Structural Modifications Enable Conserved Peptides to Fit into MHC Molecules thus Inducing Protection against Malaria

Patarroyo, Manuel E.; Cifuentes, Gladys; Vargas, Luis Eduardo; Rosas, Juan M.

doi:10.1002/cbic.200400116

Cited by 25 publications

(59 citation statements)

References 25 publications

(102 reference statements)

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“…Remarkably, it was found that both Mrz-and Spz-derived mHABPs bound to different HLA-DRb1* molecules while most unmodified cHABPs did not do so or were highly promiscuous, confirming what had been postulated: the changes allowed a better fit of mHABPs into the HLA-DRb1* peptide binding region (PBR) groove and improved MHC II--mHABP interaction specificity which, in turn, was correlated with protective immunity in Aotus monkeys [76,84,89,90].…”

Section: Mhabp Structure--function Relationshipsupporting

confidence: 68%

“…These highly defined and specific structural interactions between MHC II molecules and mHABPs explain why certain modifications rendered mHABPs immunogenic and protection-inducing while other changes only induced immunogenicity, short-lived protection and/or cellular immune response, but not protection [67,68,76,83,89]. On the other hand, we found that mHABPs (Spz-and Mrz-derived) having PPII L structures achieved a perfect fit into MHC II molecules having 7 --11 H-bonds and thus stable and suitable mHABP--MHC II complex formation for appropriate presentation to the TCR, thereby inducing an effective immune response [11,85,86,103].…”

Section: Mhabp Structure--function Relationshipmentioning

confidence: 99%

“…Much of the recent body of our work has dealt with the immunogenicity (IFA and WB assays) of individual Mrz-and Spz-derived mHABPs and their protection-inducing ability by the most stringent test available (intravenous inoculation of a highly virulent Aotus-adapted P. falciparum strain), showing that mHABPs from Mrz and Spz parasite stages cover most MHC II genetic variants and face the parasite regarding two lines of defence: Spz and Mrz invasion [11,67,68,74,76,78,84,89,90].…”

Section: Components For a New Antimalarial Vaccinementioning

confidence: 99%

See 2 more Smart Citations

Recent advances in the development of a chemically synthesised anti-malarial vaccine

Curtidor

Patarroyo

2015

Expert Opinion on Biological Therapy

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The functional approach taken to develop a fully protective, minimal subunit-based, multiantigenic, multistage and synthetic peptide-based antimalarial vaccine has shown promising results. The clear relationship observed between mHABPs structure and their immunological properties highlights the challenges and opportunities arising from this methodology, as well as the universal principles and rules derived therefrom.

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Section: Mhabp Structure--function Relationshipsupporting

confidence: 68%

Section: Mhabp Structure--function Relationshipmentioning

confidence: 99%

Section: Components For a New Antimalarial Vaccinementioning

confidence: 99%

See 1 more Smart Citation

Recent advances in the development of a chemically synthesised anti-malarial vaccine

Curtidor

Patarroyo

2015

Expert Opinion on Biological Therapy

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“…Our group has been working for more than three decades in figuring out a rational methodology for vaccine development which includes functional assays to determine those peptide regions involved in target cell binding and then performing specific modifications to them to allow a better fit into immune system molecules. This approach has allowed us to turn nonimmunogenic conserved binding regions to target cells into immunogenic and protection-inducing ones, when they are tested in the Aotus monkey model (Patarroyo et al, 2004Cifuentes et al, 2008;.…”

Section: Discussionmentioning

confidence: 99%

Identification of the Plasmodium falciparum rhoptry neck protein 5 (PfRON5)

Curtidor

Patiño

Arévalo-Pinzón

et al. 2011

Gene

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“…41,44,[50][51][52][53][54][55][56][57][58] This distance was 6.5 ( 0.5 Å and 4.5 ( 1.5 Å shorter in short-lived and long-lasting antibody-inducing but non-protection-inducing modified HABPs, respectively, than in immunogenic, protection-inducing ones; residue orientation was also different. 42,43 In essence, immunogenic protection-inducing modified conserved HABPs have been modified so that they can fit perfectly into the MHC II-peptide-TCR complex for triggering an appropriate immune response, providing tremendous support for using chemically synthesized, specifically modified conserved HABPs in vaccine development.…”

Section: Structural and Binding Characteristics Of Hla-dr Moleculesmentioning

confidence: 90%

Emerging Rules for Subunit-Based, Multiantigenic, Multistage Chemically Synthesized Vaccines

2008

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S eventeen million people die of transmittable diseases and 2/3 of the world's population suffer them annually. Malaria, tuberculosis, AIDS, hepatitis, and reemerging and new diseases are a great threat to humankind. A logical and rational approach for vaccine development is thus desperately needed.Protein chemistry provides the best tools for tackling these problems. The tremendous complexity of microbes, the different pathways they use for invading host cells, and the immune responses they induce can only be resolved by using the minimum subunit-based (chemically produced ∼20-mer peptides), multiantigenic (most proteins involved in invasion), multistage (different invasion mechanisms) vaccine development approach.The most lethal form of malaria caused by Plasmodium falciparum (killing 3 million and affecting 500 million people worldwide annually) was used as target disease since many of its proteins, its invasion pathways, and its genome have been described recently. A New World primate (the Aotus monkey) is highly susceptibly to human malaria; its immune system molecules are 80 -100% identical to those of its human counterpart, making it an excellent model for vaccine development.Chemically synthesized ∼20-mer peptides, covering all the P. falciparum malaria proteins involved in red blood cell (RBC) invasion were synthesized by the classical t-Boc technology (based on synthetic SPf66 antimalarial vaccine information for identifying targets) and assayed in a highly sensitive, specific, and robust test for detecting receptor-ligand interactions between high-activity binding peptides (HABPs) and RBCs. HABPs were identified, some in which the molecule displays genetic variability (to be discarded due to their tremendous complexity) and elicits a strain-specific immune response and others that are conserved (no amino acid sequence variation).Conserved HABPs were synthesized in a polymeric form by adding cysteines at their N-and C-terminal ends to be used for monkey immunization. They became nonimmunogenic (no antibodies were induced) nonprotection inducers (monkeys were not protected against P. falciparum malaria challenge with a highly infective strain) suggesting a code of immunological silence or nonresponsiveness for these conserved HABPs.A large number of monkey trials involving a considerable number of Aotus monkeys were performed to break this code of immunological silence by replacing critical residues (determined by glycine peptide analogue scanning) to find that the following amino acid changes had to be made to render them antibody and protection inducing: FTR; WTY; LTH; ITN; MTK; PTD; QTE; CTT.The three-dimensional (3D) structure of >100 of these native modified HABPs (determined by 1 H NMR) revealed that the following structural changes had all to be achieved to allow a better fit into the major histocompatibility complex class II (MHC II)-peptide-TCR complex to properly activate the immune system: R-helix shortening, modifying their -turn, adopting segmental R-helix configuration, changing residue or...

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Structural Modifications Enable Conserved Peptides to Fit into MHC Molecules thus Inducing Protection against Malaria

Cited by 25 publications

References 25 publications

Recent advances in the development of a chemically synthesised anti-malarial vaccine

Recent advances in the development of a chemically synthesised anti-malarial vaccine

Identification of the Plasmodium falciparum rhoptry neck protein 5 (PfRON5)

Emerging Rules for Subunit-Based, Multiantigenic, Multistage Chemically Synthesized Vaccines

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