A transcriptional switch underlies commitment to sexual development in human malaria parasites

The life cycles of many parasites involve transitions between disparate host species, requiring these parasites to go through multiple developmental stages adapted to each of these specialized niches. Transmission of malaria parasites (Plasmodium spp.) from humans to the mosquito vector requires dif...

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Autores principales: Kafsack, Björn F.C., Rovira-Graells, Núria, Clark, Taane G., Bancells, Cristina, Crowley, Valerie M., Campino, Susana G., Williams, April E., Drought, Laura G., Kwiatkowski, Dominic P., Baker, David A., Cortés, Alfred, Llinás, Manuel
Formato: Online Artículo Texto
Lenguaje:English
Publicado: 2014
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4040541/
https://www.ncbi.nlm.nih.gov/pubmed/24572369
http://dx.doi.org/10.1038/nature12920
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author Kafsack, Björn F.C.
Rovira-Graells, Núria
Clark, Taane G.
Bancells, Cristina
Crowley, Valerie M.
Campino, Susana G.
Williams, April E.
Drought, Laura G.
Kwiatkowski, Dominic P.
Baker, David A.
Cortés, Alfred
Llinás, Manuel
author_facet Kafsack, Björn F.C.
Rovira-Graells, Núria
Clark, Taane G.
Bancells, Cristina
Crowley, Valerie M.
Campino, Susana G.
Williams, April E.
Drought, Laura G.
Kwiatkowski, Dominic P.
Baker, David A.
Cortés, Alfred
Llinás, Manuel
author_sort Kafsack, Björn F.C.
collection PubMed
description The life cycles of many parasites involve transitions between disparate host species, requiring these parasites to go through multiple developmental stages adapted to each of these specialized niches. Transmission of malaria parasites (Plasmodium spp.) from humans to the mosquito vector requires differentiation from asexual stages replicating within red blood cells into non-dividing male and female gametocytes. Although gametocytes were first described in 1880, our understanding of the molecular mechanisms involved in commitment to gametocyte formation is extremely limited and disrupting this critical developmental transition remains a long-standing goal(1). We show here that expression levels of the DNA-binding protein PfAP2-G correlate strongly with levels of gametocyte formation. Using independent forward and reverse genetics approaches, we demonstrate that PfAP2-G function is essential for parasite sexual differentiation. By combining genome-wide PfAP2-G cognate motif occurrence with global transcriptional changes resulting from PfAP2-G ablation, we identify early gametocyte genes as likely targets of PfAP2-G and show that their regulation by PfAP2-G is critical for their wild-type level expression. In the asexual blood-stage parasites pfap2-g appears to be among a set of epigenetically silenced loci(2,3) prone to spontaneous activation(4). Stochastic activation presents a simple mechanism for a low baseline of gametocyte production. Overall, these findings identify PfAP2-G as a master regulator of sexual-stage development in malaria parasites and mark the first identification of a transcriptional switch controlling a differentiation decision in protozoan parasites.
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spelling pubmed-40405412014-09-13 A transcriptional switch underlies commitment to sexual development in human malaria parasites Kafsack, Björn F.C. Rovira-Graells, Núria Clark, Taane G. Bancells, Cristina Crowley, Valerie M. Campino, Susana G. Williams, April E. Drought, Laura G. Kwiatkowski, Dominic P. Baker, David A. Cortés, Alfred Llinás, Manuel Nature Article The life cycles of many parasites involve transitions between disparate host species, requiring these parasites to go through multiple developmental stages adapted to each of these specialized niches. Transmission of malaria parasites (Plasmodium spp.) from humans to the mosquito vector requires differentiation from asexual stages replicating within red blood cells into non-dividing male and female gametocytes. Although gametocytes were first described in 1880, our understanding of the molecular mechanisms involved in commitment to gametocyte formation is extremely limited and disrupting this critical developmental transition remains a long-standing goal(1). We show here that expression levels of the DNA-binding protein PfAP2-G correlate strongly with levels of gametocyte formation. Using independent forward and reverse genetics approaches, we demonstrate that PfAP2-G function is essential for parasite sexual differentiation. By combining genome-wide PfAP2-G cognate motif occurrence with global transcriptional changes resulting from PfAP2-G ablation, we identify early gametocyte genes as likely targets of PfAP2-G and show that their regulation by PfAP2-G is critical for their wild-type level expression. In the asexual blood-stage parasites pfap2-g appears to be among a set of epigenetically silenced loci(2,3) prone to spontaneous activation(4). Stochastic activation presents a simple mechanism for a low baseline of gametocyte production. Overall, these findings identify PfAP2-G as a master regulator of sexual-stage development in malaria parasites and mark the first identification of a transcriptional switch controlling a differentiation decision in protozoan parasites. 2014-02-23 2014-03-13 /pmc/articles/PMC4040541/ /pubmed/24572369 http://dx.doi.org/10.1038/nature12920 Text en Users may view, print, copy, download and text and data- mine the content in such documents, for the purposes of academic research, subject always to the full Conditions of use: http://www.nature.com/authors/editorial_policies/license.html#terms
spellingShingle Article
Kafsack, Björn F.C.
Rovira-Graells, Núria
Clark, Taane G.
Bancells, Cristina
Crowley, Valerie M.
Campino, Susana G.
Williams, April E.
Drought, Laura G.
Kwiatkowski, Dominic P.
Baker, David A.
Cortés, Alfred
Llinás, Manuel
A transcriptional switch underlies commitment to sexual development in human malaria parasites
title A transcriptional switch underlies commitment to sexual development in human malaria parasites
title_full A transcriptional switch underlies commitment to sexual development in human malaria parasites
title_fullStr A transcriptional switch underlies commitment to sexual development in human malaria parasites
title_full_unstemmed A transcriptional switch underlies commitment to sexual development in human malaria parasites
title_short A transcriptional switch underlies commitment to sexual development in human malaria parasites
title_sort transcriptional switch underlies commitment to sexual development in human malaria parasites
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4040541/
https://www.ncbi.nlm.nih.gov/pubmed/24572369
http://dx.doi.org/10.1038/nature12920
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