Cd loop fusion enhances the immunogenicity and the potential transmission blocking activity of Plasmodium falciparum generative cell specific 1 (GCS1) antigen.

TBVs are suggested to inhibit parasite transmission from humans to Anopheles mosquitoes. For the transmission of Plasmodium parasite, a variety of factors are included in gametes fusion phase. In this step, conserved male-specific generative cell specific 1 antigen is necessary for fusion of cytoplasmic membranes of micro- and macro-gametocytes and zygot formation. The partial blocking activities of elicited antibodies against either the HAP2-GCS1 domain or the cd loop of this antigen have been recorded to hinder the transmission of Plasmodium species in Anopheles mid-gut. Thus, the objective of the present study was to investigate if the cd loop-fusion can enhance the quantity and quality of humoral and cellular immune responses against Plasmodium falciparum GCS1 in comparison to non-fusion antigen (without cd loop), in the adjuvanted and non-adjuvanted mouse groups. The immunogenicity of two constructs of P. falciparum generative cell specific 1 antigen, a fusion protein composed of cd loop and HAP2-GCS1 domain (cd-HAP) and another recombinant PfGCS1 containing solo HAP2-GCS1 domain (HAP2) were assessed to impede Plasmodium gametocytes integration before zygote formation. The antibodies profiling, titer, and avidity of induced antibodies were measured by the immunized mice sera, and the released cytokines (IL-5, TNF, and INF-γ) were analyzed in the supernatants of stimulated splenocytes. Furthermore, the inhibitory potency of the elicited antibodies against HAP2 and cd-HAP was measured during oocyst development by Standard Membrane Feeding Assay (SMFA). The comparative results in the present study showed the higher titer of IgG antibodies and IgG2a subclass, avidity, and transmission-reducing activity (TRA = 72.5 %) when mice were immunized by cd-HAP rather than HAP2. Moreover, our findings confirmed intensified Th1-directed immune responses in group 4 received cd-HAP/Poly(I:C). These findings declared the potential ability of cd loop fusion (cd-HAP) to upsurge humoral and cellular immune responses. However, the immune responses may switch to stronger Th1-type using alternative formulations. Explicitly, the cd-HAP-based vaccine may enhance the overall efficiency of immune responses and present a promising implementation in aiming malaria transmission.

Optimization of the heterologous expression and purification of Plasmodium falciparum generative cell specific 1 in Escherichia coli.

Generative cell specific 1 (GCS1) or Hapless2 (Hap2) is a main transmission-blocking vaccine (TBV) candidate against malaria. Experience has shown that this protein is difficult to express in heterologous hosts. In a study, Plasmodium falciparum GCS1 (PfGCS1) could be expressed in fusion with Glutathione S Transferase (GST). Since the large fusions could influence the immunogenicity of the recombinant antigens, in the current study, we tried to express PfGCS1 protein without large fusion tags with an appropriate yield and purity in E. coli. To this end, pfgcs1 gene was codon-optimized and cloned in pET23a plasmid. The expression was evaluated in different E. coli hosts [E. coli BL21(DE3), E. coli BL21(DE3) pLysS, E. coli Rosetta(DE3), and E. coli Rosettagami(DE3)] and media cultures. In addition, the effect of post-induction times, inducer concentration, temperature, and supplementation of glucose and ethanol to culture media were evaluated. The obtained results revealed that rPfGCS1 protein was expressed in all examined E. coli hosts and media cultures with different yields, with the best yield in E. coli BL21(DE3), and E. coli Rosetta(DE3) hosts in TB medium, 16 h post-induction. The expression of rPfGCS1 was confirmed by western blotting using anti-His antibodies. Expression in low temperature at 20 °C and addition of glucose and ethanol to TB media could improve the expression of rPfGCS1. We could express and purify rPfGCS1 without a large fusion protein with an appropriate yield and purity in E. coli Rosetta(DE3). We will evaluate this antigen as TBV candidate against P. falciparum transmission in the future.