Seidy Z Castro-García1, Germán Chamorro-Cevallos1, Lucía Quevedo-Corona1, Mark F McCarty2, Rosa A Bobadilla-Lugo3. 1. Escuela Nacional de Ciencias Biológicas, Instituto Politécnico Nacional, Av. Wilfrido Massieu, Col. Zacatenco, Del. Gustavo A. Madero, Unidad Adolfo López Mateos, Ciudad de México C.P. 07738, Mexico. 2. Catalytic Longevity, 7831 Rush Rose Dr., Apt. 316, Carlsbad, CA 92009, USA. 3. Escuela Superior de Medicina, Instituto Politécnico Nacional, Plan de San Luis y Díaz Mirón s/n, Col. Casco de Santo Tomas, Del. Miguel Hidalgo, C.P. 11340 Ciudad de México, Mexico. Electronic address: rabobadilla@gmail.com.
Abstract
AIMS: Considering phycobiliproteins of Spirulina maxima has shown a wide margin of security in pregnant and non-pregnant animals as well as antioxidant properties, present study aimed to investigate if the cardiovascular and metabolic effects of an experimental model of preeclampsia can be prevented by the administration of this compound. MAIN METHODS: Subrenal aortic coarctation (SRAC) practiced to female Wistar rats of 8 weeks of age. Animals were divided randomly to conform non-pregnant and pregnant groups and pregnant with SRAC showed fetoplacental ischemia and were considered preeclamptic (PE). Groups were treated with saline solution (control group) or phycobiliproteins solution (100 mg/kg/day ig) for the last 7, 14 or 20 days of pregnancy. KEY FINDINGS: PE animals showed increased systolic blood pressure, weight gain, glucose and GTT as well as vascular contractility. Also, PE animals showed decreased SOD, GPx activities while MDA was increased. Phycobiliproteins oral treatment for 3 weeks significantly decreased systolic blood pressure and reestablished glucose, weight gain and vascular contractility as well as enzyme activities of PE rats to those of normal pregnant animals. SIGNIFICANCE: Our results show that phycobiliproteins can prevent the damage produced by fetoplacental ischemia and provides evidence of free radical species contribution to the physiopathology of the disease. Also, we conclude phycobiliproteins can be an alternative to reduce preeclampsia manifestations, however, more studies are recommended.
AIMS: Considering phycobiliproteins of Spirulina maxima has shown a wide margin of security in pregnant and non-pregnant animals as well as antioxidant properties, present study aimed to investigate if the cardiovascular and metabolic effects of an experimental model of preeclampsia can be prevented by the administration of this compound. MAIN METHODS:Subrenal aortic coarctation (SRAC) practiced to female Wistar rats of 8 weeks of age. Animals were divided randomly to conform non-pregnant and pregnant groups and pregnant with SRAC showed fetoplacental ischemia and were considered preeclamptic (PE). Groups were treated with saline solution (control group) or phycobiliproteins solution (100 mg/kg/day ig) for the last 7, 14 or 20 days of pregnancy. KEY FINDINGS: PE animals showed increased systolic blood pressure, weight gain, glucose and GTT as well as vascular contractility. Also, PE animals showed decreased SOD, GPx activities while MDA was increased. Phycobiliproteins oral treatment for 3 weeks significantly decreased systolic blood pressure and reestablished glucose, weight gain and vascular contractility as well as enzyme activities of PE rats to those of normal pregnant animals. SIGNIFICANCE: Our results show that phycobiliproteins can prevent the damage produced by fetoplacental ischemia and provides evidence of free radical species contribution to the physiopathology of the disease. Also, we conclude phycobiliproteins can be an alternative to reduce preeclampsia manifestations, however, more studies are recommended.