Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0033036 (APC)
 10,214 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Lactobacillus plantarum 423, isolated from sorghum beer, produces a bacteriocin (plantaricin 423) which is inhibitory to several food spoilage bacteria and food-borne pathogens, including Bacillus cereus, Clostridium sporogenes, Enterococcus faecalis, Listeria spp. and Staphylococcus spp. Plantaricin 423 is resistant to treatment at 80 degrees C, but loses 50% of its activity after 60 min at 100 degrees C and 75% of its activity after autoclaving (121 degrees C, 15 min). Plantaricin 423 remains active after incubation at pH 1-10 and is inactivated when treated with pepsin, papain, alpha-chymotrypsin, trypsin and Proteinase K. Plantaricin 423 was partially purified and its size estimated at 3.5 kDa, as determined by tricine-SDS-PAGE. The mechanism of activity of plantaricin 423 is weakly bactericidal, as determined against Oenococcus oeni (previously Leuconostoc oenos). High DNA homology was obtained between the plasmid DNA of strain 423 and the pediocin PA-1 operon of Pediococcus acidilactici PAC 1.0, suggesting that plantaricin 423 is plasmid-encoded and related to the pediocin gene cluster.
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PMID:Isolation, purification and partial characterization of plantaricin 423, a bacteriocin produced by Lactobacillus plantarum. 971 99

Wheat gluten causes gut inflammation in genetically predisposed individuals. We tested the hypothesis that wheat gluten is not only a target of adaptive immunity, but also modulates the function of APC. Dendritic cells (DC) derived from the bone marrow of BALB/c mice were exposed to chymotrypsin-treated wheat gluten. This induced DC maturation as estimated by all surface markers tested (MHC class II, CD40, CD54, and CD86). The effect was dose dependent, and, at 100 microg/ml gluten matched that caused by 10 ng/ml LPS. A role of endotoxin contamination was ruled out by demonstrating the resistance of wheat gluten effects to LPS antagonist polymyxin B. DC from LPS nonresponder strain C3H/HeJ were affected by wheat gluten, but not by LPS. Proteinase K-digested wheat gluten was unable to stimulate DC maturation. Wheat gluten induced a unique secretion pattern of selected cytokines and chemokines in DC. Classic pro- or anti-inflammatory mediators were not produced, in contrast to LPS. Rather, chemokines MIP-2 and keratinocyte-derived cytokine were secreted in large amounts. We conclude that wheat gluten lowers the threshold for immune responses by causing maturation of APC, by attracting leukocytes and increasing their reactivity state. In the presence of an appropriate genetic predisposition, this is expected to increase the risk of adverse immune reactions to wheat gluten or to other Ags presented.
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PMID:Wheat gluten causes dendritic cell maturation and chemokine secretion. 1526 26

We previously demonstrated that the substitution of the autolysis loop (residues 143-154 in chymotrypsin numbering) of APC with the corresponding loop of trypsin (APC-Tryp 143-154) has no influence on the proteolytic activity of the protease toward fVa, however, this substitution increases the reactivity of APC with plasma inhibitors so that the mutant exhibits no anticoagulant activity in plasma. To further investigate the role of the autolysis loop in APC and determine whether this loop is a target for modulation by protein S, we evaluated the activity of APC-Tryp 143-154 toward fVa and several plasma inhibitors both in the absence and presence of protein S. Furthermore, we evaluated the active-site topography of APC-Tryp 143-154 by determining the average distance of the closest approach (L) between a fluorescein dye tethered to a tripeptide inhibitor, attached to the active-site of APC-Tryp 143-154, and octadecylrhodamine dyes incorporated into PCPS vesicles both in the absence and presence of protein S. The activity of APC-Tryp 143-154 toward fVa was identical to that of wild-type APC both in the presence and absence of protein S. However, the reactivity of APC-Tryp 143-154 with plasma inhibitors was preferentially improved independent of protein S. The FRET analysis revealed a dramatic change in the active-site topography of APC both in the absence and presence of protein S. Anisotropy measurements revealed that the fluorescein dye has a remarkable degree of rotational freedom in the active-site of APC-Tryp 143-154. These results suggest that the autolysis loop of APC may not be a target for modulation by protein S. This loop, however, plays a critical role in restricting both the specificity and spatial environment of the active-site groove of APC.
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PMID:Autolysis loop restricts the specificity of activated protein C: analysis by FRET and functional assays. 1832 82