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151.
Christophe Rusniok Elisabeth Couvé Violette Da Cunha Rachida El Gana Nora Zidane Christiane Bouchier Claire Poyart Roland Leclercq Patrick Trieu-Cuot Philippe Glaser 《Journal of bacteriology》2010,192(8):2266-2276
Streptococcus gallolyticus (formerly known as Streptococcus bovis biotype I) is an increasing cause of endocarditis among streptococci and frequently associated with colon cancer. S. gallolyticus is part of the rumen flora but also a cause of disease in ruminants as well as in birds. Here we report the complete nucleotide sequence of strain UCN34, responsible for endocarditis in a patient also suffering from colon cancer. Analysis of the 2,239 proteins encoded by its 2,350-kb-long genome revealed unique features among streptococci, probably related to its adaptation to the rumen environment and its capacity to cause endocarditis. S. gallolyticus has the capacity to use a broad range of carbohydrates of plant origin, in particular to degrade polysaccharides derived from the plant cell wall. Its genome encodes a large repertoire of transporters and catalytic activities, like tannase, phenolic compounds decarboxylase, and bile salt hydrolase, that should contribute to the detoxification of the gut environment. Furthermore, S. gallolyticus synthesizes all 20 amino acids and more vitamins than any other sequenced Streptococcus species. Many of the genes encoding these specific functions were likely acquired by lateral gene transfer from other bacterial species present in the rumen. The surface properties of strain UCN34 may also contribute to its virulence. A polysaccharide capsule might be implicated in resistance to innate immunity defenses, and glucan mucopolysaccharides, three types of pili, and collagen binding proteins may play a role in adhesion to tissues in the course of endocarditis.Several studies have reported that the proportion of infective endocarditis due to Streptococcus gallolyticus has increased during the last decades, concomitantly with a decrease of cases due to oral streptococci (35). S. gallolyticus is now becoming the first cause of infectious endocarditis among streptococci in Europe (16). Furthermore, S. gallolyticus endocarditis is associated with rural residency, suggesting transmission from animals (29). However, the reasons for the emergence of this pathogen remain poorly understood. S. gallolyticus belongs to the Streptococcus bovis group known for more than 60 years to cause endocarditis (45). Recently, the former species S. bovis has been divided into four major species (50, 53). S. gallolyticus corresponds to S. bovis biotype I (mannitol fermentation positive), the closely related species S. pasteurianus to biotype II/2 (mannitol negative and β-glucuronidase positive), and the more distantly related species S. infantarius to biotype II/1 (mannitol negative and β-glucuronidase negative). S. macedonicus, the fourth species, commonly found in cheese, is nonpathogenic and also considered a S. gallolyticus subspecies (53, 62). A majority of endocarditis cases was due, among the formerly S. bovis group, to S. gallolyticus strains (4).Multiple studies have shown that endocarditis due to S. gallolyticus as well as positive blood culture for this species is often associated with gastrointestinal malignancy (4, 6). This association has led to a strong indication for gastrointestinal investigation and endoscopic follow-up in the case of S. gallolyticus infections (66). The association of S. gallolyticus infection with colon cancer is a major but still unsolved issue. It may be just incidental, as the alteration of the digestive mucosa may favor the translocation of the bacteria into the bloodstream. Alternatively, the tumor may contribute to the proliferation of S. gallolyticus in close proximity to the gut epithelium, increasing its probability of translocating through the gut barrier. It has also been suggested that the bacterium itself contributes to carcinogenesis (60, 69). In addition to human disease, S. gallolyticus may also cause diseases in animals, like septicemia