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Unraveling the Mysteries of Antidiuretic Hormone: From Water Balance to Neurological Modulation
Tirath PandayAntidiuretic hormone (ADH), also known as vasopressin, has long been recognized for its pivotal role in regulating water balance by modulating renal water reabsorption. However, recent research has uncovered intriguing evidence suggesting that ADH’s influence extends far beyond the renal system, encompassing diverse neurological processes and signaling pathways. This comprehensive review aims to unravel the mysteries surrounding ADH by exploring its multifaceted functions, from its well-established role in water balance regulation to its emerging significance in neurological modulation. In the context of water balance, ADH acts on the renal collecting ducts, enhancing water reabsorption to concentrate urine and conserve water in response to changes in hydration status and extracellular fluid osmolarity. Dysregulation of ADH secretion or receptor signaling can lead to water balance disorders, such as diabetes insipidus and syndrome of inappropriate antidiuretic hormone (SIADH), which can have profound effects on an individual’s health. Remarkably, ADH’s presence and actions within various regions of the central nervous system have been increasingly recognized, indicating its involvement in neurobehavioral regulation and cognitive functions. Emerging studies suggest that ADH may influence social behaviors, memory formation, and stress response through interactions with specific brain circuits and neurotransmitter systems. This review integrates findings from renal and neurological research to shed light on the potential cross-talk between ADH’s actions in water balance regulation and neurological modulation. The presence of ADH in the brain suggests intricate interconnections between the renal and central nervous systems in maintaining overall homeostasis, raising intriguing questions about the integrated physiological responses to environmental challenges and stressors. The implications of ADH’s broader roles in neurological modulation are vast, offering potential therapeutic targets for neurological disorders. Understanding ADH’s neuroprotective effects may hold promise for addressing conditions related to social behavior deficits, memory impairments, and stress-related disorders.