Publication date: Oct 10, 2024
Recent experimental and clinical data demonstrate a significant dysregulation of the gut microbiome in individuals with Parkinson’s disease (PD). With an immense influence on all aspects of physiology, this dysregulation has potential to directly or indirectly contribute to disease pathology. Experimental models have bridged these associations toward defined contributions, identifying various microbiome-dependent impacts to PD pathology. These studies have laid the foundation for human translation, examining whether certain members of the microbiome and/or whole restoration of the gut microbiome community can provide therapeutic benefit for people living with PD. Here, we review recent and ongoing clinically-focused studies that use microbiome-targeted therapies to limit the severity and progression of PD. Fecal microbiome transplants, prebiotic interventions, and probiotic supplementation are each emerging as viable methodologies to augment the gut microbiome and potentially limit PD symptoms. While still early, the data in the field to date support continued cross-talk between experimental systems and human studies to identify key microbial factors that contribute to PD pathologies.
Concepts | Keywords |
---|---|
Dysregulation | Gut-brain axis |
Neurotherapeutics | Microbiome |
Parkinson | Parkinson’s disease |
Probiotic | Therapeutics |
Transplants |
Semantics
Type | Source | Name |
---|---|---|
disease | MESH | Parkinson’s disease |
pathway | REACTOME | Translation |