D. Haddad et al., Characterization of antibody responses to a Plasmodium falciparum blood-stage antigen induced by a DNA prime protein boost immunization protocol, SC J IMMUN, 49(5), 1999, pp. 506-514
The humoral immune responses elicited by priming with a DNA plasmid and boo
sting with either the plasmid or the corresponding recombinant protein in a
lum adjuvant were compared. The plasmid DNA encoded a sequence (M3) derived
from the Plasmodium falciparum antigen Pf155/RESA, and the recombinant pro
tein consisted of the identical malarial sequence fused to an albumin-bindi
ng region (BB) of streptococcal protein G. Mice of different genetic backgr
ounds (CBA, Balb/c and C57B1/6) were primed with plasmid DNA and boosted wi
th either plasmid or recombinant protein. In all strains of mice, boosting
with protein elicited higher anti-M3 antibody levels than obtained by boost
ing with plasmid, yet the kinetics and longevity of the secondary responses
were comparable. Antiserum obtained after protein boosting displayed an im
munoglobulin (Ig)G subclass profile skewed to the IgG1 isotype, regardless
of the mouse strain. In contrast, mice receiving a second injection with pl
asmid responded with a more mixed IgG subclass profile. Inclusion of a P. f
alciparum circumsporozoite protein-derived T-helper epitope (CS.T3) in the
immunization plasmid as well as in the fusion protein, did not significantl
y change the humoral responses to M3. The results show the potential of DNA
vaccination for the purpose of priming an antibody response against the ma
larial blood-stage antigen Pf155/RESA. When combined with a protein boost,
this DNA priming results in high-titred and long-lasting anamnestic respons
es.