Scientific Reports (Aug 2023)

Hyperfructosemia in sleep disordered breathing: metabolome analysis of Nagahama study

  • Yoshinari Nakatsuka,
  • Kimihiko Murase,
  • Kazuhiro Sonomura,
  • Yasuharu Tabara,
  • Tadao Nagasaki,
  • Satoshi Hamada,
  • Takeshi Matsumoto,
  • Takuma Minami,
  • Osamu Kanai,
  • Hirofumi Takeyama,
  • Hironobu Sunadome,
  • Naomi Takahashi,
  • Isuzu Nakamoto,
  • Kiminobu Tanizawa,
  • Tomohiro Handa,
  • Taka-Aki Sato,
  • Naoko Komenami,
  • Tomoko Wakamura,
  • Satoshi Morita,
  • Osamu Takeuchi,
  • Takeo Nakayama,
  • Toyohiro Hirai,
  • Yoichiro Kamatani,
  • Fumihiko Matsuda,
  • Kazuo Chin

DOI
https://doi.org/10.1038/s41598-023-40002-1
Journal volume & issue
Vol. 13, no. 1
pp. 1 – 12

Abstract

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Abstract Sleep disordered breathing (SDB), mainly obstructive sleep apnea (OSA), constitutes a major health problem due to the large number of patients. Intermittent hypoxia caused by SDB induces alterations in metabolic function. Nevertheless, metabolites characteristic for SDB are largely unknown. In this study, we performed gas chromatography-mass spectrometry-based targeted metabolome analysis using data from The Nagahama Study (n = 6373). SDB-related metabolites were defined based on their variable importance score in orthogonal partial least squares discriminant analysis and fold changes in normalized peak-intensity levels between moderate-severe SDB patients and participants without SDB. We identified 20 metabolites as SDB-related, and interestingly, these metabolites were frequently included in pathways related to fructose. Multivariate analysis revealed that moderate-severe SDB was a significant factor for increased plasma fructose levels (β = 0.210, P = 0.006, generalized linear model) even after the adjustment of confounding factors. We further investigated changes in plasma fructose levels after continuous positive airway pressure (CPAP) treatment using samples from patients with OSA (n = 60) diagnosed by polysomnography at Kyoto University Hospital, and found that patients with marked hypoxemia exhibited prominent hyperfructosemia and their plasma fructose levels lowered after CPAP treatment. These data suggest that hyperfructosemia is the abnormality characteristic to SDB, which can be reduced by CPAP treatment.