Engineering tenofovir loaded chitosan nanoparticles to maximize microbicide mucoadhesion.

The objective of this study was to engineer a model anti-HIV microbicide (tenofovir) loaded chitosan based nanoparticles (NPs). Box-Behnken design allowed to assess the influence of formulation variables on the size of NPs and drug encapsulation efficiency (EE%) that were analyzed by dynamic light scattering and UV spectroscopy, respectively. The effect of the NPs on vaginal epithelial cells and Lactobacillus crispatus viability and their mucoadhesion to porcine vaginal tissue were assessed by cytotoxicity assays and fluorimetry, respectively. In the optimal aqueous conditions, the EE% and NPs size were 5.83% and 207.97nm, respectively. With 50% (v/v) ethanol/water as alternative solvent, these two responses increased to 20% and 602 nm, respectively. Unlike small size (182nm) exhibiting burst release, drug release from medium (281 nm) and large (602 nm)-sized NPs fitted the Higuchi (r(2)=0.991) and first-order release (r(2)=0.999) models, respectively. These NPs were not cytotoxic to both the vaginal epithelial cell line and L. crispatus for 48h. When the diameter of the NPs decreased from 900 to 188 nm, the mucoadhesion increased from 6% to 12%. However, the combinatorial effect of EE% and percent mucoadhesion for larger size NPs was the highest. Overall, large-size, microbicide loaded chitosan NPs appeared to be promising nanomedicines for the prevention of HIV transmission.

[1]  R. Ghaderi,et al.  Biological Activity of Lysozyme After Entrapment in Poly (d,l-lactide-co-glycolide)-Microspheres , 1997, Pharmaceutical Research.

[2]  L. Illum,et al.  Use of the ninhydrin assay to measure the release of chitosan from oral solid dosage forms. , 2004, International journal of pharmaceutics.

[3]  Y. Kawashima,et al.  Visualization of the Penetrative and Mucoadhesive Properties of Chitosan and Chitosan-Coated Liposomes Through the Rat Intestine , 2006, Journal of liposome research.

[4]  P. Costa,et al.  Modeling and comparison of dissolution profiles. , 2001, European journal of pharmaceutical sciences : official journal of the European Federation for Pharmaceutical Sciences.

[5]  Xiongwei Li,et al.  TMC-MCC (N-trimethyl chitosan-mono-N-carboxymethyl chitosan) nanocomplexes for mucosal delivery of vaccines. , 2009, European journal of pharmaceutical sciences : official journal of the European Federation for Pharmaceutical Sciences.

[6]  Giovanni Filippo Palmieri,et al.  Mucoadhesion mechanism of chitosan and thiolated chitosan-poly(isobutyl cyanoacrylate) core-shell nanoparticles. , 2007, Biomaterials.

[7]  R. Coombs,et al.  Viricidal effect of Lactobacillus acidophilus on human immunodeficiency virus type 1: possible role in heterosexual transmission , 1991, The Journal of experimental medicine.

[8]  C. Remuñán-López,et al.  Enhancement of Nasal Absorption of Insulin Using Chitosan Nanoparticles , 1999, Pharmaceutical Research.

[9]  Yunda Huang,et al.  In Vitro and Ex Vivo Testing of Tenofovir Shows It Is Effective As an HIV-1 Microbicide , 2010, PloS one.

[10]  S. Erciş,et al.  Effect of chitosan on a periodontal pathogen Porphyromonas gingivalis. , 2002, International journal of pharmaceutics.

[11]  E. Denkbaş,et al.  Implantable 5-fluorouracil loaded chitosan scaffolds prepared by wet spinning , 2000 .

[12]  Mehrdad Hamidi,et al.  Hydrogel nanoparticles in drug delivery. , 2008, Advanced drug delivery reviews.

[13]  G. Luo,et al.  In situ preparation of magnetic Fe3O4-chitosan nanoparticles for lipase immobilization by cross-linking and oxidation in aqueous solution. , 2009, Bioresource technology.

[14]  A. Quayle The innate and early immune response to pathogen challenge in the female genital tract and the pivotal role of epithelial cells. , 2002, Journal of reproductive immunology.

[15]  D. Mcclements,et al.  Influence of tripolyphosphate cross-linking on the physical stability and lipase digestibility of chitosan-coated lipid droplets. , 2010, Journal of agricultural and food chemistry.

[16]  Tejraj M Aminabhavi,et al.  Recent advances on chitosan-based micro- and nanoparticles in drug delivery. , 2004, Journal of controlled release : official journal of the Controlled Release Society.

[17]  Krisana Siraleartmukul,et al.  Electrospray fabrication of doxorubicin-chitosan-tripolyphosphate nanoparticles for delivery of doxorubicin , 2011, Archives of pharmacal research.

