Project description:Mucin genes MUC2, MUC5AC, and MUC5B have been identified as major gel-forming mucins in the middle ear (ME). This study compared polymorphisms in MUC2, MUC5AC, and MUC5B genes in otitis media (OM) patients and controls.Cross-sectional case-control study. Patients age 6 months to 14 years undergoing routine tympanostomy tube insertion for recurrent otitis media (RecOM) or chronic otitis media with effusion (OME) were compared to control patients with no history of OM undergoing an unrelated procedure.Genomic DNA extracted from peripheral blood samples was analyzed by Southern blots using gene-specific probes to determine sizes of MUC2 and MUC5AC genes. Polymerase chain reaction was used to determine the size of MUC5B genes.Twenty RecOM patients, 20 OME patients, and 40 control patients were analyzed. There were no statistically significant differences in polymorphism expression identified between groups for MUC2 and MUC5B genes. OME patients were more likely than controls or RecOM patients to carry the longer MUC5AC-b allele.Differences in mucin polymorphisms have been demonstrated in other diseases. In otitis media, OME patients are more likely than controls or RecOM to carry the longer MUC5AC-b allele. MUC5AC is a primary innate defense mechanism for ME epithelium, and alterations in protein structure have the potential to affect that defense and predispose patients to disease. This study demonstrates that the properties of post-transcriptionally modified MUC5AC deserve further study, and specific pathogen-host interactions studies should explore the impact of this polymorphism.

Project description:Streptococcus pneumoniae (Spn) is the predominant causative organism of acute otitis media in children. To better understand the genes that are regulated at the onset of AOM caused by Spn infection in the middle ear, the transcriptome profile of peripheral blood mononuclear cells isolated from children prior to and during an AOM event was evaluated by microarray. We found that 1903 (6.2%) of 29,187 genes were differentially regulated greater than 2-fold at the onset of AOM compared to the pre-infection stage of the same children. The ontology of differentially regulated genes was dominated by those involved with the immune response. At onset of infection, genes associated with bacterial defenses were significantly up-regulated, including beta-defensin123, S100 protein A12, Toll-like receptor 5, IL-10, and those involved in the classical and alternative complement pathways. Genes associated with inhibition of bacterial entry through clathrin-dependent endocytosis were also up-regulated. In contrast, genes associated with cell-mediated immune responses were broadly down-regulated. The results provide the first human transcriptome data identifying genes differentially regulated at the onset of AOM in children.

Project description:Lysozyme is an antimicrobial innate immune molecule degrading peptidoglycan of the bacterial cell wall. Lysozyme shows the ubiquitous expression in wide varieties of species and tissues including the tubotympanum of mammals. We aim to investigate the effects of lysozyme depletion on pneumococcal clearance from the middle ear cavity.Immunohistochemistry was performed to localize lysozyme in the Eustachian tube. Lysozyme expression was compared between the wild type and the lysozyme M-/- mice using real time quantitative RT-PCR and western blotting. Muramidase activity and bactericidal activity of lysozyme was measured using a lysoplate radial diffusion assay and a liquid broth assay, respectively. To determine if depletion of lysozyme M increases a susceptibility to pneumococal otitis media, 50 CFU of S. pneumoniae 6B were transtympanically inoculated to the middle ear and viable bacteria were counted at day 3 and 7 with clinical grading of middle ear inflammation.Immunolabeling revealed that localization of lysozyme M and lysozyme P is specific to some/particular cell types of the Eustachian tube. Lysozyme P of lysozyme M-/- mice was mainly expressed in the submucosal gland but not in the tubal epithelium. Although lysozyme M-/- mice showed compensatory up-regulation of lysozyme P, lysozyme M depletion resulted in a decrease in both muramidase and antimicrobial activities. Deficiency in lysozyme M led to an increased susceptibility to middle ear infection with S. pneumoniae 6B and resulted in severe middle ear inflammation, compared to wild type mice.The results suggest that lysozyme M plays an important role in protecting the middle ear from invading pathogens, particularly in the early phase. We suggest a possibility of the exogenous lysozyme as an adjuvant therapeutic agent for otitis media, but further studies are necessary.