in pigeons (19), outbreaks in broiler flocks (11), or bovine mastitis (28).Independent from its association to disease, S. gallolyticus has been isolated as a tannin-resistant bacterium from the feces of different mammalian herbivores, including the koala (48) or the Japanese large wood mouse (52), and it is also a normal inhabitant of the rumen (39). Its resistance to tannins is linked to its tannase activity, a characteristic which also led this bacterium to be named “gallolyticus” as it is able to decarboxylate gallate, an organic acid derived from tannin degradation. S. gallolyticus is also known to express other degradative functions unique among streptococci, like a bile salt hydrolase or an amylase. These properties allow its multiplication outside the animal host, as S. gallolyticus was isolated from a digester fed with shea cake (derived from the nuts of the African tree Vitellaria paradoxa) rich in tannins and aromatic compounds (12). S. gallolyticus is a commensal of the human intestinal tract but remains a rarely detected (2.5 to 15%) low-abundance species (10, 40). In herbivores, overgrowth of S. bovis may become deleterious. For example, ingestion of large amounts of rapidly fermented cereal grains leads to a destabilization of the rumen flora and to the proliferation of acid-tolerant bacteria, including S. gallolyticus. This is accompanied by the overproduction of mucopolysaccharides that stabilize the foam, resulting in feedlot bloat, a significant cause of economical loss (14).Virulence and colonization factors of S. gallolyticus in humans are largely unknown. Studies of the bird host have shown that this Streptococcus species expresses a capsular polysaccharide, and five different serotypes have been described (19). In addition, electron microscopy studies have revealed the presence of fimbria-like structures on the surface of S. gallolyticus. It was hypothesized that capsules and/or fimbriae are involved in virulence (63). S. gallolyticus isolates responsible for endocarditis exhibited heterogeneous patterns of adherence to extracellular matrix (ECM) proteins, which suggests that they produce different surface components (55). Recently, a collagen binding adhesin together with 10 putative ECM binding proteins were identified in the draft genome sequence of a human isolate of S. gallolyticus (54).Here we describe the sequence and analysis of the genome of S. gallolyticus strain UCN34 isolated from a human case of endocarditis associated with colon cancer. Analysis of the predicted proteins revealed unique metabolic and cell surface features among streptococci, which contribute to its adaptation to the rumen and to its ability to cause endocarditis. We showed by comparative genomics that many of the corresponding genes were probably acquired by lateral gene transfer (LGT) from other Firmicutes of the gut microbiota. 相似文献
152.
153.
M line-deficient titin causes cardiac lethality through impaired maturation of the sarcomere
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Titin, the largest protein known to date, has been linked to sarcomere assembly and function through its elastic adaptor and signaling domains. Titin's M-line region contains a unique kinase domain that has been proposed to regulate sarcomere assembly via its substrate titin cap (T-cap). In this study, we use a titin M line-deficient mouse to show that the initial assembly of the sarcomere does not depend on titin's M-line region or the phosphorylation of T-cap by the titin kinase. Rather, titin's M-line region is required to form a continuous titin filament and to provide mechanical stability of the embryonic sarcomere. Even without titin integrating into the M band, sarcomeres show proper spacing and alignment of Z discs and M bands but fail to grow laterally and ultimately disassemble. The comparison of disassembly in the developing and mature knockout sarcomere suggests diverse functions for titin's M line in embryonic development and the adult heart that not only involve the differential expression of titin isoforms but also of titin-binding proteins. 相似文献
154.
