<p>Spironolactone (SPR), a widely used potassium-sparing diuretic, frequently causes hyperkalemia, leading to significant cardiovascular and neurological complications. Taurine, a semi-essential amino acid with known antioxidant and neuroprotective effects, was hypothesized to mitigate these adverse effects. This study investigated taurine’s efficacy against SPR-induced hyperkalemia and associated cognitive dysfunction in a rat model. Adult male Sprague-Dawley rats were treated for four weeks with SPR, SPR + galantamine (an AChE inhibitor widely used in the treatment of Alzheimer’s disease), or SPR + varying concentrations of taurine, followed by assessment of cognitive, biochemical, and histopathological alterations. SPR administration significantly increased serum potassium levels (~7.5 mEq/L), induced cognitive deficits, disrupted neurotransmitter balance (e.g., altered GABA and glutamate levels), and caused reactive astrocytic swelling in key brain regions. Taurine demonstrated a dose-dependent protective effect against SPR-induced neurotoxicity by mitigating hyperkalemia and associated cognitive impairments. Biochemically, taurine restored neurotransmitter balance by increasing GABA and reducing the excitotoxic glutamate levels. Histological analysis further confirmed taurine’s neuroprotective effects, showing preserved cortical structures and reduced astrogliosis, especially at the highest concentration (5%). Our correlation analysis reveals complex regulatory mechanisms underlying neurotransmitter balance in the brain. These findings suggest taurine as a promising therapeutic agent for alleviating SPR-induced neurological side effects. Further studies are needed to explore taurine’s long-term effects and clinical applications in managing hyperkalemia-related cognitive dysfunctions.</p>

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Taurine Mitigates Spironolactone-Induced Hyperkalemia and Cognitive Dysfunction: A Biochemical and Histological Study in a Rat Model

  • Manal A. Babaker,
  • Naema Ibolgasm Alazabi,
  • Einas M. Yousef,
  • Shimaa A. Haredy,
  • Ayman Mohamed Algohary,
  • Dina F. Mansour,
  • Omar A. Ahmed-Farid

摘要

Spironolactone (SPR), a widely used potassium-sparing diuretic, frequently causes hyperkalemia, leading to significant cardiovascular and neurological complications. Taurine, a semi-essential amino acid with known antioxidant and neuroprotective effects, was hypothesized to mitigate these adverse effects. This study investigated taurine’s efficacy against SPR-induced hyperkalemia and associated cognitive dysfunction in a rat model. Adult male Sprague-Dawley rats were treated for four weeks with SPR, SPR + galantamine (an AChE inhibitor widely used in the treatment of Alzheimer’s disease), or SPR + varying concentrations of taurine, followed by assessment of cognitive, biochemical, and histopathological alterations. SPR administration significantly increased serum potassium levels (~7.5 mEq/L), induced cognitive deficits, disrupted neurotransmitter balance (e.g., altered GABA and glutamate levels), and caused reactive astrocytic swelling in key brain regions. Taurine demonstrated a dose-dependent protective effect against SPR-induced neurotoxicity by mitigating hyperkalemia and associated cognitive impairments. Biochemically, taurine restored neurotransmitter balance by increasing GABA and reducing the excitotoxic glutamate levels. Histological analysis further confirmed taurine’s neuroprotective effects, showing preserved cortical structures and reduced astrogliosis, especially at the highest concentration (5%). Our correlation analysis reveals complex regulatory mechanisms underlying neurotransmitter balance in the brain. These findings suggest taurine as a promising therapeutic agent for alleviating SPR-induced neurological side effects. Further studies are needed to explore taurine’s long-term effects and clinical applications in managing hyperkalemia-related cognitive dysfunctions.