Your search keyword '"Urinary Tract Infections metabolism"' showing total 409 results

1. Insulin receptor orchestrates kidney antibacterial defenses.

Author

Schwartz L, Simoni A, Yan P, Salamon K, Turkoglu A, Vasquez Martinez G, Zepeda-Orozco D, Eichler T, Wang X, and Spencer JD

Subjects

Animals, Humans, Mice, Escherichia coli Infections immunology, Escherichia coli Infections metabolism, Escherichia coli Infections microbiology, Immunity, Innate, Kidney metabolism, Kidney Tubules, Collecting metabolism, Mice, Inbred C57BL, Signal Transduction, Mice, Knockout, Receptor, Insulin metabolism, Urinary Tract Infections microbiology, Urinary Tract Infections metabolism, Urinary Tract Infections immunology, Uropathogenic Escherichia coli immunology

Abstract

Urinary tract infection (UTI) commonly afflicts people with diabetes. This augmented infection risk is partly due to deregulated insulin receptor (IR) signaling in the kidney collecting duct. The collecting duct is composed of intercalated cells (ICs) and principal cells (PCs). Evidence suggests that ICs contribute to UTI defenses. Here, we interrogate how IR deletion in ICs impacts antibacterial defenses against uropathogenic Escherichia coli. We also explore how IR deletion affects immune responses in neighboring PCs with intact IR expression. To accomplish this objective, we profile the transcriptomes of IC and PC populations enriched from kidneys of wild-type and IC-specific IR knock-out mice that have increased UTI susceptibility. Transcriptomic analysis demonstrates that IR deletion suppresses IC-integrated stress responses and innate immune defenses. To define how IR shapes these immune defenses, we employ murine and human kidney cultures. When challenged with bacteria, murine ICs and human kidney cells with deregulated IR signaling cannot engage central components of the integrated stress response-including activating transcriptional factor 4 (ATF4). Silencing ATF4 impairs NFkB activation and promotes infection. In turn, NFkB silencing augments infection and suppresses antimicrobial peptide expression. In diabetic mice and people with diabetes, collecting duct cells show reduced IR expression, impaired integrated stress response engagement, and compromised immunity. Collectively, these translational data illustrate how IR orchestrates collecting duct antibacterial responses and the communication between ICs and PCs., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published

2024

2. Insulin receptor signaling engages bladder urothelial defenses that limit urinary tract infection.

Author

Schwartz L, Salamon K, Simoni A, Eichler T, Jackson AR, Murtha M, Becknell B, Kauffman A, Linn-Peirano S, Holdsworth N, Tyagi V, Tang H, Rust S, Cortado H, Zabbarova I, Kanai A, and Spencer JD

Subjects

Animals, Humans, Mice, Uropathogenic Escherichia coli pathogenicity, Mice, Inbred C57BL, NF-kappa B metabolism, Female, Escherichia coli Infections metabolism, Escherichia coli Infections microbiology, Insulin metabolism, Diabetes Mellitus, Experimental metabolism, Diabetes Mellitus, Experimental pathology, Male, Receptor, Insulin metabolism, Urinary Tract Infections microbiology, Urinary Tract Infections metabolism, Urinary Tract Infections pathology, Signal Transduction, Urothelium metabolism, Urothelium pathology, Urothelium microbiology, Urinary Bladder microbiology, Urinary Bladder pathology, Urinary Bladder metabolism

Abstract

Urinary tract infections (UTIs) commonly afflict people with diabetes. To better understand the mechanisms that predispose diabetics to UTIs, we employ diabetic mouse models and altered insulin signaling to show that insulin receptor (IR) shapes UTI defenses. Our findings are validated in human biosamples. We report that diabetic mice have suppressed IR expression and are more susceptible to UTIs caused by uropathogenic Escherichia coli (UPEC). Systemic IR inhibition increases UPEC susceptibility, while IR activation reduces UTIs. Localized IR deletion in bladder urothelium promotes UTI by increasing barrier permeability and suppressing antimicrobial peptides. Mechanistically, IR deletion reduces nuclear factor κB (NF-κB)-dependent programming that co-regulates urothelial tight junction integrity and antimicrobial peptides. Exfoliated urothelial cells or urine samples from diabetic youths show suppressed expression of IR, barrier genes, and antimicrobial peptides. These observations demonstrate that urothelial insulin signaling has a role in UTI prevention and link IR to urothelial barrier maintenance and antimicrobial peptide expression., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2024 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2024

3. DEFA1A3 DNA gene-dosage regulates the kidney innate immune response during upper urinary tract infection.

Author

Canas JJ, Arregui SW, Zhang S, Knox T, Calvert C, Saxena V, Schwaderer AL, and Hains DS

Subjects

Animals, Humans, Mice, DNA, Gene Dosage, Immunity, Innate genetics, Kidney metabolism, Peptides, Cyclic genetics, alpha-Defensins genetics, Urinary Tract Infections genetics, Urinary Tract Infections metabolism

Abstract

Antimicrobial peptides (AMPs) are host defense effectors with potent neutralizing and immunomodulatory functions against invasive pathogens. The AMPs α-Defensin 1-3/ DEFA1A3 participate in innate immune responses and influence patient outcomes in various diseases. DNA copy-number variations in DEFA1A3 have been associated with severity and outcomes in infectious diseases including urinary tract infections (UTIs). Specifically, children with lower DNA copy numbers were more susceptible to UTIs. The mechanism of action by which α-Defensin 1-3/ DEFA1A3 copy-number variations lead to UTI susceptibility remains to be explored. In this study, we use a previously characterized transgenic knock-in of the human DEFA1A3 gene mouse to dissect α-Defensin 1-3 gene dose-dependent antimicrobial and immunomodulatory roles during uropathogenic Escherichia coli (UPEC) UTI. We elucidate the relationship between kidney neutrophil- and collecting duct intercalated cell-derived α-Defensin 1-3/ DEFA1A3 expression and UTI. We further describe cooperative effects between α-Defensin 1-3 and other AMPs that potentiate the neutralizing activity against UPEC. Cumulatively, we demonstrate that DEFA1A3 directly protects against UPEC meanwhile impacting pro-inflammatory innate immune responses in a gene dosage-dependent manner., (© 2024 Canas et al.)

Published

2024

4. Intercalated cell function, kidney innate immunity, and urinary tract infections.

Author

Schwaderer AL, Rajadhyaksha E, Canas J, Saxena V, and Hains DS

Subjects

Child, Mice, Humans, Animals, Escherichia coli, Kidney metabolism, Immunity, Innate, Urinary Tract Infections metabolism, Urinary Tract Infections microbiology, Kidney Tubules, Collecting metabolism, Bacterial Infections metabolism

Abstract

Intercalated cells (ICs) in the kidney collecting duct have a versatile role in acid-base and electrolyte regulation along with the host immune defense. Located in the terminal kidney tubule segment, ICs are among the first kidney cells to encounter bacteria when bacteria ascend from the bladder into the kidney. ICs have developed several mechanisms to combat bacterial infections of the kidneys. For example, ICs produce antimicrobial peptides (AMPs), which have direct bactericidal activity, and in many cases are upregulated in response to infections. Some AMP genes with IC-specific kidney expression are multiallelic, and having more copies of the gene confers increased resistance to bacterial infections of the kidney and urinary tract. Similarly, studies in human children demonstrate that those with history of UTIs are more likely to have single-nucleotide polymorphisms in IC-expressed AMP genes that impair the AMP's bactericidal activity. In murine models, depleted or impaired ICs result in decreased clearance of bacterial load following transurethral challenge with uropathogenic E. coli. A 2021 study demonstrated that ICs even act as phagocytes and acidify bacteria within phagolysosomes. Several immune signaling pathways have been identified in ICs which may represent future therapeutic targets in managing kidney infections or inflammation. This review's objective is to highlight IC structure and function with an emphasis on current knowledge of IC's diverse innate immune capabilities., (© 2024. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2024

5. Induction of human-fetal-membrane remodeling in-vitro by the alpha hemolysin of Escherichia coli.

Author

Pucci Molineris M, Schibert F, Lima M, Accialini P, Cané L, Pelinsky P, Farina M, and Herlax V

Subjects

Pregnancy, Female, Humans, Hemolysin Proteins pharmacology, Hemolysin Proteins metabolism, Extraembryonic Membranes metabolism, Metalloproteases metabolism, Escherichia coli, Urinary Tract Infections metabolism

Abstract

Introduction: Almost 80% of urinary tract infections during pregnancy are caused by uropathogenic strains of Escherichia coli. Alpha-hemolysin, toxin secreted by them, has a fundamental role in this pathology development. Considering that urinary tract infections are related with premature rupture of fetal membranes, we proposed to evaluate the effects that alpha-hemolysin induces on human-fetal-membranes., Methods: Thirteen fetal membranes obtained from elective cesarean sections (>37 weeks) were mounted in a transwell-device generating two independent chambers. To mimic an ascendant-urinary-tract infection, membranes were incubated with different concentrations of pure alpha-hemolysin from the choriodecidual side during 24h. Extensive histological analyses were performed and transepithelial electrical-resistance were determined. Cell viability, metalloproteinase activity and cyclooxygenase-2- gene expression was estimated by lactate-dehydrogenase-release assay, zymography and RT-qPCR, respectively. Finally, four fetal membranes were treated with hemolysin preincubated with polyclonal anti-hemolysin antibodies. Cell viability and metalloproteinase activity were monitored., Results: After 24 h of treatment, fetal membranes evidenced a structural damage and a decrease in membrane resistance that progressed as the concentration of alpha hemolysin increased. While the amniotic-epithelial-layer remained practically unaffected, the chorion cells manifested an increase in vacuolization and necrosis. In addition, the extracellular matrix exhibited collagen-fiber disorganization, a marked decrease in fiber content, and became thicker in presence of the toxin. Cyclooxigenase-2 expression and metalloproteinase activity were also higher in the treated groups than in untreated ones. Finally, a preincubation of hemolysin with specific antibodies prevented the cytotoxicity on the chorion cells and the increase in metalloproteinase activity., Discussion: Hemolysin induces structural and molecular changes associated with the remodeling of human-fetal-membranes in-vitro., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this article., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

6. D-Mannose reduces cellular senescence and NLRP3/GasderminD/IL-1β-driven pyroptotic uroepithelial cell shedding in the murine bladder.

Author

Joshi CS, Salazar AM, Wang C, Ligon MM, Chappidi RR, Fashemi BE, Felder PA, Mora A, Grimm SL, Coarfa C, and Mysorekar IU

Subjects

Mice, Female, Animals, Urinary Bladder metabolism, Urinary Bladder microbiology, Urinary Bladder pathology, Mannose metabolism, Reactive Oxygen Species metabolism, Escherichia coli metabolism, Urothelium metabolism, Urothelium microbiology, Interleukin-1beta, Gasdermins, Cellular Senescence, NLR Family, Pyrin Domain-Containing 3 Protein metabolism, Urinary Tract Infections metabolism, Urinary Tract Infections microbiology, Urinary Tract Infections pathology

Abstract

Aging is a risk factor for disease via increased susceptibility to infection, decreased ability to maintain homeostasis, inefficiency in combating stress, and decreased regenerative capacity. Multiple diseases, including urinary tract infection (UTI), are more prevalent with age; however, the mechanisms underlying the impact of aging on the urinary tract mucosa and the correlation between aging and disease remain poorly understood. Here, we show that, relative to young (8-12 weeks) mice, the urothelium of aged (18-24 months) female mice accumulates large lysosomes with reduced acid phosphatase activity and decreased overall autophagic flux in the aged urothelium, indicative of compromised cellular homeostasis. Aged bladders also exhibit basal accumulation of reactive oxygen species (ROS) and a dampened redox response, implying heightened oxidative stress. Furthermore, we identify a canonical senescence-associated secretory phenotype (SASP) in the aged urothelium, along with continuous NLRP3-inflammasome- and Gasdermin-D-dependent pyroptotic cell death. Consequently, aged mice chronically exfoliate urothelial cells, further exacerbating age-related urothelial dysfunction. Upon infection with uropathogenic E. coli, aged mice harbor increased bacterial reservoirs and are more prone to spontaneous recurrent UTI. Finally, we discover that treatment with D-mannose, a natural bioactive monosaccharide, rescues autophagy flux, reverses the SASP, and mitigates ROS and NLRP3/Gasdermin/interleukin (IL)-1β-driven pyroptotic epithelial cell shedding in aged mice. Collectively, our results demonstrate that normal aging affects bladder physiology, with aging alone increasing baseline cellular stress and susceptibility to infection, and suggest that mannose supplementation could serve as a senotherapeutic to counter age-associated urothelial dysfunction., Competing Interests: Declaration of interests I.U.M. serves on the scientific advisory board of Luca Biologics., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published

2024

7. A human urothelial microtissue model reveals shared colonization and survival strategies between uropathogens and commensals.

