# Targeting the Gut Microbiota: Mechanistic Investigation of Polyphenol Modulation of the Gut–Brain Axis in Alzheimer’s Disease

**Authors:** Zhenning Wang, Shanshan Ba, Man Li, Yuanyuan Wei, Yuenan Wang, Jianqin Mao, Yang Xiang, Dongdong Qin, Chuhua Zeng

PMC · DOI: 10.3390/ijms27020604 · 2026-01-07

## TL;DR

This paper reviews how polyphenols may help treat Alzheimer's by changing gut bacteria and improving gut-brain communication.

## Contribution

It compiles recent findings on how polyphenols interact with gut microbiota to influence Alzheimer's disease mechanisms.

## Key findings

- Polyphenols modulate gut microbiota to reduce neuroinflammation and amyloid beta in Alzheimer's.
- Gut microbiota influence polyphenol bioavailability and activity through metabolic conversion.
- Nanotechnology improves polyphenol delivery to the brain, enhancing their therapeutic potential.

## Abstract

Alzheimer’s disease (AD) represents an increasingly severe global health challenge. Recently, the role of the gut–brain axis in AD pathogenesis has garnered significant attention. Dysbiosis of the gut microbiota can exacerbate core pathologies such as neuroinflammation, amyloid beta (Aβ) deposition, and tau hyperphosphorylation through neural, endocrine, and immune pathways. Polyphenolic compounds have emerged as a focal point in neuroprotective research owing to their pronounced anti-inflammatory and antioxidant properties. Notably, polyphenols exert effects not only by directly influencing the central nervous system (CNS) but also through indirectly modulating the composition and function of the gut microbiota, thereby impacting bidirectional gut–brain communication. This dual mechanism offers a potential avenue for their application in the prevention and treatment of AD. This review aims to compile recent research on the relationship between polyphenols and the gut microbiota. We assessed the literature from PubMed, Google Scholar, and Web of Science databases, published from the establishment of the database to 24 November 2025. The keywords used include “Polyphenols”, “Gut–brain axis”, “Gut microbiota”, “Alzheimer’s disease”, “Epigallocatechin gallate”, “Quercetin”, “Curcumin”, “Ferulic acid”, “Resveratrol”, “Anthocyanin”, “Myricetin”, “Chlorogenic acid”, etc. This review discusses the various mechanisms by which polyphenols influence AD through modulating the gut microbiota. Polyphenols and gut microbiota exhibit critical bidirectional interactions. On one hand, the bioavailability and activity of polyphenols are highly dependent on metabolic conversion by gut microbiota. On the other hand, polyphenols selectively promote the proliferation of beneficial bacteria such as bifidobacteria and lactobacilli like prebiotics, while inhibiting the growth of pathogenic bacteria. This reshapes the intestinal microecology, enhances barrier function, and regulates beneficial metabolites. Utilizing a nanotechnology-based drug delivery system, the pharmacokinetic stability and brain targeting efficacy of polyphenols can be significantly enhanced, providing innovative opportunities for the targeted prevention and management of AD.

## Linked entities

- **Chemicals:** Epigallocatechin gallate (PubChem CID 1287), Quercetin (PubChem CID 5280343), Curcumin (PubChem CID 969516), Ferulic acid (PubChem CID 445858), Resveratrol (PubChem CID 5056), Anthocyanin (PubChem CID 145858), Myricetin (PubChem CID 5281672), Chlorogenic acid (PubChem CID 1794427)
- **Diseases:** Alzheimer’s disease (MONDO:0004975)

## Full-text entities

- **Genes:** MAPT (microtubule associated protein tau) [NCBI Gene 4137] {aka DDPAC, FTD1, FTDP-17, MAPTL, MSTD, MTBT1}, APP (amyloid beta precursor protein) [NCBI Gene 351] {aka AAA, ABETA, ABPP, AD1, APPI, CTFgamma}
- **Diseases:** inflammatory (MESH:D007249), AD (MESH:D000544), neuroinflammation (MESH:D000090862)
- **Chemicals:** Ferulic acid (MESH:C004999), Epigallocatechin gallate (MESH:C045651), Resveratrol (MESH:D000077185), Curcumin (MESH:D003474), Chlorogenic acid (MESH:D002726), prebiotics (MESH:D056692), Quercetin (MESH:D011794), Polyphenolic compounds (-), Myricetin (MESH:C040015), Polyphenol (MESH:D059808), Anthocyanin (MESH:D000872)

## Figures

2 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12841100/full.md

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Source: https://tomesphere.com/paper/PMC12841100