Project description:ObjectiveTo compare levels of middle ear (ME) MUC5AC expression in patients with otitis media (OM) with patients without OM. Mucin gene 5AC has been identified as a major secretory mucin in the ME and is fundamentally important in the development of ME mucoid effusions, hearing loss and also provides ME mucosal protection and bacterial clearance.DesignCase control.SettingTertiary, academic, pediatric otolaryngology practice.PatientsPatients 9 months to 7 years old undergoing routine tympanostomy tube (TT) insertion for recurrent otitis media (RecOM) or chronic otitis media with effusion (COME) were compared with control patients without a history of OM undergoing cochlear implantation.MethodsDuring routine TT placement or cochlear implantation, a 1-mm biopsy sample of the ME epithelium was obtained. RNA was extracted, and real-time reverse transcriptase-polymerase chain reaction was used to quantify levels of MUC5AC expression.ResultsTwenty-three patients with OM (12 with RecOM and with 11 COME) were evaluated using 5 controls. Mean age was not different between groups. In the RecOM group, mean expression of MUC5AC was 25.92 times greater than in controls. In the COME group, the mean expression was 155.40 times greater than in controls.ConclusionsLevels of MUC5AC expression in the human ME are significantly increased in patients with RecOM and COME compared with controls. This study demonstrates MUC5AC gene changes in patients with OM and highlights the need for greater understanding of the molecular responses in OM; particularly that of mucin. A thorough exploration of these factors will provide opportunities to develop novel interventions for the extremely common problem of OM.

Project description:Otits media (OM) is the most frequent indication for antimicrobial prescription to US children. Streptococcus pneumoniae (S. pneumoniae) remains one of the most common pathogens causing OM. Successful eradication of S. pneumoniae in the middle ear can be achieved by adhering to a 7-10 day regimen of oral antibiotics. However, oral drug administration is challenging for parents. Lack of adherence has been associated with treatment failure or early relapse. To overcome this challenge, we used a noninvasive formulation to achieve high transtympanic antibiotic flux and cured S. pneumoniae OM in chinchillas. The formulation consists of a thermosensitive in situ gelling hydrogel, chemical permeation enhancers, and an antibiotic. The direct transport of drugs into the middle ear produced high concentrations of ciprofloxacin (in the range of hundreds of micrograms per milliliter) within the first 24 hours of administration. Drug concentrations above the minimum inhibitory concentration (MIC) for S. pneumoniae were sustained throughout the 7-day treatment. S. pneumoniae OM in a chinchilla model was successfully eradicated, without causing tissue toxicity. Transtympanic delivery minimized systemic drug exposure, as evidenced by undetectable levels in blood, measured by high-performance liquid chromatography.

Project description:One of the beneficial effects of pneumococcal conjugate vaccines (PCVs) has been a decrease in the incidence of non-invasive infections, such as otitis media (OM) caused by vaccine serotypes. In this study, we analyzed the epidemiology of pneumococcal OM before and after PCV13 introduction in 2010. Between 2008 and 2016, the middle ear exudates from 2653 children under 14 years of age with OM were studied in two Spanish provinces (Gipuzkoa and Barcelona), and S. pneumoniae was isolated in 235 (8.9%) of cases. The 204 available isolates were serotyped and distributed in three 3-year periods: one before and two after PCV13 introduction (early and late post-PCV13). A significant decrease in the rate of OM caused by S. pneumoniae was observed mainly due to a decrease in infections caused by all PCV13 serotypes, although exceptions were observed including the persistence of serotype 3 in Gipuzkoa and a weak re-emergence of serotype 19F in both regions. The rate and diversity of non-PCV13 serotypes increased in both regions and an emerging clone causing OM was detected in each region: serotype 23B ST2372 in Gipuzkoa and serotype 11A ST838/ST6521 in Barcelona. The introduction of PCV13 has been followed by a change in the epidemiology of pneumococcal OM, with a decrease in the rate of vaccine serotypes accompanied by an increase in the diversity of non-vaccine serotype and the clonal spreading of different single clones in each region.

