References
- Ando S., Putnam D., Pack D. W., Langer R. PLGA microspheres containing plasmid DNA: Preservation of supercoiled DNA via cryopreparation and carbohydrate stabilization. J. Pharm. Sci 1999; 88: 126–130
- Babiuk L. A., Lewis J., Suradhat S., Baca-Estrada M., Foldvari M., Babiuk S. Polynucleotide vaccines: potential for inducing immunity in animals. J. Biotechnol 1999; 73: 131–140
- Benoit M.-A., Baras B., Gillard J. Preparation and characterisation of protein-loaded poly(ε-caprolactone) microparticles for oral vaccine delivery. Int. J. Pharm 1999; 184: 73–84
- Benoit M.-A., Baras B., Poulain-Godefroy G., Schacht A.-M., Capron A., Gillard J., Riveau G. Evaluation of the antibody response after oral immunization by microparticles containing an antigen from Sehistosoma mansoni. Biomedical Science and Technology, A. A. Hincal, H.S. Kas. Plenum Press, New-York 1998; 137–144
- Bergstrom D. E., Zhang P., Paul N. dsDNA stability dependence on pH and salt concentration (letter). Biotechniques 1998; 24: 992–994
- Boussif O., Lezoualc'h F., Zanta M. A., Mergny M. D., Scherman D., Demeneix B., Behr J.-P. A versatile vector for gene and oligonucleotide transfer into cells in culture and in vivo: Polyethylenimine. Proc. Natl. Acad. Sci. USA 1995; 92: 7297–7301
- Capan Y., Woo B. H., Gebrekidan S., Ahmed S., DeLuca P. P. Preparation and characterisation of poly(D, L-lactide-co-glycolide) microspheres for controlled release of poly(L-lysine) complexed plasmid DNA. Pharm. Res 1999a; 16: 509–513
- Capan Y., Woo B. H., Gebrekidan S., Ahmed S., DeLuca P. Influence of formulation parameters on the characteristics of poly(D, L-lactide-co-glycolide) microspheres containing poly(L-lysine) complexed plasmid DNA. J. Control. Rel 1999b; 60: 279–286
- Chen S. C., Jones D. H., Fynan E. F., Farrar G. H., Clegg J. C.S., Greenberg H. B., Herrmann J. E. Protective immunity induced by oral immunization with a rotavirus DNA-vaccine encapsulated in microparticles. J. Virol 1998; 72: 5757–5761
- Cox G. J., Zamb T. J., Babiuk L. A. Bovine herpes virus I: Immune response in mice and cattle injected with plasmid DNA. J. Virol 1993; 67: 5664–5667
- Davis H. L. Plasmid DNA expression systems for the purpose of immunization. Curr. Opinion Biotechnol 1997; 8: 635–646
- Fuller D. H., Corb M. M., Barnett S., Steimer K., Haynes J. R. Enhancement of immunodeficiency virus specific immune responses in DNA-immunized rhesus macaques. Vaccine 1997; 15: 924–926
- Fynan E. F., Webster R. G., Fuller D. H., Haynes J. R., Santoro J. C., Robinson H. L. DNA vaccines: protective immunizations by parenteral, mucosal, and gene-gun inoculations. Proc. Natl. Acad. Sci. USA 1993; 90: 11478–11482
- Garnett M. C. Gene-delivery systems using cationic polymers. Crit. Rev. Ther. Drug Carrier Syst 1999; 16: 147–207
- Hedley M. L., Curley J., Urban R. Microspheres containing plasmid-encoded antigens elicit cytotoxic T-cell responses. Nat. Med 1998; 4: 365–368
- Herrmann J. E., Chen S. C., Jones D. H., Tinsley-Bown A., Fynan E. F., Greenberg H. B., Farrar G. H. Immune responses and protection obtained by oral immunisation with rotavirus VP4 and VP7 DNA vaccines encapsulated in microparticles. Virology 1999; 259: 148–153
- Jeffery H., Davis S. S., O'Hagan D. T. The preparation and characterisation of poly(lactide-co-glycolide) microparticles. II –The enTropment of a model protein using a (water-in-oil)-in water emulsion solvent evaporation technique. Pharm. Res 1993; 10: 362–372
- Jones D. H., Clegg J. C.S., Farrar G. H. Oral delivery of micro-encapsulated DNA vaccines. Dev. Biol. Stand 1998; 92: 149–155
- Jones D. H., Corns S., McDonald S., Clegg J. C.S., Farrar G. H. Poly(DL-lactide-coglycolide)-encapsulated plasmid DNA elicits systemic and mucosal antibody responses to encoded protein after oral administration. Vaccine 1997; 15: 814–817
