Dry-powder formulations of non-covalent protein complexes with linear or miktoarm copolymers for pulmonary delivery

Nieto-Orellana, Alejandro; Coghlan, David; Rothery, Malcolm; Falcone, Franco H.; Bosquillon, Cynthia; Childerhouse, Nick; Mantovani, Giuseppe; Stolnik, Snow

doi:10.1016/j.ijpharm.2018.02.008

Dry-powder formulations of non-covalent protein complexes with linear or miktoarm copolymers for pulmonary delivery

Nieto-Orellana, Alejandro; Coghlan, David; Rothery, Malcolm; Falcone, Franco H.; Bosquillon, Cynthia; Childerhouse, Nick; Mantovani, Giuseppe; Stolnik, Snow

Authors

Alejandro Nieto-Orellana

David Coghlan

Malcolm Rothery

Franco H. Falcone

Dr CYNTHIA BOSQUILLON cynthia.bosquillon@nottingham.ac.uk
ASSISTANT PROFESSOR

Nick Childerhouse

Dr GIUSEPPE MANTOVANI giuseppe.mantovani@nottingham.ac.uk
ASSOCIATE PROFESSOR

Snow Stolnik

Abstract

Pulmonary delivery of protein therapeutics has considerable clinical potential for treating both local and systemic diseases. However, poor protein conformational stability, immunogenicity and protein degradation by proteolytic enzymes in the lung are major challenges to overcome for the development of effective therapeutics. To address these, a family of structurally related copolymers comprising polyethylene glycol, mPEG2k, and poly(glutamic acid) with linear A-B (mPEG2k-lin-GA) and miktoarm A-B3 (mPEG2k-mik-(GA)3) macromolecular architectures was investigated as potential protein stabilisers. These copolymers form non-covalent nanocomplexes with a model protein (lysozyme) which can be formulated into dry powders by spray-drying using common aerosol excipients (mannitol, trehalose and leucine). Powder formulations with excellent aerodynamic properties (fine particle fraction of up to 68%) were obtained with particle size (D50) in the 2.5 µm range, low moisture content (<5%), and high glass transitions temperatures, i.e. formulation attributes all suitable for inhalation application. In aqueous medium, dry powders rapidly disintegrated into the original polymer-protein nanocomplexes which provided protection towards proteolytic degradation. Taken together, the present study shows that dry powders based on (mPEG2k-polyGA)-protein nanocomplexes possess potentials as an inhalation delivery system.

Citation

Nieto-Orellana, A., Coghlan, D., Rothery, M., Falcone, F. H., Bosquillon, C., Childerhouse, N., Mantovani, G., & Stolnik, S. (2018). Dry-powder formulations of non-covalent protein complexes with linear or miktoarm copolymers for pulmonary delivery. International Journal of Pharmaceutics, 540(1-2), https://doi.org/10.1016/j.ijpharm.2018.02.008

Journal Article Type	Article
Acceptance Date	Feb 4, 2018
Online Publication Date	Feb 6, 2018
Publication Date	Apr 5, 2018
Deposit Date	Feb 26, 2018
Publicly Available Date	Feb 7, 2019
Journal	International Journal of Pharmaceutics
Print ISSN	0378-5173
Electronic ISSN	1873-3476
Publisher	Elsevier
Peer Reviewed	Peer Reviewed
Volume	540
Issue	1-2
DOI	https://doi.org/10.1016/j.ijpharm.2018.02.008
Keywords	dry powder, pulmonary delivery, polymer-protein complexes, spray-drying, protein delivery, non-covalent complexes
Public URL	https://nottingham-repository.worktribe.com/output/923735
Publisher URL	https://www.sciencedirect.com/science/article/pii/S0378517318300796?via%3Dihub
Contract Date	Feb 26, 2018