OBJECTIVE: Although several types of stem cells have been isolated from rodent and human tissues, very few data exist on stem cell isolation from nonrodent animals, which seriously limits the advancement of stem cell biology and its ultimate translation to human clinical applications. Domestic cats are used frequently in biomedical research and are the preferred species for studies of normal physiology and disease, particularly in neuroscience. Therefore, the objective of this study was to characterize mesenchymal stem cells (MSC) from feline bone marrow for use in research on the application of stem cells to human health problems for which cats are the preferred model. METHODS: Mesenchymal stem cells from feline bone marrow were isolated by standard methodology developed for other species and characterized according to morphology, growth traits, cell-surface antigen profile, and differentiation repertoire in vitro. RESULTS: Feline mesenchymal stem cells exhibit a fibroblast-like morphology with bipolar or polygonal cell bodies and possess a cell-surface antigen profile similar to their rodent and human counterparts. Feline MSC exist at a frequency of 1 in 3.8 x 10(5) bone marrow mononuclear cells and are capable of differentiation to adipocytic, osteocytic, and neuronal phenotypes when exposed to appropriate induction media. CONCLUSIONS: Mesenchymal stem cells isolated from feline bone marrow possess several traits typical of MSC from other species. Characterization of feline mesenchymal stem cells will facilitate future studies of stem cell biology and therapeutics for which the domestic cat is an indispensable model.
OBJECTIVE: Although several types of stem cells have been isolated from rodent and human tissues, very few data exist on stem cell isolation from nonrodent animals, which seriously limits the advancement of stem cell biology and its ultimate translation to human clinical applications. Domestic cats are used frequently in biomedical research and are the preferred species for studies of normal physiology and disease, particularly in neuroscience. Therefore, the objective of this study was to characterize mesenchymal stem cells (MSC) from feline bone marrow for use in research on the application of stem cells to human health problems for which cats are the preferred model. METHODS: Mesenchymal stem cells from feline bone marrow were isolated by standard methodology developed for other species and characterized according to morphology, growth traits, cell-surface antigen profile, and differentiation repertoire in vitro. RESULTS: Feline mesenchymal stem cells exhibit a fibroblast-like morphology with bipolar or polygonal cell bodies and possess a cell-surface antigen profile similar to their rodent and human counterparts. Feline MSC exist at a frequency of 1 in 3.8 x 10(5) bone marrow mononuclear cells and are capable of differentiation to adipocytic, osteocytic, and neuronal phenotypes when exposed to appropriate induction media. CONCLUSIONS: Mesenchymal stem cells isolated from feline bone marrow possess several traits typical of MSC from other species. Characterization of feline mesenchymal stem cells will facilitate future studies of stem cell biology and therapeutics for which the domestic cat is an indispensable model.
Authors: Eleonora Iacono; Marco Cunto; Daniele Zambelli; Francesca Ricci; Pier Luigi Tazzari; Barbara Merlo Journal: Vet Res Commun Date: 2012-02-12 Impact factor: 2.459
Authors: Jaroslaw Staszkiewicz; Trivia P Frazier; Brian G Rowan; Bruce A Bunnell; Ernest S Chiu; Jeffrey M Gimble; Barbara Gawronska-Kozak Journal: Stem Cells Dev Date: 2010-01 Impact factor: 3.272
Authors: Tatiana I Samoylova; Douglas R Martin; Nancy E Morrison; Misako Hwang; Anna M Cochran; Alexandre M Samoylov; Henry J Baker; Nancy R Cox Journal: Metab Brain Dis Date: 2008-04-18 Impact factor: 3.584
Authors: Tomoyuki Okumura; Sophie S W Wang; Shigeo Takaishi; Shui Ping Tu; Vivian Ng; Russell E Ericksen; Anil K Rustgi; Timothy C Wang Journal: Lab Invest Date: 2009-10-19 Impact factor: 5.662