Changes in plasma and urine metabolites associated with empagliflozin in patients with type 1 diabetes

Hongyan Liu; Vikas S. Sridhar; Daniel Montemayor; Leif Erik Lovblom; Yuliya Lytvyn; Hongping Ye; Jiwan Kim; Mir Tariq Ali; Daniel Scarr; Patrick R. Lawler; Bruce A. Perkins; Kumar Sharma; David Z.I. Cherney

doi:10.1111/dom.14489

Changes in plasma and urine metabolites associated with empagliflozin in patients with type 1 diabetes

Hongyan Liu
, Vikas S. Sridhar
, Daniel Montemayor
, Leif Erik Lovblom
, Yuliya Lytvyn
, Hongping Ye
, Jiwan Kim
, Mir Tariq Ali
, Daniel Scarr
, Patrick R. Lawler
, Bruce A. Perkins
, Kumar Sharma
, David Z.I. Cherney

Producción científica: Article › revisión exhaustiva

27 Citas (Scopus)

Resumen

Aim: To examine the impact of the sodium-glucose co-transporter-2 inhibitor, empagliflozin, on plasma and urine metabolites in participants with type 1 diabetes. Material and Methods: Participants (n = 40, 50% male, mean age 24.3 years) with type 1 diabetes and without overt evidence of diabetic kidney disease had baseline assessments performed under clamped euglycaemia and hyperglycaemia, on two consecutive days. Participants then proceeded to an 8-week, open-label treatment period with empagliflozin 25 mg/day, followed by repeat assessments under clamped euglycaemia and hyperglycaemia. Plasma and urine metabolites were first grouped into metabolic pathways using MetaboAnalyst software. Principal component analysis was performed to create a representative value for each sufficiently represented metabolic group (false discovery rate ≤ 0.1) for further analysis. Results: Of the plasma metabolite groups, tricarboxylic acid (TCA) cycle (P <.0001), biosynthesis of unsaturated fatty acids (P =.0045), butanoate (P <.0001), propanoate (P =.0053), and alanine, aspartate and glutamate (P <.0050) metabolites were increased after empagliflozin treatment under clamped euglycaemia. Of the urine metabolite groups, only butanoate metabolites (P =.0005) were significantly increased. Empagliflozin treatment also attenuated the increase in a number of urine metabolites observed with acute hyperglycaemia. Conclusions: Empagliflozin was associated with increased lipid and TCA cycle metabolites in participants with type 1 diabetes, suggesting a shift in metabolic substrate use and improved mitochondrial function. These effects result in more efficient energy production and may contribute to end-organ protection by alleviating local hypoxia and oxidative stress.

Idioma original	English (US)
Páginas (desde-hasta)	2466-2475
Número de páginas	10
Publicación	Diabetes, Obesity and Metabolism
Volumen	23
N.º	11
DOI	https://doi.org/10.1111/dom.14489
Estado	Published - nov 2021

ASJC Scopus subject areas

Internal Medicine
Endocrinology, Diabetes and Metabolism
Endocrinology

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10.1111/dom.14489

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Liu, H., Sridhar, V. S., Montemayor, D., Lovblom, L. E., Lytvyn, Y., Ye, H., Kim, J., Ali, M. T., Scarr, D., Lawler, P. R., Perkins, B. A., Sharma, K., & Cherney, D. Z. I. (2021). Changes in plasma and urine metabolites associated with empagliflozin in patients with type 1 diabetes. Diabetes, Obesity and Metabolism, 23(11), 2466-2475. https://doi.org/10.1111/dom.14489

@article{e23228598a904854b8b75d679f87f005,

title = "Changes in plasma and urine metabolites associated with empagliflozin in patients with type 1 diabetes",

abstract = "Aim: To examine the impact of the sodium-glucose co-transporter-2 inhibitor, empagliflozin, on plasma and urine metabolites in participants with type 1 diabetes. Material and Methods: Participants (n = 40, 50\% male, mean age 24.3 years) with type 1 diabetes and without overt evidence of diabetic kidney disease had baseline assessments performed under clamped euglycaemia and hyperglycaemia, on two consecutive days. Participants then proceeded to an 8-week, open-label treatment period with empagliflozin 25 mg/day, followed by repeat assessments under clamped euglycaemia and hyperglycaemia. Plasma and urine metabolites were first grouped into metabolic pathways using MetaboAnalyst software. Principal component analysis was performed to create a representative value for each sufficiently represented metabolic group (false discovery rate ≤ 0.1) for further analysis. Results: Of the plasma metabolite groups, tricarboxylic acid (TCA) cycle (P <.0001), biosynthesis of unsaturated fatty acids (P =.0045), butanoate (P <.0001), propanoate (P =.0053), and alanine, aspartate and glutamate (P <.0050) metabolites were increased after empagliflozin treatment under clamped euglycaemia. Of the urine metabolite groups, only butanoate metabolites (P =.0005) were significantly increased. Empagliflozin treatment also attenuated the increase in a number of urine metabolites observed with acute hyperglycaemia. Conclusions: Empagliflozin was associated with increased lipid and TCA cycle metabolites in participants with type 1 diabetes, suggesting a shift in metabolic substrate use and improved mitochondrial function. These effects result in more efficient energy production and may contribute to end-organ protection by alleviating local hypoxia and oxidative stress.",

