Duffy phenotype and plasmodium vivax infections in humans and Apes, Africa

info:eu-repo/semantics/publishedVersio

Dynamics of plasmodium falciparum selection after Artemether-Lumefantrine treatment in Africa

info:eu-repo/semantics/publishedVersio

In vivo and in vitro gametocyte production of Plasmodium falciparum isolates from Northern Thailand.

Understanding why some malaria-infected individuals are infective to mosquitoes while others are not, is of great importance when considering interventions to stop malaria transmission. Whether gametocytes are produced in every individual infected with Plasmodium falciparum remains unclear. Using a highly sensitive reverse transcription (RT)-PCR assay, we attempted to detect gametocyte-specific mRNA transcripts in isolates from Thai patients which newly adapted to continuous in vitro culture. We then compared the allelic types of the pfg377 gene between patient blood and culture-adapted parasites in order to determine whether the same parasite lines were producing gametocytes in vivo and in vitro. Transcripts of pfg377 were detected in all parasite isolates and in the corresponding cultured isolates, revealing that all patients had gametocytes circulating in their blood at the time of sampling. For isolates in continuous in vitro culture, there was a match between pfg377 allelic types detected by PCR from genomic DNA (and thus indicative of the dominant allelic type of asexual parasites) and those detected by RT-PCR of mRNA (gametocyte-specific), whereas in freshly isolated patient blood there were some differences between the asexual parasite allelic type and that of the gametocytes in the same infection. Seven isolates contained asexual stage parasites harbouring pfg377 alleles that were not detectable in gametocytes from the same infections, suggesting that some clones were not producing gametocytes at the time of sampling, or that they were below the level of detection

In vivo and in vitro gametocyte production of Plasmodium falciparum isolates from Northern Thailand.

Understanding why some malaria-infected individuals are infective to mosquitoes while others are not, is of great importance when considering interventions to stop malaria transmission. Whether gametocytes are produced in every individual infected with Plasmodium falciparum remains unclear. Using a highly sensitive reverse transcription (RT)-PCR assay, we attempted to detect gametocyte-specific mRNA transcripts in isolates from Thai patients which newly adapted to continuous in vitro culture. We then compared the allelic types of the pfg377 gene between patient blood and culture-adapted parasites in order to determine whether the same parasite lines were producing gametocytes in vivo and in vitro. Transcripts of pfg377 were detected in all parasite isolates and in the corresponding cultured isolates, revealing that all patients had gametocytes circulating in their blood at the time of sampling. For isolates in continuous in vitro culture, there was a match between pfg377 allelic types detected by PCR from genomic DNA (and thus indicative of the dominant allelic type of asexual parasites) and those detected by RT-PCR of mRNA (gametocyte-specific), whereas in freshly isolated patient blood there were some differences between the asexual parasite allelic type and that of the gametocytes in the same infection. Seven isolates contained asexual stage parasites harbouring pfg377 alleles that were not detectable in gametocytes from the same infections, suggesting that some clones were not producing gametocytes at the time of sampling, or that they were below the level of detection

Co-infections of Plasmodium knowlesi, P. falciparum, and P. vivax among Humans and Anopheles dirus Mosquitoes, Southern Vietnam

TOC Summary: Forests harboring these mosquitoes may be a reservoir for transmission of P. knowlesi

Competitive release of drug resistance following drug treatment of mixed Plasmodium chabaudi infections

BACKGROUND: Malaria infections are often genetically diverse, potentially leading to competition between co-infecting strains. Such competition is of key importance in the spread of drug resistance. METHODS: The effects of drug treatment on within-host competition were studied using the rodent malaria Plasmodium chabaudi. Mice were infected simultaneously with a drug-resistant and a drug-sensitive clone and were then either drug-treated or left untreated. Transmission was assessed by feeding mice to Anopheles stephensi mosquitoes. RESULTS: In the absence of drugs, the sensitive clone competitively suppressed the resistant clone; this resulted in lower asexual parasite densities and also reduced transmission to the mosquito vector. Drug treatment, however, allowed the resistant clone to fill the ecological space emptied by the removal of the sensitive clone, allowing it to transmit as well as it would have done in the absence of competition. CONCLUSION: These results show that under drug pressure, resistant strains can have two advantages: (1) they survive better than sensitive strains and (2) they can exploit the opportunities presented by the removal of their competitors. When mixed infections are common, such effects could increase the spread of drug resistance