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51.
Randall J. Olsen Izabela Sitkiewicz Ara A. Ayeras Vedia E. Gonulal Concepcion Cantu Stephen B. Beres Nicole M. Green Benfang Lei Tammy Humbird Jamieson Greaver Ellen Chang Willie P. Ragasa Charles A. Montgomery Joiner Cartwright Jr Allison McGeer Donald E. Low Adeline R. Whitney Philip T. Cagle Terry L. Blasdel Frank R. DeLeo James M. Musser 《Proceedings of the National Academy of Sciences of the United States of America》2010,107(2):888-893
Single-nucleotide changes are the most common cause of natural genetic variation among members of the same species, but there is remarkably little information bearing on how they alter bacterial virulence. We recently discovered a single-nucleotide mutation in the group A Streptococcus genome that is epidemiologically associated with decreased human necrotizing fasciitis (“flesh-eating disease”). Working from this clinical observation, we find that wild-type mtsR function is required for group A Streptococcus to cause necrotizing fasciitis in mice and nonhuman primates. Expression microarray analysis revealed that mtsR inactivation results in overexpression of PrsA, a chaperonin involved in posttranslational maturation of SpeB, an extracellular cysteine protease. Isogenic mutant strains that overexpress prsA or lack speB had decreased secreted protease activity in vivo and recapitulated the necrotizing fasciitis-negative phenotype of the ΔmtsR mutant strain in mice and monkeys. mtsR inactivation results in increased PrsA expression, which in turn causes decreased SpeB secreted protease activity and reduced necrotizing fasciitis capacity. Thus, a naturally occurring single-nucleotide mutation dramatically alters virulence by dysregulating a multiple gene virulence axis. Our discovery has broad implications for the confluence of population genomics and molecular pathogenesis research. 相似文献
52.
Francesca Menconi Roman Osman Maria C. Monti David A. Greenberg Erlinda S. Concepcion Yaron Tomer 《Proceedings of the National Academy of Sciences of the United States of America》2010,107(39):16899-16903
There is strong genetic association between type 1A diabetes (T1D) and autoimmune thyroid disease (AITD). T1D and AITD frequently occur together in the same individual, a condition classified as a variant of the autoimmune polyglandular syndrome type 3 (APS3). Because T1D and AITD are individually strongly associated with different HLA class II sequences, we asked which HLA class II pocket sequence and structure confer joint susceptibility to both T1D and AITD in the same individual (APS3v). We sequenced the HLA-DR gene in 105 APS3v patients and 153 controls, and identified a pocket amino acid signature, DRβ-Tyr-26, DRβ-Leu-67, DRβ-Lys-71, and DRβ-Arg-74, that was strongly associated with APS3v (P = 5.4 × 10−14, odds ratio = 8.38). Logistic regression analysis demonstrated that DRβ-Leu-67 (P = 9.4 × 10−13) and DRβ-Arg-74 (P = 1.21 × 10−13) gave strong independent effects on disease susceptibility. Structural modeling studies demonstrated that pocket 4 was critical for the development of T1D+AITD; all disease-associated amino acids were linked to areas of the pocket that interact directly with the peptide and, therefore, influence peptide binding. The disease-susceptible HLA-DR pocket was more positively charged (Lys-71, Arg-74) compared with the protective pocket (Ala-71, Gln-74). We conclude that a specific pocket amino acid signature confers joint susceptibility to T1D+AITD in the same individual by causing significant structural changes in the MHC II peptide binding pocket and influencing peptide binding and presentation. Moreover, Arg-74 is a major amino acid position for the development of several autoimmune diseases. These findings suggest that blocking the critical Arg-74 pocket might offer a method for treating certain autoimmune conditions. 相似文献
53.
Fowke JH Motley SS Cookson MS Concepcion R Chang SS Wills ML Smith JA 《Prostate cancer and prostatic diseases》2007,10(2):137-142
Increasing prostate volume contributes to urinary tract symptoms and may obscure prostate cancer detection. We investigated the association between obesity and prostate volume, prostate-specific antigen (PSA) and PSA density among 753 men referred for prostate biopsy. Among men with a negative biopsy, prostate volume significantly increased approximately 25% from the lowest to highest body mass index (BMI), waist or hip circumference or height categories. PSA was 0.7 ng/ml lower with a high waist-to-hip ratio. These associations were less consistent among subjects diagnosed with high-grade prostatic intraepithelial neoplasia or cancer. Our data suggest that obesity and height are independently associated with prostate volume.. 相似文献
54.
S. Wesley Long Dawn Williams Chandni Valson Concepcion C. Cantu Patricia Cernoch James M. Musser Randall J. Olsen 《Journal of clinical microbiology》2013,51(4):1272-1277
Next-generation sequencing technology is available to many clinical laboratories; however, it is not yet widely used in routine microbiology practice. To demonstrate the feasibility of using whole-genome sequencing in a routine clinical microbiology workflow, we sequenced the genome of every organism isolated in our laboratory for 1 day. 相似文献
55.
