ANA MARIA RIBEIRO DE CASTRO DUARTE
Projetos de Pesquisa
Unidades Organizacionais
LIM/49 - Laboratório de Protozoologia, Hospital das Clínicas, Faculdade de Medicina
4 resultados
Resultados de Busca
Agora exibindo 1 - 4 de 4
- Naturally Acquired Humoral Immunity against Malaria Parasites in Non-Human Primates from the Brazilian Amazon, Cerrado and Atlantic Forest(2020) MONTEIRO, Eliana Ferreira; FERNANDEZ-BECERRA, Carmen; ARAUJO, Maisa da Silva; MESSIAS, Mariluce Rezende; OZAKI, Luiz Shozo; DUARTE, Ana Maria Ribeiro de Castro; BUENO, Marina Galvao; CATAO-DIAS, Jose Luiz; CHAGAS, Carolina Romeiro Fernandes; MATHIAS, Bruno da Silva; SANTOS, Mayra Gomes dos; SANTOS, Stefanie Vanessa; HOLCMAN, Marcia Moreira; JR, Julio Cesar de Souza; KIRCHGATTER, KarinNon-human primates (NHPs) have been shown to be infected by parasites of the genusPlasmodium, the etiological agent of malaria in humans, creating potential risks of zoonotic transmission.Plasmodium brasilianum, a parasite species similar toP. malariaeof humans, have been described in NHPs from Central and South America, including Brazil. The merozoite surface protein 1 (MSP1), besides being a malaria vaccine candidate, is highly immunogenic. Due to such properties, we tested this protein for the diagnosis of parasite infection. We used recombinant proteins ofP. malariaeMSP1, as well as ofP. falciparumandP. vivax, for the detection of antibodies anti-MSP1 of these parasite species, in the sera of NHPs collected in different regions of Brazil. About 40% of the NHP sera were confirmed as reactive to the proteins of one or more parasite species. A relatively higher number of reactive sera was found in animals from the Atlantic Forest than those from the Amazon region, possibly reflecting the former more intense parasite circulation among NHPs due to their proximity to humans at a higher populational density. The presence ofPlasmodiumpositive NHPs in the surveyed areas, being therefore potential parasite reservoirs, needs to be considered in any malaria surveillance program.
- Atlantic Forest Malaria: A Review of More than 20 Years of Epidemiological Investigation(2021) BUERY, Julyana Cerqueira; ALENCAR, Filomena Euridice Carvalho de; DUARTE, Ana Maria Ribeiro de Castro; LOSS, Ana Carolina; VICENTE, Creuza Rachel; FERREIRA, Lucas Mendes; FUX, Blima; MEDEIROS, Marcia Melo; CRAVO, Pedro; AREZ, Ana Paula; CERUTTI JUNIOR, CrispimIn the south and southeast regions of Brazil, cases of malaria occur outside the endemic Amazon region near the Atlantic Forest in some coastal states, where Plasmodium vivax is the recognized parasite. Characteristics of cases and vectors, especially Anopheles (Kerteszia) cruzii, raise the hypothesis of a zoonosis with simians as reservoirs. The present review aims to report on investigations of the disease over a 23-year period. Two main sources have provided epidemiological data: the behavior of Anopheles vectors and the genetic and immunological aspects of Plasmodium spp. obtained from humans, Alouatta simians, and Anopheles spp. mosquitoes. Anopheles (K.) cruzii is the most captured species in the forest canopy and is the recognized vector. The similarity between P. vivax and Plasmodium simium and that between Plasmodium malariae and Plasmodium brasilianum shared between simian and human hosts and the involvement of the same vector in the transmission to both hosts suggest interspecies transfer of the parasites. Finally, recent evidence points to the presence of Plasmodium falciparum in a silent cycle, detected only by molecular methods in asymptomatic individuals and An. (K.) cruzii. In the context of malaria elimination, it is paramount to assemble data about transmission in such non-endemic low-incidence areas.
- Plasmodium simium: Population Genomics Reveals the Origin of a Reverse Zoonosis(2021) OLIVEIRA, Thais C. de; RODRIGUES, Priscila T.; EARLY, Angela M.; DUARTE, Ana Maria R. C.; BUERY, Julyana C.; BUENO, Marina G.; CATAO-DIAS, Jose L.; CERUTTI, Crispim; RONA, Luisa D. P.; NEAFSEY, Daniel E.; FERREIRA, Marcelo U.Background. The population history of Plasmodium simium, which causes malaria in sylvatic Neotropical monkeys and humans along the Atlantic Coast of Brazil, remains disputed. Genetically diverse P vivax populations from various sources, including the lineages that founded the species P simium, are thought to have arrived in the Americas in separate migratory waves. Methods. We use population genomic approaches to investigate the origin and evolution of P simium. Results. We find a minimal genome-level differentiation between P simium and present-day New World P vivax isolates, consistent with their common geographic origin and subsequent divergence on this continent. The meagre genetic diversity in P simium samples from humans and monkeys implies a recent transfer from humans to non-human primates - a unique example of malaria as a reverse zoonosis of public health significance. Likely genomic signatures of P simium adaptation to new hosts include the deletion of > 40% of a key erythrocyte invasion ligand, PvRBP2a, which may have favored more efficient simian host cell infection. Conclusions. New World P vivax lineages that switched from humans to platyrrhine monkeys founded the P simium population that infects nonhuman primates and feeds sustained human malaria transmission in the outskirts of major cities.
- Ongoing host-shift speciation in Plasmodium simium(2021) OLIVEIRA, Thais C. de; RODRIGUES, Priscila T.; DUARTE, Ana Maria R. C.; RONA, Luisa D. P.; FERREIRA, Marcelo U.Plasmodium simium, a malaria parasite that infects platyrrhine monkeys and humans in the New World, is nearly identical to Plasmodium vivax. Recent genomic comparative analyses of these sister species have identified elevated divergence in a gene that may underlie P. simium adaptation to non-human primates during its gradual speciation process.