UDP-N-acetyl-D-galactosamine: polypeptide N-acetylgalactosaminyltransferase-6 as a new immunohistochemical breast cancer marker. 总被引:1,自引:0,他引:1
Nora Berois Daniel Mazal Luis Ubillos Felipe Trajtenberg André Nicolas Xavier Sastre-Garau Henri Magdelenat Eduardo Osinaga 《The journal of histochemistry and cytochemistry》2006,54(3):317-328
Mucin O-glycosylation is characterized in cancer by aberrant expression of immature carbohydrate structures (Tn, T, and sialyl-Tn antigens). The UDP-N-acetyl-D-galactosamine: polypeptide N-acetylgalactosaminyltransferases (ppGalNAc-T) family enzymes regulate the initial steps of mucin O-glycosylation and could be responsible for the altered glycosylation observed in cancer. Considering that we recently found the ppGalNAc-T6 mRNA expressed in breast carcinomas, we produced a highly specific monoclonal antibody (MAb T6.3) to assess the expression profile of ppGalNAc-T6 protein product in breast tissues. The expression of ppGalNAc-T6 by breast carcinoma cells was confirmed on MCF-7 and T47D cell lines. In formalin-fixed tissues, ppGalNAc-T6 expression was observed in 60/74 (81%) breast cancers, 21/23 (91.3%) adjacent ductal carcinoma in situ (DCIS), 4/20 benign breast lesions (2/2 sclerosing adenosis and 2/13 fibroadenoma), and in 0/5 normal breast samples. We observed a statistically significant association of ppGalNAc-T6 expression with T1 tumor stage. This fact, as well as the observation that ppGalNAc-T6 was strongly expressed in sclerosing adenosis and in most DCIS, suggests that ppGalNAc-T6 expression could be an early event during human breast carcinogenesis. Considering that an abnormal O-glycosylation greatly contributes to the phenotype and biology of breast cancer cells, ppGalNAc-T6 expression could provide new insights about breast cancer glycobiology. 相似文献
155.
156.
CbgA, a protein involved in cortex formation and stress resistance in Myxococcus xanthus spores
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Tengra FK Dahl JL Dutton D Caberoy NB Coyne L Garza AG 《Journal of bacteriology》2006,188(23):8299-8302
CbgA plays a role in cortex formation and the acquisition of a subset of stress resistance properties in Myxococcus xanthus spores. The cbgA mutant produces spores with thin or no cortex layers, and these spores are more sensitive to heat and sodium dodecyl sulfate than their wild-type counterparts. 相似文献
157.
Vaspin gene expression in human adipose tissue: association with obesity and type 2 diabetes 总被引:1,自引:0,他引:1
Klöting N Berndt J Kralisch S Kovacs P Fasshauer M Schön MR Stumvoll M Blüher M 《Biochemical and biophysical research communications》2006,339(1):430-436
Recently, vaspin was identified as an adipokine with insulin-sensitizing effects, which is predominantly secreted from visceral adipose tissue in a rat model of type 2 diabetes. In this study, we examined whether vaspin mRNA expression is a marker of visceral obesity and correlates with anthropometric and metabolic parameters in paired samples of visceral and subcutaneous adipose tissue from 196 subjects with a wide range of obesity, body fat distribution, insulin sensitivity, and glucose tolerance. Vaspin mRNA expression was only detectable in 23% of the visceral and in 15% of the subcutaneous (SC) adipose tissue samples. Vaspin mRNA expression was not detectable in lean subjects (BMI<25) and was more frequently detected in patients with type 2 diabetes. No significant correlations were found between visceral vaspin gene expression and visceral fat area or SC vaspin expression. However, visceral vaspin expression significantly correlates with BMI, % body fat, and 2 h OGTT plasma glucose. Subcutaneous vaspin mRNA expression is significantly correlated with WHR, fasting plasma insulin concentration, and glucose infusion rate during steady state of an euglycemic-hyperinsulinemic clamp. Multivariate linear regression analysis revealed % body fat as strongest predictor of visceral vaspin and insulin sensitivity as strongest determinant of SC vaspin mRNA expression. In conclusion, our data indicate that induction of human vaspin mRNA expression in adipose tissue is regulated in a fat depot-specific manner and could be associated with parameters of obesity, insulin resistance, and glucose metabolism. 相似文献
158.