- Kanke M., Geissler R. G., Powell D., Kaplan A., DeLuca P. P.J. Interaction of microspheres with blood constituents. III –Macrophage phagocytosis of various types of polymeric drug carriers. Parenteral. Sci. Technol 1988; 42: 157–165
- Ledley F. D. Nonviral gene therapy: The promise of genes as pharmaceutical products. Hum. Gene Ther 1995; 6: 1129–1144
- Liu M. A., Hilleman M. R., Kurth R. DNA vaccines: A new era in vaccinology. Ann. N.Y. Acad. Sci 1995; 772
- Lorenzen N., Lorenzen E., Einer-Jensen K., Heppell J., Wu T., Davis H. Protective immunity to VHS in rainbow trout (Oncorhynchus mykiss, Walbaum) following DNA vaccination. Fish Shellfish Immunol 1998; 8: 261–270
- Lundholm P., Asakura Y., Hinkula J., Lucht E., Wahren B. Induction of mucosal IgA by a novel jet delivery technique for HIV-1 DNA. Vaccine 1999; 17: 2036–2042
- Luo D., Woodrow-Mumford K., Belcheva N., Saltzman W. M. Controlled DNA delivery systems. Pharm. Res 1999; 16: 1300–1308
- MacLaughlin F. C., Mumper R. J., Wang J., Tagliaferri J. M., Gill I., Hinchcliffe M., Rolland A. P. Chitosan and depolymerized chitosan oligomers as condensing carriers for in vivo plasmid delivery. J. Control. Rel 1998; 56: 259–272
- McCluskie M. J., Chu Y., Xia J.-L., Jessee J., Gebyehu G., Davis H. L. Direct gene transfer to the respiratory tract of mice with pure plasmid and lipid-formulated DNA. Antisense Nucl. Acid Drug Dev 1998; 8: 401–414
- Mumper R. J., Duguid J. G., Anwer K., Barron M. K., Nitta H., Rolland A. P. Polyvinyl derivatives as novel interactive polymers for controlled gene delivery to muscle. Pharm. Res 1996; 13: 701–709
- Pouton C. W., Lucas P., Thomas B. J., Uduehi A. N., Milroy D. A., Moss S. H. Polycation-DNA complexes for gene delivery: a comparison of the biopharmaceutical properties of cationic polypeptides and cationic lipids. J. Control. Rel 1998; 53: 289–299
- Rolland A., Tomlinson E. Controllable gene therapy using non-viral systems. Gene therapy and artificial self-assembling systems for gene transfer, P. Feigner, M. Heller, P. Lehn, J.-P. Behr, F.C. Szoka, Jr. ACS Books, Washington 1996; 86–100
- Tabata Y., Ikada Y. Phagocytosis of polymer microspheres by macrophages. Adv. Polym. Sci 1990; 94: 110–141
- Tang D., DeVit M., Johnston S. A. Genetic immunisation is a simple method for eliciting an immune response. Nature 1992; 356: 152–154
- Tang M. X., Szoka F. C. The influence of polymer structure on the interactions of cationic polymers with DNA and morphology of the resulting complexes. Gene Ther 1997; 4: 823–832
- Tang M. X., Redemann C. T., Szoka F. C. In vitro gene delivery by degraded polyamidoamine dendrimers. Bioconjugate Chem 1996; 7: 703–714
- Walter E., Moelling K., Pavlovic J., Merkle H. P. Microencapsulation of DNA using poly(DLlactide-co-glycolide): Stability issues and release characteristics. J. Control. Rel 1999; 61: 361–374
- Wang D., Robinson D. R., Kwon G. S., Samuel J. Encapsulation of plasmid DNA in biodegradable poly(D, L-lactic-co-glycolic acid) microspheres as a novel approach for immunogene delivery. J. Control. Rel 1999; 57: 9–18
- Wasan E. K., Reimer D. L., Bally M. B. Plasmid DNA is protected against ultrasonic cavitation-induced damage when complexed to cationic liposomes. J. Pharm. Sci 1996; 85: 427–433
- Weintraub H., Cheng P. F., Conrad K. Expression of transfected DNA depends on DNA topology. Cell 1986; 46: 115–122
- Wolfert M., Seymour L. W. Atomic force microscopy of the influence of the molecular weight of poly(L)lysine on the size of electrolyte complexes formed with DNA. Gene Ther 1996; 3: 269–273
- Wolfert M., Seymour L. W. Chloroquine and amphipathic peptide helices show synergistic transfection. in vitro. Gene Ther 1998; 5: 409–414
- Wu G., Wu C. Receptor-mediated in vitro gene transformation by soluble DNA carrier system. J. Biol. Chem 1987; 262: 4429–4432