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The Emerging Role of Autophagy as a Target of Environmental Pollutants: An Update on Mechanisms

Journal

TOXICS
Volume 11, Issue 2, Pages -

Publisher

MDPI
DOI: 10.3390/toxics11020135

Keywords

environmental exposure; autophagy; toxic materials; autophagosome; pesticides; particulate matter; nanoparticles

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Autophagy is a crucial cellular system that protects cells from various stresses. Environmental contaminants can influence autophagic flux in different ways, either enhancing, preventing, or converting its function. Increasing autophagy can improve stress resistance, while suppressing it can increase or decrease toxicity. Selective autophagy is utilized to eliminate harmful substances without damaging cytosolic components. Understanding the impacts of environmental exposure on autophagy provides new approaches for risk assessment and protection against environmental contaminants.
Autophagy is an evolutionarily conserved cellular system crucial for cellular homeostasis that protects cells from a broad range of internal and extracellular stresses. Autophagy decreases metabolic load and toxicity by removing damaged cellular components. Environmental contaminants, particularly industrial substances, can influence autophagic flux by enhancing it as a protective response, preventing it, or converting its protective function into a pro-cell death mechanism. Environmental toxic materials are also notorious for their tendency to bioaccumulate and induce pathophysiological vulnerability. Many environmental pollutants have been found to influence stress which increases autophagy. Increasing autophagy was recently shown to improve stress resistance and reduce genetic damage. Moreover, suppressing autophagy or depleting its resources either increases or decreases toxicity, depending on the circumstances. The essential process of selective autophagy is utilized by mammalian cells in order to eliminate particulate matter, nanoparticles, toxic metals, and smoke exposure without inflicting damage on cytosolic components. Moreover, cigarette smoke and aging are the chief causes of chronic obstructive pulmonary disease (COPD)-emphysema; however, the disease's molecular mechanism is poorly known. Therefore, understanding the impacts of environmental exposure via autophagy offers new approaches for risk assessment, protection, and preventative actions which will counter the harmful effects of environmental contaminants on human and animal health.

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