Author

Flores C, Ling J, Loh A, Maset RG, Aw A, White IJ, Fernando R, and Rohn JL

Subjects

Animals, Humans, Escherichia coli metabolism, Fimbriae Proteins metabolism, Adhesins, Escherichia coli metabolism, Urinary Tract Infections metabolism, Escherichia coli Infections

Abstract

Urinary tract infection is among the most common infections worldwide, typically studied in animals and cell lines with limited uropathogenic strains. Here, we assessed diverse bacterial species in a human urothelial microtissue model exhibiting full stratification, differentiation, innate epithelial responses, and urine tolerance. Several uropathogens invaded intracellularly, but also commensal Escherichia coli , suggesting that invasion is a shared survival strategy, not solely a virulence hallmark. The E. coli adhesin FimH was required for intracellular bacterial community formation, but not for invasion. Other shared lifestyles included filamentation (Gram-negatives), chaining (Gram-positives), and hijacking of exfoliating cells, while biofilm-like aggregates were formed mainly with Pseudomonas and Proteus . Urothelial cells expelled invasive bacteria in Rab-/LC3-decorated structures, while highly cytotoxic/invasive uropathogens, but not commensals, disrupted host barrier function and strongly induced exfoliation and cytokine production. Overall, this work highlights diverse species-/strain-specific infection strategies and corresponding host responses in a human urothelial microenvironment, providing insights at the microtissue, cell, and molecular level.

Published

2023

8. TcpC Inhibits M1 but Promotes M2 Macrophage Polarization via Regulation of the MAPK/NF-κB and Akt/STAT6 Pathways in Urinary Tract Infection.

Author

Fang J, Ou Q, Wu B, Li S, Wu M, Qiu J, Cen N, Hu K, Che Y, Ma Y, and Pan J

Subjects

Animals, Humans, Interleukin-4 metabolism, Lipopolysaccharides pharmacology, Mice, Mitogen-Activated Protein Kinase Kinases metabolism, NF-kappa B metabolism, Proto-Oncogene Proteins c-akt metabolism, STAT6 Transcription Factor metabolism, Escherichia coli Infections metabolism, Escherichia coli Proteins metabolism, Macrophages metabolism, Macrophages microbiology, Urinary Tract Infections metabolism, Urinary Tract Infections microbiology, Uropathogenic Escherichia coli genetics, Uropathogenic Escherichia coli metabolism, Virulence Factors metabolism

Abstract

TcpC is a multifunctional virulence factor of Uropathogenic Escherichia coli (UPEC). Macrophages can differentiate into two different subsets M1 and M2 that play distinct roles in anti-infection immunity. Here, we investigate the influence of TcpC on M1/M2 polarization and the potential mechanisms. Our data showed that M1 markers CD86 and iNOS were significantly inhibited, while the M2 markers CD163, CD206 and Arg-1 were enhanced in macrophages in kidneys from the TcpC-secreting wild-type CFT073 (CFT073 wt )-infected pyelonephritis mouse model, compared with those in macrophages in kidneys from TcpC knockout CFT073 mutant (CFT073 Δ tcpc )-infected mice. CFT073 wt or recombinant TcpC (rTcpC) treatment inhibits LPS + IFN-γ-induced CD80, CD86, TNF-α and iNOS expression, but promotes IL-4-induced CD163, CD206, Arg-1 and IL-10 expression in both human and mouse macrophage cell lines THP-1 and J774A.1. Moreover, rTcpC significantly attenuated LPS + IFN-γ-induced phosphorylation of p38, ERK, p50 and p65 but enhanced IL-4-induced phosphorylation of Akt and STAT6. These data suggest that TcpC inhibits M1 but promotes M2 macrophage polarization by down-regulation of p38, ERK/NF-κB and up-regulation of the Akt/STAT6 signaling pathway, respectively. Our findings not only illuminate the regulatory effects of TcpC on macrophage M1/M2 polarization and its related signaling pathways, but also provide a novel mechanism underlying TcpC-mediated immune evasion of macrophage-mediated innate immunity.

Published

2022

9. Evaluation of Tebipenem Hydrolysis by β-Lactamases Prevalent in Complicated Urinary Tract Infections.

Author

Sun Z, Su L, Cotroneo N, Critchley I, Pucci M, Jain A, and Palzkill T

Subjects

Anti-Bacterial Agents pharmacokinetics, Anti-Bacterial Agents pharmacology, Child, Humans, Hydrolysis, Microbial Sensitivity Tests, Carbapenems pharmacokinetics, Carbapenems pharmacology, Urinary Tract Infections drug therapy, Urinary Tract Infections metabolism, beta-Lactamases metabolism

Abstract

Tebipenem pivoxil is the first orally available carbapenem antibiotic and has been approved in Japan for treating ear, nose, and throat and respiratory infections in pediatric patients. Its active moiety, tebipenem, has shown potent antimicrobial activity in vitro against clinical isolates of Enterobacterales species from patients with urinary tract infections (UTIs), including those producing extended-spectrum β-lactamases (ESBLs) and/or AmpC β-lactamase. In the present study, tebipenem was tested for stability to hydrolysis by a set of clinically relevant β-lactamases, including TEM-1, AmpC, CTX-M, OXA-48, KPC, and NDM-1 enzymes. In addition, hydrolysis rates of other carbapenems, including imipenem, meropenem, and ertapenem, were determined for comparison. It was found that, similar to other carbapenems, tebipenem was resistant to hydrolysis by TEM-1, CTX-M, and AmpC β-lactamases but was susceptible to hydrolysis by KPC, OXA-48, and NDM-1 enzymes with catalytic efficiency values ( k cat / K m ) ranging from 0.1 to 2 × 10 6 M -1 s -1 . This supports the reported results of antimicrobial activity of tebipenem against ESBL- and AmpC-producing but not carbapenemase-producing Enterobacterales isolates. Considering that CTX-M and AmpC β-lactamases represent the primary determinants of multidrug-resistant complicated UTIs (cUTIs), the stability of tebipenem to hydrolysis by these enzymes supports the utility of its prodrug tebipenem, tebipenem pivoxil hydrobromide (TBP-PI-HBr), as an oral therapy for adult cUTIs.

Published

2022

10. The Promoter of the Immune-Modulating Gene TIR-Containing Protein C of the Uropathogenic Escherichia coli Strain CFT073 Reacts to the Pathogen's Environment.

Author

Hemberger J, Ittensohn J, Griffiths H, Keller M, Costina V, Albrecht S, and Miethke T

Subjects

Cell Differentiation drug effects, Cell Line, Gene Expression Regulation, Bacterial, Humans, Inflammasomes metabolism, Models, Biological, Potassium pharmacology, Promoter Regions, Genetic drug effects, Signal Transduction, Sodium pharmacology, THP-1 Cells, Urinary Tract Infections metabolism, Uropathogenic Escherichia coli genetics, Virulence Factors metabolism, Escherichia coli Proteins genetics, Escherichia coli Proteins metabolism, Fimbriae Proteins metabolism, NLR Family, Pyrin Domain-Containing 3 Protein metabolism, Urinary Tract Infections microbiology, Uropathogenic Escherichia coli pathogenicity, Virulence Factors genetics

Abstract

The TIR-containing protein C (TcpC) of the uropathogenic Escherichia coli strain CFT073 modulates innate immunity by interfering with the Toll-like receptor and NALP3 inflammasome signaling cascade. During a urinary tract infection the pathogen encounters epithelial and innate immune cells and replicates by several orders of magnitude. We therefore analyzed whether these cell types and also the density of the pathogen would induce the recently defined promoter of the CFT073 tcpC gene to, in time, dampen innate immune responses. Using reporter constructs we found that the uroepithelial cell line T24/83 and the monocytic cell line THP-1 induced the tcpC promoter. Differentiation of monocytic THP-1 cells to macrophages increased their potential to switch on the promoter. Cell-associated CFT073 displayed the highest promoter activity. Since potassium represents the most abundant intracellular ion and is secreted to induce the NLRP3 inflammasome, we tested its ability to activate the tcpC promoter. Potassium induced the promoter with high efficiency. Sodium, which is enriched in the renal cortex generating an antibacterial hypersalinity, also induced the tcpC promoter. Finally, the bacterial density modulated the tcpC promoter activity. In the search for promoter-regulating proteins, we found that the DNA-binding protein H-NS dampens the promoter activity. Taken together, different cell types and salts, present in the kidney, are able to induce the tcpC promoter and might explain the mechanism of TcpC induction during a kidney infection with uropathogenic E. coli strains.

Published

2022

11. Initial Evaluation of Uroplakins UPIIIa and UPII in Selected Benign Urological Diseases.

Author

Szymańska B, Matuszewski M, Dembowski J, and Piwowar A

Subjects

Humans, Male, Middle Aged, Uroplakin III metabolism, Aged, Prostatic Hyperplasia blood, Prostatic Hyperplasia urine, Prostatic Hyperplasia metabolism, Prostatic Hyperplasia pathology, Uroplakin II metabolism, Uroplakin II urine, Female, Adult, Urinary Tract Infections urine, Urinary Tract Infections metabolism, Urinary Tract Infections blood, Urologic Diseases urine, Urologic Diseases metabolism, Urologic Diseases blood

Abstract

Background: Uroplakins (UPs) are glycoproteins that play a specific role in the structure and function of the urothelium. Disorders which affect the normal expression of UPs are associated with the pathogenesis of infections and neoplasms of the urinary tract, primary vesicoureteral reflux, hydronephrosis and renal dysfunction. The appearance of uroplakins in the urine and/or plasma may be of potential importance in the detection of urinary tract dysfunction. The aim of the present study was to investigate uroplakin IIIa (UPIIIa) and uroplakin II (UPII) expression in patients with selected urological diseases., Methods: Plasma and urine from patients with benign prostatic hyperplasia (BPH), urethral stricture (US), urinary tract infection (UTI) and urolithiasis were compared to healthy people without urological disorders. UPs concentrations were measured by the immunoenzymatic method., Results: In patients with BPH and UTI, concentrations of UPIIIa in urine and plasma, as well as UPII in urine, were statistically significantly higher than in the control groups. In the US group, only the plasma UPIIIa concentration differed significantly from the control., Conclusion: The conducted research shows that benign urological diseases may affect the state of the urothelium, as manifested by increased concentrations of both UPs in patients' urine and plasma, especially in BPH and UTI.

Published

2021

12. Transcriptomic analyses and experimental verification reveal potential biomarkers and biological pathways of urinary tract infection.

