Las ficobiliproteínas de Spirulina maxima y Pseudanabaena tenuis protegen contra el daño hepático y el estrés oxidativo ocasionado por el Hg2+

Carlos Ángel Gallardo C; Edgar Cano E; Gabriel Eduardo López G; Vanessa Blas V; Roxana Olvera R; Margarita Franco C; Rocío Ortiz Butrón

Las ficobiliproteínas de Spirulina maxima y Pseudanabaena tenuis protegen contra el daño hepático y el estrés oxidativo ocasionado por el Hg²⁺

Carlos Ángel Gallardo C, Edgar Cano E, Gabriel Eduardo López G, Vanessa Blas V, Roxana Olvera R, Margarita Franco C, Rocío Ortiz Butrón

Escuela Nacional de Ciencias Biológicas (ENCB)

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5 Citas (Scopus)

Resumen

The aim of this work was to evaluate if phycobiliproteins of P. tenuis y S. maxima protect from the hepatic damage and oxidative stress caused by Hg ²⁺. There were used 42 adult male mice, divided in: 1) control; 2) buffer phosphates (BP) + 5 mg/Kg of HgCl₂ (ip); 3) BP + protean extract (PE) with 100 mg/kg of Spirulina maxima phycobiliproteins (ig); 4) BP + protean extract with 100 mg/kg of Pseudanabena tenuis phycobiliproteins (ig). The mice were sacrificed and the liver was obtained. LP, ROS, catalase and glutathione peroxidase were quantified, and histological analysis was made. It was found that phycobiliproteins from two cyanobacterias avoid the increase of LP and ROS, and they induced a rise of catalase that protects hepatic tissue damage caused by Hg²⁺.

Título traducido de la contribución	Phycobiliproteins from Spirulina maxima and Pseudanabaena tenuis protect against hepatic damage and oxidative stress caused by Hg²⁺
Idioma original	Español
Páginas (desde-hasta)	30-35
Número de páginas	6
Publicación	Revista Mexicana de Ciencias Farmaceuticas
Volumen	41
N.º	2
Estado	Publicada - abr. 2010

Palabras clave

Liver protection
Mercuric ion and oxidative stress
Phycobiliproteins

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title = "Las ficobiliprote{\'i}nas de Spirulina maxima y Pseudanabaena tenuis protegen contra el da{\~n}o hep{\'a}tico y el estr{\'e}s oxidativo ocasionado por el Hg2+",

abstract = "The aim of this work was to evaluate if phycobiliproteins of P. tenuis y S. maxima protect from the hepatic damage and oxidative stress caused by Hg 2+. There were used 42 adult male mice, divided in: 1) control; 2) buffer phosphates (BP) + 5 mg/Kg of HgCl2 (ip); 3) BP + protean extract (PE) with 100 mg/kg of Spirulina maxima phycobiliproteins (ig); 4) BP + protean extract with 100 mg/kg of Pseudanabena tenuis phycobiliproteins (ig). The mice were sacrificed and the liver was obtained. LP, ROS, catalase and glutathione peroxidase were quantified, and histological analysis was made. It was found that phycobiliproteins from two cyanobacterias avoid the increase of LP and ROS, and they induced a rise of catalase that protects hepatic tissue damage caused by Hg2+.",

keywords = "Liver protection, Mercuric ion and oxidative stress, Phycobiliproteins",

author = "{Gallardo C}, {Carlos {\'A}ngel} and {Cano E}, Edgar and {L{\'o}pez G}, {Gabriel Eduardo} and {Blas V}, Vanessa and {Olvera R}, Roxana and {Franco C}, Margarita and {Ortiz Butr{\'o}n}, Roc{\'i}o",

year = "2010",

month = apr,

language = "Espa{\~n}ol",

volume = "41",

pages = "30--35",

journal = "Revista Mexicana de Ciencias Farmaceuticas",

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number = "2",

}

Las ficobiliproteínas de Spirulina maxima y Pseudanabaena tenuis protegen contra el daño hepático y el estrés oxidativo ocasionado por el Hg²⁺. / Gallardo C, Carlos Ángel; Cano E, Edgar; López G, Gabriel Eduardo et al.
En: Revista Mexicana de Ciencias Farmaceuticas, Vol. 41, N.º 2, 04.2010, p. 30-35.

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

TY - JOUR

T1 - Las ficobiliproteínas de Spirulina maxima y Pseudanabaena tenuis protegen contra el daño hepático y el estrés oxidativo ocasionado por el Hg2+

AU - Gallardo C, Carlos Ángel

AU - Cano E, Edgar

AU - López G, Gabriel Eduardo

AU - Blas V, Vanessa

AU - Olvera R, Roxana

AU - Franco C, Margarita

AU - Ortiz Butrón, Rocío

PY - 2010/4

Y1 - 2010/4

N2 - The aim of this work was to evaluate if phycobiliproteins of P. tenuis y S. maxima protect from the hepatic damage and oxidative stress caused by Hg 2+. There were used 42 adult male mice, divided in: 1) control; 2) buffer phosphates (BP) + 5 mg/Kg of HgCl2 (ip); 3) BP + protean extract (PE) with 100 mg/kg of Spirulina maxima phycobiliproteins (ig); 4) BP + protean extract with 100 mg/kg of Pseudanabena tenuis phycobiliproteins (ig). The mice were sacrificed and the liver was obtained. LP, ROS, catalase and glutathione peroxidase were quantified, and histological analysis was made. It was found that phycobiliproteins from two cyanobacterias avoid the increase of LP and ROS, and they induced a rise of catalase that protects hepatic tissue damage caused by Hg2+.

AB - The aim of this work was to evaluate if phycobiliproteins of P. tenuis y S. maxima protect from the hepatic damage and oxidative stress caused by Hg 2+. There were used 42 adult male mice, divided in: 1) control; 2) buffer phosphates (BP) + 5 mg/Kg of HgCl2 (ip); 3) BP + protean extract (PE) with 100 mg/kg of Spirulina maxima phycobiliproteins (ig); 4) BP + protean extract with 100 mg/kg of Pseudanabena tenuis phycobiliproteins (ig). The mice were sacrificed and the liver was obtained. LP, ROS, catalase and glutathione peroxidase were quantified, and histological analysis was made. It was found that phycobiliproteins from two cyanobacterias avoid the increase of LP and ROS, and they induced a rise of catalase that protects hepatic tissue damage caused by Hg2+.

KW - Liver protection

KW - Mercuric ion and oxidative stress

KW - Phycobiliproteins

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