| Literature DB >> 30683938 |
Guadalupe Lorenzatti Hiles1,2,3, Angelica L Cates1,2,4, Layla El-Sawy1,2,5, Kathleen C Day1,2, Luke J Broses1,2, Amy L Han1,2,6,7, Hannah L Briggs1,3, Amir Emamdjomeh1,2,8, Andrew Chou1,2,9, Ethan V Abel2,10, Monica Liebert1,2, Phillip L Palmbos2,11, Aaron M Udager6, Evan T Keller12,13,14, Mark L Day15,16.
Abstract
The invasion of bladder cancer into the sub-urothelial muscle and vasculature are key determinants leading to lethal metastatic progression. However, the molecular basis is poorly understood, partly because of the lack of uncomplicated and reliable models that recapitulate the biology of locally invasive disease. We developed a surgical grafting technique, characterized by a simple, rapid, reproducible and high-efficiency approach, to recapitulate the pathobiological events of human bladder cancer invasion in mice. This technique consists of a small laparotomy and direct implantation of human cancer cells into the bladder lumen. Unlike other protocols, it does not require debriding of the urothelial lining, injection into the bladder wall, specialized imaging equipment, bladder catheterization or costly surgical equipment. With minimal practice, the procedure can be executed in <10 min. Tumors develop with a high take rate, and most cell lines exhibit local invasion within 4 weeks of implantation.Entities:
Mesh:
Year: 2019 PMID: 30683938 PMCID: PMC6463286 DOI: 10.1038/s41596-018-0112-8
Source DB: PubMed Journal: Nat Protoc ISSN: 1750-2799 Impact factor: 13.491