Exploring Immediate Photon Effects From 635 nm Light on Mitochondrial Bioenergetics

IF 2 3区物理与天体物理 Q3 BIOCHEMICAL RESEARCH METHODS

Journal of Biophotonics Pub Date : 2025-07-10 DOI:10.1002/jbio.202500162

Natasha F. Mezzacappo, Natalia M. Inada, Edilene S. Siqueira-Santos, José Dirceu Vollet-Filho, Roger F. Castilho, Michael L. Denton, Vanderlei S. Bagnato

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Abstract

Visible light primarily targets mitochondria at the cellular level, but photon interaction mechanisms are still not fully understood. This study examined the in vitro impacts of 635 nm laser irradiation using mitochondria isolated from mouse liver. Mitochondria samples were irradiated for 330 s inside the respirometer chamber, with delivered powers ranging from 100 to 800 mW, corresponding to power densities ranging from 31.6 to 211.7 mW/cm² inside the chamber. Analysis of real-time oxygen consumption showed an elevated proton leak during ATP synthase inhibition at 800 mW (211.7 mW/cm², 69.9 J/cm²), suggesting enhanced permeability of the mitochondrial inner membrane. Under different experimental conditions, post-irradiation analysis revealed increased basal respiration with 400 mW (129.1 mW/cm², 42.6 J/cm²) and 800 mW, along with increased susceptibility to Ca²⁺-triggered mitochondrial swelling. The investigation of mitochondrial bioenergetics demonstrated that red light induces transient and localized effects, highlighting the complexities of cellular and mitochondrial photostimulation mechanisms.

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探索635 nm光对线粒体生物能量学的即时光子效应。

可见光主要针对细胞水平的线粒体，但光子相互作用机制仍未完全了解。研究了635 nm激光照射对小鼠肝脏线粒体的体外影响。线粒体样品在呼吸计腔内照射330 s，输出功率为100至800 mW，对应于腔内功率密度为31.6至211.7 mW/cm2。实时耗氧量分析显示，在ATP合酶抑制800 mW （211.7 mW/cm2, 69.9 J/cm2）时，质子泄漏增加，表明线粒体内膜通透性增强。在不同的实验条件下，辐照后分析显示，400 mW （129.1 mW/cm2, 42.6 J/cm2）和800 mW的辐射增加了基础呼吸，同时增加了对Ca2+触发的线粒体肿胀的敏感性。线粒体生物能量学的研究表明，红光诱导瞬时和局部效应，突出了细胞和线粒体光刺激机制的复杂性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Biophotonics 生物-生化研究方法

CiteScore

5.70

自引率

7.10%

发文量

248

审稿时长

1 months

期刊介绍： The first international journal dedicated to publishing reviews and original articles from this exciting field, the Journal of Biophotonics covers the broad range of research on interactions between light and biological material. The journal offers a platform where the physicist communicates with the biologist and where the clinical practitioner learns about the latest tools for the diagnosis of diseases. As such, the journal is highly interdisciplinary, publishing cutting edge research in the fields of life sciences, medicine, physics, chemistry, and engineering. The coverage extends from fundamental research to specific developments, while also including the latest applications.