TY - UNPB
T1 - Broadly inhibitory antibodies against severe malaria virulence proteins
AU - Reyes, Raphael A
AU - Raghavan, Sai Sundar Rajan
AU - Hurlburt, Nicholas K
AU - Introini, Viola
AU - Kana, Ikhlaq Hussain
AU - Jensen, Rasmus W
AU - Martinez-Scholze, Elizabeth
AU - Gestal-Mato, Maria
AU - Bau, Cristina Bancells
AU - Fernández-Quintero, Monica Lisa
AU - Loeffler, Johannes R
AU - Ferguson, James Alexander
AU - Lee, Wen-Hsin
AU - Martin, Greg Michael
AU - Theander, Thor G
AU - Ssewanyana, Isaac
AU - Feeney, Margaret E
AU - Greenhouse, Bryan
AU - Bol, Sebastiaan
AU - Ward, Andrew B
AU - Bernabeu, Maria
AU - Pancera, Marie
AU - Turner, Louise
AU - Bunnik, Evelien M
AU - Lavstsen, Thomas
PY - 2024/1/25
Y1 - 2024/1/25
N2 - Plasmodium falciparum pathology is driven by the accumulation of parasite-infected erythrocytes in microvessels. This process is mediated by the parasite's polymorphic erythrocyte membrane protein 1 (PfEMP1) adhesion proteins. A subset of PfEMP1 variants that bind human endothelial protein C receptor (EPCR) through their CIDRα1 domains is responsible for severe malaria pathogenesis. A longstanding question is whether individual antibodies can recognize the large repertoire of circulating PfEMP1 variants. Here, we describe two broadly reactive and binding-inhibitory human monoclonal antibodies against CIDRα1. The antibodies isolated from two different individuals exhibited a similar and consistent EPCR-binding inhibition of 34 CIDRα1 domains, representing five of the six subclasses of CIDRα1. Both antibodies inhibited EPCR binding of both recombinant full-length and native PfEMP1 proteins as well as parasite sequestration in bioengineered 3D brain microvessels under physiologically relevant flow conditions. Structural analyses of the two antibodies in complex with two different CIDRα1 antigen variants reveal similar binding mechanisms that depend on interactions with three highly conserved amino acid residues of the EPCR-binding site in CIDRα1. These broadly reactive antibodies likely represent a common mechanism of acquired immunity to severe malaria and offer novel insights for the design of a vaccine or treatment targeting severe malaria.
AB - Plasmodium falciparum pathology is driven by the accumulation of parasite-infected erythrocytes in microvessels. This process is mediated by the parasite's polymorphic erythrocyte membrane protein 1 (PfEMP1) adhesion proteins. A subset of PfEMP1 variants that bind human endothelial protein C receptor (EPCR) through their CIDRα1 domains is responsible for severe malaria pathogenesis. A longstanding question is whether individual antibodies can recognize the large repertoire of circulating PfEMP1 variants. Here, we describe two broadly reactive and binding-inhibitory human monoclonal antibodies against CIDRα1. The antibodies isolated from two different individuals exhibited a similar and consistent EPCR-binding inhibition of 34 CIDRα1 domains, representing five of the six subclasses of CIDRα1. Both antibodies inhibited EPCR binding of both recombinant full-length and native PfEMP1 proteins as well as parasite sequestration in bioengineered 3D brain microvessels under physiologically relevant flow conditions. Structural analyses of the two antibodies in complex with two different CIDRα1 antigen variants reveal similar binding mechanisms that depend on interactions with three highly conserved amino acid residues of the EPCR-binding site in CIDRα1. These broadly reactive antibodies likely represent a common mechanism of acquired immunity to severe malaria and offer novel insights for the design of a vaccine or treatment targeting severe malaria.
U2 - 10.1101/2024.01.25.577124
DO - 10.1101/2024.01.25.577124
M3 - Preprint
C2 - 38328068
T3 - bioRxiv : the preprint server for biology
BT - Broadly inhibitory antibodies against severe malaria virulence proteins
ER -