Accession Number : AD1044765


Title :   Malaria Prevention by New Technology: Vectored Delivery of Antibody Genes


Descriptive Note : Technical Report,08 Sep 2016,07 Sep 2017


Corporate Author : John Hopkins University Baltimore United States


Personal Author(s) : Ketner, Gary


Full Text : https://apps.dtic.mil/dtic/tr/fulltext/u2/1044765.pdf


Report Date : 01 Oct 2017


Pagination or Media Count : 9


Abstract : Malaria has proven refractory to conventional immunization approaches. We are exploring a novel route to induction of anti-malaria immunity: adeno associated virus (AAV) vectored transfer of genes encoding known protective monoclonal antibodies (MAbs) to whole animals. Using a specific technology originally applied to expression of HIV antibodies, we demonstrated that mice can be protected from Plasmodium falciparum infection by antibodies against circumsporozoite protein, an antigen found on the surface of the form of the parasite injected by mosquitoes. This project has two specific aims: 1. Identification of optimal MAbs by construction of additional vectors and assessments of protective efficacy in mice, and 2. Tests of protective efficacy of these MAbs, delivered by AAV vectors, in a non-human primate (Aotus nancymaae) model of P.falciparum infection. In this period, five MAb vectors have been constructed and fully or partially characterized in mice (See below). Two of these exhibit efficacy comparable to the MAb used in our original studies and are undergoing sequence optimization that is expected to enhance efficacy. NHP trials have been hampered by technical difficulties in reproducing the published challenge protocols (see below), and efforts on that aim are currently directed toward validating the challenge assay.


Descriptors :   malaria , antibodies , immunization , vaccines , genes , VIRUSES , models , antigens , proteins , DISEASE VECTORS


Subject Categories : Medicine and Medical Research
      Genetic Engineering and Molecular Biology
      Biochemistry


Distribution Statement : APPROVED FOR PUBLIC RELEASE