ABSTRACT
Artemisinin is a sesquiterpene lactone natural product that contains an endoperoxide bond. Artemisinin has various biological activities including antimalarial, anti-tumor, antiviral and anti-fibrotic activity. Owing to the poor pharmacokinetic properties of artemisinin, its derivatives are currently used in clinic and frequently reported in literature. Although numerous derivatives of artemisinin have been reported, no study has been carried out yet to study the effect of substituted groups with different acid-base property on the antimalarial activity. Among these derivatives, the C-10 carbon artemisinin derivatives are often reported, and their corresponding 10β epimer show much better antimalarial activity than 10α epimer with large-sized substitute. However, there is currently no stereoselective synthesis to efficiently prepare the privileged 10β epimer of C-10 carba artemisinin. To address these two scientific questions, we herein first report an optimized method to stereoselectively synthesize the 10β epimer of C-10 carba artemisinin (98∶2 d.r.). Second, we employed the optimized method to synthesize a series of C-10 carba artemisinin derivatives with different acid-base properties. The antimalarial examination indicated that those derivatives with neutral groups or basic group of short chain showed similar antimalarial activity as dihydroartemisinin (DHA). The acidic group could dramatically decrease the antimalarial effect and was more than 22-fold less effective than DHA or the neutral ones. This study will shed light on the development of new generation of artemisinin derivatives with potent activity.
ABSTRACT
Objective To study effects of secreted cytotoxic T-lymphocyte-associated protein-4(CTLA-4)fusion Plasmodium falciparum DNA vaccine combined with granulocyte-macrophage colony stimulating factor(GM-CSF) on humoral and cellular immune responses in mice.Methods The malaria antigen coding sequence fused with CTLA-4 extracellular region of mouse was constructed as eukaryotic secretory expression vector VR 1012-sES312-CTLA,recombinant protein in culture of transfected HEK 293 cells was detected by Western blot.Balb/c mice were co-administrated with VR1012-sES312-CTLA and GM-CSF expression vector.After immunization specific antibody IgG titers and cytokines IFN-γand IL-4 expression levels were evaluated by ELISA and ELISPOT respectively. Results The introduction of CTLA-4 into malaria DNA vaccine system and application of GM-CSF adjuvant signifi-cantly enhanced the specific immune response to the vaccine.Antibody titers in VR1012-sES312-CTLA and GM-CSF co-immunized mice showed a 190-fold increase compared with the simple designed VR1012-ES312 immunization(P<0.001).Conclusions Humoral and cellular immunity induced by malaria DNA vaccine are significantly en -hanced by both dendritic cell-targeting modification and the introduction of GM-CSF molecular adjuvant into the im-mune system.This result provides a new idea for effectively raising the immune response to malaria DNA vaccine.