UMLS:C0043167 - FACTA Search

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Query: UMLS:C0043167 (pertussis)
19,595 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A 60-year-old heterosexual man with AIDS was admitted to hospital with dyspnea, a severe paroxysmal non-productive cough of two months' duration, low-grade fever and exhaustion. Bordetella pertussis was cultured from a bronchoalveolar lavage specimen. After erythromycin therapy (500 mg q.i.d. for two weeks) all respiratory symptoms resolved progressively over a four-week period. Bordetella pertussis should be added to the long list of pathogens that may cause respiratory disease in persons with HIV infection.
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PMID:Bordetella pertussis as a cause of chronic respiratory infection in an AIDS patient. 807 Apr 37

We report the purification of a minor Bordetella pertussis fimbrial subunit, designated FimD, and the identification of its gene (fimD). FimD could be purified from the bulk of major fimbrial subunits by exploiting the fact that major subunit-subunit interactions are more stable in the presence of SDS than minor-major subunit interactions. To locate the gene for FimD, internal peptides of FimD were generated, purified and sequenced. Subsequently, an oligonucleotide probe, based on the primary sequence of one peptide, was used to clone fimD. The primary structure of FimD, derived from the DNA sequence of its gene, showed homology with a number of fimbrial adhesins. Most pronounced homology was observed with MrkD, a fimbrial adhesin derived from Klebsiella pneumoniae. These observations suggest that FimD may represent a B. pertussis fimbrial adhesin. With a fimD-specific probe we detected the presence of a fimD homologue in Bordetella parapertussis and Bordetella bronchiseptica but not in Bordetella avium. Cloning and sequencing revealed that the B. parapertussis and B. bronchiseptica fimD product differed from the B. pertussis fimD product in 20 and 1 amino acid residues, respectively. Since B. bronchiseptica is normally not a human pathogen, but causes respiratory disease in a wide range of non-human mammalian species, this may suggest that FimD recognizes a receptor that is well conserved in mammalian species. An in-frame deletion in fimD completely abolished FimD expression and also affected the expression of the major subunits Fim2 and Fim3 suggesting that, in contrast to other adhesins that are minor components of fimbriae, FimD is required for formation of the fimbrial structure.
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PMID:Isolation of a putative fimbrial adhesin from Bordetella pertussis and the identification of its gene. 810 63

Many adults are susceptible to pertussis, and Bordetella pertussis has been isolated from five patients with HIV disease. The prevalence of B. pertussis in 60 HIV-infected adults with nasopharyngeal (NP) swab cultures were studied and questionnaires were used that assessed HIV-related risk behaviors and disease status, immunization history, and symptoms of respiratory disease. Although 72% had cough and 33% had cough for > 14 days, no nasopharyngeal (NP) swab cultures were positive for Bordetella species. Of the 44 (73%) patients who had follow-up NP swab cultures at 6 months, all were still negative. On the basis of these data from our HIV-infected population, the estimated population prevalence of pertussis is zero, with an upper 95% confidence limit of 0.00065, or fewer than 6.5 cases of pertussis per 10,000 HIV-infected adults. Given this low prevalence, HIV-infected patients with respiratory symptoms do not appear to be a reservoir for B. pertussis in the community.
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PMID:Pertussis is rare in human immunodeficiency virus disease. 843 Sep 67

We examined the major pathogenic substances of Bordetella pertussis for the ability to induce nitric oxide, and important biological function of macrophages, via gamma interferon in spleen cells. B. pertussis, which produces a variety of pathogenic substances, including pertussis toxin and filamentous hemagglutinin, causes a severe respiratory disease. Nitric oxide was detected in the culture fluid of spleen cells stimulated with pertussis toxin or its B oligomer but not in the culture fluid of spleen cells stimulated with the A protomer of pertussis toxin or with filamentous hemagglutinin. Incubation of the peritoneal exudate macrophages with pertussis toxin, B oligomer, A protomer, or filamentous hemagglutinin induced little nitric oxide, whereas incubation with gamma interferon induced a significant amount of nitric oxide. The induction of nitric oxide in spleen cells stimulated with pertussis toxin was completely inhibited by anti-gamma interferon antibody. The treatment of spleen cells with anti-Thy-1.2 antibody plus complement followed by stimulation with pertussis toxin decreased the secretion of gamma interferon and nitric oxide. These results suggest that gamma interferon from T lymphocytes stimulated with pertussis toxin induces nitric oxide.
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PMID:Nitric oxide induction by pertussis toxin in mouse spleen cells via gamma interferon. 860 94

Whooping cough, an acute respiratory disease affecting over sixty million infants, can be prevented by vaccination. The vaccine currently used, composed of killed bacterial cells, however, has been associated with many side effects. An improved vaccine against the disease should contain pertussis toxin (PT), a major virulent factor of Bordetella pertussis (B. pertussis). In order to be included in the vaccine, PT needs to be detoxified and the chemical methods used so far are not completely satisfactory, since they give a product with reduced immunogenicity and possible residual toxicity. To avoid this problem, we have used recombinant DNA technologies to clone the PT gene, express it in bacteria, map the B and T cell epitopes of the molecule and identify the amino acids that are important for the enzymatic activity and toxicity. Based on this information, the gene coding for PT was mutated to produce an inactive protein. This genetically modified PT was non toxic, highly immunogenic and able to protect mice from intracerebral challenge with virulent B. pertussis. The mutant was included as a main component of an acellular pertussis vaccine which has been shown in numerous clinical trials to be more safe and immunogenic than the old cellular vaccine.
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PMID:Acellular pertussis vaccine composed of genetically inactivated pertussis toxin. 876 91

