Ontology highlight
ABSTRACT: Background
Multicellular tumor spheroids are models of increasing interest for cancer and cell biology studies. They allow considering cellular interactions in exploring cell cycle and cell division mechanisms. However, 3D imaging of cell division in living spheroids is technically challenging and has never been reported.Results
Here, we report a major breakthrough based on the engineering of multicellular tumor spheroids expressing an histone H2B fluorescent nuclear reporter protein, and specifically designed sample holders to monitor live cell division dynamics in 3D large spheroids using an home-made selective-plane illumination microscope.Conclusions
As illustrated using the antimitotic drug, paclitaxel, this technological advance paves the way for studies of the dynamics of cell divion processes in 3D and more generally for the investigation of tumor cell population biology in integrated system as the spheroid model.
SUBMITTER: Lorenzo C
PROVIDER: S-EPMC3274476 | biostudies-literature | 2011 Dec
REPOSITORIES: biostudies-literature
Lorenzo Corinne C Frongia Céline C Jorand Raphaël R Fehrenbach Jérôme J Weiss Pierre P Maandhui Amina A Gay Guillaume G Ducommun Bernard B Lobjois Valérie V
Cell division 20111212
<h4>Background</h4>Multicellular tumor spheroids are models of increasing interest for cancer and cell biology studies. They allow considering cellular interactions in exploring cell cycle and cell division mechanisms. However, 3D imaging of cell division in living spheroids is technically challenging and has never been reported.<h4>Results</h4>Here, we report a major breakthrough based on the engineering of multicellular tumor spheroids expressing an histone H2B fluorescent nuclear reporter pro ...[more]