Author

Yang W, Liu P, Zheng Y, Wang Z, Huang W, Jiang H, Lv Q, Ren Y, Jiang Y, and Sun L

Subjects

Biomarkers metabolism, Databases, Genetic, Down-Regulation genetics, Female, Gene Expression Profiling, Humans, Middle Aged, Organ Specificity genetics, Protein Interaction Maps genetics, Up-Regulation genetics, Signal Transduction genetics, Transcriptome genetics, Urinary Tract Infections genetics, Urinary Tract Infections metabolism

Abstract

Urinary tract infection (UTI) is a common infectious disease. Urinary tract pathogenic Escherichia coli (UPEC) is the main cause of UTIs. At present, antibiotics are mainly used for the treatment of UTIs. However, with the increase of drug resistance, the course of the disease is prolonged. Therefore, identifying the receptors and signal pathways of host cells and tissues will further our understanding of the pathogenesis of UTIs and help in the development of new drug treatments. We used two public microarray datasets (GSE43790, GSE124917) in the Gene Expression Omnibus (GEO) database to identify differentially expressed genes (DEGs) between UTI and normal cell samples. A functional analysis based on Gene Ontology (GO) data, a pathway enrichment analysis based on Kyoto Encyclopedia of Genes and Genomes (KEGG) data and a protein-protein interaction analysis identified the main potential biomarkers and verified them in animal tissues. A total of 147 up-regulated genes and 40 down-regulated genes were identified. GO enrichment analysis showed that these functional changes relate to the terms response to lipopolysaccharide, regulation of cytokine production, and regulation of the inflammatory response. KEGG analysis indicated that urinary tract infections likely involve the TNF-αsignaling pathways. The 20 hub genes were selected from the protein-protein interaction network, and the highly significant hub genes were verified by animal experiments. Our findings provide potential targets for exploring new treatments for urinary tract infections. After a comprehensive analysis of the GEO database, these results may facilitate development of new diagnosis and treatment strategies for urinary tract infections.

Published

2021

13. Serum levels of immunoglobulin and complement in UTI of patients caused by Proteus mirabilis and using AgNPs as antiswarming.

Author

Al Otraqchi KIB, Darogha SN, and Ali BA

Subjects

Anti-Bacterial Agents administration & dosage, Anti-Bacterial Agents chemistry, Anti-Bacterial Agents pharmacology, Antioxidants administration & dosage, Antioxidants pharmacology, Biofilms drug effects, Biofilms growth & development, Humans, Metal Nanoparticles chemistry, Microbial Sensitivity Tests, Nigella sativa chemistry, Plant Extracts administration & dosage, Proteus mirabilis genetics, Proteus mirabilis physiology, Silver chemistry, Spectrophotometry methods, Spectroscopy, Fourier Transform Infrared methods, Syzygium chemistry, Urinary Tract Infections metabolism, Urinary Tract Infections microbiology, Complement System Proteins metabolism, Immunoglobulins blood, Metal Nanoparticles administration & dosage, Plant Extracts pharmacology, Proteus mirabilis drug effects, Silver administration & dosage, Urinary Tract Infections blood

Abstract

The use of plant extracts represents a promising approach for the synthesis of silver nanoparticles (AgNPs). This study reports the low-cost, green synthesis of AgNPs using the extract of clove and black seeds. The biosynthesized AgNPs were confirmed and characterized by analysis of the spectroscopy profile of the UV-visible spectrophotometer. The purpose of the present study is to evaluate the inhibitory effect concentration (MIC) of AgNPs, clove, and black cumin seed extracts on the growth and swarming of P. mirabilis. Clinical isolates of P. mirabilis were isolated from patients suffering from urinary tract infections. Thirteen types of antibiotics were used in the present study to detect their ability to inhibit P. mirabilis's resistance. Immunological findings included the determination of serum levels of IgG, IgM, IgA and complement protein C3 and C4. Results showed that IgG and IgA concentrations significantly increased (1311.13 ± 72.54 and 279 ± 21.31) respectively in UTI patients in comparison to the healthy control group which was 1089.88 ± 37.33 and 117.611 ± 4.19 respectively, While IgM concentrations were increased non significantly in UTI patients (153.331 ± 6.45) in comparison to healthy control (145.2 ± 13.49). Complement components C3 showed a significant increase in UTI patients with mean values of 125.95 ± 6.22 compared to the control group with mean values of 55.191 ± 9.64, while C4 showed statically non-significant among UTI patients in comparison with the control group (35.195 ± 2.34 and 34.371 ± 1.22) respectively.

Published

2021

14. Osteopontin Deficiency Ameliorates Prostatic Fibrosis and Inflammation.

Author

Popovics P, Jain A, Skalitzky KO, Schroeder E, Ruetten H, Cadena M, Uchtmann KS, Vezina CM, and Ricke WA

Subjects

Animals, Chondroitin Sulfate Proteoglycans genetics, Chondroitin Sulfate Proteoglycans metabolism, Collagen Type III genetics, Collagen Type III metabolism, Disease Models, Animal, Escherichia coli Infections metabolism, Escherichia coli Infections pathology, Escherichia coli Infections prevention & control, Extracellular Matrix Proteins genetics, Extracellular Matrix Proteins metabolism, Fibrosis, Gene Expression Regulation, Humans, Inflammation, Lumican genetics, Lumican metabolism, Male, Matrix Metalloproteinase 3 genetics, Matrix Metalloproteinase 3 metabolism, Mice, Mice, Inbred C57BL, Mice, Knockout, Osteopontin deficiency, Prostate pathology, RNA, Messenger genetics, RNA, Messenger metabolism, Signal Transduction, Urinary Tract Infections metabolism, Urinary Tract Infections pathology, Urinary Tract Infections prevention & control, Uropathogenic Escherichia coli growth & development, Escherichia coli Infections genetics, Osteopontin genetics, Prostate metabolism, Urinary Tract Infections genetics, Uropathogenic Escherichia coli pathogenicity

Abstract

Fibrogenic and inflammatory processes in the prostate are linked to the development of lower urinary tract symptoms (LUTS) in men. Our previous studies identified that osteopontin (OPN), a pro-fibrotic cytokine, is abundant in the prostate of men with LUTS, and its secretion is stimulated by inflammatory cytokines potentially to drive fibrosis. This study investigates whether the lack of OPN ameliorates inflammation and fibrosis in the mouse prostate. We instilled uropathogenic E. coli (UTI89) or saline (control) transurethrally to C57BL/6J (WT) or Spp1 tm1Blh /J (OPN-KO) mice and collected the prostates one or 8 weeks later. We found that OPN mRNA and protein expression were significantly induced by E. coli -instillation in the dorsal prostate (DP) after one week in WT mice. Deficiency in OPN expression led to decreased inflammation and fibrosis and the prevention of urinary dysfunction after 8 weeks. RNAseq analysis identified that E. coli -instilled WT mice expressed increased levels of inflammatory and fibrotic marker RNAs compared to OPN-KO mice including Col3a1 , Dpt , Lum and Mmp3 which were confirmed by RNAscope. Our results indicate that OPN is induced by inflammation and prolongs the inflammatory state; genetic blockade of OPN accelerates recovery after inflammation, including a resolution of prostate fibrosis.

Published

2021

15. Interleukin-6 mediates delirium-like phenotypes in a murine model of urinary tract infection.

Author

Rashid MH, Sparrow NA, Anwar F, Guidry G, Covarrubias AE, Pang H, Bogguri C, Karumanchi SA, and Lahiri S

Subjects

Animals, Antibodies, Monoclonal metabolism, Antibodies, Monoclonal pharmacology, Brain drug effects, Brain metabolism, Brain pathology, Delirium pathology, Female, Interleukin-6 antagonists & inhibitors, Maze Learning drug effects, Maze Learning physiology, Mice, Mice, Inbred C57BL, Urinary Tract Infections pathology, Delirium metabolism, Disease Models, Animal, Interleukin-6 metabolism, Phenotype, Urinary Tract Infections metabolism

Abstract

Background: Urinary tract infection (UTI) is frequently implicated as a precipitant of delirium, which refers to an acute confusional state that is associated with high mortality, increased length of stay, and long-term cognitive decline. The pathogenesis of delirium is thought to involve cytokine-mediated neuronal dysfunction of the frontal cortex and hippocampus. We hypothesized that systemic IL-6 inhibition would mitigate delirium-like phenotypes in a mouse model of UTI., Methods: C57/BL6 mice were randomized to either: (1) non-UTI control, (2) UTI, and (3) UTI + anti-IL-6 antibody. UTI was induced by transurethral inoculation of 1 × 10 8 Escherichia coli. Frontal cortex and hippocampus-mediated behaviors were evaluated using functional testing and corresponding structural changes were evaluated via quantification of neuronal cleaved caspase-3 (CC3) by immunohistochemistry and western blot. IL-6 in the brain and plasma were evaluated using immunohistochemistry, ELISA, and RT-PCR., Results: Compared to non-UTI control mice, mice with UTI demonstrated significantly greater impairments in frontal and hippocampus-mediated behaviors, specifically increased thigmotaxis in Open Field (p < 0.05) and reduced spontaneous alternations in Y-maze (p < 0.01), while treatment of UTI mice with systemic anti-IL-6 fully reversed these functional impairments. These behavioral impairments correlated with frontal and hippocampal neuronal CC3 changes, with significantly increased frontal and hippocampal CC3 in UTI mice compared to non-UTI controls (p < 0.0001), and full reversal of UTI-induced CC3 neuronal changes following treatment with systemic anti-IL-6 antibody (p < 0.0001). Plasma IL-6 was significantly elevated in UTI mice compared to non-UTI controls (p < 0.01) and there were positive and significant correlations between plasma IL-6 and frontal CC3 (r 2  = 0.5087/p = 0.0028) and frontal IL-6 and CC3 (r 2  = 0.2653, p < 0.0001)., Conclusions: These data provide evidence for a role for IL-6 in mediating delirium-like phenotypes in a mouse model of UTI. These findings provide pre-clinical justification for clinical investigations of IL-6 inhibitors to treat UTI-induced delirium., (© 2021. The Author(s).)

Published

2021

16. NRF2 promotes urothelial cell response to bacterial infection by regulating reactive oxygen species and RAB27B expression.

Author

Joshi CS, Mora A, Felder PA, and Mysorekar IU

Subjects

Animals, Anti-Inflammatory Agents pharmacology, Bacterial Load, Cell Line, Tumor, Dimethyl Fumarate pharmacology, Escherichia coli Infections drug therapy, Escherichia coli Infections genetics, Escherichia coli Infections microbiology, Female, HEK293 Cells, Host-Pathogen Interactions, Humans, Kelch-Like ECH-Associated Protein 1 genetics, Kelch-Like ECH-Associated Protein 1 metabolism, Mice, Inbred C57BL, Mice, Knockout, NF-E2-Related Factor 2 agonists, NF-E2-Related Factor 2 genetics, Oxidative Stress, Signal Transduction, Urinary Tract Infections drug therapy, Urinary Tract Infections genetics, Urinary Tract Infections microbiology, Urothelium drug effects, Urothelium microbiology, rab GTP-Binding Proteins, rab27 GTP-Binding Proteins genetics, Mice, Escherichia coli Infections metabolism, NF-E2-Related Factor 2 metabolism, Reactive Oxygen Species metabolism, Urinary Tract Infections metabolism, Uropathogenic Escherichia coli pathogenicity, Urothelium metabolism, rab27 GTP-Binding Proteins metabolism

Abstract

Uropathogenic Escherichia coli (UPEC) cause urinary tract infections (UTIs) by invading urothelial cells. In response, the host mounts an inflammatory response to expel bacteria. Here, we show that the NF-E2-related factor 2 (NRF2) pathway is activated in response to UPEC-triggered reactive oxygen species (ROS) production. We demonstrate the molecular sequence of events wherein NRF2 activation in urothelial cells reduces ROS production, inflammation, and cell death, promotes UPEC expulsion, and reduces the bacterial load. In contrast, loss of NRF2 leads to increased ROS production, bacterial burden, and inflammation, both in vitro and in vivo. NRF2 promotes UPEC expulsion by regulating transcription of the RAB-GTPase RAB27B. Finally, dimethyl fumarate, a US Food and Administration-approved NRF2 inducer, reduces the inflammatory response, increases RAB27B expression, and lowers bacterial burden in urothelial cells and in a mouse UTI model. Our findings elucidate mechanisms underlying the host response to UPEC and provide a potential strategy to combat UTIs., Competing Interests: Declaration of interests The authors declare no competing interests. I.U.M. serves on the scientific advisory board of Luca Biologics., (Copyright © 2021 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2021

17. A previously uncharacterized two-component signaling system in uropathogenic Escherichia coli coordinates protection against host-derived oxidative stress with activation of hemolysin-mediated host cell pyroptosis.

