Abstract
Major depressive disorder (MDD) is a multifaceted psychiatric disorder that has been a longstanding focus of research. However, its underlying mechanisms remain underexplored. Recently, the inflammatory hypothesis has gained attention, highlighting inflammation's role in MDD progression. Potential contributors to increased systemic inflammation in MDD include hyperactivation of the hypothalamic-pituitary-adrenal axis, dysregulation of the sympathetic nervous system, gut microbiota imbalances, the "pathogen host defense" hypothesis, and damage-associated molecular patterns. Traditional pathways explaining how systemic inflammation affects the central nervous system (CNS) do not fully account for the observed desynchrony between systemic and neuroinflammation in most depressed individuals. Alternative models suggest mechanisms such as reduced blood-brain barrier permeability and the involvement of immune cells from the skull. This review examines the link between inflammation and MDD, focusing on systemic and neuroinflammation interactions, with special emphasis on the heterogeneity of MDD symptoms and the potential impact of dysfunction in the brain's lymphatic system. Gaining insight into the origins of inflammation in both the central nervous system and the peripheral body, along with their interactions, offers an important understanding of the inflammatory mechanisms associated with MDD for future treatment.