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GLUT3 and PKM2 regulate OCT4 expression and support the hypoxic culture of human embryonic stem cells

GLUT3 and PKM2 regulate OCT4 expression and support the hypoxic culture of human embryonic stem cells
GLUT3 and PKM2 regulate OCT4 expression and support the hypoxic culture of human embryonic stem cells
Human embryonic stem cells (hESCs) have the capacity to differentiate into all cell types and thus have great potential for regenerative medicine. hESCs cultured at low oxygen tensions are more pluripotent and display an increased glycolytic rate but how this is regulated is unknown. This study therefore aimed to investigate the regulation of glucose metabolism in hESCs and whether this might impact OCT4 expression. In contrast to the glucose transporter GLUT1, GLUT3 was regulated by environmental oxygen and localised to hESC membranes. Silencing GLUT3 caused a reduction in glucose uptake and lactate production as well as OCT4 expression. GLUT3 and OCT4 expression were correlated suggesting that hESC self-renewal is regulated by the rate of glucose uptake. Surprisingly, PKM2, a rate limiting enzyme of glycolysis displayed a nuclear localisation in hESCs and silencing PKM2 did not alter glucose metabolism suggesting a role other than as a glycolytic enzyme. PKM2 expression was increased in hESCs cultured at 5% oxygen compared to 20% oxygen and silencing PKM2 reduced OCT4 expression highlighting a transcriptional role for PKM2 in hESCs. Together, these data demonstrate two separate mechanisms by which genes regulating glucose uptake and metabolism are involved in the hypoxic support of pluripotency in hESCs.
2045-2322
1-14
Christensen, David R.
f8d74902-963b-433c-98ba-11e13700f2df
Calder, Philip C.
1797e54f-378e-4dcb-80a4-3e30018f07a6
Houghton, Franchesca D.
53946041-127e-45a8-9edb-bf4b3c23005f
Christensen, David R.
f8d74902-963b-433c-98ba-11e13700f2df
Calder, Philip C.
1797e54f-378e-4dcb-80a4-3e30018f07a6
Houghton, Franchesca D.
53946041-127e-45a8-9edb-bf4b3c23005f

Christensen, David R., Calder, Philip C. and Houghton, Franchesca D. (2015) GLUT3 and PKM2 regulate OCT4 expression and support the hypoxic culture of human embryonic stem cells. Scientific Reports, 5, 1-14, [17500]. (doi:10.1038/srep17500).

Record type: Article

Abstract

Human embryonic stem cells (hESCs) have the capacity to differentiate into all cell types and thus have great potential for regenerative medicine. hESCs cultured at low oxygen tensions are more pluripotent and display an increased glycolytic rate but how this is regulated is unknown. This study therefore aimed to investigate the regulation of glucose metabolism in hESCs and whether this might impact OCT4 expression. In contrast to the glucose transporter GLUT1, GLUT3 was regulated by environmental oxygen and localised to hESC membranes. Silencing GLUT3 caused a reduction in glucose uptake and lactate production as well as OCT4 expression. GLUT3 and OCT4 expression were correlated suggesting that hESC self-renewal is regulated by the rate of glucose uptake. Surprisingly, PKM2, a rate limiting enzyme of glycolysis displayed a nuclear localisation in hESCs and silencing PKM2 did not alter glucose metabolism suggesting a role other than as a glycolytic enzyme. PKM2 expression was increased in hESCs cultured at 5% oxygen compared to 20% oxygen and silencing PKM2 reduced OCT4 expression highlighting a transcriptional role for PKM2 in hESCs. Together, these data demonstrate two separate mechanisms by which genes regulating glucose uptake and metabolism are involved in the hypoxic support of pluripotency in hESCs.

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Accepted/In Press date: 30 October 2015
Published date: 7 December 2015
Organisations: Human Development & Health

Identifiers

Local EPrints ID: 384968
URI: http://eprints.soton.ac.uk/id/eprint/384968
DOI: doi:10.1038/srep17500
ISSN: 2045-2322
PURE UUID: 4c85ad5e-86f3-4bc0-9f90-2f01cd0299f4
ORCID for Philip C. Calder: ORCID iD orcid.org/0000-0002-6038-710X
ORCID for Franchesca D. Houghton: ORCID iD orcid.org/0000-0002-5167-1694

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Date deposited: 07 Jan 2016 16:33
Last modified: 15 Mar 2024 03:25

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Contributors

Author: David R. Christensen
Author: Philip C. Calder ORCID iD
Author: Franchesca D. Houghton ORCID iD

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