INTRODUCTION: Liver growth factor (LGF) is a liver mitogen with regenerating and anti-fibrotic activity even at extrahepatic sites. We used LGF in a lung fibrosis model induced by cadmium chloride (CdCl(2)), to study its antifibrotic capacity. METHODS: Forty-two male Wistar rats were administered a single dose of 0.5ml/rat of CdCl2 0.025% (n=21) or the same volume of saline (control group, n=21). After 35 days, once a lesion was established, we started a 3 week treatment with LGF, after which we determined lung function--inspiratory capacity (IC), lung compliance (LC), forced vital capacity (FVC) and expiratory flow at 75% (FEF75%)-, lung morphometry--alveolar internal area (AIA), mean linear intersection (LM)-, and collagen (both by Sirius red and hydroxyproline residues) and elastin contents. RESULTS: Pulmonary fibrosis in CdCl(2) rats was characterized by a marked decrease in pulmonary function with respect to healthy controls -reductions of 28% in IC, 38% in CL, 31% in FVC, and 54% in FEF75%- which was partially recovered after LGF injection -18% IC, 27% CL, 19% FVC and 35% FEF75%-; increase in collagen and elastin contents -165% and 76%, respectively, in CdCl2 rats, versus 110% and 34% after LGF injection-; and increases in AIA and LM, partially reverted by LGF. CONCLUSIONS: Together, these data seem to demonstrate that LGF is able to improve lung function and partially reverts the increase in lung matrix proteins produced by CdCl(2) instillation. Copyright (c) 2009 SEPAR. Published by Elsevier Espana. All rights reserved.
INTRODUCTION: Liver growth factor (LGF) is a liver mitogen with regenerating and anti-fibrotic activity even at extrahepatic sites. We used LGF in a lung fibrosis model induced by cadmium chloride (CdCl(2)), to study its antifibrotic capacity. METHODS: Forty-two male Wistar rats were administered a single dose of 0.5ml/rat of CdCl2 0.025% (n=21) or the same volume of saline (control group, n=21). After 35 days, once a lesion was established, we started a 3 week treatment with LGF, after which we determined lung function--inspiratory capacity (IC), lung compliance (LC), forced vital capacity (FVC) and expiratory flow at 75% (FEF75%)-, lung morphometry--alveolar internal area (AIA), mean linear intersection (LM)-, and collagen (both by Sirius red and hydroxyproline residues) and elastin contents. RESULTS:Pulmonary fibrosis in CdCl(2)rats was characterized by a marked decrease in pulmonary function with respect to healthy controls -reductions of 28% in IC, 38% in CL, 31% in FVC, and 54% in FEF75%- which was partially recovered after LGF injection -18% IC, 27% CL, 19% FVC and 35% FEF75%-; increase in collagen and elastin contents -165% and 76%, respectively, in CdCl2rats, versus 110% and 34% after LGF injection-; and increases in AIA and LM, partially reverted by LGF. CONCLUSIONS: Together, these data seem to demonstrate that LGF is able to improve lung function and partially reverts the increase in lung matrix proteins produced by CdCl(2) instillation. Copyright (c) 2009 SEPAR. Published by Elsevier Espana. All rights reserved.
Authors: Jesús Villar; Nuria E Cabrera; Francisco Valladares; Milena Casula; Carlos Flores; Lluís Blanch; María Elisa Quilez; Norberto Santana-Rodríguez; Robert M Kacmarek; Arthur S Slutsky Journal: PLoS One Date: 2011-09-15 Impact factor: 3.240
Authors: Rafael Gonzalo-Gobernado; Lucia Calatrava-Ferreras; Juan Perucho; Diana Reimers; MarIa J Casarejos; Antonio S Herranz; Adriano Jimenez-Escrig; Juan J Diaz-Gil; Eulalia Bazan Journal: Recent Pat CNS Drug Discov Date: 2014
Authors: Jesús Villar; Nuria E Cabrera-Benítez; Angela Ramos-Nuez; Carlos Flores; Sonia García-Hernández; Francisco Valladares; Josefina López-Aguilar; Lluís Blanch; Arthur S Slutsky Journal: Crit Care Date: 2014-10-21 Impact factor: 9.097
Authors: Rafael Gonzalo-Gobernado; Juan Perucho; Manuela Vallejo-Muñoz; Maria José Casarejos; Diana Reimers; Adriano Jiménez-Escrig; Ana Gómez; Gonzalo M Ulzurrun de Asanza; Eulalia Bazán Journal: Int J Mol Sci Date: 2020-12-02 Impact factor: 5.923