keywords = "SGLT2 inhibition, empagliflozin, metabolomics, type 1 diabetes",

author = "Hongyan Liu and Sridhar, \{Vikas S.\} and Daniel Montemayor and Lovblom, \{Leif Erik\} and Yuliya Lytvyn and Hongping Ye and Jiwan Kim and Ali, \{Mir Tariq\} and Daniel Scarr and Lawler, \{Patrick R.\} and Perkins, \{Bruce A.\} and Kumar Sharma and Cherney, \{David Z.I.\}",

note = "Funding Information: DZIC has received consulting fees or speaking honorarium or both from Janssen, Bayer, Boehringer Ingelheim‐Eli, Lilly, AstraZeneca, Merck \& Co Inc, Prometic and Sanofi, and has received operating funds from Janssen, Boehringer Ingelheim‐Eli, Lilly, Sanofi, AstraZeneca and Merck \& Co Inc. DZIC is supported by a Department of Medicine, University of Toronto Merit Award and receives support from the CIHR, Diabetes Canada and the Heart and Stroke Richard Lewar Centre of Excellence. PRL is supported by the Department of Medicine, University of Toronto, and receives unrelated funding from the Canadian Institutes for Health Research, the Peter Munk Cardiac Centre, the LifeArc Foundation, the Province of Ontario and the Ted Rogers Centre for Heart Research. PRL also receives unrelated consulting fees from Brigham and Women's Hospital, Novartis and Corrona LLC, unrelated royalties from McGraw‐Hill, and unrelated research funding from the Thistledown Foundation. VSS is supported by the Department of Medicine Eliot Phillipson Clinician Scientist Training Program and a Banting and Best Diabetes Centre Postdoctoral fellowship at the University of Toronto. LEL receives support from a CIHR Canada Graduate Scholarship Doctoral Award. KS has received fees for advisory boards from Bayer, Boehringer Ingelheim‐Eli, Lilly, Merck \& Co Inc and Sanofi, and has received operating funds from Boehringer Ingelheim. BAP has received speaker honoraria from Abbott, Medtronic, and Novo‐Nordisk; research support to his research institute from BoehringerIngleheim, Novo Nordisk, and the Bank of Montreal (BMO), and has served as aconsultant to Boehringer Ingelheim, Abbott, Insulet, and Novo‐Nordisk. No potential conflicts of interest relevant to this article were reported for HL, DM, YL, HY, JK, MTA and DS. Funding Information: This exploratory post hoc analysis of the ATIRMA trial was an Investigator Initiated study (to DZIC) and was funded by Boehringer Ingelheim and Eli Lilly and Company. Publisher Copyright: {\textcopyright} 2021 John Wiley \& Sons Ltd.",

year = "2021",

month = nov,

doi = "10.1111/dom.14489",

language = "English (US)",

volume = "23",

pages = "2466--2475",

journal = "Diabetes, Obesity and Metabolism",

issn = "1462-8902",

publisher = "John Wiley and Sons Inc.",

number = "11",

}

TY - JOUR

T1 - Changes in plasma and urine metabolites associated with empagliflozin in patients with type 1 diabetes

AU - Liu, Hongyan

AU - Sridhar, Vikas S.

AU - Montemayor, Daniel

AU - Lovblom, Leif Erik

AU - Lytvyn, Yuliya

AU - Ye, Hongping

AU - Kim, Jiwan

AU - Ali, Mir Tariq

AU - Scarr, Daniel

AU - Lawler, Patrick R.

AU - Perkins, Bruce A.

AU - Sharma, Kumar

AU - Cherney, David Z.I.

N1 - Funding Information: DZIC has received consulting fees or speaking honorarium or both from Janssen, Bayer, Boehringer Ingelheim‐Eli, Lilly, AstraZeneca, Merck & Co Inc, Prometic and Sanofi, and has received operating funds from Janssen, Boehringer Ingelheim‐Eli, Lilly, Sanofi, AstraZeneca and Merck & Co Inc. DZIC is supported by a Department of Medicine, University of Toronto Merit Award and receives support from the CIHR, Diabetes Canada and the Heart and Stroke Richard Lewar Centre of Excellence. PRL is supported by the Department of Medicine, University of Toronto, and receives unrelated funding from the Canadian Institutes for Health Research, the Peter Munk Cardiac Centre, the LifeArc Foundation, the Province of Ontario and the Ted Rogers Centre for Heart Research. PRL also receives unrelated consulting fees from Brigham and Women's Hospital, Novartis and Corrona LLC, unrelated royalties from McGraw‐Hill, and unrelated research funding from the Thistledown Foundation. VSS is supported by the Department of Medicine Eliot Phillipson Clinician Scientist Training Program and a Banting and Best Diabetes Centre Postdoctoral fellowship at the University of Toronto. LEL receives support from a CIHR Canada Graduate Scholarship Doctoral Award. KS has received fees for advisory boards from Bayer, Boehringer Ingelheim‐Eli, Lilly, Merck & Co Inc and Sanofi, and has received operating funds from Boehringer Ingelheim. BAP has received speaker honoraria from Abbott, Medtronic, and Novo‐Nordisk; research support to his research institute from BoehringerIngleheim, Novo Nordisk, and the Bank of Montreal (BMO), and has served as aconsultant to Boehringer Ingelheim, Abbott, Insulet, and Novo‐Nordisk. No potential conflicts of interest relevant to this article were reported for HL, DM, YL, HY, JK, MTA and DS. Funding Information: This exploratory post hoc analysis of the ATIRMA trial was an Investigator Initiated study (to DZIC) and was funded by Boehringer Ingelheim and Eli Lilly and Company. Publisher Copyright: © 2021 John Wiley & Sons Ltd.

