Ginseng, a traditional herbal medicine, may interact with several co-administered drugs in clinical settings, and ginsenosides, the major active components of ginseng, may be responsible for these ginseng-drug interactions (GDIs). Results from previous studies on ginsenosides' effects on human drug-metabolizing P450 enzymes are inconsistent and confusing. Herein, we first evaluated the inhibitory effects of fifteen ginsenosides and sapogenins on human CYP1A2, CYP2C9, CYP2C19, CYP2D6 and CYP3A4 enzymes by using commercially available fluorescent probes. The structure-activity relationship of their effects on the P450s was also explored and a pharmacophore model was established for CYP3A4. Moreover, substrate-dependent phenomena were found in ginsenosides' effects on CYP3A4 when another fluorescent probe was used, and were further confirmed in tests with conventional drug probes and human liver microsomes. These substrate-dependent effects of the ginsenosides may provide an explanation for the inconsistent results obtained in previous GDI reports.
SummaryVibrio cholerae live in aquatic environments and cause cholera disease. Like many other bacteria, V. cholerae use quorum-sensing (QS) systems to control various cellular functions, such as pathogenesis and biofilm formation. However, some V. cholerae strains are naturally QSdefective, including defective mutations in the quorum sensing master regulator HapR. Here we examined the QS functionality of 602 V. cholerae clinical and environmental strains isolated in China from 1960-2007, by measuring QS-regulated gene expression. We found that a greater percentage of the toxigenic strains (ctxAB + ) had functional QS as compared to the non-toxigenic strains (ctxAB − ), and that this trend increased significantly over time. We hypothesize that QS provides adaptive value in V. cholerae pathogenic settings.
like domains-3). The second EGF-like repeat (E2) contains an RGD (Arg-Gly-Asp) motif, which enables DEL-1 to bind αvβ3 integrin (19, 26), whereas its discoidin-I-like domains can bind the "eat-me" signal phosphatidylserine on apoptotic cells (22, 27). These interactions allow DEL-1 to serve as a molecular bridge DEL-1 is a locally secreted 52-kDa protein that interacts with distinct integrins and homeostatically regulates the initiation and resolution of inflammation (18-25). DEL-1 consists of 3 N-terminal EGF-like repeats and 2 C-terminal discoidin-I-like domains, hence it is also known as EDIL3 (EGF-like repeats and discoidin-I-
This is a repository copy of A cross-species interaction with a symbiotic commensal enables cell-density-dependent growth and in vivo virulence of an oral pathogen.
The
PE/PPE family of proteins which are in high abundance in pathogenic
species such as Mycobacterium tuberculosis and M. marinum, play the critical
role in generating antigenic variation and evasion of host immune
responses. However, little is known about their functional roles in
mycobacterial pathogenesis. Previously, we found that PPE38 is associated
with the virulence of mycobacteria, presumably by modulating the host
immune response. To clarify the link between PPE38 and host response,
we employed a subcellular, amino acid-coded mass tagging (AACT)/SILAC-based
quantitative proteomic approach to determine the proteome changes
during host response to M. marinum PPE38.
As a result, 291 or 290 proteins were found respectively to be up-
or down-regulated in the nucleus. Meanwhile, 576 upregulated and 272
downregulated proteins were respectively detected in the cytosol.
The data of quantitative proteomic changes and concurrent biological
validations revealed that M. marinum PPE38 could trigger extensive inflammatory responses in macrophages,
probably through interacting with toll-like receptor 2 (TLR2). We
also found that PPE38 may arrest MHC-1 processing and presentation
in infected macrophages. Using bioinformatics tools to analyze global
changes in the host proteome, we obtained a PPE38-respondor network involved in various transcriptional factors (TFs) and TF-associated
proteins. The results of our systems investigation now indicate that there is cross-talk involving a broad range of diverse biological pathways/processes that coordinate the host response to M. marinum PPE38.
This study investigated the microbial dynamics in multispecies biofilms of Escherichia coli O157:H7 strain 1934 (O157) or Salmonella enterica serovar Typhimurium ATCC 14028 (ST) and 40 strains of meat processing surface bacteria (MPB). Biofilms of O157 or ST with/without MPB were developed on stainless steel coupons at 15°C for up to 6 days. Bacteria in suspensions (inoculum, days 2 and 6) and biofilms (days 2 and 6) were enumerated by plating. The composition of multispecies cultures was determined by 16S rRNA gene sequencing. In suspensions, levels of O157 and ST were ∼2 log higher in single-species than in multispecies cultures on both sampling days. ST was 3 log higher in single-species than in multispecies biofilms. A similar trend, though to a lesser extent, was observed for O157 in biofilms on day 2 but not on day 6. No difference (P > 0.05) in bacterial counts was noted for the two MPB-pathogen cocultures at any time during incubation. Bacterial diversity in multispecies cultures decreased with incubation time, irrespective of the pathogen or culture type. The changes in the relative abundance of MPB were similar for the two MPB-pathogen cocultures, though different interbacterial interactions were noted. Respective fractions of ST and O157 were 2.1% and 0.97% initially and then 0.10% and 0.07% on day 2, and 0.60% and 0.04% on day 6. The relative proportions of facultative anaerobes in both multispecies cultures were greater in both suspensions and biofilms than in the inoculum. Citrobacter, Hafnia, Aeromonas, and Carnobacterium predominated in biofilms but not always in the planktonic cultures.
IMPORTANCE Results of this study demonstrate that Salmonella enterica serovar Typhimurium and E. coli O157:H7 can integrate into biofilms when cocultured with bacteria from meat plant processing surfaces. However, the degree of biofilm formation for both pathogens was substantially reduced in the presence of the competing microbiota, with S. Typhimurium more greatly affected than E. coli O157:H7. The expression of extracellular determinants such as curli and cellulose appears to be less important for biofilm formation of the pathogens in multispecies cultures than in monoculture. In contrast to previous reports regarding food processing surface bacteria, data collected here also demonstrate that facultative anaerobes may have a competitive edge over strict aerobes in establishing multispecies biofilms. It would be important to take into account the presence of background bacteria when evaluating the potential persistence of a pathogen in food processing facilities.
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