1 Laboratory of Pharmaceutical Technology and Biopharmacy, CIRM, University of Liège, Belgium 2 Laboratory of Analytical Chemistry, CIRM, University of.

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1 Laboratory of Pharmaceutical Technology and Biopharmacy, CIRM, University of Liège, Belgium 2 Laboratory of Analytical Chemistry, CIRM, University of Liège, Belgium 3 Arlenda, Liège, Belgium A. Pestieau 1, F. Krier 1, P. Lebrun 2,3, B. Evrard 1 ACKNOWLEDGEMENTS: The authors aknowledge the Belgium National Fund for Scientific Research (FNRS) for financial support M1142 DEVELOPMENT AND CHARACTERIZATION OF PEGYLATED LIPOPLEXES TO BE ENTRAPPED IN HEC SPONGES FOR VAGINAL DELIVERY Tania Furst 1, Anna Lechanteur 1,2, Pascale Hubert 2, Brigitte Evrard 1, Géraldine Piel 1 1 Laboratory of Pharmaceutical Technology and Biopharmacy - CIRM, University of Liege, Liege, Belgium 2 Laboratory of Experimental Pathology - GIGA Cancer, University of Liege, Liege, Belgium 1. INTRODUCTION 3. RESULTS AND DISCUSSION 2. MATERIALS AND METHODS 4. CONCLUSIONS AND PERSPECTIVES This research has a double objective: Firstly, the preparation of cationic nanovectors, liposomes, which are elaborated for a topical administration into vagina. Liposomes are complexed with siRNA to form lipoplexes. DSPE-PEG 2000, an hydrophilic polymer, is added to lipoplexes to facilitate their diffusion through cervico-vaginal mucus. These lipoplexes must have good physicochemical characteristics to be effective. They also have to be stable in acidic environment (vaginal pH ) and in contact with RNAses and do not release the siRNA. Secondly, we would like to incorporate these lipoplexes into hydroxyethylcellulose (HEC) gels, which will be freeze-dried to form sponges. For that, we must first characterize these sponges. They have to be malleable to facilitate their handling. They have to adhere to the vaginal mucosa and to rehydrate in a short time to allow the diffusion of lipoplexes Liposomes are prepared by hydration of lipidic film method: and extruded through polycarbonate mebranes with pores at 200nm Lipids : - Cationic DOTAP - Fusogenic DOPE - Cholesterol To form lipoplexes: siRNA is complexed with liposomes by spontaneous charge interaction, at different N/P ratios (from 0 to 15) in RNase free water Lipoplexes are pegylated by addition of DSPE-PEG 2000 at different % ( from 0 to 100 % /mol DOTAP) by the post-insertion technique (at 37°C) 2.2. S ponges are obtained after freeze-drying of a homogenous hydrogel (6g) composed by HEC 250M and PEG 400 in milliQ water. DOTAP/Chol/DOPE 1/0.75/0.5  5,6 mM Physicochemical characterization : - size - zeta - incorportion efficiency - stability 3.1. Z-average diameter (nm) and zeta potential (mV) of unpegylated and pegylated lipoplexes Unpegylated lipoplexes according to N/P ratios Fig.1. From the N/P ratio of 2.5, the diameter is ranged between 180 and 220nm and the zeta potential remains constant at around +50mV. (n=4). Fig.2. (A) The diameter of the lipoplexes is ranged between 150 and 220nm, but from 50% of PEG the lipoplexes are too polydispersed (high PDI). (B) The zeta potential decreases when the % of PEG increases. (n=4) Lipoplexes at N/P ratio 2.5 with different % of PEG 3.2. Incorporation efficiency of unpegylated and pegylated lipoplexes (A)(B) Fig.4. Incorporation of siRNA into 10, 20, 30 and 50% pegylated lipoplexes at N/P 2.5. The addition of PEG does not decrease the encapsulation efficiency. (n=3) Fig.3. Incorporation of siRNA into unpegylated lipoplexes according to N/P ratios. From the N/P 1.25, more than 95% of siRNA is encapsulated. (n=4) 3.4. Stability of ipoplexes; in presence of acidic pH and RNases Fig.5. Lipoplexes at N/P 2.5 with 0, 10, 20 and 50%PEG in presence of acidic pH (from 5,8 to 2). There is no leakage and no degradation of siRNA when lipoplexes are in acidic environment. siRNA is protected by the unpegylated and the pegylated lipoplexes. Lipoplexes DOTAP/Chol/DOPE 1/0.75/0.5 at N/P=2.5 with and without DSPE-PEG 2000 have optimal physicochemical characteristics in terms of size, charge and incorporation efficiency. They are able to protect the siRNA in presence of acidic environment or in presence of RNAse A. Their stability and diffusion ability will be studied in presence of mucus and HEC gel. Regarding sponges, HEC 250M seems to be an ideal polymer to form a mucoadhesive system. The mucoadhesion of sponges containing lipoplexes will also be characterized Preparation and mucoadhesion of cellulose-derivative sponges HEC 250M (mg)PEG400 (mg) A10025 B20025 C20050 Characterization of the mucoadhesion with a Texture Analyzer, with mucin disc and with synthetic cervicovaginal mucus 4cm F min = adhesion force. Fig.6. Lipoplexes at N/P 2.5 with 0, 10, 20 and 50% PEG in presence of RNAse A. The siRNA is protected into lipoplexes and not degraded when they are exposed to RNAse. Fig.7. Example of graph obtained with the TA to quantify the mucoadhesion. F min represents the adhesion force of the sponge with the mucin disc Fig.8. The mucoadhesion force (N) of the sponges (in comparaison with 2 commercialized gels) increases when the concentration of polymer increases. (n=20)