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Target Concepts:
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Query: UMLS:C0024530 (
malaria
)
44,886
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The 19 kDa C-terminal fragment of the
malaria
parasite merozoite surface protein 1 (MSP1(19)) is a leading
malaria
vaccine candidate. In rodents, high antibody levels to this protein confer protective immunity, and can be generated by immunization with the antigen in adjuvants. In natural human infections, however, MSP1(19)-specific antibody responses can be short-lived and comparatively low, despite repeated exposure to infection. The tightly folded structure of MSP1(19) is stabilized by five or six disulfide bonds. These bonds impede antigen processing and, thereby, may affect the generation of CD4+ T cells providing help for B cells. Asparagine
endopeptidase
could digest unfolded, but not native MSP1(19) in vitro. Immunization with unfolded MSP1(19) resulted in a faster antibody response, and a combination of unfolded and native MSP1(19) increased antibody responses to the native form. Immunization with either form of the antigen activated similar numbers of CD4+ T cells, but, unlike the antibody response, CD4+ T cells immunized with one form of MSP119 were able to respond in vitro to the other form of the protein. Although the reduced form of MSP1(19) does not induce protective antibodies, our data suggest that inclusion of unfolded protein may improve the efficacy of MSP1(19) as a vaccine.
...
PMID:Disulfide bonds in merozoite surface protein 1 of the malaria parasite impede efficient antigen processing and affect the in vivo antibody response. 1499 93
Dipeptidyl aminopeptidase 1 (DPAP1) is an essential food vacuole enzyme with a putative role in hemoglobin catabolism by the erythrocytic
malaria
parasite. Here, the biochemical properties of DPAP1 have been investigated and compared to those of the human ortholog cathepsin C. To facilitate the characterization of DPAP1, we have developed a method for the production of purified recombinant DPAP1 with properties closely resembling those of the native enzyme. Like cathepsin C, DPAP1 is a chloride-activated enzyme that is most efficient in catalyzing amide bond hydrolysis at acidic pH values. The monomeric quaternary structure of DPAP1 differs from the homotetrameric structure of cathepsin C, which suggests that tetramerization is required for a cathepsin C-specific function. The S1 and S2 subsite preferences of DPAP1 and cathepsin C were profiled with a positional scanning synthetic combinatorial library. The S1 preferences bore close similarity to those of other C1-family cysteine peptidases. The S2 subsites of both DPAP1 and cathepsin C accepted aliphatic hydrophobic residues, proline, and some polar residues, yielding a distinct specificity profile. DPAP1 efficiently catalyzed the hydrolysis of several fluorogenic dipeptide substrates; surprisingly, however, a potential substrate with a P2-phenylalanine residue was instead a competitive inhibitor. Together, our biochemical data suggest that DPAP1 accelerates the production of amino acids from hemoglobin by bridging the gap between the
endopeptidase
and aminopeptidase activities of the food vacuole. Two reversible cathepsin C inhibitors potently inhibited both recombinant and native DPAP1, thereby validating the use of recombinant DPAP1 for future inhibitor discovery and characterization.
...
PMID:Biochemical characterization of Plasmodium falciparum dipeptidyl aminopeptidase 1. 2083 9
The universally conserved kinase-associated
endopeptidase
1 (Kae1) protein family has established roles in N(6)-threonylcarbamoyl adenosine tRNA modification, transcriptional regulation, and telomere homeostasis. These functions are performed in complex with a conserved core of protein binding partners. Herein we describe the localization, essentiality, and protein-protein interactions for Kae1 in the human
malaria
parasite Plasmodium falciparum. We found that the parasite expresses one Kae1 protein in the cytoplasm and a second protein in the apicoplast, a chloroplast remnant organelle involved in fatty acid, heme, and isoprenoid biosynthesis. To analyze the protein interaction networks for both Kae1 pathways, we developed a new proteomic cross-validation approach. This strategy compares immunoprecipitation-MS data sets across different cellular compartments to enrich for biologically relevant protein interactions. Our results show that cytoplasmic Kae1 forms a complex with Bud32 and Cgi121 as in other organisms, whereas apicoplast Kae1 makes novel interactions with multiple proteins in the apicoplast. Quantitative RT-PCR and immunoprecipitation studies indicate that apicoplast Kae1 and its partners interact specifically with the apicoplast ribosomes and with proteins involved in ribosome function. Together, these data indicate an expanded, apicoplast-specific role for Kae1 in the parasite.
...
PMID:Kinase-associated endopeptidase 1 (Kae1) participates in an atypical ribosome-associated complex in the apicoplast of Plasmodium falciparum. 2520 54
Immunity to Plasmodium falciparum malaria is naturally acquired in individuals living in
malaria
-endemic areas of Africa. Abs play a key role in mediating this immunity; however, the acquisition of the components of Ab immunity, long-lived plasma cells and memory B cells (MBCs), is remarkably inefficient, requiring years of
malaria
exposure. Although long-lived classical MBCs (CD19(+)/CD20(+)/CD21(+)/CD27(+)/
CD10
(-)) are gradually acquired in response to natural infection, exposure to P. falciparum also results in a large expansion of what we have termed atypical MBCs (CD19(+)/CD20(+)/CD21(-)/CD27(-)/
CD10
(-)). At present, the function of atypical MBCs in
malaria
is not known, nor are the factors that drive their differentiation. To gain insight into the relationship between classical and atypical IgG(+) MBCs, we compared the Ab H and L chain V gene repertoires of children living in a
malaria
-endemic region in Mali. We found that these repertoires were remarkably similar by a variety of criteria, including V gene usage, rate of somatic hypermutation, and CDR-H3 length and composition. The similarity in these repertoires suggests that classical MBCs and atypical MBCs differentiate in response to similar Ag-dependent selective pressures in
malaria
-exposed children and that atypical MBCs do not express a unique V gene repertoire.
