Effects of water stably-enriched with oxygen as a novel method of tissue oxygenation on mitochondrial function, and as adjuvant therapy for type 2 diabetes in a randomized placebo-controlled trial

BACKGROUND: Diabetes mellitus is associated with inadequate delivery of oxygen to tissues. Cellular hypoxia is associated with mitochondrial dysfunction which increases oxidative stress and hyperglycaemia. Hyperbaric oxygenation therapy, which was shown to improve insulin sensitivity, is impractical...

Descripción completa

Detalles Bibliográficos
Autores principales: Khoo, Joan, Hagemeyer, Christoph E., Henstridge, Darren C., Kumble, Sumukh, Wang, Ting-Yi, Xu, Rong, Gani, Linsey, King, Thomas, Soh, Shui-Boon, Puar, Troy, Au, Vanessa, Tan, Eberta, Tay, Tunn-Lin, Kam, Carmen, Teo, Eng-Kiong
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2021
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8279347/
https://www.ncbi.nlm.nih.gov/pubmed/34260650
http://dx.doi.org/10.1371/journal.pone.0254619
_version_ 1783722436706959360
author Khoo, Joan
Hagemeyer, Christoph E.
Henstridge, Darren C.
Kumble, Sumukh
Wang, Ting-Yi
Xu, Rong
Gani, Linsey
King, Thomas
Soh, Shui-Boon
Puar, Troy
Au, Vanessa
Tan, Eberta
Tay, Tunn-Lin
Kam, Carmen
Teo, Eng-Kiong
author_facet Khoo, Joan
Hagemeyer, Christoph E.
Henstridge, Darren C.
Kumble, Sumukh
Wang, Ting-Yi
Xu, Rong
Gani, Linsey
King, Thomas
Soh, Shui-Boon
Puar, Troy
Au, Vanessa
Tan, Eberta
Tay, Tunn-Lin
Kam, Carmen
Teo, Eng-Kiong
author_sort Khoo, Joan
collection PubMed
description BACKGROUND: Diabetes mellitus is associated with inadequate delivery of oxygen to tissues. Cellular hypoxia is associated with mitochondrial dysfunction which increases oxidative stress and hyperglycaemia. Hyperbaric oxygenation therapy, which was shown to improve insulin sensitivity, is impractical for regular use. We evaluated the effects of water which is stably-enriched with oxygen (ELO water) to increase arterial blood oxygen levels, on mitochondrial function in the presence of normal- or high-glucose environments, and as glucose-lowering therapy in humans. METHODS: We compared arterial blood oxygen levels in Sprague-Dawley rats after 7 days of ad libitum ELO or tap water consumption. Mitochondrial stress testing, and flow cytometry analysis of mitochondrial mass and membrane potential, were performed on human HepG2 cells cultured in four Dulbecco’s Modified Eagle Medium media, made with ELO water or regular (control) water, at normal (5.5 mM) or high (25 mM) glucose concentrations. We also randomized 150 adults with type 2 diabetes (mean age 53 years, glycated haemoglobin HbA1c 8.9% [74 mmol/mol], average duration of diabetes 12 years) to drink 1.5 litres daily of bottled ELO water or drinking water. RESULTS: ELO water raised arterial oxygen tension pO2 significantly (335 ± 26 vs. 188 ± 18 mmHg, p = 0.006) compared with tap water. In cells cultured in control water, mitochondrial mass and membrane potential were both significantly lower at 25 mM glucose compared with 5.5 mM glucose; in contrast, mitochondrial mass and membrane potential did not differ significantly at normal or high glucose concentrations in cells cultured in ELO water. The high-glucose environment induced a greater mitochondrial proton leak in cells cultured in ELO water compared to cells cultured in control medium at similar glucose concentration. In type 2 diabetic adults, HbA1c decreased significantly (p = 0.002) by 0.3 ± 0.7% (4 ± 8 mmol/mol), with ELO water after 12 weeks of treatment but was unchanged with placebo. CONCLUSIONS: ELO water raises arterial blood oxygen levels, appears to have a protective effect on hyperglycaemia-induced reduction in mitochondrial mass and mitochondrial dysfunction, and may be effective adjuvant therapy for type 2 diabetes.
