UMLS:C0024530 - FACTA Search

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Query: UMLS:C0024530 (malaria)
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Secretion and luminal formation of the peritrophic membrane (PM) were induced in female Anopheles stephensi and Aedes aegypti by feeding the mosquitoes on a warmed suspension of latex particles in Ringer's solution. The PM in A. stephensi was produced from apical secretion vesicles stored in the midgut epithelial cells and secreted into the lumen during feeding. In A. aegypti, the PM was formed de novo. When the latex feeding was followed 24 hr later by a meal of lyophilized pig blood, the 2 mosquito species exhibited very different modifications to their PM structure; in A. stephensi no PM was formed around the blood meal, whereas de novo synthesis of the PM in A. aegypti continued during the blood meal, with the resulting PM greatly thickened compared to the normal feeding. This artificial induction of PM formation was used as the basis to study the role of the PM in blood meal digestion and in infectivity of mosquitoes by the appropriate species of Plasmodium. The feeding of a latex suspension alone had no stimulatory effect on the 2 major midgut proteases, trypsin and aminopeptidase, in either species. After a blood meal alone, proteases rose to maximum activity at 30 hr and 24 hr after feeding in A. stephensi and A. aegypti, respectively. After double feeding, protease activities in both species were almost identical to those in blood-fed mosquitoes. Neither the absence of a PM (in A. stephensi) nor the presence of a thickened PM (in A. aegypti), therefore, has any effect on the ability of mosquitoes to digest a blood meal. Malaria infectivity, measured by oocyst counts, also was compared after normal and double feeding using infective blood meals. Infectivity of A. stephensi by Plasmodium berghei was unaffected by the presence or absence of the PM. The thickened PM produced by double feeding in A. aegypti caused a reduction of midgut infectivity by Plasmodium gallinaceum. These results suggest that the PM may act as a partial, but not an absolute, barrier to invasion of the midgut by the ookinete.
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PMID:The role of the mosquito peritrophic membrane in bloodmeal digestion and infectivity of Plasmodium species. 159 85

A variety of tubular marker proteins, as compared to healthy controls, are excreted at an increased rate in the urine of patients with renal damage. Beside cytoplasmic glutathione-S-transferase and lysosomal beta-N-acetyl-glucosaminidase (beta-NAG) the majority of kidney-related urine proteins derives from membrane surface components of the most vulnerable proximal tubule epithelia, among them ala-(leu-gly)-aminopeptidase, gamma-glutamyl transpeptidase (GGT), the tubular portion of angiotensinase A, the major brush border glycoprotein 'SGP-240' and adenosine-deaminase-binding protein. Urinary tissue proteins, e.g. brush border (BB) microvilli, are immunologically identical with those antigens prepared from cell membranes of the human kidney itself. BB antigens are shed into the urine of patients with glomerulonephritis, interstitial nephritis, systemic diseases, e.g. systemic lupus erythematosus (SLE), diabetes mellitus and multiple myeloma, arterial hypertension, infectious diseases (malaria, AIDS) and after operations, renal grafting and administration of X-ray contrast media, aminoglycosides or certain cytostatics (cis-platinum). Tissue proteinuria of tubular proteins is determined by enzyme-kinetic or quantitative immunological assays applying either poly- or monoclonal antikidney antibodies. Clinical, ultrastructural and histochemical studies support the idea that both 'soluble' and high-molecular-weight membrane particles (vacuolar blebs, greater than 10(6) dalton) as well as microfilamental components of the epithelial cytoskeleton contribute to tubular 'histuria' which appears as a sensitive parameter in monitoring tubular damage under clinical conditions at a very early phase.
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PMID:Urinary proteins of tubular origin: basic immunochemical and clinical aspects. 225 76

