Ken Ng scite author profile

SltlmlilaryAdherence of Plasmodium fakiparum-infected erythrocytes to cerebral postcapillary venular endothelium is believed to be a critical step in the development of cerebral malaria. Some of the possible receptors mediating adherence have been identified, but the process of adherence in vivo is poorly understood. We investigated the role of carbohydrate ligands in adherence, and we identified chondroitin sulfate (CS) as a specific receptor for P. falciparum-infected erythrocytes.Parasitized cells bound to Chinese hamster ovary (CHO) cells and C32 melanoma cells in a chondroitin sulfate-dependent manner, whereas glycosylation mutants lacking chondroitin sulfate A (CSA) supported little or no binding. Chondroitinase treatment of wild-type CHO cells reduced binding by up to 90%. Soluble CSA inhibited binding to CHO cells by 99.2 _+ 0.2% at 10 mg/ml and by 72.5 _+ 3.8% at 1 mg/ml, whereas a range of other glycosaminoglycans such as heparan sulfate had no effect. Parasite lines selected for increased binding to CHO cells and most patient isolates bound specifically to immobilized CSA. We conclude that P. falciparum can express or expose proteins at the surface of the infected erythrocyte that mediate specific binding to CSA. This mechanism of adherence may contribute to the pathogenesis of P. J~l-ciparum malaria, but has wider implications as an example of an infectious agent with the capacity to bind specifically to cell-associated or immobilized CS.

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Chondroitin sulfate A is a cell surface receptor for Plasmodium falciparum-infected erythrocytes.

Rogerson

Chaiyaroj

et al. 1995

317

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Crystal Structure of the Human Neuropilin-1 b1 Domain

et al. 2003

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Neuropilin-1 (Npn-1) is a type I cell surface receptor involved in a broad range of developmental processes, including axon guidance, angiogenesis, and heterophilic cell adhesion. We have determined the crystal structure of the human Npn-1 b1 domain to 1.9 A. The overall structure resembles coagulation factor V and VIII (F5/8) C1 and C2 domains, exhibiting a distorted jellyroll fold. Details of the structure provide insight to b1 domain regions responsible for ligand binding and facilitate rationalization of existing biochemical binding data. A polar cleft formed by adjacent loops at one end of the molecule in conjunction with flanking electronegative surfaces may represent the binding site for the positively charged tails of semaphorins and VEGF(165). The nature of the cell adhesion binding site of the b1 domain can be visualized in context of the structure.

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Effective use of reducing agents and nanoparticle encapsulation in stabilizing catechins in alkaline solution

et al. 2010

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Modulation of the human gut microbiota by phenolics and phenolic fiber‐rich foods

Loo

Howell

Chan

et al. 2020

Comp Rev Food Sci Food Safe

120

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The gut microbiota plays a prominent role in human health. Alterations in the gut microbiota are linked to the development of chronic diseases such as obesity, inflammatory bowel disease, metabolic syndrome, and certain cancers. We know that diet plays an important role to initiate, shape, and modulate the gut microbiota. Long‐term dietary patterns are shown to be closely related with the gut microbiota enterotypes, specifically long‐term consumption of carbohydrates (related to Prevotella abundance) or a diet rich in protein and animal fats (correlated to Bacteroides). Short‐term consumption of solely animal‐ or plant‐based diets have rapid and reproducible modulatory effects on the human gut microbiota. These alterations in microbiota profile by dietary alterations can be due to impact of different dietary macronutrients, carbohydrates, protein, and fat, which have diverse modulatory effects on gut microbial composition. Food‐derived phenolics, which encompass structural variants of flavonoids, hydroxybenzoic acids, hydroxycinnamic acids, coumarins, stilbenes, ellagitannins, and lignans can modify the gut microbiota. Gut microbes have been shown to act on dietary fibers and phenolics to produce functional metabolites that contribute to gut health. Here, we discuss recent studies on the impacts of phenolics and phenolic fiber‐rich foods on the human gut microbiota and provide an insight into potential synergistic roles between their bacterial metabolic products in the regulation of the intestinal microbiota.

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Evaluation of α-glucosidase inhibition potential of some flavonoids from Epimedium brevicornum

Phan

Jin

Tang

et al. 2013

LWT - Food Science and Technology

105

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Chemical characterisation and speciation of organic selenium in cultivated selenium-enriched Agaricus bisporus

et al. 2013

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Ken Ng

Antioxidant activity of hot water extract from the fruit of the Doum palm, Hyphaene thebaica

Chondroitin sulfate A is a cell surface receptor for Plasmodium falciparum-infected erythrocytes

Chondroitin sulfate A is a cell surface receptor for Plasmodium falciparum-infected erythrocytes.

Crystal Structure of the Human Neuropilin-1 b1 Domain

Effective use of reducing agents and nanoparticle encapsulation in stabilizing catechins in alkaline solution

Modulation of the human gut microbiota by phenolics and phenolic fiber‐rich foods

Evaluation of α-glucosidase inhibition potential of some flavonoids from Epimedium brevicornum

Chemical characterisation and speciation of organic selenium in cultivated selenium-enriched Agaricus bisporus

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