Project description:Background:Reductions in otitis media (OM) burden following rollout of pneumococcal conjugate vaccines (PCVs) have exceeded predictions of vaccine impact. In settings with active surveillance, reductions in OM caused by vaccine-targeted pneumococcal serotypes have co-occurred with reductions in OM caused by other pathogens carried in the upper-respiratory tract of children. To understand these changes, we investigated the progression of vaccine-targeted and non-vaccine pneumococcal serotypes from carriage to OM before and after vaccine rollout. Methods:Nasopharyngeal carriage prevalence of pneumococcus was monitored in prospective studies of Bedouin and Jewish children <3 years old in southern Israel between 2004 and 2016. Incidence of OM necessitating middle-ear fluid culture (predominantly complex OM including recurrent, spontaneously-draining, non-responsive, and chronic cases) was monitored via prospective, population-based active surveillance. We estimated rates of pneumococcal serotype-specific progression from carriage to disease before and after rollout of PCV7/13, measured as OM incidence per carrier. We pooled serotype-specific estimates using Bayesian random-effects models. Results:On average, rates of progression declined 92% (95% credible interval: 79-97%) and 80% (46-93%) for PCV7/13 serotypes among Bedouin and Jewish children <12 months old, respectively, and 32% (-58-71%) and 61% (-5-86%) among children aged 12-35m. For non-vaccine serotypes, rates of progression among Bedouin and Jewish children aged <12m declined 74% (55-85%) and 43% (4-68%), respectively. Conclusions:Vaccine-targeted and non-vaccine pneumococcal serotypes showed lower rates of progression to complex OM after rollout of PCV7/13. Early-life OM episodes historically associated with vaccine-serotype pneumococci may impact the susceptibility of children to OM progression.

Project description:Streptococcus pneumoniae is a major pathogen causing bacterial infection in the middle ear of humans. We previously used S. pneumoniae strain ST556, a low-passage 19F isolate from an otitis media patient, to perform a whole-genome screen for ear infection-associated genes in a chinchilla model. This report presents the complete genome sequence of ST556. The genome sequence will provide information complementary to the experimental data from our genetic study of this strain.

Project description:Streptococcus pneumoniae (Spn) is the predominant causative organism of acute otitis media (AOM) in children. A human cDNA microarray comprising 30,968 human genome probes was used to evaluate the transcriptional changes that occur in peripheral blood mononuclear cells (PBMC) at the onset of clinical AOM caused by Spn infection in children after comparison of microarray results with the pre-infection healthy stage of the same children.

Project description:Chronic otitis media (COM), e.g. "glue" ear is characterized by middle ear effusion and conductive hearing loss. Although mucous glycoproteins (mucins), which contribute to increased effusion viscosity, have been analyzed in ear tissue specimens, no studies have been reported that characterize the molecular identity of secreted mucin proteins present in actual middle ear fluid. For this study, effusions from children with COM undergoing myringotomy at Children's National Medical Center, Washington, DC were collected. These were solubilized and gel fractionated, and the protein content was identified using a liquid chromatography tandem mass spectrometry (LC-MS/MS) proteomics approach. Western blot analyses with mucin specific antibodies and densitometry were performed to validate the mass spectrometry findings. LC-MS/MS results identified mucin MUC5B by >26 unique peptides in six of six middle ear effusion samples, whereas mucin MUC5AC was only identified in one of six middle ear effusions. These findings were validated by Western blot performed on the same six and on an additional 11 separate samples where densitometry revealed on average a 6.4-fold increased signal in MUC5B when compared with MUC5AC (p = 0.0009). In summary, although both MUC5AC and MUC5B mucins are detected in middle ear effusions, MUC5B seems to be predominant mucin present in COM secretions.