Intraerythrocytic malaria parasites avidly consume hemoglobin as a source of amino acids for incorporation into parasite proteins. An acidic organelle, the digestive vacuole, is the site of hemoglobin proteolysis. Early events in hemoglobin catabolism have been well studied. Two aspartic proteases, plasmepsins I and II, and a cysteine protease, falcipain, cleave hemoglobin into peptides. While it has been presumed that hemoglobin peptide fragments are degraded to individual amino acids by exopeptidase activity in the digestive vacuole, this hypothesis lacks experimental support. Incubation of human hemoglobin with P. falciparum digestive vacuole lysate generated a series of discrete peptide fragments with cleavage sites an average of 8.4 amino acids apart. No free amino acids could be detected and there was no evidence of peptide heterogeneity due to exopeptidase trimming. These sites correspond to points of cleavage previously established for plasmepsin I, plasmepsin II, and falcipain as well as some novel sites that suggest the existence of an additional endoproteinase. By colorimetric assay, P. falciparum has abundant aminopeptidase activity but this activity is not found in the digestive vacuoles and the parasite lacks detectable carboxypeptidase activity altogether. These data support a model for hemoglobin catabolism wherein small peptides are formed from cleavage of hemoglobin by the enzymes of the digestive vacuole and then are transported through the membrane of the digestive vacuole to the cytoplasm. There, exopeptidase activity converts the peptides to individual amino acids for parasite growth and maturation.
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PMID:Generation of hemoglobin peptides in the acidic digestive vacuole of Plasmodium falciparum implicates peptide transport in amino acid production. 924 24

Digestion of blood within the mosquito midgut is mediated primarily by a series of proteases, and several previous studies have described protease activity within homogenates of the midgut of the malaria vector Anopheles stephensi. We have expanded on these previous data by resolving protease isoforms from the midgut as well as the hemolymph of adult An. stephensi mosquitoes via gel electrophoresis and zymography. Using this procedure, we have been able to identify multiple isozymes of trypsin, chymotrypsin, and aminopeptidase. We were able to detect an increase in the intensity of some of these protease bands plus the appearance of new bands 24 hr after mosquitoes had taken a blood meal. Furthermore, we detected 2 endogenous trypsin isozymes within the hemolymph. There was no upregulation of these hemolymph isozymes after a blood meal, thus suggesting that they may not be involved in digestion of the blood meal by the mosquito.
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PMID:Identification of electrophoretically separated proteases from midgut and hemolymph of adult Anopheles stephensi mosquitoes. 957 12

An immunogenic aminopeptidase of Candida albicans was purified by high-performance liquid chromatography. It was then used for the development of an enzyme-linked immunosorbent assay to detect antibodies directed against this antigen in sera from patients with candidiasis. This enzyme specifically cleaves the L-Arg-7-amino-4-methyl-coumarin substrate at pH 7.4 and was detected in the crude extract of different C. albicans isolates. Sera used for this study were obtained from healthy blood donors or from patients with one of the following: systemic candidiasis, aspergillosis, cryptococcosis, toxoplasmosis, or malaria. The statistical analysis demonstrates significant differences between absorbency values obtained with sera from patients with candidiasis and with sera from the other groups (P = 0.000001). Diagnostic parameters show high diagnostic specificity of 97% and a sensitivity of 83% at a cutoff value of 0.425 and suggest the usefulness of this aminopeptidase for the diagnosis of systemic candidiasis.
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PMID:Improved immunodiagnosis of human candidiasis by an enzyme-linked immunosorbent assay using a Candida albicans 52-kilodalton metallopeptidase. 980 42

Midgut proteases contribute to the success or failure of Plasmodium infection of the mosquito. This paper examines the reciprocal effect of Plasmodium yoelii nigeriensis on midgut trypsin, chymotrypsin, aminopeptidase and carboxypeptidase in the mosquito Anopheles stephensi. The total protein ingested and the rate of protein digestion were unaffected by the parasite, but more protein was ingested at the first than the second bloodmeal. All peptidases were unaffected by the presence of the parasite during the first gonotrophic cycle, when ookinetes were penetrating the midgut. In the second gonotrophic cycle, trypsin and chymotrypsin were unaffected by growing oocysts, but aminopeptidase activity was reduced in the midguts of infected mosquitoes. Chymotrypsin activity was depressed and aminopeptidase activity elevated during the second gonotrophic cycle. Plasmodium infection has a negligible effect on bloodmeal digestion and does not limit the availability of the protein for egg production. The significance of changes in aminopeptidase activity when oocysts are present is discussed.
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PMID:Blood digestion in the mosquito, Anopheles stephensi: the effects of Plasmodium yoelii nigeriensis on midgut enzyme activities. 1063 14

