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TNF-α modulation by rice bran peptides: implications for gut microbiota stability and cognitive health in aging

Jianfei Mu, Qinlu Lin, Shuang Wang, Mingfeng Chen, Jian‐qiang Wang, Yajuan Chen, Yusheng Li, Ying Liang

2025npj Biofilms and Microbiomes15 citationsDOIOpen Access PDF

Abstract

Aging-related neuroinflammation drives cognitive decline; however, the mechanisms by which gut microbiota-modulating bioactive compounds, such as rice bran peptide KF-8, mitigate this process remain unclear. Here, KF-8 was shown to ameliorate age-related traits in aged mice by reshaping gut microbiota, notably by stabilizing Akkermansia muciniphila (AKK), to suppress systemic inflammation and cognitive deficits. Specifically, antibiotic-treated mice receiving KF-8 exhibited neuroinflammation and declined cognition. KF-8 and AKK synergistically attenuated pro-inflammatory pathways, particularly TNF-α, in the blood and in the hippocampus. While TNF-α antibodies mirrored KF-8's benefits, TNF-α recombinant protein negated KF-8's protective effects. Combined KF-8 and AKK interventions aligned with TNF-α antibody outcomes, underscoring TNF-α's pivotal role. Our findings reveal that KF-8 enhances healthy aging by modulating gut microbiota, sustaining AKK, and suppressing TNF-α-driven neuroinflammation, thereby rescuing cognitive function in aged mice.

Topics & Concepts

NeuroinflammationGut floraAkkermansia muciniphilaBiologyInflammationCognitionImmunologyAntibodyBranCognitive declineImmune systemFunction (biology)Recombinant DNAGut–brain axisMicrobiomeAkkermansiaPeptideWestern dietCreaturesFeeding behaviorEndocrinologyGut microbiota and healthProtein Hydrolysis and Bioactive PeptidesGABA and Rice Research
TNF-α modulation by rice bran peptides: implications for gut microbiota stability and cognitive health in aging | Litcius