format Online
Article
Text
id pubmed-8279347
institution National Center for Biotechnology Information
language English
publishDate 2021
publisher Public Library of Science
record_format MEDLINE/PubMed
spelling pubmed-82793472021-07-31 Effects of water stably-enriched with oxygen as a novel method of tissue oxygenation on mitochondrial function, and as adjuvant therapy for type 2 diabetes in a randomized placebo-controlled trial Khoo, Joan Hagemeyer, Christoph E. Henstridge, Darren C. Kumble, Sumukh Wang, Ting-Yi Xu, Rong Gani, Linsey King, Thomas Soh, Shui-Boon Puar, Troy Au, Vanessa Tan, Eberta Tay, Tunn-Lin Kam, Carmen Teo, Eng-Kiong PLoS One Research Article BACKGROUND: Diabetes mellitus is associated with inadequate delivery of oxygen to tissues. Cellular hypoxia is associated with mitochondrial dysfunction which increases oxidative stress and hyperglycaemia. Hyperbaric oxygenation therapy, which was shown to improve insulin sensitivity, is impractical for regular use. We evaluated the effects of water which is stably-enriched with oxygen (ELO water) to increase arterial blood oxygen levels, on mitochondrial function in the presence of normal- or high-glucose environments, and as glucose-lowering therapy in humans. METHODS: We compared arterial blood oxygen levels in Sprague-Dawley rats after 7 days of ad libitum ELO or tap water consumption. Mitochondrial stress testing, and flow cytometry analysis of mitochondrial mass and membrane potential, were performed on human HepG2 cells cultured in four Dulbecco’s Modified Eagle Medium media, made with ELO water or regular (control) water, at normal (5.5 mM) or high (25 mM) glucose concentrations. We also randomized 150 adults with type 2 diabetes (mean age 53 years, glycated haemoglobin HbA1c 8.9% [74 mmol/mol], average duration of diabetes 12 years) to drink 1.5 litres daily of bottled ELO water or drinking water. RESULTS: ELO water raised arterial oxygen tension pO2 significantly (335 ± 26 vs. 188 ± 18 mmHg, p = 0.006) compared with tap water. In cells cultured in control water, mitochondrial mass and membrane potential were both significantly lower at 25 mM glucose compared with 5.5 mM glucose; in contrast, mitochondrial mass and membrane potential did not differ significantly at normal or high glucose concentrations in cells cultured in ELO water. The high-glucose environment induced a greater mitochondrial proton leak in cells cultured in ELO water compared to cells cultured in control medium at similar glucose concentration. In type 2 diabetic adults, HbA1c decreased significantly (p = 0.002) by 0.3 ± 0.7% (4 ± 8 mmol/mol), with ELO water after 12 weeks of treatment but was unchanged with placebo. CONCLUSIONS: ELO water raises arterial blood oxygen levels, appears to have a protective effect on hyperglycaemia-induced reduction in mitochondrial mass and mitochondrial dysfunction, and may be effective adjuvant therapy for type 2 diabetes. Public Library of Science 2021-07-14 /pmc/articles/PMC8279347/ /pubmed/34260650 http://dx.doi.org/10.1371/journal.pone.0254619 Text en © 2021 Khoo et al https://creativecommons.org/licenses/by/4.0/This is an open access article distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
spellingShingle Research Article
Khoo, Joan
Hagemeyer, Christoph E.
Henstridge, Darren C.