During the intraerythrocytic phase of the life cycle, malaria parasites hydrolyze host proteins. Hemoglobin is processed into individual amino acids, which are used for parasite protein synthesis. Erythrocyte cytoskeletal proteins are cleaved during erythrocyte invasion and rupture. A number of plasmodial proteases that appear to be responsible for key cleavages of host proteins have recently been characterized. Hemoglobin hydrolysis appears to be mediated by acid cysteine, aspartic, and metalloproteases, and then a neutral aminopeptidase. Cysteine and aspartic proteases that hydrolyze hemoglobin can also cleave host cytoskeletal proteins, and these and additional proteases likely cleave the cytoskeleton to mediate erythrocyte rupture and invasion. Various protease inhibitors block parasite development, suggesting that key proteases may be appropriate chemotherapeutic targets. Recent advances in the characterization of plasmodial proteases should facilitate the analysis of the specific roles of these enzymes and expedite the progress of drug discovery efforts directed against them.
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PMID:Hydrolysis of erythrocyte proteins by proteases of malaria parasites. 1184 98

To study the relationship between neutral aminopeptidase activity and hemoglobin accumulation in malaria parasites, we treated mice infected with Plasmodium berghei NYU-2 with chloroquine intraperitoneally in doses ranging from 0.3 to 3 micromol per 25 g mouse. Preparations of infected erythrocytes (normalized to represent 1000 parasites per 1000 erythrocytes) hydrolyzed 1200 nmol of leucine-p-nitroanilide per minute per milliliter of packed erythrocytes, which was 10x more than that of uninfected preparations. The activity in infected preparations was distinguished by resistance to ferriprotoporphyrin IX and puromycin and susceptibility to inhibition by ethanol and Tris. Chloroquine treatment caused the activity in unwashed membrane ghosts of infected preparations to decrease by 50% despite an increase in total activity. Concomitantly, hemoglobin in washed membrane ghosts increased. Electron microscopy revealed that the hemoglobin was retained in endocytic vesicles. Chloroquine-induced redistribution of a neutral aminopeptidase may be the cause of hemoglobin accumulation in endocytic vesicles of malaria parasites.
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PMID:Relationship of chloroquine-induced redistribution of a neutral aminopeptidase to hemoglobin accumulation in malaria parasites. 1257 90

Midgut proteolytic enzymes contribute to the success or failure of Plasmodium infection of the mosquito. The present study investigated trypsin and aminopeptidase activities in the midgut of two strains of Anopheles dirus selected for susceptibility and refractoriness to Plasmodium yoelii nigeriensis. At intervals of 6 hours following a bloodmeal, the midguts of fully engorged female mosquitos were dissected, homogenized, and assayed for enzyme activity. No differences trypsin activity (nmole/min) were observed between the two strains throughout the course of blood digestion. By contrast, the aminopeptidase activity measured at 0 to 18 hours post-feeding was the same for the two strains, but at 24, 30 and 36 hours significantly less activity was observed in the refractory females. The results suggest neither trypsin nor aminopeptidase plays a role in the limitation of parasite development.
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PMID:Trypsin and aminopeptidase activities in blood-fed females Anopheles dirus (Diptera: Culicidae) of differing susceptibility to Plasmodium yoelii nigeriensis. 1275 11

Intraerythrocytic growth of the human malaria parasite Plasmodium falciparum requires the catabolism of large amounts of host cell hemoglobin. Endoproteolytic digestion of hemoglobin to short oligopeptides occurs in an acidic organelle called the food vacuole. How amino acids are generated from these peptides is not well understood. To gain insight into this process, we have studied a plasmodial ortholog of the lysosomal exopeptidase cathepsin C. The plasmodial enzyme dipeptidyl aminopeptidase 1 (DPAP1) was enriched from parasite extract by two different approaches and was shown to possess hydrolytic activity against fluorogenic dipeptide substrates. To localize DPAP1 we created a transgenic parasite line expressing a chromosomally encoded DPAP1-green fluorescent protein fusion. Green fluorescent protein fluorescence was observed in the food vacuole of live transgenic parasites, and anti-DPAP1 antibody labeled the food vacuole in parasite cryosections. Together these data implicate DPAP1 in the generation of dipeptides from hemoglobin-derived oligopeptides. To assess the significance of DPAP1, we attempted to ablate DPAP1 activity from blood stage parasites by truncating the chromosomal DPAP1-coding sequence. The inability to disrupt the coding sequence indicates that DPAP1 is important for asexual proliferation. The proenzyme form of DPAP1 was found to accumulate in the parasitophorous vacuole of mature parasites. This observation suggests a trafficking route for DPAP1 through the parasitophorous vacuole to the food vacuole.
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PMID:A Plasmodium falciparum dipeptidyl aminopeptidase I participates in vacuolar hemoglobin degradation. 1530 95

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