membranes. Human GLUTs are implicated in devastating diseases such as heart disease, hyper- and hypo-glycemia, type 2 diabetes and caner. The human GLUT1 has been recently crystalized in the inward-facing open conformation. However, there is no other structural information for other conformations. The X-ray structures of E . coli Xylose permease (XylE), a glucose transporter homolog, are available in multiple conformations with and without the substrates D-xylose and D-glucose. XylE has high sequence homology to human GLUT1 and key residues in the sugar-binding pocket are conserved. Here we construct a homology model for human GLUT1 based on the available XylE crystal structure in the partially occluded outward-facing conformation. A long unbiased all atom molecular dynamics simulation starting from the model can capture a new fully opened outward-facing conformation. Our investigation of molecular interactions at the interface between the transmembrane (TM) domains and the intracellular helices (ICH) domain in the outward- and inward-facing conformation supports that the ICH domain likely stabilizes the outward-facing conformation in GLUT1. Furthermore, inducing a conformational transition, our simulations manifest a global asymmetric rocker switch motion and detailed molecular interactions between the substrate and residues through the water-filled selective pore along a pathway from the extracellular to the intracellular side. The results presented here are consistent with previously published biochemical, mutagenesis and functional studies. Together, this study shed light on the structure and functional relationships of GLUT1 in multiple conformational states. Glucose transporters (GLUTs) provide a pathway for glucose transport across membranes. Human GLUTs are implicated in devastating diseases such as heart disease, hyper- and hypo-glycemia, type 2 diabetes and caner. The human GLUT1 has been recently crystalized in the inward-facing open conformation. However, there is no other structural information for other conformations. The X-ray structures of E. coli Xylose permease (XylE), a glucose transporter homolog, are available in multiple conformations with and without the substrates D-xylose and D-glucose. XylE has high sequence homology to human GLUT1 and key residues in the sugar-binding pocket are conserved. Here we construct a homology model for human GLUT1 based on the available XylE crystal structure in the partially occluded outward-facing conformation. A long unbiased all atom molecular dynamics simulation starting from the model can capture a new fully opened outward-facing conformation. Our investigation of molecular interactions at the interface between the transmembrane (TM) domains and the intracellular helices (ICH) domain in the outward- and inward-facing conformation supports that the ICH domain likely stabilizes the outward-facing conformation in GLUT1. Furthermore, inducing a conformational transition, our simulations manifest a global asymmetric rocker switch motion and detailed molecular interactions between the substrate and residues through the water-filled selective pore along a pathway from the extracellular to the intracellular side. The results presented here are consistent with previously published biochemical, mutagenesis and functional studies. Together, this study shed light on the structure and functional relationships of GLUT1 in multiple conformational states. Glucose transporters (GLUTs) provide a pathway for glucose transport across membranes. Human GLUTs are implicated in devastating diseases such as heart disease, hyper- and hypo-glycemia, type 2 diabetes and cancer. The human GLUT1 has been recently crystalized in the inward-facing open conformation. However, there is no other structural information for other conformations. The X-ray structures of E. coli Xylose permease (XylE), a glucose transporter homolog, are available in multiple conformations with and without the substrates D-xylose and D-glucose. XylE has high sequence homology to human GLUT1 and key residues in the sugar-binding pocket are conserved. Here we construct a homology model for human GLUT1 based on the available XylE crystal structure in the partially occluded outward-facing conformation. A long unbiased all atom molecular dynamics simulation starting from the model can capture a new fully opened outward-facing conformation. Our investigation of molecular interactions at the interface between the transmembrane (TM) domains and the intracellular helices (ICH) domain in the outward- and inward-facing conformation supports that the ICH domain likely stabilizes the outward-facing conformation in GLUT1. Furthermore, inducing a conformational transition, our simulations manifest a global asymmetric rocker switch motion and detailed molecular interactions between the substrate and residues through the water-filled selective pore along a pathway from the extracellular to the intracellular side. The results presented here are consistent with previously published biochemical, mutagenesis and functional studies. Together, this study shed light on the structure and functional relationships of GLUT1 in multiple conformational states.
Audience	Academic
Author	Park, Min-Sun
AuthorAffiliation	Hong Kong University of Science and Technology, HONG KONG Janelia Research Campus, Howard Hughes Medical Institute, Ashburn, Virginia, United States of America
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BackLink	https://www.ncbi.nlm.nih.gov/pubmed/25919356$$D View this record in MEDLINE/PubMed
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Copyright	COPYRIGHT 2015 Public Library of Science 2015 Min-Sun Park. This is an open access article distributed under the terms of the Creative Commons Attribution License: http://creativecommons.org/licenses/by/4.0/ (the “License”), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License. 2015 Min-Sun Park 2015 Min-Sun Park
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Notes	ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 14 Competing Interests: The author has declared that no competing interests exist. Conceived and designed the experiments: MSP. Performed the experiments: MSP. Analyzed the data: MSP. Contributed reagents/materials/analysis tools: MSP. Wrote the paper: MSP.
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Snippet	Glucose transporters (GLUTs) provide a pathway for glucose transport across membranes. Human GLUTs are implicated in devastating diseases such as heart...
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StartPage	e0125361
SubjectTerms	Amino acids Analysis Binding Sites Biochemistry Biological Transport Blood glucose Cardiovascular diseases Chemical properties Computer simulation Conformation Coronary artery disease Crystal structure Cytoplasm Diabetes mellitus E coli Glucose Glucose - metabolism Glucose transport Glucose transporter Glucose Transporter Type 1 - chemistry Glucose Transporter Type 1 - metabolism Heart diseases Helices Homology Humans Intracellular Ligands Membranes Molecular dynamics Molecular Dynamics Simulation Molecular interactions Mutagenesis Next-generation sequencing Permease Protein Binding Protein Structure, Secondary Protein Structure, Tertiary Residues Structural Homology, Protein Substrate Specificity Substrates Sugar Water - metabolism Xylose
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Title	Molecular Dynamics Simulations of the Human Glucose Transporter GLUT1
URI	https://www.ncbi.nlm.nih.gov/pubmed/25919356 https://www.proquest.com/docview/1676342199 https://pubmed.ncbi.nlm.nih.gov/PMC4412407 https://doaj.org/article/b74709e8b8014a378bd30b5de775d8d7 http://dx.doi.org/10.1371/journal.pone.0125361
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