Author

Gu H, Cai X, Zhang X, Luo J, Zhang X, Hu X, Cai W, and Li G

Subjects

Cell Line, Escherichia coli Infections metabolism, Humans, Oxidative Stress physiology, Pyroptosis physiology, Signal Transduction physiology, Urinary Tract Infections metabolism, Uropathogenic Escherichia coli metabolism, Escherichia coli Infections pathology, Hemolysin Proteins metabolism, Urinary Tract Infections pathology, Uropathogenic Escherichia coli pathogenicity, Virulence physiology

Abstract

Uropathogenic Escherichia coli (UPEC) deploy an array of virulence factors to successfully establish urinary tract infections. Hemolysin is a pore-forming toxin, and its expression correlates with the severity of UPEC infection. Two-component signaling systems (TCSs) are a major mechanism by which bacteria sense environmental cues and respond by initiating adaptive responses. Here, we began this study by characterizing a novel TCS (C3564/C3565, herein renamed orhK/orhR for oxidative resistance and hemolysis kinase/regulator) that is encoded on a UPEC pathogenicity island, using bioinformatic and biochemical approaches. A prevalence analysis indicates that orhK/orhR is highly associated with the UPEC pathotype, and it rarely occurs in other E. coli pathotypes tested. We then demonstrated that OrhK/OrhR directly activates the expression of a putative methionine sulfoxide reductase system (C3566/C3567) and hemolysin (HlyA) in response to host-derived hydrogen peroxide (H2O2) exposure. OrhK/OrhR increases UPEC resistance to H2O2 in vitro and survival in macrophages in cell culture via C3566/C3567. Additionally, OrhK/OrhR mediates hemolysin-induced renal epithelial cell and macrophage death via a pyroptosis pathway. Reducing intracellular H2O2 production by a chemical inhibitor impaired OrhK/OrhR-mediated activation of c3566-c3567 and hlyA. We also uncovered that UPEC links the two key virulence traits by cotranscribing the c3566-c3567 and hlyCABD operons. Taken together, our data suggest a paradigm in which a signal transduction system coordinates both bacterial pathogen defensive and offensive traits in the presence of host-derived signals; and this exquisite mechanism likely contributes to hemolysin-induced severe pathological outcomes., Competing Interests: The authors have declared that no competing interests exist.

Published

2021

18. Placentas associated with female neonates from pregnancies complicated by urinary tract infections have higher cAMP content and cytokines expression than males.

Author

Olmos-Ortiz A, Olivares-Huerta A, García-Quiroz J, Zariñán T, Chavira R, Zaga-Clavellina V, Avila E, Halhali A, Durand M, Larrea F, and Díaz L

Subjects

Cross-Sectional Studies, Cyclic AMP metabolism, Female, Humans, Infant, Newborn, Male, Placenta metabolism, Pregnancy, Pregnancy Complications, Infectious metabolism, Sex Characteristics, Urinary Tract Infections metabolism, Cyclic AMP immunology, Cytokines immunology, Placenta immunology, Pregnancy Complications, Infectious immunology, Urinary Tract Infections immunology

Abstract

Problem: The cAMP pathway is involved in important biological processes including immune regulation and hormone signaling. At the feto-maternal unit, cAMP participates in placental function/physiology and the establishment of immunoendocrine networks. Low cAMP in male fetuses cord blood has been linked to poorer perinatal outcomes; however, cAMP placental content and its relationship with immune factors and fetal sex in an infectious condition have not been investigated., Method of Study: Sex-dependent changes in cAMP content and its association with cytokines and antimicrobial peptides expression were studied in human placentas collected from normal pregnancies and with urinary tract infections (UTI). Radioimmunoassay was used to quantify cAMP in placental tissue, while immune markers expression was studied by qPCR. Additionally, cAMP effect on antimicrobial peptides expression was studied in cultured trophoblasts challenged with lipopolysaccharide, to mimic an infection., Results: In UTI, placentas from female neonates had higher cAMP tissue content and increased expression of TNFA, IL1B, and IL10 than those from males, where IFNG was more elevated. While cAMP negatively correlated with maternal bacteriuria and IFNG, it positively correlated with the antimicrobial peptide S100A9 expression in a sex-specific fashion. In cultured trophoblasts, cAMP significantly stimulated β-defensin-1 while reduced the lipopolysaccharide-dependent stimulatory effect on β-defensin-2, β-defensins-3, and S100A9., Conclusion: Our results showed higher cAMP content and defense cytokines expression in placentas associated with female neonates from pregnancies complicated by UTI. The associations between cAMP and bacteriuria/immune markers, together with cAMP's ability to differentially regulate placental antimicrobial peptides expression, suggest a dual modulatory role for cAMP in placental immunity., (© 2021 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)

Published

2021

19. Using Functional Annotations to Study Pairwise Interactions in Urinary Tract Infection Communities.

Author

Lara EG, van der Windt I, Molenaar D, de Vos MGJ, and Melkonian C

Subjects

Enterococcus genetics, Genes, Bacterial, Humans, Metabolic Networks and Pathways, Molecular Sequence Annotation, Urinary Tract Infections metabolism, Enterococcus isolation & purification, Microbiota genetics, Urinary Tract Infections microbiology

Abstract

The behaviour of microbial communities depends on environmental factors and on the interactions of the community members. This is also the case for urinary tract infection (UTI) microbial communities. Here, we devise a computational approach that uses indices of complementarity and competition based on metabolic gene annotation to rapidly predict putative interactions between pair of organisms with the aim to explain pairwise growth effects. We apply our method to 66 genomes selected from online databases, which belong to 6 genera representing members of UTI communities. This resulted in a selection of metabolic pathways with high correlation for each pairwise combination between a complementarity index and the experimentally derived growth data. Our results indicated that Enteroccus spp. were most complemented in its metabolism by the other members of the UTI community. This suggests that the growth of Enteroccus spp. can potentially be enhanced by complementary metabolites produced by other community members. We tested a few putative predicted interactions by experimental supplementation of the relevant predicted metabolites. As predicted by our method, folic acid supplementation led to the increase in the population density of UTI Enterococcus isolates. Overall, we believe our method is a rapid initial in silico screening for the prediction of metabolic interactions in microbial communities.

Published

2021

20. The bacteria and the host: a story of purinergic signaling in urinary tract infections.

Author

Praetorius H

Subjects

Adenosine Triphosphate metabolism, Anoctamin-1 genetics, Anoctamin-1 metabolism, Escherichia coli Infections metabolism, Escherichia coli Infections microbiology, Escherichia coli Infections pathology, Escherichia coli Proteins metabolism, Gene Expression Regulation, Hemolysin Proteins metabolism, Host-Pathogen Interactions genetics, Humans, Hydrogen-Ion Concentration, Neoplasm Proteins genetics, Neoplasm Proteins metabolism, Paracrine Communication, Pyelonephritis metabolism, Pyelonephritis microbiology, Pyelonephritis pathology, Receptors, Purinergic P2 metabolism, Sepsis metabolism, Sepsis microbiology, Sepsis pathology, Signal Transduction, Urinary Tract Infections metabolism, Urinary Tract Infections microbiology, Urinary Tract Infections pathology, Uropathogenic Escherichia coli growth & development, Uropathogenic Escherichia coli metabolism, Uropathogenic Escherichia coli pathogenicity, Escherichia coli Infections genetics, Escherichia coli Proteins genetics, Hemolysin Proteins genetics, Pyelonephritis genetics, Receptors, Purinergic P2 genetics, Sepsis genetics, Urinary Tract Infections genetics, Uropathogenic Escherichia coli genetics

Abstract

The local environment forces a selection of bacteria that might invade the urinary tract, allowing only the most virulent to access the kidney. Quite similar to the diet in setting the stage for the gut microbiome, renal function determines the conditions for bacteria-host interaction in the urinary tract. In the kidney, the term local environment or microenvironment is completely justified because the environment literally changes within a few micrometers. The precise composition of the urine is a function of the epithelium lining the microdomain, and the microenvironment in the kidney shows more variation in the content of nutrients, ion composition, osmolality, and pH than any other site of bacteria-host interaction. This review will cover some of the aspects of bacterial-host interaction in this unique setting and how uropathogenic bacteria can alter the condition for bacteria-host interaction. There will be a particular focus on the recent findings regarding how bacteria specifically trigger host paracrine signaling, via release of extracellular ATP and activation of P2 purinergic receptors. These finding will be discussed from the perspective of severe urinary tract infections, including pyelonephritis and urosepsis.

Published

2021

21. An infection-induced RhoB-Beclin 1-Hsp90 complex enhances clearance of uropathogenic Escherichia coli.

Author

Miao C, Yu M, Pei G, Ma Z, Zhang L, Yang J, Lv J, Zhang ZS, Keller ET, Yao Z, and Wang Q

Subjects

Animals, Autophagosomes genetics, Autophagosomes ultrastructure, Beclin-1 genetics, Cell Line, Epithelium metabolism, Epithelium microbiology, Escherichia coli Infections genetics, Escherichia coli Infections microbiology, Female, Gene Knockdown Techniques, HSP90 Heat-Shock Proteins genetics, Humans, Mice, Mice, Inbred C57BL, Mice, Knockout, Microscopy, Electron, Transmission, Microtubule-Associated Proteins metabolism, Protein Binding, Protein Stability, RNA, Small Interfering, Recombinant Proteins, Urinary Bladder metabolism, Urinary Bladder microbiology, Urinary Tract Infections genetics, Urinary Tract Infections microbiology, Uropathogenic Escherichia coli pathogenicity, rhoB GTP-Binding Protein genetics, Autophagosomes metabolism, Beclin-1 metabolism, Escherichia coli Infections metabolism, HSP90 Heat-Shock Proteins metabolism, Urinary Tract Infections metabolism, Uropathogenic Escherichia coli growth & development, rhoB GTP-Binding Protein metabolism

Abstract

Host cells use several anti-bacterial pathways to defend against pathogens. Here, using a uropathogenic Escherichia coli (UPEC) infection model, we demonstrate that bacterial infection upregulates RhoB, which subsequently promotes intracellular bacteria clearance by inducing LC3 lipidation and autophagosome formation. RhoB binds with Beclin 1 through its residues at 118 to 140 and the Beclin 1 CCD domain, with RhoB Arg133 being the key binding residue. Binding of RhoB to Beclin 1 enhances the Hsp90-Beclin 1 interaction, preventing Beclin 1 degradation. RhoB also directly interacts with Hsp90, maintaining RhoB levels. UPEC infections increase RhoB, Beclin 1 and LC3 levels in bladder epithelium in vivo, whereas Beclin 1 and LC3 levels as well as UPEC clearance are substantially reduced in RhoB +/- and RhoB -/- mice upon infection. We conclude that when stimulated by UPEC infections, host cells promote UPEC clearance through the RhoB-Beclin 1-HSP90 complex, indicating RhoB may be a useful target when developing UPEC treatment strategies.

Published

2021

22. Urinary prostaglandin E2 as a biomarker for recurrent UTI in postmenopausal women.

Author

Ebrahimzadeh T, Kuprasertkul A, Neugent ML, Lutz KC, Fuentes JL, Gadhvi J, Khan F, Zhang C, Sharon BM, Orth K, Li Q, Zimmern PE, and De Nisco NJ

Subjects

Aged, Aged, 80 and over, Biomarkers urine, Cohort Studies, Cyclooxygenase 2 metabolism, Cyclooxygenase 2 urine, Female, Humans, Inflammation, Middle Aged, Postmenopause, Recurrence, Risk Factors, Urinary Tract Infections metabolism, Urinary Tract Infections microbiology, Dinoprostone analysis, Dinoprostone urine, Urinary Tract Infections diagnosis

Abstract

Urinary tract infection (UTI) is one of the most common adult bacterial infections and exhibits high recurrence rates, especially in postmenopausal women. Studies in mouse models suggest that cyclooxygenase-2 (COX-2)-mediated inflammation sensitizes the bladder to recurrent UTI (rUTI). However, COX-2-mediated inflammation has not been robustly studied in human rUTI. We used human cohorts to assess urothelial COX-2 production and evaluate its product, PGE 2 , as a biomarker for rUTI in postmenopausal women. We found that the percentage of COX-2-positive cells was elevated in inflamed versus uninflamed bladder regions. We analyzed the performance of urinary PGE 2 as a biomarker for rUTI in a controlled cohort of 92 postmenopausal women and PGE 2 consistently outperformed all other tested clinical variables as a predictor of rUTI status. Furthermore, time-to-relapse analysis indicated that the risk of rUTI relapse was 3.6 times higher in women with above median urinary PGE 2 levels than with below median levels. Taken together, these data suggest that urinary PGE 2 may be a clinically useful diagnostic and prognostic biomarker for rUTI in postmenopausal women., (© 2021 Ebrahimzadeh et al.)