Lulette Tricia C. Bravo Marion J. Tuohy Concepcion Ang Raul V. Destura Myrna Mendoza Gary W. Procop Steven M. Gordon Geraldine S. Hall Nabin K. Shrestha 《Journal of clinical microbiology》2009,47(12):3985-3990
After isoniazid and rifampin (rifampicin), the next pivotal drug class in Mycobacterium tuberculosis treatment is the fluoroquinolone class. Mutations in resistance-determining regions (RDR) of the rpoB, katG, and gyrA genes occur with frequencies of 97%, 50%, and 85% among M. tuberculosis isolates resistant to rifampin, isoniazid, and fluoroquinolones, respectively. Sequences are highly conserved, and certain mutations correlate well with phenotypic resistance. We developed a pyrosequencing assay to determine M. tuberculosis genotypic resistance to rifampin, isoniazid, and fluoroquinolones. We characterized 102 M. tuberculosis clinical isolates from the Philippines for susceptibility to rifampin, isoniazid, and ofloxacin by using the conventional submerged-disk proportion method and validated our pyrosequencing assay using these isolates. DNA was extracted and amplified by using PCR primers directed toward the RDR of the rpoB, katG, and gyrA genes, and pyrosequencing was performed on the extracts. The M. tuberculosis H37Rv strain (ATCC 25618) was used as the reference strain. The sensitivities and specificities of pyrosequencing were 96.7% and 97.3%, 63.8% and 100%, and 70.0% and 100% for the detection of resistance to rifampin, isoniazid, and ofloxacin, respectively. Pyrosequencing is thus a rapid and accurate method for detecting M. tuberculosis resistance to these three drugs.Rifampin (rifampicin), isoniazid, and the fluoroquinolones are the most important initial drug markers for extensively drug-resistant Mycobacterium tuberculosis strains, defined as multidrug-resistant (MDR) isolates (resistant to both isoniazid and rifampin) with additional resistance to a fluoroquinolone and to one of the injectable drugs (2). The fluoroquinolones have become an essential part of treatment regimens for MDR tuberculosis (7, 25). Due to their potency and safety, the new-generation fluoroquinolones are now even being evaluated as first-line medications for tuberculosis (3, 13, 20). Wang et al. further suggested that routine fluoroquinolone resistance testing may have a clinical impact by showing a significant correlation between development of fluoroquinolone and first-line M. tuberculosis drug resistance in an area in which resistant strains are highly endemic (28).The spontaneous acquisition of DNA sequence mutations is the primary genetic basis for the development of M. tuberculosis drug resistance (14). Since sequences are highly conserved, certain mutations correlate well with phenotypic resistance, and a limited number of mutations account for the majority of phenotypic resistance to the important antituberculosis medications, various methods of genotypic testing have successfully been used for the rapid detection of M. tuberculosis resistance (16, 22). The sites that most frequently contain mutations associated with phenotypic resistance, called resistance-determining regions (RDR), differ depending on the drug tested. Among rifampin-resistant isolates worldwide, 95 to 97% harbor mutations in the rifampin RDR, an 81-bp target encompassing codons 507 to 533 of the 3,519-bp rpoB gene (17). Isoniazid resistance has a more complex mechanism, involving several gene targets, the most important of which is codon 315 of the 2,223-bp katG gene, in which mutations are found in up to 50% of resistant isolates (18). Likewise, M. tuberculosis has a quinolone RDR which spans codons 88 to 94 of the 2,517-bp gyrA gene. Mutations in this region, particularly in codon 88, 90, 91, or 94, correlate with high-level resistance and are seen in 42 to 85% of resistant clinical isolates (6).Pyrosequencing, a method of DNA sequencing by synthesis, has been applied to the rapid detection of M. tuberculosis resistance to rifampin, isoniazid, and ethambutol (9, 29). Its main advantage is a much shorter turnaround time than that of conventional drug susceptibility testing, the latter taking 2 to 4 weeks from the time an isolate is obtained in pure culture.After isoniazid and rifampin, the next pivotal drug class in M. tuberculosis treatment is the fluoroquinolone class, as previously discussed (3, 7, 13, 20, 25, 28). Given that most resistance to the latter is determined by mutations that are generally limited to the quinolone RDR of the gyrA gene, it should be feasible and clinically more relevant to develop an assay for rapid resistance testing which includes fluoroquinolone resistance in addition to rifampin and isoniazid resistance.We developed a pyrosequencing assay to determine M. tuberculosis genotypic resistance to rifampin, isoniazid, and fluoroquinolones, which we validated against the conventional submerged-disk proportion method. We also improved on the previously reported pyrosequencing assay by reducing the number of primers required to sequence for rifampin resistance (9). 相似文献
56.
