Adeno-associated viral vectors (AAVs) have demonstrated potential in applications for neurologic disorders, and the discovery that some AAVs can cross the blood-brain barrier (BBB) after intravenous injection has further expanded these opportunities for non-invasive brain delivery. Anc80L65, a novel AAV capsid designed from in silico reconstruction of the viral evolutionary lineage, has previously demonstrated robust transduction capabilities after local delivery in various tissues such as liver, retina, or cochlea, compared with conventional AAVs. Here, we compared the transduction efficacy of Anc80L65 with conventional AAV9 in the CNS after intravenous, intracerebroventricular (i.c.v.), or intraparenchymal injections. Anc80L65 was more potent at targeting the brain and spinal cord after intravenous injection than AAV9, and mostly transduced astrocytes and a wide range of neuronal subpopulations. Although the efficacy of Anc80L65 and AAV9 is similar after direct intraparenchymal injection in the striatum, Anc80L65’s diffusion throughout the CNS was more extensive than AAV9 after i.c.v. infusion, leading to widespread EGFP expression in the cerebellum. These findings demonstrate that Anc80L65 is a highly efficient gene transfer vector for the murine CNS. Systemic injection of Anc80L65 leads to notable expression in the CNS that does not rely on a self-complementary genome. These data warrant further testing in larger animal models.
The use of herbal tea with
Artemisia annua
by travelers and traditional communities in Africa has increased in recent years as a supposed form of malaria prophylaxis, although its use is not recommended due to lack of efficacy. The risk of severe malaria complications that can lead to death is real regarding said behavior, and awareness needs to be raised. We report a case of severe
Plasmodium falciparum
malaria imported in the Amazon rainforest by a traveler returning from Cameroon who treated himself with
Artemisia annua
herbal tea.
Background
A new mutation in the Plasmodium falciparum dihydropteroate synthetase gene (pfdhps), I431V, has been identified in several countries of Central and West Africa. This mutation is mostly found in association with four other SNPs on pfdhps (S436A, A437G, A581G and A613S), forming a quintuple mutant (vagKgs) and almost always associated with the Plasmodium falciparum dihydrofolate reductase gene (pfdhfr) CirnI (C50R, N51I, S108N) triple mutant. To date, nothing is known about the impact of this new pfdhps genotype on sulfadoxine-pyrimethamine (SP) resistance.
Objectives
We sought to assess the prevalence of this pfdhps vagKgs quintuple mutant in two groups of pregnant women with malaria, one that took intermittent preventive treatment with sulfadoxine-pyrimethamine (IPTp-SP) and one that did not.
Methods
The pfdhfr and pfdhps genes from Plasmodium falciparum isolates collected in Yaoundé (Cameroon) from pregnant women with symptomatic malaria under IPTp-SP or not, were sequenced.
Results
Of 159 patients evaluated, 70 had already taken SP during pregnancy and 89 had never taken SP. Only the vagKgs allele was significantly overrepresented in the SP+ group (21.4% versus 3.4%; P < 0.001), whereas the ISgKAA mutant, widely distributed in this area and known to be less susceptible to SP, tended to be less abundant in this group (48.6% versus 64.0%; P = 0.0503).
Conclusions
We found a strong overrepresentation of the CirnI/vagKgs haplotype in the IPTp-SP pregnant group, suggesting a high level of resistance of this mutant to SP. This could compromise not only the effectiveness of IPTp-SP but also the seasonal malaria chemoprevention of young children, now widely implemented.
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