Published

2021

23. Enhanced uropathogenic Escherichia coli-induced infection in uroepithelial cells by sugar through TLR-4 and JAK/STAT1 signaling pathways.

Author

Ho CH, Fan CK, Wu CC, Yu HJ, Liu HT, Chen KC, Liu SP, and Cheng PC

Subjects

Cell Line, Epithelial Cells metabolism, Escherichia coli Infections pathology, Gene Expression Regulation, Humans, Toll-Like Receptor 4 genetics, Urinary Tract Infections metabolism, Urinary Tract Infections pathology, Urothelium microbiology, Urothelium pathology, STAT1 Transcription Factor metabolism, Signal Transduction, Sugars metabolism, Toll-Like Receptor 4 metabolism, Uropathogenic Escherichia coli, Urothelium metabolism

Abstract

Background: Patients with diabetes mellitus (DM) have higher incidence and more severe urinary tract infections (UTIs) for longer duration than those of the patients without DM. It causes more complicated etiologies during uropathogenic Escherichia coli (UPEC) infection. However, studies regarding the molecular mechanism are scarce., Methods: The present study (1) aimed to verify if sugar influences the process of UPEC-induced cystitis and invasion into the uroepithelial cells and (2) illustrated the mechanism of effects for sugar enhanced the UPEC infection into uroepithelial cells is related to TLR-4-mediated and JAK/STAT1-dependent pathway., Results: The results of the present study indicated that sugar can enhance UPEC infection in uroepithelial cells by up-regulating the transduced circuit between TLR-4-mediated UPEC interaction and JAK/STAT-1 signal pathways. The results of the inhibitor-co-incubating experiments demonstrated that the mechanism involved in the synergistic amplification of TLR-4-mediated UPEC interaction and JAK/STAT1 signaling pathways is responsible for the increased UPEC infection in uroepithelial cells., Conclusion: The results also proved that STAT-1 plays a critical role in the regulation of UPEC invasion and infection in the uroepithelial cells, especially those pretreated with glucose. The present study suggests a possible therapeutic approach to preferentially suppress UPEC infection during UTIs in the patients with diabetes., (Copyright © 2019. Published by Elsevier B.V.)

Published

2021

24. Single-cell transcriptomes of mouse bladder urothelium uncover novel cell type markers and urothelial differentiation characteristics.

Author

Li Y, Liu Y, Gao Z, Zhang L, Chen L, Wu Z, Liu Q, Wang S, Zhou N, Chai TC, and Shi B

Subjects

Animals, Calmodulin-Binding Proteins genetics, Calmodulin-Binding Proteins metabolism, Cell Differentiation, Cell Lineage, Disease Models, Animal, Female, Mice, Mice, Inbred C57BL, Nerve Tissue Proteins genetics, Nerve Tissue Proteins metabolism, Receptors, Cell Surface genetics, Receptors, Cell Surface metabolism, Sequence Analysis, RNA, Single-Cell Analysis, Stem Cells cytology, Stem Cells metabolism, Transcription Factors genetics, Transcription Factors metabolism, Urinary Bladder cytology, Urinary Tract Infections metabolism, Urinary Tract Infections pathology, Urothelium cytology, Biomarkers metabolism, Transcriptome, Urothelium metabolism

Abstract

Objectives: Much of the information to date in terms of subtypes and function of bladder urothelial cells were derived from anatomical location or by the expression of a small number of marker genes. To have a comprehensive map of the cellular anatomy of bladder urothelial cells, we performed single-cell RNA sequencing to thoroughly characterize mouse bladder urothelium., Materials and Methods: A total of 18,917 single cells from mouse bladder urothelium were analysed by unbiased single-cell RNA sequencing. The expression of the novel cell marker was confirmed by immunofluorescence using urinary tract infection models., Results: Unsupervised clustering analysis identified 8 transcriptionally distinct cell subpopulations from mouse bladder urothelial cells. We discovered a novel type of bladder urothelial cells marked by Plxna4 that may be involved with host response and wound healing. We also found a group of basal-like cells labelled by ASPM that could be the progenitor cells of adult bladder urothelium. ASPM + urothelial cells are significantly increased after injury by UPEC. In addition, specific transcription factors were found to be associated with urothelial cell differentiation. At the last, a number of interstitial cystitis/bladder pain syndrome-regulating genes were found differentially expressed among different urothelial cell subpopulations., Conclusions: Our study provides a comprehensive characterization of bladder urothelial cells, which is fundamental to understanding the biology of bladder urothelium and associated bladder disease., (© 2021 The Authors. Cell Proliferation Published by John Wiley & Sons Ltd.)

Published

2021

25. Polysaccharides extract from Vaccaria segetalis seeds inhibits kidney infection by regulating cathelicidin expression.

Author

Mao X, Yao R, Guo H, Bao L, Bao Y, Xu Y, Sun J, Guo S, Shi Y, Liu S, Zhang H, and Cui X

Subjects

Adaptor Proteins, Vesicular Transport genetics, Adaptor Proteins, Vesicular Transport metabolism, Animals, Antimicrobial Cationic Peptides genetics, Bacterial Load, Cell Line, Tumor, Disease Models, Animal, Escherichia coli Infections metabolism, Escherichia coli Infections microbiology, Female, Humans, Kidney metabolism, Kidney microbiology, Mice, Inbred C3H, Myeloid Differentiation Factor 88 genetics, Myeloid Differentiation Factor 88 metabolism, Plant Extracts isolation & purification, Polysaccharides isolation & purification, Rats, Sprague-Dawley, Signal Transduction, Toll-Like Receptors genetics, Toll-Like Receptors metabolism, Urinary Tract Infections metabolism, Urinary Tract Infections microbiology, Uropathogenic Escherichia coli pathogenicity, Cathelicidins, Mice, Rats, Antimicrobial Cationic Peptides metabolism, Escherichia coli Infections drug therapy, Kidney drug effects, Plant Extracts pharmacology, Polysaccharides pharmacology, Seeds chemistry, Urinary Tract Infections drug therapy, Uropathogenic Escherichia coli drug effects, Vaccaria chemistry

Abstract

Ethnopharmacological Relevance: According to the Chinese Pharmacopoeia, the seeds of Vaccaria segetalis, a traditional medicinal herb, can be used for treating urinary diseases. The polysaccharides extract from V. segetalis seeds (VSP) has been shown to prevent urinary tract infections (UTIs)., Aim of the Study: Investigate the effects of VSP on treating kidney infection induced by uropathogenic Escherichia coli (UPEC) and the underlying mechanisms., Materials and Methods: Both in vivo and in vitro infection models were established with the UPEC strain CFT073. After oral administration of VSP, the levels of bacterial load, cathelicidin (CRAMP), Toll-like receptors (TLRs) in the kidney were evaluated. The expression of cathelicidin (LL-37) in human renal cell carcinoma cell line (A498) was tested after the treatment of VSP., Results: In the kidneys of infection models, high-titer bacteria was detected. In the kidney of rat model, the expression of CRAMP was down-regulated, no significant change was observed in the levels of TLRs. After oral administration of VSP, the bacterial load was significantly decreased in rat and mouse models, and the levels of CRAMP and TLRs were significantly up-regulated in rat model. In vitro, the expression of LL-37 was significantly inhibited by CFT073. VSP up-regulated the expression of LL-37 in A498 cells., Conclusions: The up-regulation of cathelicidin expression may contribute to the therapeutic effects of VSP on kidney infection., (Copyright © 2020. Published by Elsevier B.V.)

Published

2021

26. Non-invasive markers in the management of pediatric neurogenic bladder over the last two decades - A review.

Author

Bagińska J and Korzeniecka-Kozerska A

Subjects

Child, Disease Management, Humans, Kidney Neoplasms metabolism, Kidney Neoplasms therapy, Urinary Bladder Neoplasms metabolism, Urinary Bladder Neoplasms therapy, Urinary Bladder, Neurogenic metabolism, Urinary Bladder, Neurogenic therapy, Urinary Tract Infections metabolism, Urinary Tract Infections therapy, Biomarkers metabolism, Kidney Neoplasms pathology, Urinary Bladder Neoplasms pathology, Urinary Bladder, Neurogenic pathology, Urinary Tract Infections pathology

Abstract

Neurogenic bladder (NB) is one of the most challenging problems in nephro-urological management in pediatrics. It is an important risk factor of secondary upper urinary tract damage. A complete clinical evaluation is necessary and requires life-long extensive medical attention including invasive procedures that affect patients' quality of life. Potential non-invasive biomarkers would be desirable, especially in the pediatric population. The aim of this review was to analyze two decades of data regarding potential non-invasive biomarkers in the assessment and follow-up of children with NB. This paper summarizes and appraises the knowledge about both biochemical and imaging-based markers in 3 aspects: markers of urinary tract infections (UTIs), bladder and renal function, and this paper looks at their prospective application in everyday clinical care., Competing Interests: Declaration of competing interest The authors declare no conflict of interests., (Copyright © 2021 Medical University of Bialystok. Published by Elsevier B.V. All rights reserved.)

Published

2021

27. Types of Parenchymal Changes Diagnosed on DMSA Scans of Kidneys Affected by Different Grades of Vesicoureteral Reflux.

Author

Arapović A, Punda A, Brdar D, Čapkun V, Bajo D, Veljačić D, Punda H, Simičić-Majce A, Saraga-Babić M, Vukojević K, and Saraga M

Subjects

Child, Child, Preschool, Cicatrix diagnostic imaging, Cicatrix metabolism, Cicatrix pathology, Female, Humans, Infant, Infant, Newborn, Kidney diagnostic imaging, Kidney metabolism, Male, Parenchymal Tissue diagnostic imaging, Parenchymal Tissue metabolism, Parenchymal Tissue pathology, Radionuclide Imaging, Radiopharmaceuticals, Technetium Tc 99m Dimercaptosuccinic Acid, Ureter diagnostic imaging, Ureter pathology, Urinary Tract Infections diagnostic imaging, Urinary Tract Infections metabolism, Urinary Tract Infections pathology, Urination physiology, Vesico-Ureteral Reflux metabolism, Vesico-Ureteral Reflux pathology, Kidney pathology, Vesico-Ureteral Reflux diagnostic imaging

Abstract

BACKGROUND Renal parenchymal damage and scarring usually is associated with urinary tract infection (UTI), whereas the impact of vesicoureteral reflux (VUR) on the kidneys is unclear. We aimed to compare kidneys with all grades of VUR (grades Io-V) and those without VUR by using direct radionuclide cystography, voiding cystourethrography, and findings from 99mTc-DMSA scintigraphy (DMSA scan). MATERIAL AND METHODS The present analysis included 253 renal ureteral units (RUU) from 129 children with VUR and recurrent UTI and children with a single febrile UTI associated with abnormal ultrasonographic findings. The 6 grades of VUR (Io, I, II, III, IV, and V) and 35 RUUs without VUR were divided into 4 groups: 1. Non-dilated VUR (grades Io-II); 2. Mildly dilated VUR (grade III); 3. Dilated VUR (grades IV-V); and 4. The control group. RESULTS DMSA scanning showed significant differences between the groups with non-dilated VUR, grade III VUR, grades IV-V VUR, and the control group in kidney width (χ²=30.5; P<0.001); position and shape (χ²=30.6; P<0.001); intensity of activity (χ²=38.1; P<0.001); distribution of activity (χ²=34.5; P<0.001); and existence of scars (χ²=16; P<0.001). The probability of abnormalities on DMSA scans increased with the VUR grade. However, inside the groups of dilated and non-dilated VUR we found no significant statistical differences between those characteristics. CONCLUSIONS Our results indicate that kidneys without VUR or with non-dilated lateral VUR and dilated VUR on the contralateral side represent 2 different categories of parenchymal changes.

