EDITORIAL article
Front. Physiol.
Sec. Integrative Physiology
Volume 16 - 2025 | doi: 10.3389/fphys.2025.1665703
This article is part of the Research TopicUnraveling the Interconnected Dynamics of Exercise Metabolism, Environmental Stress, and Nutritional FactorsView all 6 articles
Editorial: Unraveling the Interconnected Dynamics of Exercise Metabolism, Environmental Stress, and Nutritional Factors
Provisionally accepted- 1Universidad Pontificia de Salamanca, Salamanca, Spain
- 2Universidad de Extremadura - Campus de Caceres, Cáceres, Spain
- 3Universidad Loyola Andalucia - Campus de Sevilla, Seville, Spain
- 4Juiz de Fora Federal University, Juiz de Fora, Brazil
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Human physiology operates within a complex triad: metabolic demands of physical exertion, environmental stressors, and nutritional inputs. This intricate interplay dictates performance, adaptation, and long-term health. Understanding these connections is vital for optimizing strategies in athletic training, clinical rehabilitation, and public health. This Research Topic explores how these factors converge, revealing novel insights into individualized interventions and mechanistic pathways. The contributions herein dissect hypoxia, fasting, and exercise modalities, collectively advancing our grasp of their synergistic or antagonistic roles.The Hypoxia-Exercise Nexus: Adaptation and Individuality Hypoxia, a potent environmental stressor, amplifies exercise-induced metabolic challenges but elicits highly variable responses. The study by Takei et al. on repeated sprint training in hypoxia (RSH) underscores this heterogeneity, revealing that peripheral oxygen saturation (SpO₂) during training directly influences mechanical work and subsequent performance gains in sprinters. Crucially, nearly 20% of athletes derived no benefit, highlighting the need for personalized hypoxia prescriptions based on real-time physiological feedback. Complementing this, Jiang et al. demonstrate that during highload resistance exercise under clamped hypoxia, severity matters: severe hypoxia (80% SpO₂) amplified lactate, growth hormone, and epinephrine responses 30 minutes postexercise compared to normoxia. Yet, the dominant stimulus remained the exercise itselfa reminder that environmental stress potentiates, but does not override, the primary metabolic signal. Translating these insights to health applications, Tee et al. combined moderate hypoxia (FiO₂=16.5%) with diverse exercise modalities in overweight adults. Sprint interval training (SIT) emerged as exceptionally efficient, improving post-exercise glucose regulation while being time-effective and well tolerated. This synergy of hypoxia and high-intensity exercise presents a practical strategy for metabolic health, particularly where time constraints limit traditional interventions. Further emphasizing hypoxia's strategic utility, Xie et al. validated preacclimatization via intermittent hypoxia exposure (IHE) paired with exercise, to bolster tolerance to acute hypoxia. A 5-day program integrating moderate exercise with IHE elevated SpO₂, reduced heart rate, and enhanced physical/mental performance at simulated 4500 m. Notably, it also alleviated acute mountain sickness (AMS) symptoms, establishing combined protocols as superior to passive hypoxia exposure for altitude readiness. Beyond environmental stressors, nutritional interventions like fasting recalibrate metabolic and signaling pathways. Juhas et al. investigated 8-day fasting and demonstrated profound shifts in kynurenine pathway metabolites, elevating neuroprotective compounds like kynurenic acid (KYNA) and xanthurenic acid (XA) at rest. Intriguingly, exercise post-fasting uniquely reduced metabolites linked to oxidative stress (3-hydroxyanthranilic acid), suggesting fasting may prime the body for exercise-induced redox regulation. These findings position fasting as a tool to amplify exercise's health benefits through gut-brainaxis communication. Collectively, these studies illuminate three pillars: (a) Individualization is non-negotiable. Future research should prioritize longitudinal studies to discern chronic adaptations, explore nutritional timing (e.g., fasting windows around exercise), and leverage omics technologies to map cross-talk between metabolic, immune, and neuroendocrine pathways. Additionally, expanding diversity in cohorts; particularly including female participants and clinical populations; will refine translational relevance. The work presented in this Topic transcends disciplinary silos, offering a scaffold for integrated approaches to human performance and health. As we unravel these dynamics, we move closer to precision interventions that harness environmental and nutritional stressors not as adversaries, but as allies in optimizing resilience.Author contributions: CJB: Writing -review and editing, Writing -original draft. IBS: review and editing. VTR: review and editing. JSC: review and editing. Funding: The author(s) declare that no financial support was received for the research and/or publication of this article. The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. Generative AI statement The author(s) declare that no Generative AI was used in the creation of this manuscript. *Correspondence: Federal University of Juiz de Fora -campus Governador Valadares, São Paulo st., 745,Governador Valadares,Minas Gerais,Brazil. ciro.brito@ufjf.br
Keywords: Exercise, Metabolism, environment, nutrtion, stress
Received: 14 Jul 2025; Accepted: 21 Jul 2025.
Copyright: © 2025 Bartolomé Sánchez, Toro-Román, Siquier-Coll and Brito. This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) or licensor are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
* Correspondence: Ciro José Brito, Juiz de Fora Federal University, Juiz de Fora, Brazil
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