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Tropical Parasitology 2023Nonhuman primate (NHP) malaria poses a major threat to the malaria control programs. The last two decades have witnessed a paradigm shift in our understanding of the... (Review)
Review
Nonhuman primate (NHP) malaria poses a major threat to the malaria control programs. The last two decades have witnessed a paradigm shift in our understanding of the malaria caused by species other than the traditionally known human species - , , , and . The emergence of the malaria parasite of long-tailed macaque monkeys, , as the fifth malaria species of humans has made the scientific community consider the risk of other zoonotic malaria, such as , , , and others, to humans. The development of knowledge about as a pathogen which was earlier only known to experimentally cause malaria in humans and rarely cause natural infection, toward its acknowledgment as a significant cause of human malaria and a threat of malaria control programs has been made possible by the use of advanced molecular techniques such as polymerase chain reaction and gene sequencing. This review explores the various aspects of NHP malaria, and the association of various factors with their emergence and potential to cause human malaria which are important to understand to be able to control these emerging infections.
PubMed: 37860614
DOI: 10.4103/tp.tp_79_22 -
Cell Reports Nov 2023Plasmodium parasites contribute to one of the highest global infectious disease burdens. To achieve this success, the parasite has evolved a range of specialized...
Plasmodium parasites contribute to one of the highest global infectious disease burdens. To achieve this success, the parasite has evolved a range of specialized subcellular compartments to extensively remodel the host cell for its survival. The information to fully understand these compartments is likely hidden in the so far poorly characterized Plasmodium species spatial proteome. To address this question, we determined the steady-state subcellular location of more than 12,000 parasite proteins across five different species by extensive subcellular fractionation of erythrocytes infected by Plasmodium falciparum, Plasmodium knowlesi, Plasmodium yoelii, Plasmodium berghei, and Plasmodium chabaudi. This comparison of the pan-species spatial proteomes and their expression patterns indicates increasing species-specific proteins associated with the more external compartments, supporting host adaptations and post-transcriptional regulation. The spatial proteome offers comprehensive insight into the different human, simian, and rodent Plasmodium species, establishing a powerful resource for understanding species-specific host adaptation processes in the parasite.
Topics: Humans; Proteomics; Malaria; Proteome; Plasmodium berghei; Erythrocytes
PubMed: 37952150
DOI: 10.1016/j.celrep.2023.113419 -
Frontiers in Cellular and Infection... 2024
Topics: Antigens, Protozoan; Malaria; Humans; Plasmodium; Animals; Malaria Vaccines
PubMed: 38686096
DOI: 10.3389/fcimb.2024.1408366 -
Proceedings (Baylor University. Medical... 2023is a genus of parasites that comprises different species. The species and are known to cause a vector-borne illness called malaria, and among these, is known to... (Review)
Review
is a genus of parasites that comprises different species. The species and are known to cause a vector-borne illness called malaria, and among these, is known to cause major complications. The vector, the Anopheles mosquito, is commonly found in warmer regions close to the equator, and hence transmission and numbers of cases tend to be higher in Sub-Saharan Africa, South Asia, and Central America. The number of cases of malaria in the United States has remained stable over the years with low transmission rates, and the disease is mostly seen in the population with a recent travel history to endemic regions. The main reason behind this besides the weather conditions is that economically developed countries have eliminated mosquitos. However, there have been reports of locally reported cases with in areas such as Florida and Texas in patients with no known travel history. This paper aims to familiarize US physicians with the pathophysiology, clinical features, and diagnostic modalities of malaria, as well as available treatment options.
PubMed: 37829240
DOI: 10.1080/08998280.2023.2255514 -
Genes Jun 2023Although Malaysia is considered free of human malaria, there has been a growing number of cases. This alarming trend highlighted the need for our understanding of this...
Although Malaysia is considered free of human malaria, there has been a growing number of cases. This alarming trend highlighted the need for our understanding of this parasite and its associated vectors, especially considering the role of genetic diversity in the adaptation and evolution among vectors in endemic areas, which is currently a significant knowledge gap in their fundamental biology. Thus, this study aimed to investigate the genetic diversity of , , , and -the vectors for malaria in Malaysia. Based on cytochrome c oxidase 1 () and internal transcribed spacer 2 () markers, the genealogic networks of showed a separation of the haplotypes between Peninsular Malaysia and Malaysia Borneo, forming two distinct clusters. Additionally, the genetic distances between these clusters were high (2.3-5.2% for ) and (2.3-4.7% for ), indicating the likely presence of two distinct species or cryptic species within . In contrast, no distinct clusters were observed in , , or , implying a lack of pronounced genetic differentiation among their populations. It is worth noting that there were varying levels of polymorphism observed across the different subpopulations, highlighting some levels of genetic variation within these mosquito species. Nevertheless, further analyses revealed that all four species have undergone demographic expansion, suggesting population growth and potential range expansion for these vectors in this region.
Topics: Humans; Animals; Malaria; Anopheles; Plasmodium knowlesi; Malaysia; Mosquito Vectors; Demography
PubMed: 37510274
DOI: 10.3390/genes14071369 -
Nature Communications Aug 2023Invasion of red blood cells (RBCs) by Plasmodium merozoites is critical to their continued survival within the host. Two major protein families, the Duffy binding-like...
Invasion of red blood cells (RBCs) by Plasmodium merozoites is critical to their continued survival within the host. Two major protein families, the Duffy binding-like proteins (DBPs/EBAs) and the reticulocyte binding like proteins (RBLs/RHs) have been studied extensively in P. falciparum and are hypothesized to have overlapping, but critical roles just prior to host cell entry. The zoonotic malaria parasite, P. knowlesi, has larger invasive merozoites and contains a smaller, less redundant, DBP and RBL repertoire than P. falciparum. One DBP (DBPα) and one RBL, normocyte binding protein Xa (NBPXa) are essential for invasion of human RBCs. Taking advantage of the unique biological features of P. knowlesi and iterative CRISPR-Cas9 genome editing, we determine the precise order of key invasion milestones and demonstrate distinct roles for each family. These distinct roles support a mechanism for phased commitment to invasion and can be targeted synergistically with invasion inhibitory antibodies.
Topics: Animals; Humans; Carrier Proteins; Parasites; Malaria; Plasmodium knowlesi; Protozoan Proteins; Erythrocytes; Merozoites; Plasmodium falciparum
PubMed: 37528099
DOI: 10.1038/s41467-023-40357-z