About: Nanoparticles show great promise as potent vaccine candidates since they are readily taken up by the antigen presenting cells of the immune system. The particle size and the density of the B cell epitopes on the surface of the particles greatly influences the strength of the humoral immune response. We have developed a novel type of nanoparticle composed of peptide building blocks (Raman et al., 2006) and have used such particles to design vaccines against malaria and SARS (Kaba et al., 2009, Pimentel et al., 2009). Here we investigate the biophysical properties and the refolding conditions of a prototype of these self-assembling polypeptide nanoparticles (SAPNs). SAPNs are formed from a peptide containing a pentameric and a trimeric coiled-coil domain. At near physiological conditions the peptide self-assembles into about 27 nm, roughly spherical SAPNs. The average size of the SAPNs increases with the salt concentration. The optimal pH for their formation is between 7.5 and 8.5, while aggregation occurs at lower and higher values. A glycerol concentration of about 5% v/v is required for the formation of SAPNs with regular spherical shapes. These studies will help to optimize the immunological properties of SAPNs.   Goto Sponge  NotDistinct  Permalink

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  • Nanoparticles show great promise as potent vaccine candidates since they are readily taken up by the antigen presenting cells of the immune system. The particle size and the density of the B cell epitopes on the surface of the particles greatly influences the strength of the humoral immune response. We have developed a novel type of nanoparticle composed of peptide building blocks (Raman et al., 2006) and have used such particles to design vaccines against malaria and SARS (Kaba et al., 2009, Pimentel et al., 2009). Here we investigate the biophysical properties and the refolding conditions of a prototype of these self-assembling polypeptide nanoparticles (SAPNs). SAPNs are formed from a peptide containing a pentameric and a trimeric coiled-coil domain. At near physiological conditions the peptide self-assembles into about 27 nm, roughly spherical SAPNs. The average size of the SAPNs increases with the salt concentration. The optimal pH for their formation is between 7.5 and 8.5, while aggregation occurs at lower and higher values. A glycerol concentration of about 5% v/v is required for the formation of SAPNs with regular spherical shapes. These studies will help to optimize the immunological properties of SAPNs.
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  • Virology
  • Plasmodium
  • Biofuels
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