Nanobiotechnological approaches to delivery of DNA vaccine against fungal infection.

Abstract	Vaccines play an essential role in keeping humans healthy. Innovative approaches to their use include the utilization of plasmid DNA encoding sequences to express foreign antigens. DNAhsp65 from Mycobacterium leprae is suitable for this purpose due to its ability to elicit a powerful immune response. Controlled release systems represent a promising approach to delivering vaccines. In this work, we used liposomes or PLGA systems to deliver DNAhsp65 to treat the pulmonary fungal infection Paracoccidioidomycosis. Both formulations modulated a protective immune response and reduced the pulmonary fungal burden even in the groups receiving less than four times the amount of the DNAhps65 entrapped within the nanoparticles. Although both systems had the same effective therapeutic results, the advantage of the liposome formulation was that it was administered intranasally, which may be more easily accepted by patients. These systems are a great alternative to be considered as adjuvant vaccine therapy for systemic mycosis.
Authors	A M Ribeiro, A C O Souza, A C Amaral, N M Vasconcelos, M S Jeronimo, F P Carneiro, L H Faccioli, M S S Felipe, C L Silva, A L Bocca
Journal	Journal of biomedical nanotechnology (J Biomed Nanotechnol) Vol. 9 Issue 2 Pg. 221-30 (Feb 2013) ISSN: 1550-7033 [Print] United States
PMID	23627048 (Publication Type: Journal Article, Research Support, Non-U.S. Gov't)
Chemical References	Bacterial Proteins Chaperonin 60 Cytokines Fungal Vaccines Immunoglobulin G Liposomes Vaccines, DNA heat-shock protein 65, Mycobacterium Polylactic Acid-Polyglycolic Acid Copolymer Polyglycolic Acid Nitric Oxide Lactic Acid
Topics	Animals Bacterial Proteins (metabolism) Biotechnology (methods) Cell Proliferation Chaperonin 60 (metabolism) Cytokines (metabolism) Fungal Vaccines (administration & dosage, immunology) Gene Transfer Techniques Immunity, Humoral (immunology) Immunoglobulin G (blood) Lactic Acid (chemistry) Liposomes (chemistry) Lung (immunology, microbiology, pathology) Male Mice Mice, Inbred BALB C Mycobacterium leprae (metabolism) Nanotechnology (methods) Nitric Oxide (metabolism) Paracoccidioides (physiology) Paracoccidioidomycosis (blood, immunology, microbiology, prevention & control) Polyglycolic Acid (chemistry) Polylactic Acid-Polyglycolic Acid Copolymer Spleen (metabolism) Vaccines, DNA (administration & dosage, immunology)

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