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New insights to vas...
New insights to vascular smooth muscle cell and pericyte differentiation of mouse embryonic stem cells in vitro.
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- Lindskog, Henrik, 1977 (författare)
- Gothenburg University,Göteborgs universitet,Institutionen för biomedicin, avdelningen för medicinsk kemi och cellbiologi,Institute of Biomedicine, Department of Medical Biochemistry and Cell Biology
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Athley, Elisabet, 1977 (författare)
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- Larsson, Erik, 1975 (författare)
- Gothenburg University,Göteborgs universitet,Institutionen för biomedicin, avdelningen för medicinsk kemi och cellbiologi,Institute of Biomedicine, Department of Medical Biochemistry and Cell Biology
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- Lundin, Samuel B, 1970 (författare)
- Gothenburg University,Göteborgs universitet,Institutionen för biomedicin, avdelningen för mikrobiologi och immunologi,Institute of Biomedicine, Department of Microbiology and Immunology
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Hellström, Mats (författare)
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- Lindahl, Per, 1967 (författare)
- Gothenburg University,Göteborgs universitet,Wallenberglaboratoriet,Institutionen för biomedicin, avdelningen för medicinsk kemi och cellbiologi,Institutionen för medicin, avdelningen för molekylär och klinisk medicin,Wallenberg Laboratory,Institute of Biomedicine, Department of Medical Biochemistry and Cell Biology,Institute of Medicine, Department of Molecular and Clinical Medicine
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(creator_code:org_t)
- 2006
- 2006
- Engelska.
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Ingår i: Arteriosclerosis, thrombosis, and vascular biology. - 1524-4636. ; 26:7, s. 1457-64
- Relaterad länk:
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https://gup.ub.gu.se...
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https://doi.org/10.1...
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Abstract
Ämnesord
Stäng
- OBJECTIVE: The molecular mechanisms that regulate pericyte differentiation are not well understood, partly because of the lack of well-characterized in vitro systems that model this process. In this article, we develop a mouse embryonic stem (ES) cell-based angiogenesis/vasculogenesis assay and characterize the system for vascular smooth muscle cell (VSMC) and pericyte differentiation. METHODS AND RESULTS: ES cells that were cultured for 5 days on OP9 stroma cells upregulated their transcription of VSMC and pericyte selective genes. Other SMC marker genes were induced at a later time point, which suggests that vascular SMC/pericyte genes are regulated by a separate mechanism. Moreover, sequence analysis failed to identify any conserved CArG elements in the vascular SMC and pericyte gene promoters, which indicates that serum response factor is not involved in their regulation. Gleevec, a tyrosine kinase inhibitor that blocks platelet-derived growth factor (PDGF) spell-receptor signaling, and a neutralizing antibody against transforming growth factor (TGF) beta1, beta2, and beta3 failed to inhibit the induction of vascular SMC/pericyte genes. Finally, ES-derived vascular sprouts recruited cocultured MEF cells to pericyte-typical locations. The recruited cells activated expression of a VSMC- and pericyte-specific reporter gene. CONCLUSIONS: We conclude that OP9 stroma cells induce pericyte differentiation of cocultured mouse ES cells. The induction of pericyte marker genes is temporally separated from the induction of SMC genes and does not require platelet-derived growth factor B or TGFbeta1 signaling.
Nyckelord
- Animals
- Cell Differentiation
- Cells
- Cultured
- Coculture Techniques
- Embryo
- cytology
- Genetic Markers
- Mice
- Muscle
- Smooth
- Vascular
- cytology
- Myocytes
- Smooth Muscle
- cytology
- Pericytes
- cytology
- Proto-Oncogene Proteins c-sis
- physiology
- Reproducibility of Results
- Stem Cells
- cytology
- metabolism
- Stromal Cells
- physiology
- Transcription
- Genetic
- physiology
- Transforming Growth Factor beta
- physiology
- Transforming Growth Factor beta1
Publikations- och innehållstyp
- ref (ämneskategori)
- art (ämneskategori)
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