Back to Search Start Over

Microenvironment engineering of osteoblastic bone metastases reveals osteomimicry of patient-derived prostate cancer xenografts.

Authors :
Shokoohmand, Ali
Ren, Jiongyu
Baldwin, Jeremy
Atack, Anthony
Shafiee, Abbas
Theodoropoulos, Christina
Wille, Marie-Luise
Tran, Phong A.
Bray, Laura J.
Smith, Deborah
Chetty, Naven
Pollock, Pamela M.
Hutmacher, Dietmar W.
Clements, Judith A.
Williams, Elizabeth D.
Bock, Nathalie
Source :
Biomaterials. Nov2019, Vol. 220, pN.PAG-N.PAG. 1p.
Publication Year :
2019

Abstract

Representative in vitro models that mimic the native bone tumor microenvironment are warranted to support the development of more successful treatments for bone metastases. Here, we have developed a primary cell 3D model consisting of a human osteoblast-derived tissue-engineered construct (hOTEC) indirectly co-cultured with patient-derived prostate cancer xenografts (PDXs), in order to study molecular interactions in a patient-derived microenvironment context. The engineered biomimetic microenvironment had high mineralization and embedded osteocytes, and supported a high degree of cancer cell osteomimicry at the gene, protein and mineralization levels when co-cultured with prostate cancer PDXs from a lymph node metastasis (LuCaP35) and bone metastasis (BM18) from patients with primary prostate cancer. This fully patient-derived model is a promising tool for the assessment of new molecular mechanisms and as a personalized pre-clinical platform for therapy testing for patients with prostate cancer bone metastases. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
01429612
Volume :
220
Database :
Academic Search Index
Journal :
Biomaterials
Publication Type :
Academic Journal
Accession number :
138270810
Full Text :
https://doi.org/10.1016/j.biomaterials.2019.119402