Design of a mimotope-peptide based double epitope vaccine against candidiasis
Lsu Health Sciences Center, New Orleans LA
Investigators
Linked publications, trials & patents
Abstract
DESCRIPTION (provided by applicant): Disseminated candidiasis is a life-threatening disease and remains the third most common bloodstream infection in hospitalized patients both in the United States and many European countries. Our strategy for disease management is prevention, rather than treatment, through immunization or administration of preformed antibodies. Our lab has successfully used novel fully synthetic peptide and glycopeptide vaccines against Candida albicans cell surface epitopes combat disseminated candidiasis in mice. Strong evidences show that antibodies specific for the peptide Fba (derived from C. albicans cell surface protein fructose bisphosphate aldolase) and C. albicans cell surface ß-1, 2-mannotriose [ß-(Man)3]) contribute to the protection. Therefore, this glycopeptide vaccine [ß-(Man)3-Fba] is able to provide dual immune recognition to help ensure protective immunity against C. albicans. We also demonstrated that addition of tetanus toxoid to the synthetic glycopeptide conjugate vaccine ß-(Man)3-Fba-TT) induced antibody-dependent protective immunity without the need for adjuvant, which are a major step forward in a vaccine for human use. Most recently, we have identified a panel of novel peptide mimotopes, which structurally mimics protective epitope ß-(Man)3, as surrogate immunogens that substitute glycan part of glycopeptide vaccine. The overall goal of this research is to design and test a new mimotope-peptide based double epitope vaccine feasible for human use. Furthermore, we will test the efficacy of glycopeptide conjugate vaccine, as well as the new mimotope-peptide based vaccine(s), in a new mouse model that closely simulates humans by having protracted GI tract colonization with C. albicans. In Aim 1, we will modify the glycopeptide conjugate ß-(Man)3-Fba by taking place of glycan part with newly identified peptide-mimotope. In Aim 2, mice will be modified to have protracted GI tract colonization with C. albicans, and vaccine efficacy will be tested under host conditions that more closely simulate those of humans.
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