PY - 2021/11

Y1 - 2021/11

N2 - Aim: To examine the impact of the sodium-glucose co-transporter-2 inhibitor, empagliflozin, on plasma and urine metabolites in participants with type 1 diabetes. Material and Methods: Participants (n = 40, 50% male, mean age 24.3 years) with type 1 diabetes and without overt evidence of diabetic kidney disease had baseline assessments performed under clamped euglycaemia and hyperglycaemia, on two consecutive days. Participants then proceeded to an 8-week, open-label treatment period with empagliflozin 25 mg/day, followed by repeat assessments under clamped euglycaemia and hyperglycaemia. Plasma and urine metabolites were first grouped into metabolic pathways using MetaboAnalyst software. Principal component analysis was performed to create a representative value for each sufficiently represented metabolic group (false discovery rate ≤ 0.1) for further analysis. Results: Of the plasma metabolite groups, tricarboxylic acid (TCA) cycle (P <.0001), biosynthesis of unsaturated fatty acids (P =.0045), butanoate (P <.0001), propanoate (P =.0053), and alanine, aspartate and glutamate (P <.0050) metabolites were increased after empagliflozin treatment under clamped euglycaemia. Of the urine metabolite groups, only butanoate metabolites (P =.0005) were significantly increased. Empagliflozin treatment also attenuated the increase in a number of urine metabolites observed with acute hyperglycaemia. Conclusions: Empagliflozin was associated with increased lipid and TCA cycle metabolites in participants with type 1 diabetes, suggesting a shift in metabolic substrate use and improved mitochondrial function. These effects result in more efficient energy production and may contribute to end-organ protection by alleviating local hypoxia and oxidative stress.

AB - Aim: To examine the impact of the sodium-glucose co-transporter-2 inhibitor, empagliflozin, on plasma and urine metabolites in participants with type 1 diabetes. Material and Methods: Participants (n = 40, 50% male, mean age 24.3 years) with type 1 diabetes and without overt evidence of diabetic kidney disease had baseline assessments performed under clamped euglycaemia and hyperglycaemia, on two consecutive days. Participants then proceeded to an 8-week, open-label treatment period with empagliflozin 25 mg/day, followed by repeat assessments under clamped euglycaemia and hyperglycaemia. Plasma and urine metabolites were first grouped into metabolic pathways using MetaboAnalyst software. Principal component analysis was performed to create a representative value for each sufficiently represented metabolic group (false discovery rate ≤ 0.1) for further analysis. Results: Of the plasma metabolite groups, tricarboxylic acid (TCA) cycle (P <.0001), biosynthesis of unsaturated fatty acids (P =.0045), butanoate (P <.0001), propanoate (P =.0053), and alanine, aspartate and glutamate (P <.0050) metabolites were increased after empagliflozin treatment under clamped euglycaemia. Of the urine metabolite groups, only butanoate metabolites (P =.0005) were significantly increased. Empagliflozin treatment also attenuated the increase in a number of urine metabolites observed with acute hyperglycaemia. Conclusions: Empagliflozin was associated with increased lipid and TCA cycle metabolites in participants with type 1 diabetes, suggesting a shift in metabolic substrate use and improved mitochondrial function. These effects result in more efficient energy production and may contribute to end-organ protection by alleviating local hypoxia and oxidative stress.

KW - SGLT2 inhibition

KW - empagliflozin

KW - metabolomics

KW - type 1 diabetes

UR - https://www.scopus.com/pages/publications/85111348846

UR - https://www.scopus.com/pages/publications/85111348846#tab=citedBy

U2 - 10.1111/dom.14489

DO - 10.1111/dom.14489

M3 - Article

C2 - 34251085

AN - SCOPUS:85111348846

SN - 1462-8902

VL - 23

SP - 2466

EP - 2475

JO - Diabetes, Obesity and Metabolism

JF - Diabetes, Obesity and Metabolism

IS - 11

ER -

Changes in plasma and urine metabolites associated with empagliflozin in patients with type 1 diabetes

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