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| Field workers in Macha set traps to capture mosquitoes. |
Researchers at the Johns Hopkins Bloomberg School of Public Health have identified a bacterium in field-caught mosquitoes that, when present, stops the development of Plasmodium falciparum, the parasite that causes malaria in humans. According to the study, the Enterobacter bacterium is part of the naturally occurring microbial flora of the mosquito’s gut and kills the parasite by producing reactive oxygen species (or free radical molecules). The study is published in the May 13 edition of Science.
“We’ve previously shown that the mosquito’s midgut bacteria can activate its immune system and thereby indirectly limit the development of the malaria parasite. In this study we show that certain bacteria can directly block the malaria parasite’s development through the production of free radicals that are detrimental to Plasmodium in the mosquito gut,” said George Dimopoulos, PhD, senior author of the study and associate professor at theW. Harry Feinstone Department of Molecular Microbiology and Immunology, and the Johns Hopkins Malaria Research Institute. “We are particularly excited about this discovery because it may explain why mosquitoes of the same species and strain sometimes differ in their resistance to the parasite, and we may also use this knowledge to develop novel methods to stop the spread of malaria. One biocontrol strategy may, for example, rely on the exposure of mosquitoes in the field to this natural bacterium, resulting in resistance to the malaria parasite. ”
Like humans, mosquitoes have a variety of bacteria in their digestive systems. For the study, the researchers isolated the Enterobacter bacterium from the midgut of Anopheles mosquitoes collected near the Johns Hopkins Malaria Research Institute at Macha, which is located in southern Zambia. About 25 percent of the mosquitoes collected contained the specific bacteria strain. Laboratory studies showed the bacterium inhibited the growth of Plasmodium up to 99 percent, both in the mosquito gut and in a test tube culture of the human malaria parasite. Higher doses of bacteria had a greater impact on Plasmodium growth.
Worldwide, malaria afflicts more than 225 million people. Each year, the disease kills nearly 800,000, many of whom are children living in Africa.
Authors of “Natural microbe-mediated refractorieness to Plasmodium infection in Anopheles gambiae” include Chris M. Cirmotich, Yuemei Dong, April M. Clayton, Simone L. Sandiford, and Jayme A. Souza-Neto of the Johns Hopkins Bloomberg School of Public Health and Musapa Mulenga of the Malaria Institute at Macha in Zambia.
The research was supported by the National Institutes of Health/National Institute of Allergy and Infectious Disease, and the Johns Hopkins Malaria Research Institute.
Tiago Correia
Esta notícia é magnífica e é normal que o autor dos estudos esteja animado.
ResponderEliminarA malária é uma doença infecciosa, causada por protozoários parasitas e que pode apresentar um carácter agudo ou crónico.
Esta doença mata 3 milhões de pessoas por ano, uma taxa só comparável à da SIDA.
Segundo a OMS a malária mata uma criança africana a cada 30 segundos, e muitas das que sobrevivem ficam com danos cerebrais e apresentam dificuldades na aprendizagem.
De acordo com o autor dos estudos, a bactéria descoberta tem um efeito de activação sobre o sistema imunitário que vai impedir o desenvolvimento do parasita da malária no mosquito, através da produção de radicais livres. Uma das estratégias dada como exemplo para controlar este parasita é sujeitar os mosquitos ao meio natural desta bactéria.
Num futuro próximo, penso que seja possível modificar geneticamente estes mosquitos, criando uma selecção de mosquitos com elevados níveis desta bactéria, tornando assim possível baixar o exagerado número de mortes causadas por esta doença.
Sendo assim, podemos concluir que a ciência é um utensílio que deverá e continuará a ser usado em prol da saúde Humana.
Tiago Correia