Mechanics behind spread of deadly leishmaniasis disease revealed
A new study has provided important information about transmission of human leishmaniasis, which is a group of infectious diseases that kills more than 100,000 people a year.
Professor Deborah Smith of the Centre for Immunology and Infection at University of York, working with colleagues at the Wellcome Trust Sanger Institute and Charles University in Prague, has shown that Leishmania parasites reproduce sexually in the wild.
The research is a significant step forward in understanding how leishmaniasis is spread in endemic regions.
Caused by Leishmania parasites, human leishmaniasis is a serious public health problem in more than 90 countries worldwide.
There are high fatality rates among children and young people and those with suppressed immune systems. Pharmaceutical treatments are limited and there is no vaccine.
These microscopic organisms infect humans through the bite of a female blood-feeding sand fly carrying infective parasites in its gut.
People only become infected, therefore, in geographical regions that are well-suited to support sand fly populations -- those with suitable habitats, humidity and temperature.
But the biology of the parasite in the sand fly is also critically important in determining the outcome of infection in man.
The new research uses DNA sequencing to investigate genetic variation at the highest level of resolution in Leishmania parasites isolated from sand flies caught in a defined focus of human leishmaniasis in south-east Turkey.
This analysis provides evidence that Leishmania parasites can reproduce sexually in wild-caught sand flies, an event only detected previously under specialised laboratory conditions.
It also establishes, for the first time, quantitative estimates of the relative rates of sexual and asexual reproduction during the parasite life cycle.
The study is published in the journal PLOS Genetics.
(Posted on 17-01-2014)