Establishment of a direct 2.5D organoid culture model using companion animal cancer tissues - 10/09/22
, Haru Yamamoto a, Hiromi Ayame a, Yusuke Ishihara a, Yomogi Sato a, Hideyuki Yamawaki d, Masahiro Kaneda e, Tatsuya Usui a, ⁎ , Kazuaki Sasaki aAbstract |
Like humans, cancer affects companion animals with similar genetic risks and incident rates. To improve treatment strategies for pet cancers, new research models are necessary. Patient-derived 3D organoid culture models are valuable and ensure the development of new effective therapies. In the previous study, we established a 3D organoid-derived 2.5D organoid culture model that recapitulated some characteristics of their parental 3D organoids. In the present study, we aimed to generate a 2.5D organoid culture model directly from cancer-diseased dogs and cats using special 2.5D media. The primary cultured cells in 2.5D media (direct 2.5D organoids) showed better attachment, growth, marker expression, and faster proliferation speed than those cultured in normal Dulbecco’s Modified Eagle Medium media. The direct 2.5D organoids showed expression of each specific marker to their original cancer tissues and exhibited tumorigenesis in vivo. Moreover, the direct 2.5D organoids exhibited concentration-dependent responses to anti-cancer drugs, and different sensitivity profiles were shown among the strains. Our data suggest that the direct 2.5D organoid culture model might become a useful tool beyond 2D cell lines to study cancer biology in companion animals and could provide new platforms for screening the anti-cancer drugs.
Le texte complet de cet article est disponible en PDF.Graphical Abstract |
Keywords : 2.5D, 3D, Cats, Culture model, Dogs, Organoids, Patient-derived, Primary
Plan
Vol 154
Article 113597- octobre 2022 Retour au numéro
Article précédent
- Biochemical and tissue physiopathological evaluation of the preclinical efficacy of Solanum torvum Swartz leaves for treating oxidative impairment in rats administered a β-cell-toxicant (STZ)
- Saidu Sani, Bashir Lawal, Jerius N. Ejeje, Tawakalitu B. Aliu, Amos S. Onikanni, Onwe O. Uchewa, Joy C. Ovoh, Faith U. Ekpa, Chikezie D. Ozoagu, Tochukwu S. Akuma, Success C. Onyeji, Amara Obialor, Saqer S. Alotaibi, Sarah M. Albogami, Michel De Waard, Gaber El-Saber Batiha, Tse Hung Huang, Alexander T.H. Wu
- Zinc(II) – Syringic acid complexation synergistically exerts antioxidant action and modulates glucose uptake and utilization in L-6 myotubes and rat muscle tissue
- Limpho M. Ramorobi, Godfrey R. Matowane, Samson S. Mashele, Shasank S. Swain, Tshepiso J. Makhafola, Polo-Ma-Abiele H. Mfengwana, Chika I. Chukwuma
Bienvenue sur EM-consulte, la référence des professionnels de santé.
L’accès au texte intégral de cet article nécessite un abonnement.
Déjà abonné à cette revue ?