Enhancing durability of CIS43 monoclonal antibody by Fc mutation or AAV delivery for malaria prevention
Neville K. Kisalu, … , Joseph R. Francica, Robert A. Seder
Neville K. Kisalu, … , Joseph R. Francica, Robert A. Seder
Published December 17, 2020
Citation Information: JCI Insight. 2021;6(3):e143958. https://doi.org/10.1172/jci.insight.143958.
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Research Article Infectious disease

Enhancing durability of CIS43 monoclonal antibody by Fc mutation or AAV delivery for malaria prevention

Abstract

CIS43 is a potent neutralizing human mAb that targets a highly conserved “junctional” epitope in the Plasmodium falciparum (Pf) circumsporozoite protein (PfCSP). Enhancing the durability of CIS43 in vivo will be important for clinical translation. Here, 2 approaches were used to improve the durability of CIS43 in vivo while maintaining potent neutralization. First, the Fc domain was modified with the LS mutations (CIS43LS) to increase CIS43 binding affinity for the neonatal Fc receptor (FcRn). CIS43LS and CIS43 showed comparable in vivo protective efficacy. CIS43LS had 9- to 13-fold increased binding affinity for human (6.2 nM versus 54.2 nM) and rhesus (25.1 nM versus 325.8 nM) FcRn at endosomal pH 6.0 compared with CIS43. Importantly, the half-life of CIS43LS in rhesus macaques increased from 22 days to 39 days compared with CIS43. The second approach for sustaining antibody levels of CIS43 in vivo is through adeno-associated virus (AAV) expression. Mice administered once with AAV-expressing CIS43 had sustained antibody levels of approximately 300 μg/mL and mediated protection against sequential malaria challenges up to 36 weeks. Based on these data, CIS43LS has advanced to phase I clinical trials, and AAV delivery provides a potential next-generation approach for malaria prevention.

Authors

Neville K. Kisalu, Lais D. Pereira, Keenan Ernste, Yevel Flores-Garcia, Azza H. Idris, Mangaiarkarasi Asokan, Marlon Dillon, Scott MacDonald, Wei Shi, Xuejun Chen, Amarendra Pegu, Arne Schön, Fidel Zavala, Alejandro B. Balazs, Joseph R. Francica, Robert A. Seder

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Figure 4

Long-term expression and protective capacity of AAV-induced mAbs.

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Long-term expression and protective capacity of AAV-induced mAbs. (A) C5...
(A) C57BL/6 albino mice were challenged i.v. with Pb-PfCSP-LUC SPZ 36 weeks after a single administration of AAV encoding CIS43, 2A10, or VRC01. As a control, rCIS43 (300 μg) administered 2 hours prior to challenge. For all groups, n = 10; 2A10-AAV, n = 8. *P = 0.0235; **P = 0.0013; ****P ≤ 0.0001. (B) Serum hIgG levels of AAV-injected mice shown in A were measured by ELISA 32 weeks after AAV administration prior rechallenge (36 weeks). P values are shown on the panel. Data represent the mean ± SEM. (C) AAV-treated C57BL/6 mice previously protected at 3 weeks after CIS43-AAV administration (Figure 3A) were rechallenged by mosquito bites 11 weeks following the AAV administration. Kaplan-Meier curves, analyzed using the log-rank test, show the frequencies of mice free of parasites as determined through Giemsa staining of blood up to 12 days following challenge. Differences between CIS43-AAV–administered mice and untreated mice are shown (****P = 0.0001). Untreated mice, n = 7; CIS43-AAV, n = 9. (D) C57BL/6 albino mice previously protected when challenged 8 weeks after AAV administration (Figure 3B) were rechallenged i.v. with Pb-PfCSP-LUC SPZ at 36 weeks. Liver burden (left) and parasitemia (right) are shown. P values are displayed on the panels. CIS43-AAV, n = 8; 300 μg-rCIS43, n = 10. Differences in parasite liver burden, parasitemia, or serum antibody concentration between groups were determined using the Kruskal-Wallis test for multiple comparisons with Dunn’s correction. Data represent the geometric mean with 95% CI (A and D).