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Immuno-engineered mRNA combined with cell adhesive niche for synergistic modulation of the MSC secretome

Norman Michael Drzeniek, Nourhan Kahwaji, Stephan Schlickeiser, Petra Reinke, Sven Geißler, Hans‐Dieter Volk, Manfred Gossen

2022Biomaterials16 citationsDOIOpen Access PDF

Abstract

In vitro transcribed (IVT-)mRNA has entered center stage for vaccine development due to its immune co-stimulating properties. Given the widely demonstrated safety of IVT-mRNA-based vaccines, we aimed to adopt IVT-mRNA encoding VEGF for secretory phenotype modulation of therapeutic cells. However, we observed that the immunogenicity of IVT-mRNA impairs the endogenous secretion of pro-angiogenic mediators from transfected mesenchymal stromal cells, instead inducing anti-angiogenic chemokines. This inflammatory secretome modulation limits the application potential of unmodified IVT-mRNA for cell therapy manufacturing, pro-angiogenic therapy and regenerative medicine. To uncouple immunogenicity from the protein expression functionality, we immuno-engineered IVT-mRNA with different chemically modified ribonucleotides. 5-Methoxy-uridine-modification of IVT-mRNA rescued the endogenous secretome pattern of transfected cells and prolonged secretion of IVT-mRNA-encoded VEGF. We found that high secretion of IVT-mRNA-encoded protein further depends on optimized cell adhesion. Cell encapsulation in a collagen-hyaluronic acid hydrogel increased secretion of IVT-mRNA-encoded VEGF and augmented the endogenous secretion of supporting pro-angiogenic mediators, such as HGF. Integrating minimally immunogenic mRNA technology with predesigned matrix-derived cues allows for the synergistic combination of multiple dimensions of cell manipulation and opens routes for biomaterial-based delivery of mRNA-engineered cell products. Such multimodal systems could present a more biologically relevant way to therapeutically address complex multifactorial processes such as tissue ischemia, angiogenesis, and regeneration.

Topics & Concepts

Messenger RNAMesenchymal stem cellTransfectionSecretionImmunogenicityCell biologyAngiogenesisBiologyCell cultureImmune systemImmunologyCancer researchBiochemistryGeneticsGeneRNA Interference and Gene DeliveryVirus-based gene therapy researchCell Adhesion Molecules Research