Anti-virus activity and mechanisms of natural polysaccharides from medicinal herbs.

Publication date: Aug 01, 2024

There has been a sudden increase in viral diseases, such as coronavirus disease 2019 (COVID-19), causing significant harm to human and animal well-being, as well as economic development. Medicinal herbs, with a history of thousands of years in clinical use, contain versatile polysaccharides as one of their primary compounds. This review offers an overview of the antiviral effects of polysaccharides from medicinal herbs on viruses in humans, poultry, swine and aquaculture in recent years. The mechanism of these antiviral polysaccharides, involved in hindering various stages of the viral life cycle thereby blocking virus infection, is summarized. The review also explores other underlying mechanisms of antiviral effects, such as enhancing the immune response, regulating inflammatory reactions, balancing gut flora, reducing oxidative stress, and suppressing apoptosis through various corresponding signaling pathways. The structure-function relationships discussed in this article also aid in understanding the antiviral mechanism of natural polysaccharides, indicating the need for more in-depth research and analysis. Natural polysaccharides from medicinal herbs have emerged as valuable resources in the fight against viral infections, exhibiting high effectiveness. This review emphasizes the promising role of polysaccharides from medicinal herbs as potential candidates for blocking viral infections in humans and animals.

Concepts Keywords
Antiviral Animals
Aquaculture Anti-virus activity
Coronavirus Antiviral Agents
Covid Antiviral Agents
Valuable COVID-19 Drug Treatment
Humans
Mechanisms
Medicinal herbs
Natural polysaccharides
Plants, Medicinal
Polysaccharides
Polysaccharides
SARS-CoV-2

Semantics

Type Source Name
disease MESH viral diseases
disease MESH coronavirus disease 2019
disease IDO history
disease VO Viruses
pathway KEGG Viral life cycle
disease IDO immune response
disease MESH oxidative stress
pathway KEGG Apoptosis
disease VO effectiveness

Original Article

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