Biological activity in vitro and in vivo of an in silico designed secretagogue peptide to be used in fish

Biological activity in vitro and in vivo of an in silico designed secretagogue peptide to be used in fish

In teleost fish, secretion of the growth hormone (GH) is regulated by several hypothalamic factors that are influenced by the physiological state of the animal. GH in fish is involved in many physiological processes that are not overtly growth-related such as: saltwater osmoregulation, antifreeze pr...

Full description

Bibliographic Details
Main Authors: Rebeca Martínez, Mario P Estrada, Kenia Ubieta, Fidel Herrera, Alina Forellat, Lázaro Gil, Reynold Morales, Aymee Oliva, Ania de la Nuez, Rolando Rodriguez, Osvaldo Reyes, Sonia González, Carlos Borroto
Format: Article
Language:English
Published: Elfos Scientiae
Series:Biotecnología Aplicada
Subjects:
secretagogo de la hormona de crecimiento
hormona de crecimiento
tilapia
peces teleósteos
ghrp-6
sistema inmune innato
larva de pez
Online Access:http://scielo.sld.cu/scielo.php?script=sci_arttext&pid=S1027-28522013000400010&lng=en&tlng=en
id doaj-b50aa421b2bc43508ae136a399ffedf6
record_format Article
spelling doaj-b50aa421b2bc43508ae136a399ffedf62020-11-25T03:04:08ZengElfos ScientiaeBiotecnología Aplicada1027-2852304320322S1027-28522013000400010Biological activity in vitro and in vivo of an in silico designed secretagogue peptide to be used in fishRebeca Martínez0Mario P Estrada1Kenia Ubieta2Fidel Herrera3Alina Forellat4Lázaro Gil5Reynold Morales6Aymee Oliva7Ania de la Nuez8Rolando Rodriguez9Osvaldo Reyes10Sonia González11Carlos Borroto12Centro de Ingeniería Genética y Biotecnología, CIGBCentro de Ingeniería Genética y Biotecnología, CIGBUniversidad de La HabanaCentro de Ingeniería Genética y Biotecnología, CIGBUniversidad de La HabanaCentro de Ingeniería Genética y Biotecnología, CIGBCentro de Ingeniería Genética y Biotecnología, CIGBCentro de Ingeniería Genética y Biotecnología, CIGBCentro de Ingeniería Genética y Biotecnología, CIGBCentro de Ingeniería Genética y Biotecnología, CIGBCentro de Ingeniería Genética y Biotecnología, CIGBCentro de Ingeniería Genética y Biotecnología, CIGBCentro de Ingeniería Genética y Biotecnología, CIGBIn teleost fish, secretion of the growth hormone (GH) is regulated by several hypothalamic factors that are influenced by the physiological state of the animal. GH in fish is involved in many physiological processes that are not overtly growth-related such as: saltwater osmoregulation, antifreeze protein synthesis, and the regulation of sexual maturation and immune functions. This study was conducted to characterize a decapeptide A233 (GKFDLSPEHQ) designed by molecular modeling to evaluate its function as a GH secretagogue (GHS). In pituitary cell culture, the peptide A233 induces GH secretion and it is also able to increase superoxide production in tilapia head-kidney leukocyte cultures. This effect is blocked by preincubation with the GHS receptor antagonist [D-Lys3]-GHRP6. Immunoneutralization of GH by addition of anti-tilapia GH monoclonal antibody blocked the stimulatory effect of A233 on superoxide production. These experiments suggest a GH-mediated mechanism for the action of A233. The in vivo biological action of the decapeptide was also demonstrated for growth stimulation in goldfish and tilapia larvae (p < 0.001). Superoxide dismutase levels, antiprotease activity, and lectin titer were enhanced in tilapia larvae treated with this novel molecule. The decapeptide A233 is able to function as GHS in teleosts and enhance parameters of the innate immune system in the fish larvae. This study won the Annual Award of the Academy of Sciences of Cuba in 2012.http://scielo.sld.cu/scielo.php?script=sci_arttext&pid=S1027-28522013000400010&lng=en&tlng=ensecretagogo de la hormona de crecimientohormona de crecimientotilapiapeces teleósteosghrp-6sistema inmune innatolarva de pez
collection DOAJ
language English
format Article
sources DOAJ
author Rebeca Martínez
Mario P Estrada
Kenia Ubieta
Fidel Herrera
Alina Forellat
Lázaro Gil
Reynold Morales
Aymee Oliva
Ania de la Nuez
Rolando Rodriguez
Osvaldo Reyes
Sonia González
Carlos Borroto
spellingShingle Rebeca Martínez
Mario P Estrada
Kenia Ubieta
Fidel Herrera
Alina Forellat
Lázaro Gil
Reynold Morales
Aymee Oliva
Ania de la Nuez
Rolando Rodriguez
Osvaldo Reyes
Sonia González
Carlos Borroto
