Immunonutrition: future perspective in neurodegenerative disorders.

Abstract

The relevance of lifestyle, including diet and exercise, has been associated with improved learning and memory capacity, delayed age-related cognitive decline, and a reduced risk of neurodegeneration. Most neurodegenerative diseases are defined as complex multifactorial disorders in which genetic and environmental factors greatly contribute to their onset. Although inflammatory cells produce reactive oxygen species (ROS), oxidative stress itself might exert pro-inflammatory effects and an uncontrolled response could lead to a state of chronic inflammation. Anti-inflammatory dietary approaches unify the disciplines of nutrition, immunity, and neurology. Personalized dietary interventions will be developed based on an individual's genetic makeup, metabolic profile, and gut microbiota composition, thanks to advances in genomics, metabolomics, and microbiome research. The relevance of dietary patterns in decreasing inflammation relies on the role of specific antioxidant nutrients, which might contribute to a decrease in the levels of ROS. This review aims to summarize recent advancements in neuroscience and immunology that have revealed the crucial role that diet and the immune system play in brain function and disease progression. Nutrition influences the immune system, and in turn, the immune system impacts neurological health. This bidirectional relationship suggests that targeted nutritional interventions could modulate immune responses to delay or mitigate the progression of neurodegenerative diseases potentially. This approach focuses on the use of specific nutrients and dietary components that influence the immune system and inflammatory pathway. Key elements of immunonutrition include omega-3 fatty acids, antioxidants, vitamins and various bioactive compounds found in foods.