Literature DB >> 27197588

The Use of Silk as a Scaffold for Mature, Sustainable Unilocular Adipose 3D Tissue Engineered Systems.

Rosalyn D Abbott1, Rebecca Y Wang1, Michaela R Reagan2, Ying Chen1, Francis E Borowsky1, Adam Zieba1, Kacey G Marra3, J Peter Rubin3, Irene M Ghobrial2, David L Kaplan1.   

Abstract

There is a critical need for monitoring physiologically relevant, sustainable, human adipose tissues in vitro to gain new insights into metabolic diseases. To support long-term culture, a 3D silk scaffold assisted culture system is developed that maintains mature unilocular adipocytes ex vivo in coculture with preadipocytes, endothelial cells, and smooth muscle cells obtained from small volumes of liquefied adipose samples. Without the silk scaffold, adipose tissue explants cannot be sustained in long-term culture (3 months) due to their fragility. Adjustments to media components are used to tune lipid metabolism and proliferation, in addition to responsiveness to an inflammatory stimulus. Interestingly, patient specific responses to TNFα stimulation are observed, providing a proof-of-concept translational technique for patient specific disease modeling in the future. In summary, this novel 3D scaffold assisted approach is required for establishing physiologically relevant, sustainable, human adipose tissue systems from small volumes of lipoaspirate, making this methodology of great value to studies of metabolism, adipokine-driven diseases, and other diseases where the roles of adipocytes are only now becoming uncovered.
© 2016 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.

Entities:  

Keywords:  adipose; explant; patient specific approach; tissue engineering; unilocular morphology

Mesh:

Substances:

Year:  2016        PMID: 27197588      PMCID: PMC4982640          DOI: 10.1002/adhm.201600211

Source DB:  PubMed          Journal:  Adv Healthc Mater        ISSN: 2192-2640            Impact factor:   9.933


  95 in total

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6.  Autologous Human Immunocompetent White Adipose Tissue-on-Chip.

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7.  3d Tissue Engineered In Vitro Models Of Cancer In Bone.

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