Characterization of Plasmodium Berghei Pbg37 As Both a Pre- and Postfertilization Antigen with Transmission-Blocking Potential

Overview

Journal Infect Immun

Publisher American Society for Microbiology

Specialty Allergy & Immunology

Date 2018 Jun 6

PMID 29866905

Citations 11

Authors

Fei Liu

Li Li

Wenqi Zheng

Yiwen He

Yaru Wang

Xiaotong Zhu

Takafumi Tsuboi

Liwang Cui

Meilian Wang

Yaming Cao

Affiliations

Soon will be listed here.

Abstract

Transmission-blocking vaccines (TBVs) interrupting malaria transmission are an integrated tool for malaria eradication. We characterized a sexual-stage-specific gene (PBANKA_060330) from and studied its potential for use as a TBV. This gene, referred to as , encodes a protein of 37 kDa with a signal peptide and multiple transmembrane domains and is preferentially expressed in gametocytes. A recombinant Pbg37 (rPbg37) protein targeting the N-terminal 63 amino acids (amino acids 26 to 88) expressed in bacteria elicited strong antibody responses in mice. Western blotting demonstrated Pbg37 expression in gametocytes, zygotes, and, to a lesser extent, ookinetes and its predominant association with the membranes of gametocytes. Indirect immunofluorescence assay showed an abundant surface localization of Pbg37 on gametes and zygotes but reduced amounts on retorts and ookinetes. Knockout of (Δ) led to a considerable reduction in gametocytemia, which translated into a ~92.1% decrease in the oocyst number in mosquitoes. Deletion of had a more substantial influence on the development and maturation of microgametocytes. As a result, the Δ lines exhibited a higher female/male gametocyte ratio, fewer mature male gametocytes, and defects in the exflagellation of mature microgametocytes. To test the transmission-blocking potential of Pbg37, an ookinete assay showed that the major inhibitory effects of anti-Pbg37 antiserum were on the exflagellation and fertilization processes. Direct feeding of mosquitoes on mice immunized with rPbg37 or a control protein showed that rPbg37-immunized and -infected mice had a significant reduction (49.1%) in oocyst density compared to the controls. The conservation of this gene in warrants further investigations in human malaria parasites.

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