Foods (Aug 2024)

Vasorelaxant Effect and Blood Pressure Reduction Potential of Pitaya Juice Concentrate (<i>Stenocereus huastecorum</i>) Associated with Calcium Channel Blockade

  • Yadira Ramírez-Rodríguez,
  • Ricardo Espinosa-Tanguma,
  • Juan Roberto Valle-Aguilera,
  • Aldo A. Rodríguez-Menchaca,
  • Nadia Saderi,
  • Roberto Salgado-Delgado,
  • Elihú Bautista,
  • Luis Garcés,
  • Victoria Ramírez,
  • Karina Robledo-Márquez,
  • Lina Riego-Ruiz,
  • Joyce Trujillo

DOI
https://doi.org/10.3390/foods13162631
Journal volume & issue
Vol. 13, no. 16
p. 2631

Abstract

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Arterial hypertension is a highly prevalent chronic disease worldwide, with several etiologies and treatments that may eventually have side effects or result in patients developing tolerance. There is growing interest in traditional medicine and functional foods to isolate biomolecules that could be useful as coadjuvants for treating several aliments. Pitaya, a desert fruit endemic in Mexico, is a rich source of bioactive molecules (betalains and phenolic compounds). In this work, the vasorelaxation properties of pitaya juice concentrate and fraction one were investigated using aortic and mesenteric rings from rats. The incubation of rings with pitaya juice concentrate or fraction one induced significant vasorelaxation, independent of the endothelium, and showed resistance to potassium channel blockers. This vasorelaxation was associated with the transmembrane influx of extracellular calcium through the vascular smooth muscle cells, with an inhibitory effect on the voltage-dependent calcium channel currents. Also, 400 mg/mL of pitaya juice concentrate in spontaneous hypertensive rats reduced their blood pressure for 48 h. Phytochemical analyses showed that the primary compounds in F1 were glycosidic in nature, and could be a complex mixture of disaccharides, dimeric disaccharides, or even tetrasaccharides. The glycosidic compounds found in F1 primarily contributed to vasodilatation, establishing a voltage-dependent calcium channel inhibition as a possible molecular target.

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