Biological activity in vitro and in vivo of an in silico designed secretagogue peptide to be used in fish
Biotecnología Aplicada
secretagogo de la hormona de crecimiento
hormona de crecimiento
tilapia
peces teleósteos
ghrp-6
sistema inmune innato
larva de pez
author_facet Rebeca Martínez
Mario P Estrada
Kenia Ubieta
Fidel Herrera
Alina Forellat
Lázaro Gil
Reynold Morales
Aymee Oliva
Ania de la Nuez
Rolando Rodriguez
Osvaldo Reyes
Sonia González
Carlos Borroto
author_sort Rebeca Martínez
title Biological activity in vitro and in vivo of an in silico designed secretagogue peptide to be used in fish
title_short Biological activity in vitro and in vivo of an in silico designed secretagogue peptide to be used in fish
title_full Biological activity in vitro and in vivo of an in silico designed secretagogue peptide to be used in fish
title_fullStr Biological activity in vitro and in vivo of an in silico designed secretagogue peptide to be used in fish
title_full_unstemmed Biological activity in vitro and in vivo of an in silico designed secretagogue peptide to be used in fish
title_sort biological activity in vitro and in vivo of an in silico designed secretagogue peptide to be used in fish
publisher Elfos Scientiae
series Biotecnología Aplicada
issn 1027-2852
description In teleost fish, secretion of the growth hormone (GH) is regulated by several hypothalamic factors that are influenced by the physiological state of the animal. GH in fish is involved in many physiological processes that are not overtly growth-related such as: saltwater osmoregulation, antifreeze protein synthesis, and the regulation of sexual maturation and immune functions. This study was conducted to characterize a decapeptide A233 (GKFDLSPEHQ) designed by molecular modeling to evaluate its function as a GH secretagogue (GHS). In pituitary cell culture, the peptide A233 induces GH secretion and it is also able to increase superoxide production in tilapia head-kidney leukocyte cultures. This effect is blocked by preincubation with the GHS receptor antagonist [D-Lys3]-GHRP6. Immunoneutralization of GH by addition of anti-tilapia GH monoclonal antibody blocked the stimulatory effect of A233 on superoxide production. These experiments suggest a GH-mediated mechanism for the action of A233. The in vivo biological action of the decapeptide was also demonstrated for growth stimulation in goldfish and tilapia larvae (p < 0.001). Superoxide dismutase levels, antiprotease activity, and lectin titer were enhanced in tilapia larvae treated with this novel molecule. The decapeptide A233 is able to function as GHS in teleosts and enhance parameters of the innate immune system in the fish larvae. This study won the Annual Award of the Academy of Sciences of Cuba in 2012.
topic secretagogo de la hormona de crecimiento
hormona de crecimiento
tilapia
peces teleósteos
ghrp-6
sistema inmune innato
larva de pez
url http://scielo.sld.cu/scielo.php?script=sci_arttext&pid=S1027-28522013000400010&lng=en&tlng=en
work_keys_str_mv AT rebecamartinez biologicalactivityinvitroandinvivoofaninsilicodesignedsecretagoguepeptidetobeusedinfish
AT mariopestrada biologicalactivityinvitroandinvivoofaninsilicodesignedsecretagoguepeptidetobeusedinfish
AT keniaubieta biologicalactivityinvitroandinvivoofaninsilicodesignedsecretagoguepeptidetobeusedinfish
AT fidelherrera biologicalactivityinvitroandinvivoofaninsilicodesignedsecretagoguepeptidetobeusedinfish
AT alinaforellat biologicalactivityinvitroandinvivoofaninsilicodesignedsecretagoguepeptidetobeusedinfish
AT lazarogil biologicalactivityinvitroandinvivoofaninsilicodesignedsecretagoguepeptidetobeusedinfish
AT reynoldmorales biologicalactivityinvitroandinvivoofaninsilicodesignedsecretagoguepeptidetobeusedinfish
AT aymeeoliva biologicalactivityinvitroandinvivoofaninsilicodesignedsecretagoguepeptidetobeusedinfish
AT aniadelanuez biologicalactivityinvitroandinvivoofaninsilicodesignedsecretagoguepeptidetobeusedinfish
AT rolandorodriguez biologicalactivityinvitroandinvivoofaninsilicodesignedsecretagoguepeptidetobeusedinfish
AT osvaldoreyes biologicalactivityinvitroandinvivoofaninsilicodesignedsecretagoguepeptidetobeusedinfish
AT soniagonzalez biologicalactivityinvitroandinvivoofaninsilicodesignedsecretagoguepeptidetobeusedinfish
AT carlosborroto biologicalactivityinvitroandinvivoofaninsilicodesignedsecretagoguepeptidetobeusedinfish
_version_ 1724682726494175232

Similar Items