Kumble, Sumukh
Wang, Ting-Yi
Xu, Rong
Gani, Linsey
King, Thomas
Soh, Shui-Boon
Puar, Troy
Au, Vanessa
Tan, Eberta
Tay, Tunn-Lin
Kam, Carmen
Teo, Eng-Kiong
Effects of water stably-enriched with oxygen as a novel method of tissue oxygenation on mitochondrial function, and as adjuvant therapy for type 2 diabetes in a randomized placebo-controlled trial
title Effects of water stably-enriched with oxygen as a novel method of tissue oxygenation on mitochondrial function, and as adjuvant therapy for type 2 diabetes in a randomized placebo-controlled trial
title_full Effects of water stably-enriched with oxygen as a novel method of tissue oxygenation on mitochondrial function, and as adjuvant therapy for type 2 diabetes in a randomized placebo-controlled trial
title_fullStr Effects of water stably-enriched with oxygen as a novel method of tissue oxygenation on mitochondrial function, and as adjuvant therapy for type 2 diabetes in a randomized placebo-controlled trial
title_full_unstemmed Effects of water stably-enriched with oxygen as a novel method of tissue oxygenation on mitochondrial function, and as adjuvant therapy for type 2 diabetes in a randomized placebo-controlled trial
title_short Effects of water stably-enriched with oxygen as a novel method of tissue oxygenation on mitochondrial function, and as adjuvant therapy for type 2 diabetes in a randomized placebo-controlled trial
title_sort effects of water stably-enriched with oxygen as a novel method of tissue oxygenation on mitochondrial function, and as adjuvant therapy for type 2 diabetes in a randomized placebo-controlled trial
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8279347/
https://www.ncbi.nlm.nih.gov/pubmed/34260650
http://dx.doi.org/10.1371/journal.pone.0254619
work_keys_str_mv AT khoojoan effectsofwaterstablyenrichedwithoxygenasanovelmethodoftissueoxygenationonmitochondrialfunctionandasadjuvanttherapyfortype2diabetesinarandomizedplacebocontrolledtrial
AT hagemeyerchristophe effectsofwaterstablyenrichedwithoxygenasanovelmethodoftissueoxygenationonmitochondrialfunctionandasadjuvanttherapyfortype2diabetesinarandomizedplacebocontrolledtrial
AT henstridgedarrenc effectsofwaterstablyenrichedwithoxygenasanovelmethodoftissueoxygenationonmitochondrialfunctionandasadjuvanttherapyfortype2diabetesinarandomizedplacebocontrolledtrial
AT kumblesumukh effectsofwaterstablyenrichedwithoxygenasanovelmethodoftissueoxygenationonmitochondrialfunctionandasadjuvanttherapyfortype2diabetesinarandomizedplacebocontrolledtrial
AT wangtingyi effectsofwaterstablyenrichedwithoxygenasanovelmethodoftissueoxygenationonmitochondrialfunctionandasadjuvanttherapyfortype2diabetesinarandomizedplacebocontrolledtrial
AT xurong effectsofwaterstablyenrichedwithoxygenasanovelmethodoftissueoxygenationonmitochondrialfunctionandasadjuvanttherapyfortype2diabetesinarandomizedplacebocontrolledtrial
AT ganilinsey effectsofwaterstablyenrichedwithoxygenasanovelmethodoftissueoxygenationonmitochondrialfunctionandasadjuvanttherapyfortype2diabetesinarandomizedplacebocontrolledtrial
AT kingthomas effectsofwaterstablyenrichedwithoxygenasanovelmethodoftissueoxygenationonmitochondrialfunctionandasadjuvanttherapyfortype2diabetesinarandomizedplacebocontrolledtrial
AT sohshuiboon effectsofwaterstablyenrichedwithoxygenasanovelmethodoftissueoxygenationonmitochondrialfunctionandasadjuvanttherapyfortype2diabetesinarandomizedplacebocontrolledtrial
AT puartroy effectsofwaterstablyenrichedwithoxygenasanovelmethodoftissueoxygenationonmitochondrialfunctionandasadjuvanttherapyfortype2diabetesinarandomizedplacebocontrolledtrial
AT auvanessa effectsofwaterstablyenrichedwithoxygenasanovelmethodoftissueoxygenationonmitochondrialfunctionandasadjuvanttherapyfortype2diabetesinarandomizedplacebocontrolledtrial
AT taneberta effectsofwaterstablyenrichedwithoxygenasanovelmethodoftissueoxygenationonmitochondrialfunctionandasadjuvanttherapyfortype2diabetesinarandomizedplacebocontrolledtrial
AT taytunnlin effectsofwaterstablyenrichedwithoxygenasanovelmethodoftissueoxygenationonmitochondrialfunctionandasadjuvanttherapyfortype2diabetesinarandomizedplacebocontrolledtrial
AT kamcarmen effectsofwaterstablyenrichedwithoxygenasanovelmethodoftissueoxygenationonmitochondrialfunctionandasadjuvanttherapyfortype2diabetesinarandomizedplacebocontrolledtrial
AT teoengkiong effectsofwaterstablyenrichedwithoxygenasanovelmethodoftissueoxygenationonmitochondrialfunctionandasadjuvanttherapyfortype2diabetesinarandomizedplacebocontrolledtrial

Ejemplares similares