UMLS:C0031350 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

Query: UMLS:C0031350 (pharyngitis)
2,405 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Serum opacity factor (SOF) is a fibronectin-binding protein of group A streptococci that opacifies mammalian sera and is expressed by some strains that cause impetigo, pharyngitis and acute glomerulonephritis. Although SOF is expressed by approximately 35% of known serotypes, its role in the pathogenesis of group A streptococcal infections has not been previously investigated. The sof genes from M types 2, 28 and 49 Streptococcus pyogenes were cloned, sequenced, and their deduced amino acid sequences were compared. The gene for FnBA, a fibronectin-binding protein from Streptococcus dysgalactiae, was also cloned and found to express an opacity factor. The leader sequences, the fibronectin-binding domains, and the membrane anchor regions of these proteins were highly conserved. Short spans of conserved sequences were interspersed throughout the remaining parts of the proteins. The sof2 gene was insertionally inactivated in an M type 2 S. pyogenes strain, T2MR. The resultant SOF-negative mutant (YL3) did not express SOF or opacify serum, and exhibited a 71% reduction in binding fibronectin. Complementation of the SOF-negative defect with sof28 in the recombinant strain YL3(pNZ28) fully restored fibronectin-binding activity and the ability to opacify serum. To determine whether sof plays a role in virulence, mice were challenged intraperitoneally with these strains. None of the 10 mice infected with YL3(pNZ28) survived and only 1 out of 15 mice challenged with T2MR survived, whereas 12 out of 15 mice infected with YL3 survived. These data clearly indicate that SOF is a virulence factor, and they provide the first direct evidence that a fibronectin-binding protein contributes to the pathogenesis of group A streptococcal infections in vivo.
...
PMID:Serum opacity factor is a major fibronectin-binding protein and a virulence determinant of M type 2 Streptococcus pyogenes. 1021 62

Group A streptococci can be classified according to their tendency to cause either impetigo, pharyngitis, or both types of infection. Genotypic markers for tissue site preference lie within emm genes, which encode fibrillar surface proteins that play a key role in virulence. emm gene products (M and M-like proteins) display an extensive array of binding activities for tissue and plasma proteins of the human host. In a previous study, a high-affinity binding site for human plasmin(ogen) was mapped to the emm53 gene product. In this report, a structurally similar plasminogen-binding domain is found to be widely and selectively distributed among group A streptococci harboring the emm gene marker for the skin as the preferred tissue site for infection. The findings are highly suggestive of a central role for bacterial modulation of host plasmin(ogen) during localized infection at the epidermis.
...
PMID:Selective distribution of a high-affinity plasminogen-binding site among group A streptococci associated with impetigo. 1041 56

Infection with group A streptococci (GAS) can lead to the development of severe postinfectious sequelae such as rheumatic fever (RF). In Thailand, RF and rheumatic heart disease (RHD) remain important health problems. More than 80% of GAS circulating in this population are non-M antigen typeable by conventional M serotyping methods. In this study, we determine the M protein sequence types of GAS isolates found in northern Thailand. The emm genes from 53 GAS isolates, collected between 1985 and 1995 from individuals with pharyngitis, impetigo, acute RF (ARF), RHD, or meningitis as well as from individuals without infections, were amplified by PCR and sequenced. Thirteen new sequence types that did not show homology to previously published sequences were characterized. Six of these sequence types could be isolated from both skin and throat sites of impetigo and pharyngitis/ARF patients, respectively. In many cases we could not specifically differentiate skin strains or throat strains that could be associated with ARF or acute glomerulonephritis. Antigenic variations in the emm gene of the isolates investigated, compared to published M protein sequences, were predominantly due to point mutations, small deletions, and insertions in the hypervariable region. One group of isolates with homology to M44 exhibited corrected frameshift mutations. A new M type isolated from an RHD patient exhibited nucleotide sequence corresponding to the N terminus of M58 and the C terminus of M25, suggesting that recombination between the two types may have occurred. This study provided epidemiological data relating to GAS endemic to northern Thailand which could be useful for identification of vaccine candidates in a specific region of endemicity.
...
PMID:Epidemiological analysis of non-M-typeable group A Streptococcus isolates from a Thai population in northern Thailand. 1069 34

