Abstract
The blood-brain barrier (BBB) is essential for maintaining brain homeostasis by regulating molecular exchange between the systemic circulation and the central nervous system. However, its dysfunction, often driven by peripheral inflammatory processes, has been increasingly linked to the development and progression of neurodegenerative diseases such as Alzheimer's and Parkinson's. Emerging evidence suggests that the gut-brain axis plays a key role in BBB integrity, with intestinal dysbiosis and chronic inflammation contributing to barrier disruption through immune and metabolic pathways. Furthermore, the selective vulnerability of specific brain regions to BBB dysfunction appears to be influenced by regional differences in vascularization, metabolic activity, and permeability, making certain areas more susceptible to neurodegenerative processes. This review explored the molecular mechanisms linking peripheral inflammation, gut microbiota, and BBB dysfunction, emphasizing their role in neurodegeneration. A comprehensive literature review was conducted using Web of Science, PubMed, Scopus, Wiley, ScienceDirect, and Medline, covering publications from 2015 to 2025. The findings highlight a complex interplay between gut microbiota-derived metabolites, immune signaling, and BBB permeability, underscoring the need for targeted interventions such as microbiome modulation, anti-inflammatory therapies, and advanced drug delivery systems. The heterogeneity of the BBB across different brain regions necessitates the development of region-specific therapeutic strategies. Despite advancements, critical knowledge gaps persist regarding the precise mechanisms underlying BBB dysfunction. Future research should leverage cutting-edge methodologies such as single-cell transcriptomics and organ-on-chip models to translate preclinical findings into effective clinical applications. Addressing these challenges will be crucial for developing personalized therapeutic approaches to mitigate the impact of BBB dysfunction in neurodegenerative diseases.