[18]  Brigitte E. Sanders-Beer,et al.  Development of a Comprehensive Human Immunodeficiency Virus Type 1 Screening Algorithm for Discovery and Preclinical Testing of Topical Microbicides , 2008, Antimicrobial Agents and Chemotherapy.

[19]  T. Tadros,et al.  Formation and stability of nano-emulsions. , 2004, Advances in colloid and interface science.

[20]  Lin Li,et al.  Influence of cetyltrimethylammonium bromide on physicochemical properties and microstructures of chitosan-TPP nanoparticles in aqueous solutions. , 2008, Journal of colloid and interface science.

[21]  I. Aranaz,et al.  Functional Characterization of Chitin and Chitosan , 2009 .

[22]  Patrick F. Kiser,et al.  Segmented polyurethane intravaginal rings for the sustained combined delivery of antiretroviral agents dapivirine and tenofovir. , 2010, European journal of pharmaceutical sciences : official journal of the European Federation for Pharmaceutical Sciences.

[23]  F. Romanelli,et al.  Tenofovir-disoproxil-fumarate , 2003, Reactions Weekly.

[24]  A. Perkins,et al.  In vitro assessment of the mucoadhesion of cholestyramine to porcine and human gastric mucosa. , 2001, European journal of pharmaceutics and biopharmaceutics : official journal of Arbeitsgemeinschaft fur Pharmazeutische Verfahrenstechnik e.V.

[25]  Rajesh Pandey,et al.  Nano-encapsulation of azole antifungals: potential applications to improve oral drug delivery. , 2005, International journal of pharmaceutics.

[26]  J. Miller,et al.  Statistics for Analytical Chemistry , 1993 .

[27]  Min Cheng,et al.  Delayed HPAM Gelation via Transient Sequestration of Chromium in Polyelectrolyte Complex Nanoparticles , 2008 .

[28]  A. Bernkop‐Schnürch,et al.  Comparison of the mucoadhesive properties of various polymers. , 2005, Advanced drug delivery reviews.

[29]  W. Mark Saltzman,et al.  Intravaginal gene silencing using biodegradable polymer nanoparticles densely loaded with small-interfering RNA , 2009, Nature materials.

[30]  T. Kissel,et al.  Biodegradable nanoparticles for oral delivery of peptides: is there a role for polymers to affect mucosal uptake? , 2000, European journal of pharmaceutics and biopharmaceutics : official journal of Arbeitsgemeinschaft fur Pharmazeutische Verfahrenstechnik e.V.

[31]  N. M. Zaki,et al.  Chitosan/TPP and Chitosan/TPP-hyaluronic Acid Nanoparticles: Systematic Optimisation of the Preparative Process and Preliminary Biological Evaluation , 2009, Pharmaceutical Research.

[32]  D. Katz,et al.  A vaginal fluid simulant. , 1999, Contraception.

[33]  L. Lim,et al.  Uptake of Chitosan and Associated Insulin in Caco-2 Cell Monolayers: A Comparison Between Chitosan Molecules and Chitosan Nanoparticles , 2003, Pharmaceutical Research.

[34]  S. Kosaraju,et al.  Bioadhesive chitosan nanoparticles: Preparation and characterization , 2010 .

[35]  Jianhua Hu,et al.  Chitosan nanoparticles as a novel delivery system for ammonium glycyrrhizinate. , 2005, International journal of pharmaceutics.

[36]  Phalguni Gupta,et al.  Effects of physiological fluids on physical-chemical characteristics and activity of topical vaginal microbicide products. , 2008, Journal of pharmaceutical sciences.

[37]  Ruxandra Gref,et al.  The effect of a PEG versus a chitosan coating on the interaction of drug colloidal carriers with the ocular mucosa. , 2003, European journal of pharmaceutical sciences : official journal of the European Federation for Pharmaceutical Sciences.

[38]  Changsheng Liu,et al.  Preparation of chitosan microspheres by ionotropic gelation under a high voltage electrostatic field for protein delivery. , 2010, Colloids and surfaces. B, Biointerfaces.

[39]  C. Davis,et al.  Porcine vagina ex vivo as a model for studying permeability and pathogenesis in mucosa. , 2008, Journal of pharmaceutical sciences.

[40]  Lynn Morris,et al.  Effectiveness and Safety of Tenofovir Gel, an Antiretroviral Microbicide, for the Prevention of HIV Infection in Women , 2010, Science.

[41]  M. Vandana,et al.  Enhanced antiproliferative activity of Herceptin (HER2)-conjugated gemcitabine-loaded chitosan nanoparticle in pancreatic cancer therapy. , 2011, Nanomedicine : nanotechnology, biology, and medicine.

[42]  R. Grant,et al.  Pharmacological considerations for tenofovir and emtricitabine to prevent HIV infection. , 2011, The Journal of antimicrobial chemotherapy.