An in vivo model for group A streptococcal (GAS) impetigo was developed, whereby human neonatal foreskin engrafted onto SCID mice was superficially damaged and bacteria were topically applied. Severe infection, indicated by a purulent exudate, could be induced with as few as 1,000 CFU of a virulent strain. Early findings (48 h) showed a loss of stratum corneum and adherence of short chains of gram-positive cocci to the external surface of granular keratinocytes. This was followed by an increasing infiltration of polymorphonuclear leukocytes (neutrophils) of mouse origin, until a thick layer of pus covered an intact epidermis, with massive clumps of cocci accumulated at the outer rim of the pus layer. By 7 days postinoculation, the epidermis was heavily eroded; in some instances, the dermis contained pockets (ulcers) filled with cocci, similar to that observed for ecthyma. Importantly, virulent GAS underwent reproduction, resulting in a net increase in CFU of 20- to 14,000-fold. The majority of emm pattern D strains had a higher gross pathology score than emm pattern A, B, or C (A-C) strains, consistent with epidemiological findings that pattern D strains have a strong tendency to cause impetigo, whereas pattern A-C strains are more likely to cause pharyngitis.
...
PMID:Humanized in vivo model for streptococcal impetigo. 1076 85

Group A streptococci are model extracellular gram-positive pathogens responsible for pharyngitis, impetigo, rheumatic fever, and acute glomerulonephritis. A resurgence of invasive streptococcal diseases and rheumatic fever has appeared in outbreaks over the past 10 years, with a predominant M1 serotype as well as others identified with the outbreaks. emm (M protein) gene sequencing has changed serotyping, and new virulence genes and new virulence regulatory networks have been defined. The emm gene superfamily has expanded to include antiphagocytic molecules and immunoglobulin-binding proteins with common structural features. At least nine superantigens have been characterized, all of which may contribute to toxic streptococcal syndrome. An emerging theme is the dichotomy between skin and throat strains in their epidemiology and genetic makeup. Eleven adhesins have been reported, and surface plasmin-binding proteins have been defined. The strong resistance of the group A streptococcus to phagocytosis is related to factor H and fibrinogen binding by M protein and to disarming complement component C5a by the C5a peptidase. Molecular mimicry appears to play a role in autoimmune mechanisms involved in rheumatic fever, while nephritis strain-associated proteins may lead to immune-mediated acute glomerulonephritis. Vaccine strategies have focused on recombinant M protein and C5a peptidase vaccines, and mucosal vaccine delivery systems are under investigation.
...
PMID:Pathogenesis of group A streptococcal infections. 1088 88

Disease caused by group A streptococci (GAS) in tropical regions often takes the form of impetigo, whereas pharyngitis tends to predominate in temperate zones. GAS derived from asymptomatic throat infections and pyoderma lesions of rural Aboriginal Australians were evaluated for phylogenetic distant emm genes, which represent ecological markers for tissue site preference. On the basis of the percentage of total isolates from a given tissue, emm pattern A-C organisms exhibited a stronger predilection for the throat, whereas pattern D organisms preferred the skin. Only 16% of isolates collected by active surveillance displayed pattern A-C, which reflects the low incidence of oropharyngeal infection. Importantly, most (70%) pattern A-C organisms were isolated from skin sores, despite their innate tendency to infect the throat. Combined with findings from nontropical populations, analysis of the data supports the hypothesis that GAS tissue preferences are genetically predetermined and that host risk factors for infection strongly influence the differential reproduction of individual clones.
...
PMID:Contrasting molecular epidemiology of group A streptococci causing tropical and nontropical infections of the skin and throat. 1097 7

Variation in strain virulence helps to account for the wide spectrum of group A streptococcal diseases and for their striking epidemiological variation. Recent studies of the genetic control of the expression of the virulence factors of group A streptococci (GAS) are beginning to illuminate such variation. Although still obscure, the pathogenesis of acute rheumatic fever (RF) requires primary infection of the throat by highly virulent GAS strains. Those that have clearly caused RF contain large hyaluronate capsules and extended M-protein molecules. The M molecule contains some epitopes cross-reactive with host tissues, and also has superantigenic properties like the secreted GAS erythrogenic toxins. In settings where ARF has become rare, GAS pharyngitis continues to be quite common but is most often caused by relatively attenuated strains. These, however, may colonize the throat avidly, and often stubbornly. GAS "skin strains" that cause pyoderma (impetigo) are molecularly distinct from "throat strains". Although they may secondarily colonize and infect the throat, the pyoderma strains are generally less virulent and are not rheumatogenic. Some skin strains, however, may cause acute glomerulonephritis. The diagnosis, treatment and prevention of GAS pharyngitis is reviewed in relation to the varying prevalence of RF in different geographical and social settings.
...
PMID:Current issues in the prevention of rheumatic fever. 1241 Jan 70