Bordetella pertussis is the causative agent of whooping cough, a contagious childhood respiratory disease, increasing public concern over the safety of current whole-cell vaccines has led to decreased immunization rates and a subsequent increase in the incidence of the disease. The preparation of safer vaccines is at present concentrated on the production of detoxified virulence factors such as pertussis toxin (PT) for inclusion in acellular vaccine preparations. A permanently avirulent Bordetella bronchiseptica strain was previously engineered to constitutively produce PT. An in vivo cloning technique, based on the principles of conjugal mating and chromosome transfer was employed to transfer the PT expression locus of this strain to virulent and avirulent strains of B. bronchiseptica. This transfer was confirmed by Southern hybridization. An analysis of PT secretion in isogenic virulent and avirulent strains of B. bronchiseptica revealed that the PT produced was cell-associated and not secreted to the growth medium. This evidence suggests that B. bronchiseptica does not possess functional PT secretion (ptl) genes. Therefore, to achieve a PT expression and secretion system suitable for vaccine purposes in Bordetella bronchiseptica, functional ptl genes of B. pertussis are also required.
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PMID:Transfer of a pertussis toxin expression locus to isogenic bvg-positive and bvg-negative strains of Bordetella bronchiseptica using an in vivo technique. 886 92

Pertussis is a highly contagious respiratory disease. Infected adolescents and adults with mild illness are the source of potentially life-threatening illness in infants and young children. The incidence of pertussis has been rising steadily in recent years. Primary vaccination is 80 percent effective, but protection is transient. Pertussis can be difficult to diagnose because classic whooping cough is uncommon, disease manifestations are often atypical, and laboratory and radiologic aids are frequently nonspecific. Diagnosis is usually based on the clinical picture, but culture, direct fluorescent antibody tests and serology can be helpful. Antibiotic therapy can decrease the duration and severity of illness, and prevents secondary spread if started early. Effective management of pertussis outbreaks requires early diagnosis and treatment of cases, antibiotic prophylaxis of contacts and accelerated vaccination of susceptible infants and children. Acellular pertussis vaccine preparations have recently been recommended for the entire primary vaccination series.
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PMID:Pertussis: an update on primary prevention and outbreak control. 931 64

Bordetella pertussis is the causative agent of the respiratory disease pertussis or whopoping cough. Btr, an oxygen-responsive transcriptional regulator of B. pertussis, is homologous to the FNR protein of E. coli. Using a murine respiratory model, we observed in the present study that Btr is important in growth and survival of B. pertussis in vivo. A titration assay was developed that identified genes containing Btr binding sites including B. pertussis sodB and btr, E. coli aspA and a new B. pertussis gene, brg1. The brg1 gene encodes a protein similar to the LysR family of transcriptional regulators and its expression is activated threefold by Btr under anaerobic growth conditions but unaffected by Btr aerobically. The nucleotide sequence flanking brg1 encodes proteins with similarity to various metabolic enzymes. Putative overlapping promoters and a Btr binding site (FNR box) were identified in the DNA sequence between brg1 and the adjacent genes. These intervening sequences may represent sites for regulation by Btr and Brg1.
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PMID:Identification of Btr-regulated genes using a titration assay. Search for a role for this transcriptional regulator in the growth and virulence of Bordetella pertussis. 958 50

Whooping cough is an acute respiratory disease caused by the small, gram-negative bacterium Bordetella pertussis. B. pertussis expresses several factors that contribute to its ability to cause disease. These factors include surface-associated molecules, which are involved in the adherence of the organism to respiratory epithelial cells, as well as several extracellular toxins that inhibit host defenses and induce damage to host tissues. The expression of virulence factors in B. pertussis is dependent upon the bvg locus, which consists of three genes: bvgA, bvgS, and bvgR. The bvgAS genes encode a two-component regulatory system consisting of a sensor protein, BvgS, and a transcriptional activator, BvgA. Upon modification by BvgS, BvgA binds to the promoter regions of the bvg-activated genes and activates transcription. One of the bvg-activated genes, bvgR, is responsible for the regulation of the bvg-repressed genes, the functions of which are unknown. The fact that these genes are regulated by the bvg locus suggests that they play a role in the pathogenesis of the bacterium. In order to evaluate the contribution of bvg-mediated regulation to the virulence of B. pertussis and determine if expression of the bvg-repressed genes is required for the virulence of B. pertussis, we examined the ability of B. pertussis mutants, defective in their ability to regulate the expression of the bvg-activated and/or the bvg-repressed genes, to cause disease in the mouse aerosol challenge model. Our results indicate that the bvgR-mediated regulation of gene expression contributes to respiratory infection of mice.
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PMID:Contribution of regulation by the bvg locus to respiratory infection of mice by Bordetella pertussis. 971 89

Emerging respiratory disease agents, increased antibiotic resistance, and the loss of effective vaccines threaten to increase the incidence of respiratory disease in military personnel. We examine six respiratory pathogens (adenoviruses, influenza viruses, Streptococcus pneumoniae, Streptococcus pyogenes, Mycoplasma pneumoniae, and Bordetella pertussis) and review the impact of the diseases they cause, past efforts to control these diseases in U.S. military personnel, as well as current treatment and surveillance strategies, limitations in diagnostic testing, and vaccine needs.
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PMID:Respiratory diseases among U.S. military personnel: countering emerging threats. 1034 Nov 74

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