[43]  Wei Chen,et al.  Synthesis and in vitro/in vivo anti-cancer evaluation of curcumin-loaded chitosan/poly(butyl cyanoacrylate) nanoparticles. , 2010, International journal of pharmaceutics.

[44]  A. Bernkop‐Schnürch,et al.  Strategies to prolong the intravaginal residence time of drug delivery systems. , 2009, Journal of pharmacy & pharmaceutical sciences : a publication of the Canadian Society for Pharmaceutical Sciences, Societe canadienne des sciences pharmaceutiques.

[45]  Ick Chan Kwon,et al.  Targeted delivery of low molecular drugs using chitosan and its derivatives. , 2010, Advanced drug delivery reviews.

[46]  W. Tiyaboonchai,et al.  Formulation and characterization of amphotericin B-chitosan-dextran sulfate nanoparticles. , 2007, International journal of pharmaceutics.

[47]  Driton Vllasaliu,et al.  Tight junction modulation by chitosan nanoparticles: comparison with chitosan solution. , 2010, International journal of pharmaceutics.

[48]  A. Ezabadi,et al.  Preparation of chitosan nanoparticles containing Naja naja oxiana snake venom. , 2010, Nanomedicine : nanotechnology, biology, and medicine.

[49]  Y. Heyden,et al.  Guidance for robustness/ruggedness tests in method validation. , 2001, Journal of pharmaceutical and biomedical analysis.

[50]  B. Youan,et al.  Formulation of tenofovir-loaded functionalized solid lipid nanoparticles intended for HIV prevention. , 2011, Journal of pharmaceutical sciences.

[51]  Bruno Sarmento,et al.  Mucoadhesive nanosystems for vaginal microbicide development: friend or foe? , 2011, Wiley interdisciplinary reviews. Nanomedicine and nanobiotechnology.

[52]  K. Sugibayashi,et al.  Relationship between Solubility of Chitosan in Alcoholic Solution and Its Gelation , 1999 .

[53]  Wei Sun,et al.  Bioadhesion and oral absorption of enoxaparin nanocomplexes. , 2010, International journal of pharmaceutics.

[54]  S. Parveen,et al.  Enhanced antiproliferative activity of carboplatin-loaded chitosan-alginate nanoparticles in a retinoblastoma cell line. , 2010, Acta biomaterialia.

[55]  R. C. Weast CRC Handbook of Chemistry and Physics , 1973 .

[56]  E. De Clercq,et al.  Antiretrovirus Activity of a Novel Class of Acyclic Pyrimidine Nucleoside Phosphonates , 2002, Antimicrobial Agents and Chemotherapy.

[57]  M. Alonso,et al.  Chitosan and Chitosan/Ethylene Oxide-Propylene Oxide Block Copolymer Nanoparticles as Novel Carriers for Proteins and Vaccines , 1997, Pharmaceutical Research.

[58]  Jacob M. Marszalek,et al.  Formulation of Dacarbazine-loaded Cubosomes—Part II: Influence of Process Parameters , 2009, AAPS PharmSciTech.

[59]  M. Millar,et al.  Identification and H2O2 Production of Vaginal Lactobacilli from Pregnant Women at High Risk of Preterm Birth and Relation with Outcome , 2004, Journal of Clinical Microbiology.

[60]  R. Zhuo,et al.  Hybrid nanospheres and vesicles based on pectin as drug carriers. , 2009, Langmuir : the ACS journal of surfaces and colloids.

[61]  K. Kawakami,et al.  One-step preparation of chitosan solid nanoparticles by electrospray deposition. , 2010, International journal of pharmaceutics.

[62]  G. Vandermeulen,et al.  Bioadhesive nanoparticles of fungal chitosan for oral DNA delivery. , 2010, International journal of pharmaceutics.

[63]  Jacob M. Marszalek,et al.  Formulation of Dacarbazine-Loaded Cubosomes—Part I: Influence of Formulation Variables , 2009, AAPS PharmSciTech.

[64]  Amy C Richards Grayson,et al.  Biophysical and Structural Characterization of Polyethylenimine-Mediated siRNA Delivery in Vitro , 2006, Pharmaceutical Research.

[65]  E. De Clercq,et al.  Evaluation of the potential of ion pair formation to improve the oral absorption of two potent antiviral compounds, AMD3100 and PMPA. , 1999, International journal of pharmaceutics.

[66]  M. Tobyn,et al.  Factors affecting in vitro gastric mucoadhesion IV. Influence of tablet excipients, surfactants and salts on the observed mucoadhesion of polymers , 1997 .

[67]  C. Wiegand,et al.  Molecular-Weight-Dependent Toxic Effects of Chitosans on the Human Keratinocyte Cell Line HaCaT , 2010, Skin Pharmacology and Physiology.