Tarek Alhamad Michelle Lubetzky Krista L. Lentine Emmanuel Edusei Ronald Parsons Martha Pavlakis Kenneth J. Woodside Deborah Adey Christopher D. Blosser Beatrice P. Concepcion John Friedewald Alexander Wiseman Neeraj Singh Su-Hsin Chang Gaurav Gupta Miklos Z. Molnar Arpita Basu Edward Kraus Song Ong Arman Faravardeh Ekamol Tantisattamo Leonardo Riella Jim Rice Darshana M. Dadhania 《American journal of transplantation》2021,21(9):3034-3042
Kidney allograft failure and return to dialysis carry a high risk of morbidity. A practice survey was developed by the AST Kidney Pancreas Community of Practice workgroup and distributed electronically to the AST members. There were 104 respondents who represented 92 kidney transplant centers. Most survey respondents were transplant nephrologists at academic centers. The most common approach to immunosuppression management was to withdraw the antimetabolite first (73%), while only 12% responded they would withdraw calcineurin inhibitor (CNI) first. More than 60% reported that the availability of a living donor is the most important factor in their decision to taper immunosuppression, followed by risk of infection, risk of sensitization, frailty, and side effects of medications. More than half of respondents reported that embolization was either not available or offered to less than 10% as an option for surgical intervention. Majority reported that ≤50% of failed allograft patients were re-listed before dialysis, and less than a quarter of transplant nephrologists performed frequent visits with their patients with failed kidney allograft after they return to dialysis. This survey demonstrates heterogeneity in the care of patients with a failing allograft and the need for more evidence to guide improvements in clinical practice related to transition of care. 相似文献
57.
58.
Hernandez D.; Concepcion M. T.; Lorenzo V.; Martinez M. E.; Rodriguez A.; De Bonis E.; Gonzalez-Posada J. M.; Felsenfeld A. J.; Rodriguez M.; Torres A. 《Nephrology, dialysis, transplantation》1994,9(5):517-523
Aplastic bone disease (ABD) is a common form of renal osteodystrophyand is characterized by a defect in bone matrix formation andmineralization without an increase in osteoid thickness. Theprevalence and pathogenesis of ABD in predialysis patients islargely unknown. We prospectively studied 92 unselected predialysispatients with a creatinine clearance <10 ml/min/1.73 m2 anda mean age of 45±2 years (61 M, 31 F). None of the studypatients had received any form of vitamin D therapy, and CaCO3was the primary phosphate binder. Aplastic bone disease wasobserved in 30 (32%) patients. Stainable bone aluminium surfacewas <3% in all ABD patients. Patients with ABD were older(52±3 versus 42±2 years; P<0.01) and had reducedserum intact PTH compared to non-ABD patients (199±25versus 561 ±87 pg/ml; P<0.001). Patients with diabetesmellitus showed lower PTH values (179±31 versus 432±62pg/ml; P<0.001) and a lower incidence of advanced by chperparathyroidismbone lesions (16% versus 46%; P<0.05) than non-diabetic patients.However, diabetes was not clearly associated with low bone turnoverdisease (56% in diabetics versus 41% in non-diabetics; P=0.1). A second bone biopsy was obtained in eleven ABD patients aftera period of 16.6±2.2 months on maintenance dialysis witha dialysate calcium of 7 mg/dl. Bone histology was unchangedin 10 patients, and one evolved to mild hyperparathyroidism.Trabecular bone volume did not change (22.7± 1.7 versus20.7±1.7%), and the stainable bone aluminium surfaceremained <3%. In summary, ABD not associated with positive histological stainingfor aluminium is a common finding in asymptomatic end-stagerenal failure patients in the Canary Islands. Older age andrelatively low PTH values are associated with this form of bonedisease. After a period of 1236 months of dialysis, progressiveosteopenia and other clinical problems do not occur. 相似文献
59.
Jacobson EM Huber AK Akeno N Sivak M Li CW Concepcion E Ho K Tomer Y 《Genes and immunity》2007,8(3):205-214
Previously, we and others have demonstrated the association of a C/T single nucleotide polymorphism (SNP), in the Kozak sequence of CD40, with Graves' disease (GD). Here, using an expanded data set of patients, we confirm the association of the CD40 SNP with GD (n=210, P=0.002, odds ratio (OR)=1.8). Subset analysis of patients with persistently elevated thyroid peroxidase (TPO) and/or thyroglobulin (Tg) antibodies (Abs), (TPO/Tg Abs), after treatment (n=126), revealed a significantly stronger association of the SNP with disease (P=5.2 x 10(-5), OR=2.5) than in GD patients who were thyroid antibody-negative. However, the CD40 SNP was not associated with TPO/Tg Abs in healthy individuals. Next, we tested the CD40 SNP for association with Myasthenia Gravis (MG), which, like GD is an antibody-mediated autoimmune condition. Analysis of 81 MG patients found no association of the SNP with disease. Functional studies revealed significant expression of CD40 mRNA and protein in the thyroid (target tissue in GD) but not in skeletal muscle (target tissue in MG). Combined, our genetic and tissue expression data suggest that the CD40 Kozak SNP is specific for thyroid antibody production involved in the etiology of GD. Increased thyroidal expression of CD40 driven by the SNP may contribute to this disease specificity. 相似文献
60.