Published

2021

28. Uropathogenic Escherichia coli Infection Compromises the Blood-Testis Barrier by Disturbing mTORC1-mTORC2 Balance.

Author

Lu Y, Liu M, Tursi NJ, Yan B, Cao X, Che Q, Yang N, and Dong X

Subjects

Animals, Blood-Testis Barrier metabolism, Cells, Cultured, Escherichia coli Infections metabolism, Escherichia coli Infections microbiology, Humans, Male, Mechanistic Target of Rapamycin Complex 1 metabolism, Mechanistic Target of Rapamycin Complex 2 metabolism, Orchitis immunology, Orchitis metabolism, Orchitis microbiology, Rats, Sprague-Dawley, Sertoli Cells immunology, Sertoli Cells metabolism, Sertoli Cells microbiology, Spermatogenesis immunology, Testis immunology, Testis metabolism, Tight Junction Proteins immunology, Tight Junction Proteins metabolism, Urinary Tract Infections metabolism, Urinary Tract Infections microbiology, Uropathogenic Escherichia coli physiology, Rats, Blood-Testis Barrier immunology, Escherichia coli Infections immunology, Mechanistic Target of Rapamycin Complex 1 immunology, Mechanistic Target of Rapamycin Complex 2 immunology, Urinary Tract Infections immunology, Uropathogenic Escherichia coli immunology

Abstract

The structural and functional destruction of the blood-testis barrier (BTB) following uropathogenic E. coli (UPEC) infection may be a critical component of the pathologic progress of orchitis. Recent findings indicate that the mammalian target of the rapamycin (mTOR)-signaling pathway is implicated in the regulation of BTB assembly and restructuring. To explore the mechanisms underlying BTB damage induced by UPEC infection, we analyzed BTB integrity and the involvement of the mTOR-signaling pathway using in vivo and in vitro UPEC-infection models. We initially confirmed that soluble virulent factors secreted from UPEC trigger a stress response in Sertoli cells and disturb adjacent cell junctions via down-regulation of junctional proteins, including occludin, zonula occludens-1 (ZO-1), F-actin, connexin-43 (CX-43), β-catenin, and N-cadherin. The BTB was ultimately disrupted in UPEC-infected rat testes, and blood samples from UPEC-induced orchitis in these animals were positive for anti-sperm antibodies. Furthermore, we herein also demonstrated that mTOR complex 1 (mTORC1) over-activation and mTORC2 suppression contributed to the disturbance in the balance between BTB "opening" and "closing." More importantly, rapamycin (a specific mTORC1 inhibitor) significantly restored the expression of cell-junction proteins and exerted a protective effect on the BTB during UPEC infection. We further confirmed that short-term treatment with rapamycin did not aggravate spermatogenic degeneration in infected rats. Collectively, this study showed an association between abnormal activation of the mTOR-signaling pathway and BTB impairment during UPEC-induced orchitis, which may provide new insights into a potential treatment strategy for testicular infection., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Lu, Liu, Tursi, Yan, Cao, Che, Yang and Dong.)

Published

2021

29. Uromodulin: Roles in Health and Disease.

Author

Schaeffer C, Devuyst O, and Rampoldi L

Subjects

Animals, Cardiovascular Diseases metabolism, Cardiovascular Diseases pathology, Humans, Hypertension metabolism, Hypertension pathology, Kidney pathology, Kidney Calculi metabolism, Kidney Calculi pathology, Renal Insufficiency, Chronic metabolism, Renal Insufficiency, Chronic pathology, Urinary Tract Infections metabolism, Urinary Tract Infections pathology, Kidney metabolism, Uromodulin metabolism

Abstract

Uromodulin, a protein exclusively produced by the kidney, is the most abundant urinary protein in physiological conditions. Already described several decades ago, uromodulin has gained the spotlight in recent years, since the discovery that mutations in its encoding gene UMOD cause a renal Mendelian disease (autosomal dominant tubulointerstitial kidney disease) and that common polymorphisms are associated with multifactorial disorders, such as chronic kidney disease, hypertension, and cardiovascular diseases. Moreover, variations in uromodulin levels in urine and/or blood reflect kidney functioning mass and are of prognostic value for renal function, cardiovascular events, and overall mortality. The clinical relevance of uromodulin reflects its multifunctional nature, playing a role in renal ion transport and immunomodulation, in protection against urinary tract infections and renal stones, and possibly as a systemic antioxidant. Here, we discuss the multifaceted roles of this protein in kidney physiology and its translational relevance.

Published

2021

30. 111In-Labeled White Blood Cell Uptake in the Urinary Bladder in Occult Urinary Tract Infection.

Author

Ullman H, Viragh K, Thomas M, and Ni C

Subjects

Biological Transport, Female, Humans, Middle Aged, Staining and Labeling, Urinary Tract Infections metabolism, Indium Radioisotopes metabolism, Leukocytes metabolism, Urinary Bladder immunology, Urinary Tract Infections immunology

Abstract

Abstract: A 55-year-old woman with multiple medical problems, including anuric, dialysis-dependent, end-stage renal disease, presented with persistent fever of unknown origin. Despite extensive workup with cross-sectional imaging and panculture, the etiology was not found. Eventually, an 111In-labeled WBC scan was performed to evaluate for occult infection, which revealed intense heterogeneous uptake in the urinary bladder. Subsequent bladder catheterization showed pus and blood, which grew Klebsiella pneumoniae. The fevers resolved with adjustment of the therapy. Although urinary analysis and culture are standard practice in the workup of fever of unknown origin, anuria may obscure this common source of infection., Competing Interests: Conflicts of interest and sources of funding: none declared., (Copyright © 2020 Wolters Kluwer Health, Inc. All rights reserved.)

Published

2021

31. A Combination of Polybacterial MV140 and Candida albicans V132 as a Potential Novel Trained Immunity-Based Vaccine for Genitourinary Tract Infections.

Author

Martin-Cruz L, Sevilla-Ortega C, Benito-Villalvilla C, Diez-Rivero CM, Sanchez-Ramón S, Subiza JL, and Palomares O

Subjects

Animals, Antigens, Bacterial immunology, Antigens, Fungal immunology, Bacterial Infections immunology, Bacterial Infections metabolism, Bacterial Infections microbiology, Bacterial Vaccines immunology, CD4-Positive T-Lymphocytes drug effects, CD4-Positive T-Lymphocytes immunology, Candidiasis, Vulvovaginal immunology, Candidiasis, Vulvovaginal metabolism, Candidiasis, Vulvovaginal microbiology, Cells, Cultured, Coculture Techniques, Cytokines metabolism, Dendritic Cells drug effects, Dendritic Cells immunology, Female, Fungal Vaccines immunology, Humans, Lymphocyte Activation drug effects, Mice, Inbred BALB C, Phenotype, Urinary Tract Infections immunology, Urinary Tract Infections metabolism, Urinary Tract Infections microbiology, Vaccination, Vaccines, Combined immunology, Mice, Antigens, Bacterial administration & dosage, Antigens, Fungal administration & dosage, Bacterial Infections prevention & control, Bacterial Vaccines administration & dosage, Candidiasis, Vulvovaginal therapy, Fungal Vaccines administration & dosage, Urinary Tract Infections prevention & control, Vaccines, Combined administration & dosage

Abstract

Recurrent urinary tract infections (RUTIs) and recurrent vulvovaginal candidiasis (RVVCs) represent major healthcare problems with high socio-economic impact worldwide. Antibiotic and antifungal prophylaxis remain the gold standard treatments for RUTIs and RVVCs, contributing to the massive rise of antimicrobial resistance, microbiota alterations and co-infections. Therefore, the development of novel vaccine strategies for these infections are sorely needed. The sublingual heat-inactivated polyvalent bacterial vaccine MV140 shows clinical efficacy for the prevention of RUTIs and promotes Th1/Th17 and IL-10 immune responses. V132 is a sublingual preparation of heat-inactivated Candida albicans developed against RVVCs. A vaccine formulation combining both MV140 and V132 might well represent a suitable approach for concomitant genitourinary tract infections (GUTIs), but detailed mechanistic preclinical studies are still needed. Herein, we showed that the combination of MV140 and V132 imprints human dendritic cells (DCs) with the capacity to polarize potent IFN-γ- and IL-17A-producing T cells and FOXP3 + regulatory T (Treg) cells. MV140/V132 activates mitogen-activated protein kinases (MAPK)-, nuclear factor-κB (NF-κB)- and mammalian target of rapamycin (mTOR)-mediated signaling pathways in human DCs. MV140/V132 also promotes metabolic and epigenetic reprogramming in human DCs, which are key molecular mechanisms involved in the induction of innate trained immunity. Splenocytes from mice sublingually immunized with MV140/V132 display enhanced proliferative responses of CD4 + T cells not only upon in vitro stimulation with the related antigens contained in the vaccine formulation but also upon stimulation with phytohaemagglutinin. Additionally, in vivo sublingual immunization with MV140/V132 induces the generation of IgG and IgA antibodies against all the components contained in the vaccine formulation. We uncover immunological mechanisms underlying the potential mode of action of a combination of MV140 and V132 as a novel promising trained immunity-based vaccine (TIbV) for GUTIs., Competing Interests: OP has received fee for lectures or participation in Advisory Boards from Allergy Therapeutics, Amgen, AstraZeneca, Diater, GSK, Inmunotek SL, Novartis, Sanofi Genzyme, Stallergenes and Regeneron. OP has received research grants from Inmunotek SL and Novartis SL. JS is the founder and CEO of Inmunotek SL. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The reviewer SI declared a shared affiliation, with no collaboration, with several of the authors, LC, CO, CV and OP, to the handling editor at the time of review., (Copyright © 2021 Martin-Cruz, Sevilla-Ortega, Benito-Villalvilla, Diez‐Rivero, Sanchez-Ramón, Subiza and Palomares.)

Published

2021

32. Estrogen receptors in human bladder cells regulate innate cytokine responses to differentially modulate uropathogenic E. coli colonization.

Author

Sen A, Kaul A, and Kaul R

Subjects

Adhesins, Escherichia coli metabolism, Animals, Cell Proliferation, Cells, Cultured, Disease Susceptibility, Estrogen Receptor alpha genetics, Estrogen Receptor beta genetics, Estrogens metabolism, Female, Humans, Immunity, Innate, Menopause, Mice, Molecular Targeted Therapy, Pregnancy, RNA, Small Interfering genetics, Receptors, Estrogen, Receptors, G-Protein-Coupled, Epithelial Cells immunology, Estrogen Receptor alpha metabolism, Estrogen Receptor beta metabolism, Urinary Bladder immunology, Urinary Bladder pathology, Urinary Bladder Neoplasms immunology, Urinary Tract Infections metabolism, Uropathogenic Escherichia coli physiology

Abstract

The bladder epithelial cells elicit robust innate immune responses against urinary tract infections (UTIs) for preventing the bacterial colonization. Physiological fluctuations in circulating estrogen levels in women increase the susceptibility to UTI pathogenesis, often resulting in adverse health outcomes. Dr adhesin bearing Escherichia coli (Dr E. coli) cause recurrent UTIs in menopausal women and acute pyelonephritis in pregnant women. Dr E. coli bind to epithelial cells via host innate immune receptor CD55, under hormonal influence. The role of estrogens or estrogen receptors (ERs) in regulating the innate immune responses in the bladder are poorly understood. In the current study, we investigated the role of ERα, ERβ and GPR30 in modulating the innate immune responses against Dr E. coli induced UTI using human bladder epithelial carcinoma 5637 cells (HBEC). Both ERα and ERβ agonist treatment in bladder cells induced a protection against Dr E. coli invasion via upregulation of TNFα and downregulation of CD55 and IL10, and these effects were reversed by action of ERα and ERβ antagoinsts. In contrast, the agonist-mediated activation of GPR30 led to an increased bacterial colonization due to suppression of innate immune factors in the bladder cells, and these effects were reversed by the antagonist-mediated suppression of GPR30. Further, siRNA-mediated ERα knockdown in the bladder cells reversed the protection against bacterial invasion observed in the ERα positive bladder cells, by modulating the gene expression of TNFα, CD55 and IL10, thus confirming the protective role of ERα. We demonstrate for the first time a protective role of nuclear ERs, ERα and ERβ but not of membrane ER, GPR30 against Dr E. coli invasion in HBEC 5637 cells. These findings have many clinical implications and suggest that ERs may serve as potential drug targets towards developing novel therapeutics for regulating local innate immunity and treating UTIs., (Copyright © 2020 Elsevier GmbH. All rights reserved.)