The human bacterial pathogen group A Streptococcus (GAS) causes many different diseases including pharyngitis, tonsillitis, impetigo, scarlet fever, streptococcal toxic shock syndrome, necrotizing fasciitis and myositis, and the post-infection sequelae glomerulonephritis and rheumatic fever. The frequency and severity of GAS infections increased in the 1980s and 1990s, but the cause of this increase is unknown. Recently, genome sequencing of serotype M1, M3 and M18 strains revealed many new proven or putative virulence factors that are encoded by phages or phage-like elements. Importantly, these genetic elements account for an unexpectedly large proportion of the difference in gene content between the three strains. These new genome-sequencing studies have provided evidence that temporally and geographically distinct epidemics, and the complex array of GAS clinical presentations, might be related in part to the acquisition or evolution of phage-encoded virulence factors. We anticipate that new phage-encoded virulence factors will be identified by sequencing the genomes of additional GAS strains, including organisms non-randomly associated with particular clinical syndromes.
...
PMID:The fundamental contribution of phages to GAS evolution, genome diversification and strain emergence. 1241 16

Research on Group A streptococci (GAS) before 1950 paved the way for successful clinical trials to prevent acute rheumatic fever (ARF) by treating the prior streptococcal infection with penicillin. Prevention of ARF has led to almost complete disappearance of rheumatic heart disease in the industrialized world, but has yet to be accomplished in developing countries, where most of the world's populations reside. Twenty years of research beginning in 1918 by Lancefield and others delineated the modern classification of haemolytic streptococci and led to the recognition that only Group A is responsible for the pharyngitis that causes ARF. M-protein, identified as a major virulence factor, is a powerful inhibitor of phagocytosis, and antibodies to it promote type-specific phagocytosis and therefore type-specific immunity. Other virulent properties of GAS include a bulky capsule, as well as extracellular toxins such as streptolysins S and O and streptococcal proteinase. McCarty and others pursued the cell biology of GAS and identified the cellular localization of various antigenic components. The discovery of purified M-protein as a helical coiled-coiled fibrillar protein has sparked development of M-protein vaccine. US, UK, and Trinidad scientists described differences between streptococcal infections of the throat and skin and noted particularly that many of the GAS M-types that cause impetigo are less likely to cause pharyngitis. GAS impetigo may cause acute glomerulonephritis, but such infections do not result in ARF. The changing manifestations of disease over time and the evolution of microbes are common themes in medicine today. These themes are relevant to GAS pharyngitis and ARF, especially the decline in the incidence of severe ARF and the decrease in severity of GAS pharyngitis. Research on GAS bacteriophages led to the discovery of a relationship between lysogenic GAS and production of erythrogenic toxin and has broadened approaches to the molecular epidemiology of GAS virulence. The 21st century begins with determination of the complete genome sequence of M-1, M-18, and M-3 strains of GAS. These studies provide evidence for phage-encoded toxins, high-virulence phenotypes, and clone emergence. This research will reveal genetic processes at the molecular level that control the emergence and decline of streptococcal diseases in different places and times and the shifting patterns in clinical manifestations.
...
PMID:A half-century of streptococcal research: then & now. 1244 Jan 94

Primary infection by group A streptococci (GAS) takes place at either the throat or skin of the human host, often leading to pharyngitis or impetigo, respectively. Many GAS strains differ in their preference for throat and skin tissue sites. Previous epidemiological findings show that many of the strains displaying strong tropism for the skin have a high-affinity binding site for plasminogen, located within M protein (PAM), a prominent surface fibril. Plasminogen bound by PAM interacts with streptokinase, a plasminogen activator secreted by GAS, to yield bacterial-bound plasmin activity. In this study, PAM and streptokinase were tested for their roles in infection using an experimental model that closely mimics human impetigo. Inactivation of genes encoding either PAM or streptokinase led to a partial, but significant, loss of virulence in vivo, as measured by net growth of the bacteria and pathological alterations. The relative loss in virulence in vivo was greater for the streptokinase mutant than for the PAM mutant. However, the PAM mutant, but not the streptokinase mutant, displayed a partial loss in resistance to phagocytosis in vitro. The combined experimental and epidemiological data provide evidence that PAM and streptokinase play a key role in mediating skin-specific infection by GAS. In addition, secreted cysteine proteinase activity due to SpeB leads to degradation of streptokinase in stationary phase broth cultures. Since SpeB is also a determinant of tissue-specific GAS infection at the skin, direct interactions between these two proteolytic pathways may constitute an important pathogenic mechanism. An integrated model for superficial infection at the skin is presented.
...
PMID:Roles of the plasminogen activator streptokinase and the plasminogen-associated M protein in an experimental model for streptococcal impetigo. 1248 Aug 97

<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>