3D Cell Culture and Drug Discovery | Corning

3D cell culture often utilizes an extracellular matrix, a solid scaffold upon which cells can grow. Naturally derived ECMs, such as Corning® Matrigel matrix and other so-called basement membrane hydrogels, are widely used in 3D cell culture. Matrigel matrix is an optimized version of an extracellular matrix.

In the early days, it was thought that the ECM mostly provided structural support, but researchers now know that the ECM actively affects cell behavior, according to Frontiers in Pharmacology. Dynamic changes in the various components of the ECM regulate cell growth, cell signaling, and cytoskeletal organization. The composition of the ECM can influence the cell's response to drugs, promoting drug resistance, enhancing drug efficacy, or even altering a drug's mechanism of action.

Matrigel matrix, like natural collagen, promotes cell attachment via integrin receptors. This leads to the "activation of cell signaling pathways that control cell survival, growth, and differentiation," Frontiers in Psychology notes, "and can modulate the response to therapeutic approaches, including chemotherapy, immunotherapy, and radiation." Matrigel matrix can also facilitate streamlined workflow for organoid culture due to its reproducibility and consistency.

Cellular spheroids grown on microplates, such as Corning® Spheroid microplates, and embedded in ECMs can be generated from many types of cells, and they can be used in screening assays for compounds that modulate tumor growth, invasion, and angiogenesis.

In a recent study published in Anticancer Research, hanging drop spheroids were generated from head and neck squamous cell carcinoma cell lines and primary human cells. The preliminary study was conducted with cells from fresh tumor biopsies and confirmed the feasibility of this approach to develop an assay that can be used to assess individual patients' susceptibilities to common chemotherapy and experimental drugs.

However, it can be difficult to create uniform spheroids, and controlling size to prevent necrosis and lack of nutrient supply is also challenging, according to Frontiers in Pharmacology. Microwell arrays such as Corning® Elplasia plates feature microcavity technology that allows thousands of spheroids to be created under one culture condition in one plate, and also facilitate producing uniformly sized spheroids in a high-throughput manner.

Authentic 3D cell culture models are enhancing the drug discovery process by modeling in vivo conditions and microenvironments far more precisely, yielding results with better clinical outcomes.

Research methods and models will need to consider that the response to drugs varies not only with the tumor type and cell line but the surrounding ECM, their interaction with stromal cells, and immunomodulatory molecules.

A cancer drug discovery that combines 3D cell culture with tumoroids (patient-derived tumor cells) and organoid banks of tumor cells of different subtypes is possible. Such a discovery could lead to the development of personalized drug therapies that improve treatment outcomes and come with less intense side effects.