Ghrelin (Ghre), a gut-brain peptide hormone, plays an important role in the entire olfactory system and in food behavior regulation. In the last years, it has aroused particular interest for its antioxidant, anti-inflammatory and anti-apoptotic properties. Our previous research showed that Ghre and its receptor are expressed by peculiar glial cells of the olfactory system: Olfactory Ensheathing Cells (OECs). These cells are able to secrete different neurotrophic factors, promote axonal growth and show stem cell characteristics. The aim of this work was study, in an in vitro model, the effect of Ghre on both cell viability and the expression of some neural markers, such as Nestin (Ne), Glial Fibrillary Acid Protein (GFAP), Neuregulin (Neu) and ?-III-tubulin (Tuj1) in primary mouse OEC cultures. The MTT test and immunocytochemical procedures were used to highlight cell viability and marker expression, respectively. Our results demonstrate that Ghre, after seven days of treatment, exerted a positive effect stimulating OEC viability compared with cells without Ghre treatment. In addition, Ghre was able to modify the expression of some biomarkers, increasing Neu and Tuj-1 expression, while GFAP was constant; on the contrary, the presence of positive Ne cells was drastically reduced after seven days, and this showed a loss of stem cell characteristic and therefore the possible orientation towards an adult neural phenotype.
Effects of Ghrelin on Olfactory Ensheathing Cell viability and neural marker expression
Rosalia Pellitteri
2021
Abstract
Ghrelin (Ghre), a gut-brain peptide hormone, plays an important role in the entire olfactory system and in food behavior regulation. In the last years, it has aroused particular interest for its antioxidant, anti-inflammatory and anti-apoptotic properties. Our previous research showed that Ghre and its receptor are expressed by peculiar glial cells of the olfactory system: Olfactory Ensheathing Cells (OECs). These cells are able to secrete different neurotrophic factors, promote axonal growth and show stem cell characteristics. The aim of this work was study, in an in vitro model, the effect of Ghre on both cell viability and the expression of some neural markers, such as Nestin (Ne), Glial Fibrillary Acid Protein (GFAP), Neuregulin (Neu) and ?-III-tubulin (Tuj1) in primary mouse OEC cultures. The MTT test and immunocytochemical procedures were used to highlight cell viability and marker expression, respectively. Our results demonstrate that Ghre, after seven days of treatment, exerted a positive effect stimulating OEC viability compared with cells without Ghre treatment. In addition, Ghre was able to modify the expression of some biomarkers, increasing Neu and Tuj-1 expression, while GFAP was constant; on the contrary, the presence of positive Ne cells was drastically reduced after seven days, and this showed a loss of stem cell characteristic and therefore the possible orientation towards an adult neural phenotype.File | Dimensione | Formato | |
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