Lipid-based siRNA Nanodelivery Systems: a Learning Process for Improving Transfer from Concepts to Clinical Applications.

BACKGROUND: The molecular mechanism of silencing genes using small interference RNA is as particular and innovative phenomenon as the proposed delivery systems to release them. Recent advances in RNAi have resulted in the development of multiple siRNA candidates that are currently being evaluated in preclinical / clinical instances. SNALP®, Atuplex® and Rondel® technologies stand out; they are mainly based on polymers, ciclodextrins or lipids.

METHODS: The objective of this work is to review the main features that Gene Therapy Medicinal Product under current clinical evaluation present from a pharmaceutical technology point of view; it tries to bring up theoretical concepts that give scientific support to the interpretation of data obtained during pharmaceutical development process. It is basically focused on improving the traslation from bench/theorical concepts to bedside of non viral vectors carrying siRNA.

RESULTS: The extensive presence of lipid-based nanoparticulate non-viral systems in clinical stages is due to the advantages of their formulations. These include: safety, low immunogenicity, high degree of material properties control, function tuning and ability to impact pharmacokinetics and in vivo biodistribution. This work presents a pharmaceutical approach so as to improve the potential of success in siRNA delivery using liposomal systems; we also present part of our work using MDCK cells as a kind of application of this approach.

CONCLUSION: Formulation design should be increasingly addressed with industrial criteria; it should be based on quality by design and on the estimation of critical attributes that affect performance, and supported by a range of characterization techniques and appropriate analytical methods.