Published

2021

33. SAA (Serum Amyloid A): A Novel Predictor of Stroke-Associated Infections.

Author

Schweizer J, Bustamante A, Lapierre-Fétaud V, Faura J, Scherrer N, Azurmendi Gil L, Fluri F, Schütz V, Luft A, Boned S, Sanchez JC, Montaner J, and Katan M

Subjects

Aged, Aged, 80 and over, Area Under Curve, Biomarkers, C-Reactive Protein metabolism, Cross Infection epidemiology, Deglutition Disorders physiopathology, Female, Healthcare-Associated Pneumonia epidemiology, Healthcare-Associated Pneumonia metabolism, Humans, Ischemic Stroke physiopathology, Ischemic Stroke therapy, Leukocyte Count, Logistic Models, Male, Middle Aged, Procalcitonin metabolism, ROC Curve, Reproducibility of Results, Sepsis metabolism, Sepsis physiopathology, Sepsis therapy, Urinary Tract Infections metabolism, Urinary Tract Infections physiopathology, Urinary Tract Infections therapy, Clinical Decision Rules, Cross Infection metabolism, Ischemic Stroke metabolism, Serum Amyloid A Protein metabolism

Abstract

Background and Purpose: The aim of this study was to evaluate and independently validate SAA (serum amyloid A)-a recently discovered blood biomarker-to predict poststroke infections., Methods: The derivation cohort (A) was composed of 283 acute ischemic stroke patients and the independent validation cohort (B), of 367 patients. The primary outcome measure was any stroke-associated infection, defined by the criteria of the US Centers for Disease Control and Prevention, occurring during hospitalization. To determine the association of SAA levels on admission with the development of infections, logistic regression models were calculated. The discriminatory ability of SAA was assessed, by calculating the area under the receiver operating characteristic curve., Results: After adjusting for all predictors that were significantly associated with any infection in the univariate analysis, SAA remained an independent predictor in study A (adjusted odds ratio, 1.44 [95% CI, 1.16-1.79]; P =0.001) and in study B (adjusted odds ratio, 1.52 [1.05-2.22]; P =0.028). Adding SAA to the best regression model without the biomarker, the discriminatory accuracy improved from 0.76 (0.69-0.83) to 0.79 (0.72-0.86; P <0.001; likelihood ratio test) in study A. These results were externally validated in study B with an improvement in the area under the receiver operating characteristic curve, from 0.75 (0.70-0.81) to 0.76 (0.71-0.82; P <0.038)., Conclusions: Among patients with ischemic stroke, blood SAA measured on admission is a novel independent predictor of infection after stroke. SAA improved the discrimination between patients who developed an infection compared with those who did not in both derivation and validation cohorts. Registration: URL: https://www.clinicaltrials.gov. Unique identifier: NCT00390962.

Published

2020

34. Creation of bladder assembloids mimicking tissue regeneration and cancer.

Author

Kim E, Choi S, Kang B, Kong J, Kim Y, Yoon WH, Lee HR, Kim S, Kim HM, Lee H, Yang C, Lee YJ, Kang M, Roh TY, Jung S, Kim S, Ku JH, and Shin K

Subjects

Adult, Animals, Bone Morphogenetic Proteins metabolism, Female, Hedgehogs metabolism, Hepatocyte Nuclear Factor 3-alpha metabolism, Humans, Male, Mice, Mice, Inbred C57BL, Organoids physiopathology, Single-Cell Analysis, Stem Cells cytology, Stem Cells pathology, Stem Cells physiology, Transcriptome, Urinary Bladder cytology, Urinary Tract Infections metabolism, Urinary Tract Infections pathology, Organoids pathology, Organoids physiology, Regeneration, Urinary Bladder pathology, Urinary Bladder physiology, Urinary Bladder Neoplasms pathology, Urinary Bladder Neoplasms physiopathology

Abstract

Current organoid models are limited by their inability to mimic mature organ architecture and associated tissue microenvironments 1,2 . Here we create multilayer bladder 'assembloids' by reconstituting tissue stem cells with stromal components to represent an organized architecture with an epithelium surrounding stroma and an outer muscle layer. These assembloids exhibit characteristics of mature adult bladders in cell composition and gene expression at the single-cell transcriptome level, and recapitulate in vivo tissue dynamics of regenerative responses to injury. We also develop malignant counterpart tumour assembloids to recapitulate the in vivo pathophysiological features of urothelial carcinoma. Using the genetically manipulated tumour-assembloid platform, we identify tumoural FOXA1, induced by stromal bone morphogenetic protein (BMP), as a master pioneer factor that drives enhancer reprogramming for the determination of tumour phenotype, suggesting the importance of the FOXA1-BMP-hedgehog signalling feedback axis between tumour and stroma in the control of tumour plasticity.

Published

2020

35. Functionally distinct resident macrophage subsets differentially shape responses to infection in the bladder.

Author

Lacerda Mariano L, Rousseau M, Varet H, Legendre R, Gentek R, Saenz Coronilla J, Bajenoff M, Gomez Perdiguero E, and Ingersoll MA

Subjects

Animals, Gene Expression Profiling, Macrophages metabolism, Mice, Urinary Bladder, Urinary Tract Infections metabolism

Abstract

Resident macrophages are abundant in the bladder, playing key roles in immunity to uropathogens. Yet, whether they are heterogeneous, where they come from, and how they respond to infection remain largely unknown. We identified two macrophage subsets in mouse bladders, MacM in muscle and MacL in the lamina propria, each with distinct protein expression and transcriptomes. Using a urinary tract infection model, we validated our transcriptomic analyses, finding that MacM macrophages phagocytosed more bacteria and polarized to an anti-inflammatory profile, whereas MacL macrophages died rapidly during infection. During resolution, monocyte-derived cells contributed to tissue-resident macrophage pools and both subsets acquired transcriptional profiles distinct from naïve macrophages. Macrophage depletion resulted in the induction of a type 1-biased immune response to a second urinary tract infection, improving bacterial clearance. Our study uncovers the biology of resident macrophages and their responses to an exceedingly common infection in a largely overlooked organ, the bladder., (Copyright © 2020 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution NonCommercial License 4.0 (CC BY-NC).)

Published

2020

36. Infections and diabetes: Risks and mitigation with reference to India.

Author

Unnikrishnan R and Misra A

Subjects

Adaptive Immunity immunology, Blood Glucose metabolism, COVID-19 immunology, COVID-19 metabolism, Diabetes Mellitus immunology, Diabetes Mellitus metabolism, Glycemic Control, Humans, Immunity, Innate immunology, India epidemiology, Infections epidemiology, Infections immunology, Infections metabolism, Reproductive Tract Infections epidemiology, Reproductive Tract Infections immunology, Reproductive Tract Infections metabolism, Respiratory Tract Infections epidemiology, Respiratory Tract Infections immunology, Respiratory Tract Infections metabolism, Risk Factors, SARS-CoV-2, Severity of Illness Index, Skin Diseases, Bacterial epidemiology, Skin Diseases, Bacterial immunology, Skin Diseases, Bacterial metabolism, Soft Tissue Infections epidemiology, Soft Tissue Infections immunology, Soft Tissue Infections metabolism, Tuberculosis, Pulmonary immunology, Tuberculosis, Pulmonary metabolism, Urinary Tract Infections epidemiology, Urinary Tract Infections immunology, Urinary Tract Infections metabolism, COVID-19 epidemiology, Diabetes Mellitus epidemiology, Tuberculosis, Pulmonary epidemiology

Abstract

Background and Aims: The link between diabetes and increased risk of infectious disease has long been recognized, but has re-entered sharp focus following the COVID-19 pandemic., Methods: A literature search was conducted in PubMed for articles in English on diabetes and infection., Results: Diabetes predisposes to infections through alterations in innate and acquired immune defenses. Outcomes of infection are worse in people with uncontrolled diabetes, and infection can worsen hyperglycemia in hitherto well controlled diabetes (bidirectional relationship). Diabetes does not increase the risk of infection with COVID-19 per se, but predisposes to severe disease and poor outcomes. COVID-19 has also been linked to deterioration of glycemic control as well as new-onset diabetes., Conclusions: Clinicians caring for people with diabetes should be aware of the increased risk of infections in this population, as well as the possibility of worsening hyperglycemia. A holistic approach with frequent monitoring of blood glucose levels and appropriate titration of medications, along with close attention to nutritional status, is essential to ensure the best possible outcomes., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 Diabetes India. Published by Elsevier Ltd. All rights reserved.)

Published

2020

37. A diagnostic algorithm for detection of urinary tract infections in hospitalized patients with bacteriuria: The "Triple F" approach supported by Procalcitonin and paired blood and urine cultures.

Author

Rothe K, Spinner CD, Waschulzik B, Janke C, Schneider J, Schneider H, Braitsch K, Smith C, Schmid RM, Busch DH, and Katchanov J

Subjects

Aged, Aged, 80 and over, Algorithms, Bacteremia microbiology, Bacteriuria diagnosis, Blood Culture methods, Cohort Studies, Female, Humans, Male, Middle Aged, Staphylococcus aureus isolation & purification, Urinary Tract Infections metabolism, Blood microbiology, Procalcitonin metabolism, Urinary Tract Infections diagnosis, Urine microbiology

Abstract

For acute medicine physicians, distinguishing between asymptomatic bacteriuria (ABU) and clinically relevant urinary tract infections (UTI) is challenging, resulting in overtreatment of ABU and under-recognition of urinary-source bacteraemia without genitourinary symptoms (USB). We conducted a retrospective analysis of ED encounters in a university hospital between October 2013 and September 2018 who met the following inclusion criteria: Suspected UTI with simultaneous collection of paired urinary cultures and blood cultures (PUB) and determination of Procalcitonin (PCT). We sought to develop a simple algorithm based on clinical signs and PCT for the management of suspected UTI. Individual patient presentations were retrospectively evaluated by a clinical "triple F" algorithm (F1 ="fever", F2 ="failure", F3 ="focus") supported by PCT and PUB. We identified 183 ED patients meeting the inclusion criteria. We introduced the term UTI with systemic involvement (SUTI) with three degrees of diagnostic certainty: bacteremic UTI (24.0%; 44/183), probable SUTI (14.2%; 26/183) and possible SUTI (27.9%; 51/183). In bacteremic UTI, half of patients (54.5%; 24/44) presented without genitourinary symptoms. Discordant bacteraemia was diagnosed in 16 patients (24.6% of all bacteremic patients). An alternative focus was identified in 67 patients, five patients presented with S. aureus bacteremia. 62 patients were diagnosed with possible UTI (n = 20) or ABU (n = 42). Using the proposed "triple F" algorithm, dichotomised PCT of < 0.25 pg/ml had a negative predictive value of 88.7% and 96.2% for bacteraemia und accordant bacteraemia respectively. The application of the algorithm to our cohort could have resulted in 33.3% reduction of BCs. Using the diagnostic categories "possible" or "probable" SUTI as a trigger for initiation of antimicrobial treatment would have reduced or streamlined antimicrobial use in 30.6% and 58.5% of cases, respectively. In conclusion, the "3F" algorithm supported by PCT and PUB is a promising diagnostic and antimicrobial stewardship tool., Competing Interests: The authors have declared that no competing interests exist.

