The malaria parasite Plasmodium
falciparum possesses
a unique Acetyl-CoA Synthetase (PfACS), which provides acetyl moieties
for different metabolic and regulatory cellular pathways. We characterized
PfACS and studied its role focusing on epigenetic modifications using
the var gene family as reporter genes. For this,
mutant lines to modulate plasmodial ACS expression by degron-mediated
protein degradation and ribozyme-induced transcript decay were created.
Additionally, an inhibitor of the human Acetyl-CoA Synthetase 2 was
tested for its effectiveness in interfering with PfACS. The knockdown
of PfACS or its inhibition resulted in impaired parasite growth. Decreased
levels of PfACS also led to differential histone acetylation patterns,
altered variant gene expression, and concomitantly decreased cytoadherence
of infected red blood cells containing knocked-down parasites. Further,
ChIP analysis revealed the presence of PfACS in many loci in ring
stage parasites, underscoring its involvement in the regulation of
chromatin. Due to its central function in the plasmodial metabolism
and significant differences to human ACS, PfACS is an interesting
target for drug development.
The human malaria parasite Plasmodium falciparum expresses variant PfEMP1 proteins on the infected erythrocyte, which function as ligands for endothelial receptors in capillary vessels, leading to erythrocyte sequestration and severe malaria. The factors that orchestrate the mono-allelic expression of the 45–90 PfEMP1-encoding var genes within each parasite genome are still not fully identified. Here, we show that the transcription factor PfAP2-O influences the transcription of var genes. The temporary knockdown of PfAP2-O leads to a complete loss of var transcriptional memory and a decrease in cytoadherence in CD36 adherent parasites. AP2-O-knocked-down parasites exhibited also significant reductions in transmission through Anopheles mosquitoes. We propose that PfAP2-O is, beside its role in transmission stages, also one of the virulence gene transcriptional regulators and may therefore be exploited as an important target to disrupt severe malaria and block parasite transmission.
The malaria parasite Plasmodium falciparum possesses a unique Acetyl-CoA Synthetase (PfACS) which provides acetyl moieties for different metabolic and regulatory cellular pathways. We characterized PfACS and studied its role focusing on epigenetic modifications using the var gene family as reporter genes. For this, mutant lines to modulate plasmodial ACS expression by degron-mediated protein degradation or ribozyme induced transcript decay were created. Additionally, an ACS inhibitor was tested for its effectiveness and specificity in interfering with PfACS. The knockdown of PfACS or its inhibition led to impaired parasite growth. Decreased levels of PfACS also led to differential histone acetylation patterns, altered variant gene expression and concomitantly decreased cytoadherence of infected red blood cells containing knocked-down parasites. Further, ChIP analysis revealed the presence of PfACS in many loci in ring stage parasites, underscoring its involvement in the regulation of chromatin. Due to its significant differences to human ACS, PfACS seems an interesting target for drug development.
Este artigo se dedica a refletir sobre o papel do licenciado em dança no empoderamento de cidadãos por meio do trabalho corporal sensível e crítico propiciado pelo estudo da dança. A discussão se construiu em 2016, no contexto da tramitação da Base Nacional Curricular Comum, devido às alterações propostas à Lei de Diretrizes e Bases da Educação Nacional (LDB — Lei 9.394/1996) no que concerne ao entendimento da Dança como disciplina curricular obrigatória, ficando na BNCC a Dança compreendida como um subcomponente da Arte dentro da grande área "Linguagens" (que inclui Língua Portuguesa, Língua Estrangeira e Educação Física).
The human malaria parasite Plasmodium falciparum expresses variant PfEMP1 proteins on the infected erythrocyte, which function as ligands for endothelial receptors in capillary vessels, leading to erythrocyte sequestration and severe malaria. The factors that orchestrate the mono-allelic expression of the 50-60 PfEMP1-encoding var genes within each parasite genome are still not fully identified. Here, we show that the transcription factor PfAP2-O influences the transcription of var genes and other multigenic families. The temporary knockdown of PfAP2-O leads to a complete loss of var transcriptional memory and a decrease in cytoadherence. AP2-O-knocked down parasites exhibited also significant reductions in transmission through Anopheles mosquitoes. We propose that PfAP2-O is one of the major virulence gene transcriptional regulators and may, therefore, be exploited as an important target to disrupt severe malaria and block parasite transmission.
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