Ethnopharmacological relevance: Depression is a complex and debilitating mental health disorder with significant biological, social, and personal well-being. Drymaria cordata Willd. ex Schult (D. cordata) is a medicinal herb traditionally used in folk medicine to treat various ailments, including headaches, convulsions, bronchitis, and ocular disorders. It has also demonstrated several central nervous system (CNS)-related activities, such as anxiolytic, analgesic, anti-nociceptive, antitussive, and anti-amnesic effects. These properties suggest a possible role in neuropsychiatric modulation, warranting exploration of its potential relevance to depression.
Aim of the review: This review aims to evaluate the putative antidepressant potential of D. cordata by examining its bioactive constituents and their known effects on neuroinflammatory and neurotransmitter-related pathways.
Materials and methods: A comprehensive literature review was conducted using scientific databases to gather information on D. cordata's phytochemical profile, ethnomedical uses, and CNS-related effects. Data from studies related to neuroinflammation and depression-associated signaling pathways were analyzed to hypothesize mechanistic links between D. cordata's bioactives and possible antidepressant actions.
Observations: Neuroinflammation has been widely implicated in the pathophysiology of depression, with elevated levels of pro-inflammatory cytokines such as IL-1β, IL-6, and TNF-α reported in clinical and preclinical studies. Among various immune components, microglial activation is recognized as a significant contributor to the release of inflammatory mediators that can disrupt neuronal function. Several bioactive compounds identified in D. cordata, including spinasterol, stigmasterol, neophytadiene, and p-coumaric acid, have demonstrated anti-inflammatory and neuroprotective effects in other experimental models. Although these effects have not been directly evaluated in depression models, they provide a theoretical basis for potential antidepressant activity via modulation of neuroinflammatory and neurotransmission pathways.
Conclusions: To date, no direct in vivo or in vitro studies have evaluated the antidepressant effects of D. cordata. However, its phytoconstituents exhibit pharmacological properties that could be relevant to depression treatment. This review provides an evidence-based rationale for considering D. cordata in future experimental studies focused on its antidepressant potential.
Keywords: Bioactive compounds; D. cordata; Depression; Ethnobotany; Neuroinflammation; Neuropharmacology; Neuroprotection; Phytotherapy; Traditional medicine.
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