Characterization of human adult stem-cell populations isolated from visceral and subcutaneous adipose tissue

Adipose tissue is a dynamic endocrine organ with a central role in metabolism regulation. Functional differences in adipose tissue seem associated with the regional distribution of fat depots, in particular in subcutaneous and visceral omental pads. Here, we report for the first time the isolation o...

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Published in	The FASEB journal Vol. 23; no. 10; pp. 3494 - 3505
Main Authors	Baglioni, Silvana, Francalanci, Michela, Squecco, Roberta, Lombardi, Adriana, Cantini, Giulia, Angeli, Roberta, Gelmini, Stefania, Guasti, Daniele, Benvenuti, Susanna, Annunziato, Francesco, Bani, Daniele, Liotta, Francesco, Francini, Fabio, Perigli, Giuliano, Serio, Mario, Luconi, Michaela
Format	Journal Article
Language	English
Published	United States The Federation of American Societies for Experimental Biology 01.10.2009
Subjects	Adipose Tissue - cytology Adult Stem Cells - cytology Adult Stem Cells - physiology Cell Differentiation Cell Lineage Cell Separation Cells, Cultured Colon - cytology Humans Pluripotent Stem Cells - cytology Pluripotent Stem Cells - physiology Skin - cytology Viscera - cytology
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ISSN	0892-6638 1530-6860
DOI	10.1096/fj.08-126946

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Abstract	Adipose tissue is a dynamic endocrine organ with a central role in metabolism regulation. Functional differences in adipose tissue seem associated with the regional distribution of fat depots, in particular in subcutaneous and visceral omental pads. Here, we report for the first time the isolation of human adipose-derived adult stem cells from visceral omental and subcutaneous fat (V-ASCs and S-ASCs, respectively) from the same subject. Immunophenotyping shows that plastic culturing selects homogeneous cell populations of V-ASCs and S-ASCs from the corresponding stromal vascular fractions (SVFs), sharing typical markers of mesenchymal stem cells. Electron microscopy and electrophysiological and real-time RT-PCR analyses confirm the mesenchymal stem nature of both V-ASCs and S-ASCs, while no significant differences in a limited pattern of cytokine/chemokine expression can be detected. Similar to S-ASCs, V-ASCs can differentiate in vitro toward adipogenic, osteogenic, chondrogenic, muscular, and neuronal lineages, as demonstrated by histochemical, immunofluorescence, real-time RT-PCR, and electrophysiological analyses, suggesting the multipotency of such adult stem cells. Our data demonstrate that both visceral and subcutaneous adipose tissues are a source of pluripotent stem cells with multigermline potential. However, the visceral rather than the subcutaneous ASC could represent a more appropriate in vitro cell model for investigating the molecular mechanisms implicated in the pathophysiology of metabolic disorders such as obesity.--Baglioni, S., Francalanci, M., Squecco, R., Lombardi, A., Cantini, G., Angeli, R., Gelmini, S., Guasti, D., Benvenuti, S., Annunziato, F., Bani, D., Liotta, F., Francini, F., Perigli, G., Serio, M., Luconi, M. Characterization of human adult stem-cell populations isolated from visceral and subcutaneous adipose tissue.
AbstractList	Adipose tissue is a dynamic endocrine organ with a central role in metabolism regulation. Functional differences in adipose tissue seem associated with the regional distribution of fat depots, in particular in subcutaneous and visceral omental pads. Here, we report for the first time the isolation of human adipose-derived adult stem cells from visceral omental and subcutaneous fat (V-ASCs and S-ASCs, respectively) from the same subject. Immunophenotyping shows that plastic culturing selects homogeneous cell populations of V-ASCs and S-ASCs from the corresponding stromal vascular fractions (SVFs), sharing typical markers of mesenchymal stem cells. Electron microscopy and electrophysiological and real-time RT-PCR analyses confirm the mesenchymal stem nature of both V-ASCs and S-ASCs, while no significant differences in a limited pattern of cytokine/chemokine expression can be detected. Similar to S-ASCs, V-ASCs can differentiate in vitro toward adipogenic, osteogenic, chondrogenic, muscular, and neuronal lineages, as demonstrated by histochemical, immunofluorescence, real-time RT-PCR, and electrophysiological analyses, suggesting the multipotency of such adult stem cells. Our data demonstrate that both visceral and subcutaneous adipose tissues are a source of pluripotent stem cells with multigermline potential. However, the visceral rather than the subcutaneous ASC could represent a more appropriate in vitro cell model for investigating the molecular mechanisms implicated in the pathophysiology of metabolic disorders such as obesity. Adipose tissue is a dynamic endocrine organ with a central role in metabolism regulation. Functional differences in adipose tissue seem associated with the regional distribution of fat depots, in particular in subcutaneous and visceral omental pads. Here, we report for the first time the isolation of human adipose-derived adult stem cells from visceral omental and subcutaneous fat (V-ASCs and S-ASCs, respectively) from the same subject. Immunophenotyping shows that plastic culturing selects homogeneous cell populations of V-ASCs and S-ASCs from the corresponding stromal vascular fractions (SVFs), sharing typical markers of mesenchymal stem cells. Electron microscopy and electrophysiological and real-time RT-PCR analyses confirm the mesenchymal stem nature of both V-ASCs and S-ASCs, while no significant differences in a limited pattern of cytokine/chemokine expression can be detected. Similar to S-ASCs, V-ASCs can differentiate in vitro toward adipogenic, osteogenic, chondrogenic, muscular, and neuronal lineages, as demonstrated by histochemical, immunofluorescence, real-time RT-PCR, and electrophysiological analyses, suggesting the multipotency of such adult stem cells. Our data demonstrate that both visceral and subcutaneous adipose tissues are a source of pluripotent stem cells with multigermline potential. However, the visceral rather than the subcutaneous ASC could represent a more appropriate in vitro cell model for investigating the molecular mechanisms implicated in the pathophysiology of metabolic disorders such as obesity.--Baglioni, S., Francalanci, M., Squecco, R., Lombardi, A., Cantini, G., Angeli, R., Gelmini, S., Guasti, D., Benvenuti, S., Annunziato, F., Bani, D., Liotta, F., Francini, F., Perigli, G., Serio, M., Luconi, M. Characterization of human adult stem-cell populations isolated from visceral and subcutaneous adipose tissue.
Author	Perigli, Giuliano Benvenuti, Susanna Liotta, Francesco Annunziato, Francesco Luconi, Michaela Lombardi, Adriana Bani, Daniele Baglioni, Silvana Gelmini, Stefania Angeli, Roberta Cantini, Giulia Francalanci, Michela Francini, Fabio Serio, Mario Guasti, Daniele Squecco, Roberta
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SubjectTerms	Adipose Tissue - cytology Adult Stem Cells - cytology Adult Stem Cells - physiology Cell Differentiation Cell Lineage Cell Separation Cells, Cultured Colon - cytology Humans Pluripotent Stem Cells - cytology Pluripotent Stem Cells - physiology Skin - cytology Viscera - cytology
Title	Characterization of human adult stem-cell populations isolated from visceral and subcutaneous adipose tissue
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