Droplet Microfluidics for the ex Vivo Expansion of Human Primary Multiple Myeloma Cells.
Pilar CarrerasItziar GonzálezMiguel GallardoAlejandra Ortiz-RuizJoaquin Martinez LopezPublished in: Micromachines (2020)
We previously reported a new approach for micromanipulation and encapsulation of human stem cells using a droplet-based microfluidic device We demonstrated the possibility of encapsulating and culturing difficult-to-preserve primary human hematopoietic stem cells using an engineered double layered bead composed by an inner layer of alginate and an outer layer of puramatrix constructed using a soft technology without the use of any external force. In this work, we use this micro manipulation technique to build a 3D scaffold as a biomimetic model to recapitulate the niche of patient-derived multiple myeloma cells (MM cell) using a multilayered 3D tissue scaffold constructed in a microfluidic device and cultured in 10% FBS culture medium. In the current study, we included the use of this biomimetic model comprising supporting human Mesenchymal stem cells to show the mid-term survival of MM cells in the proposed structures. We found that the generated microniches were suitable for the maintenance of MM cells with and without supporting cells. Additionally, cultured MM cells in droplets were exposed to both Bortezomib and Lenalidomide to test their toxicity in the cultured patient derived cells. Results indicate that the maintained MM cells were consistently responding to the applied medication, opening a wide field of possibilities to use the presented micro device as an ex vivo platform for drug screening.
Keyphrases
- induced apoptosis
- cell cycle arrest
- stem cells
- endothelial cells
- multiple myeloma
- mesenchymal stem cells
- single cell
- endoplasmic reticulum stress
- emergency department
- low dose
- wastewater treatment
- high dose
- cell proliferation
- induced pluripotent stem cells
- adverse drug
- pi k akt
- drug induced
- chronic lymphocytic leukemia