...
PMID:The V gene repertoires of classical and atypical memory B cells in malaria-susceptible West African children. 2555 45
Phagocytosis of
malaria
pigment (hemozoin) induces increased activity of matrix metalloproteinase (MMP)-9, an
endopeptidase
involved in cytokine regulation. In this study, we examined whether a common functional MMP-9 promoter polymorphism (rs3918242) affects Plasmodium falciparum infection in pregnancy. Eighteen percent of Ghanaian primiparae carried the minor T allele. It was associated with reduced odds of placental hemozoin and of placental as well as peripheral blood parasitemia. The results indicate that a common MMP-9 polymorphism protects against placental
malaria
indicating that this
endopeptidase
is involved in susceptibility to P. falciparum.
...
PMID:Matrix metalloproteinase-9 polymorphism 1562 C > T (rs3918242) associated with protection against placental malaria. 2601 70
Decades of unmanaged insecticide use and routine exposure to agrochemicals have left many populations of
malaria
vectors in the Americas resistant to multiple classes of insecticides, including pyrethroids. The molecular basis of pyrethroid resistance is relatively uncharacterised in American
malaria
vectors, preventing the design of suitable resistance management strategies. Using whole transcriptome sequencing, we characterized the mechanisms of pyrethroid resistance in Anopheles albimanus from Peru and Guatemala. An. albimanus were phenotyped as either deltamethrin or alpha-cypermethrin resistant. RNA from 1) resistant, 2) unexposed, and 3) a susceptible laboratory strain of An. albimanus was sequenced and analyzed using RNA-Seq. Expression profiles of the three groups were compared based on the current annotation of the An. albimanus reference genome. Several candidate genes associated with pyrethroid resistance in other
malaria
vectors were found to be overexpressed in resistant An. albimanus. In addition, gene ontology terms related to serine-type
endopeptidase
activity, extracellular activity and chitin metabolic process were also commonly overexpressed in the field caught resistant and unexposed samples from both Peru and Guatemala when compared to the susceptible strain. The cytochrome P450 CYP9K1 was overexpressed 14x in deltamethrin and 8x in alpha-cypermethrin-resistant samples from Peru and 2x in deltamethrin-resistant samples from Guatemala, relative to the susceptible laboratory strain. CYP6P5 was overexpressed 68x in deltamethrin-resistant samples from Peru but not in deltamethrin-resistant samples from Guatemala. When comparing overexpressed genes between deltamethrin-resistant and alpha-cypermethrin-resistant samples from Peru, a single P450 gene, CYP4C26, was overexpressed 9.8x (p<0.05) in alpha-cypermethrin-resistant samples. In Peruvian deltamethrin-resistant samples, the knockdown resistance mutation (kdr) variant alleles at position 1014 were rare, with approximately 5% frequency, but in the alpha-cypermethrin-resistant samples, the frequency of these alleles was approximately 15-30%. Functional validation of the candidate genes and the kdr mutation as a resistance marker for alpha-cypermethrin will confirm the role of these mechanisms in conferring pyrethroid resistance.
...
PMID:Contrasting patterns of gene expression indicate differing pyrethroid resistance mechanisms across the range of the New World malaria vector Anopheles albimanus. 3069 58
Plasmodium falciparum-specific antibodies tend to be short-lived, but their cognate memory B cells (MBCs) circulate in the peripheral blood of exposed subjects for several months or years after the last infection. However, the time course of antigen-specific antibodies and B-cell responses to the relatively neglected parasite Plasmodium vivax remains largely unexplored. Here, we showed that uncomplicated vivax
malaria
elicits short-lived antibodies but long-lived MBC responses to a major blood-stage P vivax antigen, apical membrane protein 1 (PvAMA-1), in subjects exposed to declining
malaria
transmission in the Amazon Basin of Brazil. We found that atypical (CD19
+
CD10
-
CD21
-
CD27
-
) MBCs, which appear to share a common precursor with classical MBCs but are unable to differentiate into antibody-secreting cells, significantly outnumbered classical MBCs by 5:1 in the peripheral blood of adult subjects currently or recently infected with P vivax and by 3:1 in healthy residents in the same endemic communities. We concluded that
malaria
can drive classical MBCs to differentiate into functionally impaired MBCs not only in subjects repeatedly exposed to P falciparum, but also in subjects living in areas with low levels of P vivax transmission in the Amazon, leading to an impaired B-cell memory that may affect both naturally acquired and vaccine-induced immunity.
...
PMID:Apical membrane protein 1-specific antibody profile and temporal changes in peripheral blood B-cell populations in Plasmodium vivax malaria. 3127 60
