D. M. Doran scite author profile

An ideal vaccine should elicit a long lasting immune response against the natural parasite, both at the T- and B-cell level. The immune response should occur in all individuals and be directed against determinants that do not vary in the natural parasite population. A major problem in designing synthetic peptide vaccines is that T cells generally recognize peptide antigens only in association with one or a few of the many variants of major histocompatibility complex (MHC) antigens. During the characterization of epitopes of the malaria parasite Plasmodium falciparum that are recognized by human T cells, we analysed a sequence of the circumsporozoite protein, and found that synthetic peptides corresponding to this sequence are recognized by T cells in association with many different MHC class II molecules, both in mouse and in man. This region of the circumsporozoite protein is invariant in different parasite isolates. Peptides derived from this region should be capable of inducing T-cell responses in individuals of most HLA-DR types, and may represent good candidates for inclusion in an effective anti-malaria peptide vaccine.

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Identification of a CD4 binding site on the β2 domain of HLA-DR molecules

Cammarota

Scheirle

Takács

et al. 1992

Nature

258

119

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The CD4 and CD8 molecules are transmembrane glycoproteins expressed by functionally distinct subsets of mature T cells. CD4+ and CD8+ T cells recognize antigens on major histocompatibility complex (MHC) class II-bearing and class I-bearing target cells respectively. The ability of monoclonal antibodies against CD4 and CD8 to block antigen recognition by T cells, as well as cell-cell adhesion assays, indicate that CD4 and CD8 bind to nonpolymorphic determinants of class II or class I MHC. Here we demonstrate that soluble recombinant HLA-DR4 molecules from insect cells and HLA-DR-derived peptides bind to immobilized recombinant soluble CD4. CD4 binds recombinant soluble DR4 heterodimers, as well as the soluble DR4-beta chain alone. Furthermore, two out of twelve DR4-beta peptides could interact specifically with CD4. These findings show that CD4 interacts with a region of MHC class II molecules analogous to a previously identified loop in class I MHC proteins that binds CD8 (refs 8, 9).

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Epitopes recognized by human t lymphocytes on malaria circumsporozoite protein

et al. 1988

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The circumsporozoite protein of the malaria parasite Plasmodium falciparum contains regions of nonrepetitive sequences which are predicted to be T cell recognition sites. We synthesized peptides corresponding to three of these regions, and tested their ability to stimulate proliferation of peripheral blood lymphocytes from donors living in a malaria-endemic area, or from nonimmune donors. Cells from 15 out of 22 donors (including 4 of 6 nonimmune individuals) were stimulated by one or more of the peptides. T cell clones specific for one of the peptides were obtained and shown to recognize the native protein purified from sporozoites. These data help to identify T cell epitopes which could be incorporated into a malaria vaccine.

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Oxidative iodine monochloride iodination technique

Doran

Spar

1980

Journal of Immunological Methods

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Natural killer cell activity and antibody dependent cell-mediated cytotoxicity in preeclampsia

Hill

Hsia

Doran

et al. 1986

Journal of Reproductive Immunology

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D. M. Doran

A malaria T-cell epitope recognized in association with most mouse and human MHC class II molecules

Identification of a CD4 binding site on the β2 domain of HLA-DR molecules

Epitopes recognized by human t lymphocytes on malaria circumsporozoite protein

Oxidative iodine monochloride iodination technique

Natural killer cell activity and antibody dependent cell-mediated cytotoxicity in preeclampsia

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