Divergence with gene flow in Anopheles funestus from the Sudan Savanna of Burkina Faso, West Africa
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Michel AP Grushko O Guelbeogo WM Lobo NF Sagnon N Costantini C Besansky NJ 《Genetics》2006,173(3):1389-1395
Anopheles funestus is a major vector of malaria across Africa. Understanding its complex and nonequilibrium population genetic structure is an important challenge that must be overcome before vector populations can be successfully perturbed for malaria control. Here we examine the role of chromosomal inversions in structuring genetic variation and facilitating divergence in Burkina Faso, West Africa, where two incipient species (chromosomal forms) of A. funestus, defined principally by rearrangements of chromosome 3R, have been hypothesized. Sampling across an approximately 300-km east-west transect largely contained within the Sudan-Savanna ecoclimatic zone, we analyzed chromosomal inversions, 16 microsatellite loci distributed genomewide, and 834 bp of the mtDNA ND5 gene. Both molecular markers revealed high genetic diversity, nearly all of which was accounted for by within-population differences among individuals, owing to recent population expansion. Across the study area there was no correlation between genetic and geographic distance. Significant genetic differentiation found between chromosomal forms on the basis of microsatellites was not genomewide but could be explained by chromosome 3R alone on the basis of loci inside and near inversions. These data are not compatible with complete reproductive isolation but are consistent with differential introgression and sympatric divergence between the chromosomal forms, facilitated by chromosome 3R inversions. 相似文献
159.
We recently reported that a DNA catalyst (deoxyribozyme) can site-specifically hydrolyze DNA on the minutes time scale. Sequence specificity is provided by Watson-Crick base pairing between the DNA substrate and two oligonucleotide binding arms that flank the 40-nt catalytic region of the deoxyribozyme. The DNA catalyst from our recent in vitro selection effort, 10MD5, can cleave a single-stranded DNA substrate sequence with the aid of Zn(2+) and Mn(2+) cofactors, as long as the substrate cleavage site encompasses the four particular nucleotides ATG^T. Thus, 10MD5 can cleave only 1 out of every 256 (4(4)) arbitrarily chosen DNA sites, which is rather poor substrate sequence tolerance. In this study, we demonstrated substantially broader generality of deoxyribozymes for site-specific DNA hydrolysis. New selection experiments were performed, revealing the optimality of presenting only one or two unpaired DNA substrate nucleotides to the N(40) DNA catalytic region. Comprehensive selections were then performed, including in some cases a key selection pressure to cleave the substrate at a predetermined site. These efforts led to identification of numerous new DNA-hydrolyzing deoxyribozymes, many of which require merely two particular nucleotide identities at the cleavage site (e.g. T^G), while retaining Watson-Crick sequence generality beyond those nucleotides along with useful cleavage rates. These findings establish experimentally that broadly sequence-tolerant and site-specific deoxyribozymes are readily identified for hydrolysis of single-stranded DNA. 相似文献
160.
Al-Sukhni W Joe S Lionel AC Zwingerman N Zogopoulos G Marshall CR Borgida A Holter S Gropper A Moore S Bondy M Klein AP Petersen GM Rabe KG Schwartz AG Syngal S Scherer SW Gallinger S 《Human genetics》2012,131(9):1481-1494
Adenocarcinoma of the pancreas is a significant cause of cancer mortality, and up to 10?% of cases appear to be familial. Heritable genomic copy number variants (CNVs) can modulate gene expression and predispose to disease. Here, we identify candidate predisposition genes for familial pancreatic cancer (FPC) by analyzing germline losses or gains present in one or more high-risk patients and absent in a large control group. A total of 120 FPC cases and 1,194 controls were genotyped on the Affymetrix 500K array, and 36 cases and 2,357 controls were genotyped on the Affymetrix 6.0 array. Detection of CNVs was performed by multiple computational algorithms and partially validated by quantitative PCR. We found no significant difference in the germline CNV profiles of cases and controls. A total of 93 non-redundant FPC-specific CNVs (53 losses and 40 gains) were identified in 50 cases, each CNV present in a single individual. FPC-specific CNVs overlapped the coding region of 88 RefSeq genes. Several of these genes have been reported to be differentially expressed and/or affected by copy number alterations in pancreatic adenocarcinoma. Further investigation in high-risk subjects may elucidate the role of one or more of these genes in genetic predisposition to pancreatic cancer. 相似文献