Hyperprolactinemia and Tau Pathology: Unravelling Neuroendocrine Dysregulation for Therapeutic Targeting.

BACKGROUND: Hyperprolactinemia, characterized by persistently elevated serum prolactin levels, is traditionally associated with reproductive and metabolic disturbances. Emerging evidence now implicates hyperprolactinemia in central nervous system dysfunction, particularly in the pathogenesis of neurodegenerative disorders. Chronic elevation of prolactin has been linked to tau pathology, a hallmark of Alzheimer's disease and related tauopathies, through mechanisms that promote tau hyperphosphorylation, microtubule destabilization, and neuronal compromise. METHODOLOGY: This systematic review assesses the evidence on hyperprolactinemia and tau pathology. The overall literature search was performed in PubMed, Scopus, and Web of Science with the help of certain keywords that included prolactin, tau protein, neuroinflammation, oxidative stress, and dopaminergic signaling. The studies were narrowed down to a set of pre-established inclusion and exclusion criteria (original research, molecular and clinical data, relevance to neuropsychiatric disorders, non-English articles, reviews, animal studies that did not have a translational relevance). A clear study selection procedure was used, with independent screening and consensus-based resolution. The results generalize molecular, transcriptomic, neuroimaging, and clinical data to assess mechanistic connections and treatment prospects. RESULTS: Neurons susceptible to tau accumulation under hyperprolactinemic states exhibit altered apoptotic signaling, impaired vesicular trafficking, and mitochondrial dysfunction. These disruptions correlate with increased neuroinflammation and oxidative stress, suggesting a mechanistic link between endocrine imbalance and tau-mediated neurotoxicity. Therapeutic agents such as dopamine agonists, selective kinase inhibitors, and prolactin receptor antagonists have the potential to restore neuroendocrine homeostasis and mitigate tau pathology. DISCUSSION: The findings underscore hyperprolactinemia as a modifiable risk factor for cognitive decline. The neuroendocrine-tau axis represents a critical interface where hormonal dysregulation may precipitate neurodegenerative cascades. Clinical implications in the manuscript include that prolactin may serve as a biomarker of an early neurodegenerative process and that its role in the treatment approach includes dopamine agonists, prolactin receptor antagonists, and kinase inhibitors. This simplified methodology will ensure the highlights are original and have translational implications beyond mere abstract repetition. CONCLUSION: Hyperprolactinemia-induced tau dysregulation presents novel opportunities for neuroprotective targeting. By bridging molecular mechanisms with clinical relevance, this review advocates for longitudinal studies to assess cognitive outcomes in hyperprolactinemic individuals. Emphasizing endocrine health may enhance cognitive resilience and inform future strategies for diagnosis, risk stratification, and therapeutic intervention in neurodegenerative diseases.