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Nanoencapsulation of Mycolic acids as a deliverable to macrophages

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dc.contributor.author Benadie, Y
dc.contributor.author Semete, B
dc.contributor.author Venter, L
dc.contributor.author Kalombo, Lonji
dc.contributor.author Driver, C
dc.contributor.author Jones, AT
dc.contributor.author Swai, H
dc.contributor.author Verschoor, JA
dc.date.accessioned 2010-12-06T09:29:40Z
dc.date.available 2010-12-06T09:29:40Z
dc.date.issued 2008-06
dc.identifier.citation Benadie, Y, Semete, B, Venter, L et al. 2008. Nanoencapsulation of Mycolic acids as a deliverable to macrophages. Cardiff, UK, June 22-25 2008, pp 1 en
dc.identifier.uri http://hdl.handle.net/10204/4593
dc.description.abstract The cell wall envelope of Mycobacterium tuberculosis contains unique high molecular weight lipids. Of these, the most abundant are mycolic acids, an extended family of long 2-alkyl 3-hydroxyl fatty acids, typically 70-90 carbon atoms in length, with peculiar physical and biological properties. For example, in a mouse model of asthma it was shown that mycolic acids can suppress inhaled allergen triggered inflammation, demonstrating their potential as immunotherapeutic agents. Due to the extremely hydrophobic nature of mycolic acids, a suitable vehicle is needed to introduce them into the body and guide them to their natural macrophage targets. The objective of this project was to explore the encapsulation of mycolic acids into delivery vehicles in order to assess the feasibility of an alternative means of delivery and addressing the challenge of low solubility. As vehicles nanoparticles have the advantage over liposomes in that they can increase the stability of the drug as well as effect controlled release of the agent by in vivo particle degradation. The authors demonstrate how mycolic acids rapidly exchange among liposomes, even at low temperatures, which can be extrapolated to suggest their rapid distribution in the body after administration. As an alternative, mycolic acids were encapsulated in PLGA nanoparticles of an average size of 500 nm for administration. Particles were characterized and subjected to in vitro analyses in order to determine their uptake and localization in macrophage cell lines and CaCo-2 cells. This was performed via confocal microscopy. The authors were able to demonstrate that mycolic acids can be taken up by macrophages irrespective of the liposomal or nanoparticulate vehicle that is used for their mobilization, but that the pharmacodynamics of distribution in the body will be different, depending on the vehicle. en
dc.language.iso en en
dc.relation.ispartofseries POSTER en
dc.subject Mycobacterium tuberculosis en
dc.subject Macrophages en
dc.subject Mycolic acids en
dc.subject Asthma en
dc.subject Allergen en
dc.subject Nanoparticles en
dc.title Nanoencapsulation of Mycolic acids as a deliverable to macrophages en
dc.type Conference Presentation en
dc.identifier.apacitation Benadie, Y., Semete, B., Venter, L., Kalombo, L., Driver, C., Jones, A., ... Verschoor, J. (2008). Nanoencapsulation of Mycolic acids as a deliverable to macrophages. http://hdl.handle.net/10204/4593 en_ZA
dc.identifier.chicagocitation Benadie, Y, B Semete, L Venter, Lonji Kalombo, C Driver, AT Jones, H Swai, and JA Verschoor. "Nanoencapsulation of Mycolic acids as a deliverable to macrophages." (2008): http://hdl.handle.net/10204/4593 en_ZA
dc.identifier.vancouvercitation Benadie Y, Semete B, Venter L, Kalombo L, Driver C, Jones A, et al, Nanoencapsulation of Mycolic acids as a deliverable to macrophages; 2008. http://hdl.handle.net/10204/4593 . en_ZA
dc.identifier.ris TY - Conference Presentation AU - Benadie, Y AU - Semete, B AU - Venter, L AU - Kalombo, Lonji AU - Driver, C AU - Jones, AT AU - Swai, H AU - Verschoor, JA AB - The cell wall envelope of Mycobacterium tuberculosis contains unique high molecular weight lipids. Of these, the most abundant are mycolic acids, an extended family of long 2-alkyl 3-hydroxyl fatty acids, typically 70-90 carbon atoms in length, with peculiar physical and biological properties. For example, in a mouse model of asthma it was shown that mycolic acids can suppress inhaled allergen triggered inflammation, demonstrating their potential as immunotherapeutic agents. Due to the extremely hydrophobic nature of mycolic acids, a suitable vehicle is needed to introduce them into the body and guide them to their natural macrophage targets. The objective of this project was to explore the encapsulation of mycolic acids into delivery vehicles in order to assess the feasibility of an alternative means of delivery and addressing the challenge of low solubility. As vehicles nanoparticles have the advantage over liposomes in that they can increase the stability of the drug as well as effect controlled release of the agent by in vivo particle degradation. The authors demonstrate how mycolic acids rapidly exchange among liposomes, even at low temperatures, which can be extrapolated to suggest their rapid distribution in the body after administration. As an alternative, mycolic acids were encapsulated in PLGA nanoparticles of an average size of 500 nm for administration. Particles were characterized and subjected to in vitro analyses in order to determine their uptake and localization in macrophage cell lines and CaCo-2 cells. This was performed via confocal microscopy. The authors were able to demonstrate that mycolic acids can be taken up by macrophages irrespective of the liposomal or nanoparticulate vehicle that is used for their mobilization, but that the pharmacodynamics of distribution in the body will be different, depending on the vehicle. DA - 2008-06 DB - ResearchSpace DP - CSIR KW - Mycobacterium tuberculosis KW - Macrophages KW - Mycolic acids KW - Asthma KW - Allergen KW - Nanoparticles LK - https://researchspace.csir.co.za PY - 2008 T1 - Nanoencapsulation of Mycolic acids as a deliverable to macrophages TI - Nanoencapsulation of Mycolic acids as a deliverable to macrophages UR - http://hdl.handle.net/10204/4593 ER - en_ZA


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