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Literature DB >> 26874281

Transdifferentiation of human endothelial progenitors into smooth muscle cells.

HaYeun Ji¹, Leigh Atchison², Zaozao Chen¹, Syandan Chakraborty¹, Youngmee Jung³, George A Truskey², Nicolas Christoforou^2,4, Kam W Leong¹.

Abstract

Access to smooth muscle cells (SMC) would create opportunities for tissue engineering, drug testing, and disease modeling. Herein we report the direct conversion of human endothelial progenitor cells (EPC) to induced smooth muscle cells (iSMC) by induced expression of MYOCD. The EPC undergo a cytoskeletal rearrangement resembling that of mesenchymal cells within 3 days post initiation of MYOCD expression. By day 7, the reprogrammed cells show upregulation of smooth muscle markers ACTA2, MYH11, and TAGLN by qRT-PCR and ACTA2 and MYH11 expression by immunofluorescence. By two weeks, they resemble umbilical artery SMC in microarray gene expression analysis. The iSMC, in contrast to EPC control, show calcium transients in response to phenylephrine stimulation and a contractility an order of magnitude higher than that of EPC as determined by traction force microscopy. Tissue-engineered blood vessels constructed using iSMC show functionality with respect to flow- and drug-mediated vasodilation and vasoconstriction.

Entities: CellLine Chemical Disease Gene Mutation Species

Keywords: Direct reprogramming; Direct transdifferentiation; Myocardin; Smooth muscle cell differentiation; Tissue-engineered blood vessel

Mesh：

Substances：

Year: 2016 PMID： 26874281 PMCID： PMC4763719 DOI： 10.1016/j.biomaterials.2016.01.066

Source DB: PubMed Journal: Biomaterials ISSN： 0142-9612 Impact factor: 12.479

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Transdifferentiation of human endothelial progenitors into smooth muscle cells.

Review 1. Therapeutic stem and progenitor cell transplantation for organ vascularization and regeneration.

2. Activation of cardiac gene expression by myocardin, a transcriptional cofactor for serum response factor.

3. A blood vessel model constructed from collagen and cultured vascular cells.

4. Tissue-engineered blood vessels as promising tools for testing drug toxicity.

5. Functional recapitulation of smooth muscle cells via induced pluripotent stem cells from human aortic smooth muscle cells.

6. A high-efficiency system for the generation and study of human induced pluripotent stem cells.

7. A PGC-1α- and muscle fibre type-related decrease in markers of mitochondrial oxidative metabolism in skeletal muscle of humans with inherited insulin resistance.

8. Myocardin: a component of a molecular switch for smooth muscle differentiation.

9. A potential platform for developing 3D tubular scaffolds for paediatric organ development.

10. Understanding multicellular function and disease with human tissue-specific networks.

Review 1. Endothelial Progenitor Cells for the Vascularization of Engineered Tissues.

2. Direct Reprogramming of Fibroblasts Into Smooth Muscle-Like Cells With Defined Transcription Factors-Brief Report.

3. Histological variation of early stage atherosclerotic lesions in baboons after prolonged challenge with high-cholesterol, high-fat diet.

4. Real-time observation of leukocyte-endothelium interactions in tissue-engineered blood vessel.

5. Vascular Microphysiological Systems to Model Diseases.

6. In Situ Fabrication and Perfusion of Tissue-Engineered Blood Vessel Microphysiological System.

Review 7. Biofabrication of tissue engineering vascular systems.

Review 8. PBPK Modeling on Organs-on-Chips: An Overview of Recent Advancements.

Review 9. Advancing cardiovascular tissue engineering.

Review 10. Direct reprogramming and biomaterials for controlling cell fate.