Lung Memory B Cell Populations After Influenza Infection in Mice
Michael BreenF. FengKimberly A. BarkerAxin HuaY.M. WangThomas B. KeplerJoseph P. MizgerdRachel Fearns
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Lung infection
Ventilator-associated pneumonia (VAP) has been described in humans and in experimental animals. The most severe lesions are located in dependent lung segments along a sterno-vertebral axis, however the cephalocaudal distribution of lung infection remains unknown. We used an experimental model to evaluate the distribution of lung infection, considering its anteroposterior and cephalocaudal gradient, and its impact on lung aeration. Ten healthy domestic piglets were anesthetized, paralyzed and mechanically ventilated for 59 hours in the prone position. At the end of the experiment they were sacrificed and their lungs were fixed. Six segments were analyzed: a non-dependant (ND) and a dependant (D) segment of the upper (UL), middle (ML) and lower (LL) lobes. The presence of healthy lung or of histological infectious lesions was analyzed with a semi-quantitative method. The regional distribution of lung infection was compared between upper, middle and lower lobes, as well as between dependant and non-dependant regions. The presence of infectious lesions was correlated with measurements of lung aeration. Nine of the ten piglets developed VAP. Infectious lesions were distributed along a sterno-vertebral and a cephalocaudal gradient; the lower and middle lobes were more frequently infected than the upper lobes. There was an inverse correlation (R= - 0.902) between the development of lung lesions and lung aeration. In conclusion, VAP was a frequent complication in healthy mechanically ventilated piglets, showing an anteroposterior as well as a cephalocaudal gradient. As expected, development of lung infection was accompanied by a corresponding loss of aeration.
Lung infection
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Lassa virus
Lassa fever
Recombinant virus
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The envelope (E) glycoprotein of JEV is the major antigen to elicit neutralizing antibody (NAb) against JEV infection. In order to develop a rapid and safe neutralization assay system for evaluation of the JEV vaccine strains, we constructed JEV-pseudotyped viruses with JEV env genes (Nakayama-NIH, Beijing-1). The titers of JEV-pseudotyped viruses with NK and BJ strains were 4.0×104 IFU/ml and 1.3×105 IFU/ml in Vero cell cultures, respectively. We have analyzed the neutralization activity of immunized mouse sera with JEV-NK and JEV-BJ pseudotyped viruses. The neutralizing antibody titers of NK and BJ (50% reduction of virus) were about 1:10,000 at each immunized sera. Compared with conventional plaque reduction neutralization test (PRNT), the method using JEV-pseudotyped virus has desirable advantages such as more rapid, easier, and non-biohazardous. This neutralization assay system might be useful to evaluate NAb activity against JEV vaccine strains or vaccine candidates.
Vero cell
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Lung infection
Infiltration (HVAC)
Viral infection
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cDNA molecules encoding the structural proteins of the virulent Trinidad donkey and the TC-83 vaccine strains of Venezuelan equine encephalitis (VEE) virus were inserted under control of the vaccinia virus 7.5K promoter into the thymidine kinase gene of vaccinia virus. Synthesis of the capsid protein and glycoproteins E2 and E1 of VEE virus was demonstrated by immunoblotting of lysates of CV-1 cells infected with recombinant vaccinia/VEE viruses. VEE glycoproteins were detected in recombinant virus-infected cells by fluorescent antibody (FA) analysis performed with a panel of VEE-specific monoclonal antibodies. Seven E2-specific epitopes and two of four E1-specific epitopes were demonstrated by FA.
Poxviridae
Structural protein
Orthopoxvirus
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A herpesvirus of turkeys (HVT) recombinant containing a 3.9 kbp fragment of Marek's disease virus (MDV) DNA encoding MDV glycoprotein B (gB), stably integrated into the thymidine kinase (TK) gene of HVT, has been constructed. The replication of the recombinant in chick embryo fibroblasts (CEF) was comparable to that of wild-type HVT. The recombinant expressed authentic MDV gB and its processed forms (110K, 65K and 48K) in CEF as shown by immunoblotting using an MDV-specific anti-peptide serum. Northern blot analysis showed that MDV gB mRNA was transcribed from MDV promoter sequences flanking the MDV gB open reading frame and also from the HVT TK promoter. However, the level of replication of the recombinant in vivo appeared to be lower than wild-type HVT as shown by the titres of HVT antibodies, determined by ELISA. Pathogenicity tests showed that the recombinant was safe and did not cause microscopic or gross Marek's disease lesions or other abnormalities. The results suggest that HVT has potential as a vector for recombinant vaccines.
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To better understand the mechanism of lung infection with Pseudomonas aeruginosa ( P. aeruginosa), many techniques have been developed in order to establish lung infection in rodents. A model of chronic lung infection, using tracheotomy to inoculate the bacteria, has been extensively used in the cystic fibrosis (CF) mouse model of lung infection. The cystic fibrosis transmembrane channel ( Cftr) knockout (KO) mice are smaller than normal mice and are more sensitive to housing and nutritional conditions, leading to small amounts of animals being available for experiments. Because of these characteristics, and because of the invasiveness of the infection procedure which we, and others, have been using to mimic the lung infection, we sought to find an alternative way to study the inflammatory response during lung P. aeruginosa infection. The technique we describe here consists of the injection of bacterial beads directly into the lungs through the mouth without the need of any tracheal incisions. This technique of direct pulmonary delivery enables much faster infection of the animals compared with the intratracheal technique previously used. The use of this less invasive technique allows the exclusion of the surgery-related inflammation. Our results show that, using the direct pulmonary delivery technique, the KO mice were more susceptible to P. aeruginosa lung infection compared with their wild-type (WT) controls, as shown by their increased weight loss, higher bacterial burden and more elevated polymorphonuclear (PMN) alveolar cell recruitment into the lungs. These differences are consistent with the pathological profiles observed in CF patients infected with P. aeruginosa. Overall, this method simplifies the infection procedure in terms of its duration and invasiveness, and improves the survival rate of the KO mice when compared with the previously used intratracheal procedure.
Lung infection
Pulmonary infection
Knockout mouse
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Rhesus macaque
Isolation
Medical microbiology
Virus isolation
Sequence (biology)
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Lung infection
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ObjectiveTo investigate the clinical features of chronic lung diseases patients combined with lung fungal infection.MethodsThe data of 216 hospitalized cases with chronic lung diseases were retrospectively analyzed.ResultsThe rate of lung fungal infection of chronic lung diseases patients was 28.1%, and the main pathologic fungal was Candida albicans, about 67.2 %.ConclusionThe chronic lung diseases patient has a higher rate of lung fungal infections compared with other diseases. The measures of preventing, diagnosing and treating lung fungal infection at early stage should be taken.
Lung infection
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