Effect of liver growth factor on both testicular regeneration and recovery of spermatogenesis in busulfan-treated mice

Some adult stem cells persist in adult tissue; however, we do not know how to stimulate stem cells in adults to heal injuries. Liver growth factor (LGF) is a biliprotein with hepatic mitogen activity. Its concentration increases markedly in the presence of any type of liver injury, and it shows in v...

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Published inReproductive biology and endocrinology Vol. 9; no. 1; p. 21
Main Authors Pérez-Crespo, Miriam, Pericuesta, Eva, Pérez-Cerezales, Serafín, Arenas, Maria I, Lobo, Maria V T, Díaz-Gil, Juan J, Gutierrez-Adan, Alfonso
Format Journal Article
LanguageEnglish
Published England BioMed Central Ltd 04.02.2011
BioMed Central
BMC
Subjects
Animals
Bilirubin - pharmacology
Busulfan
Busulfan - pharmacology
Cell growth
Cytotoxicity
Experiments
Growth factors
Health aspects
Infertility
Male
Methodology
Mice
Motility
Physiological aspects
Proteins
Regeneration - drug effects
Rodents
Seminiferous Tubules - drug effects
Seminiferous Tubules - pathology
Serum Albumin - pharmacology
Serum Albumin, Human
Sperm
Spermatogenesis
Spermatogenesis - drug effects
Spermatogenesis - physiology
Stem cells
Testis - cytology
Testis - drug effects
Testis - physiology
Spain
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Summary:Some adult stem cells persist in adult tissue; however, we do not know how to stimulate stem cells in adults to heal injuries. Liver growth factor (LGF) is a biliprotein with hepatic mitogen activity. Its concentration increases markedly in the presence of any type of liver injury, and it shows in vivo therapeutic biological activity at extrahepatic sites. We have analyzed the effect of LGF on the replenishment of germinal cells in the testes of mice injected with busulfan, a common cancer drug that also specifically affects germ line stem cells and spermatogonia. We determined the testicular and epididymal weight, spermatozoal concentration in the epididymis and sperm motility, and performed a histological analysis. Intraperitoneal administration of LGF was able to partially restore spermatogenesis, as well as sperm production and motility, in mice sterilized with busulfan. LGF treatment in busulfan-treated animals that have suffered a disruption of spermatogenesis can accelerate the reactivation of this process in most of the tubules, as shown in the histological analysis. Our results suggest a potential use of LGF in the mobilization of testicular stem cells and in the restoration of spermatogenesis after busulfan-induced damage to the testicular germinal epithelium.
ISSN:1477-7827
1477-7827
DOI:10.1186/1477-7827-9-21