Comparison of the effects of growth hormone, insulin-like growth factor-I and fetal calf serum on mouse molar odontogenesis in vitro

Autor:	William G. Young, Hervé Lesot, M.R. Stevens, C.Z. Zhang, Michael J. Waters, Jean-Victor Ruch, C. Begue-Kirn
Rok vydání:	1995
Předmět:	Molar medicine.medical_specialty Cellular differentiation medicine.medical_treatment Mitosis Cell Count Growth hormone receptor Biology Culture Media Serum-Free Receptor IGF Type 1 Insulin-like growth factor Mice Organ Culture Techniques stomatognathic system Internal medicine medicine Animals Humans Odontometry Receptors Somatostatin Insulin-Like Growth Factor I General Dentistry Dental Papilla Fetus Growth factor Gene Expression Regulation Developmental Tooth Germ Cell Differentiation Signal Processing Computer-Assisted Cell Biology General Medicine In vitro Recombinant Proteins Culture Media Endocrinology Blood Otorhinolaryngology Odontogenesis Cattle Somatostatin
Zdroj:	Archives of oral biology. 40(9)
ISSN:	0003-9969
Popis:	The effects of growth hormone, its mediator insulin-like growth factor-I (IGF-I), and fetal calf serum on odontogenesis were compared to those of serum-free medium. Explanted, 16-day, fetal mouse first molar tooth germs in early bell stage were grown on semisolid, serum-free medium supplemented with ascorbic and retinoic acids. Recombinant human growth hormone at 50 or 100 ng/ml, IGF-I at 100 or 200 ng/ml, or fetal calf serum at 20% concentration were added to the media. Volumetric changes in serial sections of six tooth germs per treatment over 3 days of treatment (4, 5, 6 days in vitro) were compared by digitized morphometry. Mitotic indices were also compared and the cell densities of the dental papillae recorded. Qualitative ratings of differentiation were ascribed to each tooth germ by light microscopy. Differences in volume, mitotic activity and cell densities were found. The growth hormone-treated tooth germs were not larger than the serum-free ones but had increased mitotic indices and higher cell densities in the dental papillae. IGF-I-treated tooth germs had larger volumes than with all other treatments, e.g. germs treated with 200 ng/ml of IGF-I, after 6 days in culture, were significantly larger than with all other treatments (p < 0.01 - < 0.001). Whilst IGF-I-treated germs displayed the greatest extent of differentiation, growth hormone-treated germs also showed advanced differentiation compared to those on serum-free medium. These results suggest that growth hormone and IGF-I are involved in odontogenesis of murine teeth in vitro by affecting mitotic activity, tissue volume and cell differentiation. In conjunction with previous immunohistochemical studies that show expression of growth hormone receptor and IGF-I in developing teeth, these results provide evidence that both growth hormone and its mediator play a part in odontogenesis.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_dedup___::6ffd89300e8ece781b204c55b1691f7e https://pubmed.ncbi.nlm.nih.gov/8651883 Zobrazit plný text záznamu Full Text from ScienceDirect