Head-to-head comparison of the penetration efficiency of lipid-based nanoparticles in a 3D tumor spheroid model

Niora, Maria; Pedersbæk, Dennis; Lassen, Rasmus Mikkel Münter; Weywadt, Matilda Felicia de Val; Andresen, Thomas Lars; Simonsen, Jens B.; Jauffred, Liselotte

doi:10.26434/chemrxiv.12136320

2020

DOI: 10.26434/chemrxiv.12136320

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Head-to-head comparison of the penetration efficiency of lipid-based nanoparticles in a 3D tumor spheroid model

Maria Niora¹,

Dennis Pedersbæk²,

Rasmus Mikkel Münter Lassen³

et al.

Abstract: <p>Most tumor-targeted drug delivery systems must overcome a large variety of physiological barriers before reaching the tumor site and diffuse through the tight network of tumor cells. Many studies focus on optimizing the first part, the accumulation of drug carriers at the tumor site, ignoring the penetration efficiency, i.e., a measure of the ability of a drug delivery system to overcome tumor surface adherence and uptake. We used 3D tumor spheroids in combination with light-sheet fluorescence microsc… Show more

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Single-cell tracking reveals super-spreading cells with high persistence in invasive brain cancer

Nousi

Søgaard

Jauffred

2020

Preprint

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Cell migration is a fundamental characteristic of vital processes such as tissue morphogenesis, wound healing and immune cell homing to lymph nodes and inflamed or infected sites. Therefore, various brain defect diseases, chronic inflammatory diseases as well as tumor formation and metastasis are associated with aberrant or absent cell migration. With embedment of multicellular brain cancer spheroids in Matrigel™ and single-particle tracking, we extracted the paths of cells migrating away from the spheroids. We found that - in contrast to local invasion - single cell migration is independent of the mechanical load exerted by the environment and is characterized by high directionality and persistence. Furthermore, we identified a subpopulation of super-spreading cells with >200-fold longer persistence times than the majority of cells. These results highlight yet another aspect of between-cell heterogeneity in tumors.

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Single-cell tracking reveals super-spreading cells with high persistence in invasive brain cancer

Nousi

Søgaard

Jauffred

2020

Preprint

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Head-to-head comparison of the penetration efficiency of lipid-based nanoparticles in a 3D tumor spheroid model

Cited by 1 publication

References 65 publications

Single-cell tracking reveals super-spreading cells with high persistence in invasive brain cancer

Single-cell tracking reveals super-spreading cells with high persistence in invasive brain cancer

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