Enteroviruses (EVs) are important human pathogens associated with various clinical syndromes. This study represents an overview of non-polio enteroviruses (NPEVs) isolated from acute flaccid paralysis (AFP) surveillance in Shandong Province, China from 1988 to 2013. Altogether 792 and 170 NPEV isolates were isolated from stool specimens of 9263 AFP cases and 1059 contacts, respectively. Complete VP1 sequencing and typing on all 962 isolates revealed 53 NPEV types in which echovirus (E) 6 (7.6%), E14 (7.6%), E11 (7.4%), coxsackievirus (CV) B3 (7.4%), E25 (5.6%), CVB5 (4.9%), E7 (4.5%) and EV-A71 (4.4%) were the eight most commonly reported serotypes. Distinct summer–fall seasonality was observed, with June–October accounting for 79.3% of isolation from AFP cases with known month of specimen collection. Increase of isolation of EV-A71 and CVA—the predominant pathogens for the hand, foot, and mouth disease—was observed in recent years. Sequence analysis on VP1 coding region of EV-A71 and E6 suggested Shandong strains had great genetic divergence with isolates from other countries. The results described in this study provide valuable information on the circulation and emergence of different EV types in the context of limited EV surveillance in China.
Quorum sensing (QS) is a signaling mechanism for cell-to-cell communication between bacteria, fungi, and even eukaryotic hosts such as plant and animal cells. Bacteria in real life do not exist as isolated organisms but are found in complex, dynamic, and microecological environments. The study of interspecies QS and interkingdom QS is a valuable approach for exploring bacteria−bacteria interactions and bacteria−host interaction mechanisms and has received considerable attention from researchers. The correct combination of QS signals and receptors is key to initiating the QS process. Compared with intraspecies QS, the signal regulation mechanism of interspecies QS and interkingdom QS is often more complicated, and the distribution of receptors is relatively wide. The present review focuses on the latest progress with respect to the distribution, structure, and signal transduction of interspecies and interkingdom QS receptors and provides a guide for the investigation of new QS receptors in the future.
Streptococcus suis
(
S. suis
), more specifically serotype 2, is a bacterial pathogen that threatens the lives of pigs and humans. Like many other pathogens,
S. suis
exhibits quorum sensing (QS) system-controlled virulence factors, such as biofilm formation that complicates treatment. Therefore, impairing the QS involving LuxS/AI-2 cycle in
S. suis
, may be a promising alternative strategy for overcoming
S. suis
infections. In this study, we investigated paeoniflorin (PF), a monoterpenoid glycoside compound extracted from peony, as an inhibitor of
S. suis
LuxS/AI-2 system. At a sub-minimal inhibitory concentration (MIC) (1/16 MIC; 25 μg/ml), PF significantly reduced biofilm formation by
S. suis
through inhibition of extracellular polysaccharide (EPS) production, without affecting bacterial growth. Moreover, evidence was brought that PF reduces AI-2 activity in
S. suis
biofilm. Molecular docking indicated that LuxS may be the target of PF. Monitoring LuxS enzymatic activity confirmed that PF had a partial inhibitory effect. Finally, we showed that the use of PF in a mouse model can relieve
S. suis
infections. This study highlighted the anti-biofilm potential of PF against
S. suis
, and brought evidence that it may as an inhibitor of the LuxS/AI-2 system to prevent
S. suis
biofilm-related infections. PF can thus be used as a new type of natural biofilm inhibitor for clinical application.
Enterovirus 96 (EV96) is a new member of species Human Enterovirus C (HEV-C). In this report, genomic characterization of two EV96 strains isolated from acute flaccid paralysis surveillance in Shandong province of China in 2005 and 2009 is described. The two strains, designated 05517 and 09228C1, had 82.7% genomic similarity with each other and 75.1-84.2% with other three strains available from GenBank in complete genome sequences. In VP1 coding region, they had 77.6-86.6% nucleotide similarity with other EV96 strains. Interestingly, deletions of 3 nucleotides in the VP3 coding region of strain 09228C1, and of 3 nucleotides in the 3A region of both Shandong strains were observed. Simplot and bootscanning analysis on HEV-C genome sequences were performed, and evidence of recombination in P3 region for Shandong EV96 strains was found. In conclusion, these strains had distant genetic relationship with each other and with other EV96 strains.
H7 subtype avian influenza virus infection is an emerging zoonosis in some Asian countries and an important avian disease worldwide. A rapid and simple test is needed to confirm infection in suspected cases during disease outbreaks. In this study, we developed a reverse‐transcription recombinase‐aided amplification assay for the detection of H7 subtype avian influenza virus. Assays were performed at a single temperature (39°C), and the results were obtained within 20 min. The assay showed no cross‐detection with Newcastle disease virus or infectious bronchitis virus, which are the other main respiratory viruses affecting birds. The analytical sensitivity was 102 RNA copies per reaction at a 95% probability level according to probit regression analysis, with 100% specificity. Compared with published reverse‐transcription quantitative real‐time polymerase chain reaction assays, the κ value of the reverse‐transcription recombinase‐aided amplification assay in 342 avian clinical samples was 0.988 (p < .001). The sensitivity for avian clinical sample detection was 100% (95%CI, 90.40%–100%), and the specificity was 99.96% (95%CI, 97.83%–99.98%). These results indicated that our reverse‐transcription recombinase‐aided amplification assay may be a valuable tool for detecting avian influenza H7 subtype virus.
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