Emergence of spatio-temporal variations in chemotherapeutic drug efficacy: in-vitro and in-Silico 3D tumour spheroid studies
Copyright policy )Emergence of spatio-temporal variations in chemotherapeutic drug efficacy: in-vitro and in-Silico 3D tumour spheroid studies
AbstractBackgroundThe mechanisms of action and efficacy of cisplatin and paclitaxel at cell population level are well studied and documented, however the localized spatio-temporal effects of the drugs are less well understood. We explore the emergence of spatially preferential drug efficacy resulting from variations in mechanisms of cell-drug interactions.Methods3D spheroids of HeLa-C3 cells were treated with drugs, cisplatin and paclitaxel. This was followed by sectioning and staining of the spheroids to track the spatio-temporal apoptotic effects of the drugs. A mechanistic drug-cell interaction model was developed and simulated to analyse the localized efficacy of these drugs.ResultsThe outcomes of drug actions on a local cell population was dependant on the interactions between cell repair probability, intracellular drug concentration and cell’s mitosis phase. In spheroids treated with cisplatin, drug induced apoptosis is found to be scattered throughout the volume of the spheroids. In contrast, effect of paclitaxel is found to be preferentially localized along the periphery of the spheroids. Combinatorial treatments of cisplatin and paclitaxel result in varying levels of cell apoptosis based on the scheduling strategy.ConclusionsThe preferential action of paclitaxel can be attributed to the cell characteristics of the peripheral population. The model simulations and experimental data show that treatments initiated with paclitaxel are more efficacious due to the cascading of spatial effects of the drugs.
- NANYANG TECHNOLOGICAL UNIVERSITY
- Indian Institute of Technology Kanpur India
- Nanyang Technological University Singapore
- ITMO University Russian Federation
- Nanyang Technological University
570, Cytotoxicity, 610, Antineoplastic Agents, Apoptosis, Reaction-diffusion model, Transfection, Imaging, Three-Dimensional, Neoplasms, Spheroids, Cellular, Humans, :Medicine [Science], Pharmacokinetics, RC254-282, Cell Proliferation, Mitotic spindle stabilization, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, Reaction-diffusion Model, Pharmacodynamics, Female, Research Article, HeLa Cells
570, Cytotoxicity, 610, Antineoplastic Agents, Apoptosis, Reaction-diffusion model, Transfection, Imaging, Three-Dimensional, Neoplasms, Spheroids, Cellular, Humans, :Medicine [Science], Pharmacokinetics, RC254-282, Cell Proliferation, Mitotic spindle stabilization, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, Reaction-diffusion Model, Pharmacodynamics, Female, Research Article, HeLa Cells
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