Published

2020

38. Crude polysaccharides from the seeds of Vaccaria segetalis prevent the urinary tract infection through the stimulation of kidney innate immunity.

Author

Mao X, Guo H, Yao R, Bao L, Sun J, Bao Y, Guo B, Gao Y, Shi Y, Zhang H, and Cui X

Subjects

Animals, Anti-Bacterial Agents isolation & purification, Bacterial Adhesion drug effects, Bacterial Load, Cytokines metabolism, Disease Models, Animal, Escherichia coli Infections immunology, Escherichia coli Infections metabolism, Escherichia coli Infections microbiology, Female, Host-Pathogen Interactions, Immunologic Factors isolation & purification, Inflammation Mediators metabolism, Kidney immunology, Kidney metabolism, Kidney microbiology, Mice, Inbred C3H, Mice, Inbred C57BL, Plant Extracts isolation & purification, Polysaccharides isolation & purification, Rats, Sprague-Dawley, Signal Transduction, Urinary Bladder drug effects, Urinary Bladder microbiology, Urinary Tract Infections immunology, Urinary Tract Infections metabolism, Urinary Tract Infections microbiology, Uropathogenic Escherichia coli immunology, Uropathogenic Escherichia coli pathogenicity, Virulence drug effects, Anti-Bacterial Agents pharmacology, Escherichia coli Infections prevention & control, Immunity, Innate drug effects, Immunologic Factors pharmacology, Kidney drug effects, Plant Extracts pharmacology, Polysaccharides pharmacology, Seeds chemistry, Urinary Tract Infections prevention & control, Uropathogenic Escherichia coli drug effects, Vaccaria chemistry

Abstract

Ethnopharmacological Relevance: The seeds of Vaccaria segetalis (Neck.) Garcke is used for the treatment of urinary diseases in Traditional Chinese Medicine according to the Chinese Pharmacopoeia. Crude polysaccharides and the aqueous extract from the seeds of V. segetalis (SVCP) were proved to be effective on treating benign prostatic hyperplasia., Aim of the Study: The aim of this study was to test the effects of SVCP on urinary tract infection (UTI) induced by uropathogenic Escherichia coli (UPEC) strain CFT073 in the rat model and to investigate the underlying mechanisms., Materials and Methods: A rat UTI model was established with the infection of UPEC strain CFT073. After oral administration of SVCP, the urinalysis and histological examination were evaluated. The levels of pro-inflammatory cytokines, procalcitonin (PCT) and polymeric Ig receptor (PIGR) were used to test the effects of SVCP on host immunity. The mRNA level of PapG in CFT073 was used to test the influence of SVCP on virulence factor. The effects of SVCP on the inhibition of bacterial adhesion were evaluated with mice UTI model., Results: In the rat UTI model, the levels of bacterial load, white blood cells (WBC) and red blood cells (RBC) in urine and the pathological injury in the bladder were significantly up-regulated, the expression of PIGR in kidney was down-regulated, no significant change was observed on the pro-inflammatory cytokines in urine. After oral administration of SVCP for 3 days, the levels of bacterial load, WBC and RBC in urine were significantly decreased, the pathological injury in the bladder were remarkably inhibited. The expression of IL-6, IL-8 in urine and PIGR in kidney were significantly up-regulated by SVCP (200 mg/kg). SVCP showed no effect on the concentration of PCT in serum. SVCP failed to down-regulate the mRNA level of PapG in CFT073. In the mice UTI model, pre-treatment of SVCP failed to inhibit the intracellular bacterial load in the bladder., Conclusions: The therapeutic effects of SVCP on treating UTIs might result from the up-regulation of innate immunity in the kidney. SVCP can be used as an alternative therapeutic agent for UTIs., (Copyright © 2020. Published by Elsevier B.V.)

Published

2020

39. Metabolic acidosis exacerbates pyelonephritis in mice prone to vesicoureteral reflux.

Author

Purkerson JM, Corley JL, and Schwartz GJ

Subjects

Acidosis complications, Acidosis pathology, Animals, Cells, Cultured, Chemokines metabolism, Disease Models, Animal, Escherichia coli Infections microbiology, Escherichia coli Infections pathology, Mice, Mice, Inbred C3H, Pyelonephritis etiology, Pyelonephritis pathology, Urinary Tract Infections microbiology, Urinary Tract Infections pathology, Uropathogenic Escherichia coli isolation & purification, Vesico-Ureteral Reflux pathology, Acidosis metabolism, Escherichia coli Infections metabolism, Pyelonephritis metabolism, Urinary Tract Infections metabolism, Vesico-Ureteral Reflux metabolism

Abstract

Acute pyelonephritis is a common, serious bacterial infection in children. The prevalence of acute pyelonephritis is due at least in part to vesicoureteral reflux (VUR). Although an association between abnormalities in electrolyte and acid-base balance and pyelonephritis is common in young children, the impact of metabolic acidosis (MA) on progression of acute pyelonephritis is not fully understood. In this study, the effect of MA on pyelonephritis was studied in C3H mouse strains prone to VUR. MA induced by ammonium chloride supplementation in food specifically impaired clearance of urinary tract infection with uropathogenic Escherichia. coli (UPEC-UTI) in innate immune competent C3H strains (HeOuJ, HeN), whereas kidney UPEC burden in Tlr-4-deficient HeJ mice was unaffected. Antibody-mediated depletion of myeloid cells (monocytes, neutrophil) markedly increased UPEC burden in the bladder and kidney confirming the pivotal role of neutrophils and tissue-resident macrophages in clearance of UPEC-UTI. MA concurrent with UPEC-UTI markedly increased expression of cytokine (TNFα, IL-1β, IL-6) and chemokine (CXCL 1, 2, and 5) mRNA in isolated kidney CD cells and kidney neutrophil infiltrates were increased four- to fivefold compared to normal, UPEC-infected mice. Thus, MA intensified pyelonephritis and increased the risk of kidney injury by impairing clearance of UPEC-UTI and potentiating renal inflammation characterized by an elevated kidney neutrophil infiltrate., (© 2020 The Authors. Physiological Reports published by Wiley Periodicals LLC on behalf of The Physiological Society and the American Physiological Society.)

Published

2020

40. Architecture and function of human uromodulin filaments in urinary tract infections.

Author

Weiss GL, Stanisich JJ, Sauer MM, Lin CW, Eras J, Zyla DS, Trück J, Devuyst O, Aebi M, Pilhofer M, and Glockshuber R

Subjects

Adhesins, Bacterial chemistry, Cryoelectron Microscopy, Glycosylation, Humans, Ligands, Urinary Tract Infections metabolism, Uromodulin chemistry, Uromodulin physiology

Abstract

Uromodulin is the most abundant protein in human urine, and it forms filaments that antagonize the adhesion of uropathogens; however, the filament structure and mechanism of protection remain poorly understood. We used cryo-electron tomography to show that the uromodulin filament consists of a zigzag-shaped backbone with laterally protruding arms. N-glycosylation mapping and biophysical assays revealed that uromodulin acts as a multivalent ligand for the bacterial type 1 pilus adhesin, presenting specific epitopes on the regularly spaced arms. Imaging of uromodulin-uropathogen interactions in vitro and in patient urine showed that uromodulin filaments associate with uropathogens and mediate bacterial aggregation, which likely prevents adhesion and allows clearance by micturition. These results provide a framework for understanding uromodulin in urinary tract infections and in its more enigmatic roles in physiology and disease., (Copyright © 2020 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works.)

Published

2020

41. MrpH, a new class of metal-binding adhesin, requires zinc to mediate biofilm formation.

Author

Jiang W, Ubhayasekera W, Breed MC, Norsworthy AN, Serr N, Mobley HLT, Pearson MM, and Knight SD

Subjects

Adhesins, Bacterial chemistry, Adhesins, Bacterial genetics, Amino Acid Sequence, Fimbriae Proteins chemistry, Fimbriae Proteins genetics, Humans, Proteus Infections metabolism, Proteus Infections microbiology, Proteus mirabilis chemistry, Proteus mirabilis genetics, Sequence Alignment, Urinary Tract Infections metabolism, Zinc chemistry, Adhesins, Bacterial metabolism, Biofilms, Fimbriae Proteins metabolism, Proteus mirabilis metabolism, Urinary Tract Infections microbiology, Zinc metabolism

Abstract

Proteus mirabilis, a Gram-negative uropathogen, is a major causative agent in catheter-associated urinary tract infections (CAUTI). Mannose-resistant Proteus-like fimbriae (MR/P) are crucially important for P. mirabilis infectivity and are required for biofilm formation and auto-aggregation, as well as for bladder and kidney colonization. Here, the X-ray crystal structure of the MR/P tip adhesin, MrpH, is reported. The structure has a fold not previously described and contains a transition metal center with Zn2+ coordinated by three conserved histidine residues and a ligand. Using biofilm assays, chelation, metal complementation, and site-directed mutagenesis of the three histidines, we show that an intact metal binding site occupied by zinc is essential for MR/P fimbria-mediated biofilm formation, and furthermore, that P. mirabilis biofilm formation is reversible in a zinc-dependent manner. Zinc is also required for MR/P-dependent agglutination of erythrocytes, and mutation of the metal binding site renders P. mirabilis unfit in a mouse model of UTI. The studies presented here provide important clues as to the mechanism of MR/P-mediated biofilm formation and serve as a starting point for identifying the physiological MR/P fimbrial receptor., Competing Interests: The authors have declared that no competing interests exist.

Published

2020

42. Androgen-Influenced Polarization of Activin A-Producing Macrophages Accompanies Post-pyelonephritic Renal Scarring.

Author

Hreha TN, Collins CA, Daugherty AL, Griffith JM, Hruska KA, and Hunstad DA

Subjects

Animals, Bacterial Load, Cytokines metabolism, Escherichia coli Infections microbiology, Escherichia coli Infections pathology, Female, Fibrosis, Host-Pathogen Interactions, Inflammation Mediators metabolism, Kidney metabolism, Kidney microbiology, Kidney pathology, Macrophages metabolism, Macrophages microbiology, Mice, Inbred C57BL, Mice, Transgenic, Phenotype, Pyelonephritis microbiology, Pyelonephritis pathology, Testosterone toxicity, Urinary Tract Infections microbiology, Urinary Tract Infections pathology, Uropathogenic Escherichia coli pathogenicity, Activins metabolism, Androgens toxicity, Escherichia coli Infections metabolism, Kidney drug effects, Macrophages drug effects, Pyelonephritis metabolism, Testosterone analogs & derivatives, Urinary Tract Infections metabolism

Abstract

Ascending bacterial pyelonephritis, a form of urinary tract infection (UTI) that can result in hospitalization, sepsis, and other complications, occurs in ~250,000 US patients annually; uropathogenic Escherichia coli (UPEC) cause a large majority of these infections. Although UTIs are primarily a disease of women, acute pyelonephritis in males is associated with increased mortality and morbidity, including renal scarring, and end-stage renal disease. Preclinical models of UTI have only recently allowed investigation of sex and sex-hormone effects on pathogenesis. We previously demonstrated that renal scarring after experimental UPEC pyelonephritis is augmented by androgen exposure; testosterone exposure increases both the severity of pyelonephritis and the degree of renal scarring in both male and female mice. Activin A is an important driver of scarring in non-infectious renal injury, as well as a mediator of macrophage polarization. In this work, we investigated how androgen exposure influences immune cell recruitment to the UPEC-infected kidney and how cell-specific activin A production affects post-pyelonephritic scar formation. Compared with vehicle-treated females, androgenized mice exhibited reduced bacterial clearance from the kidney, despite robust myeloid cell recruitment that continued to increase as infection progressed. Infected kidneys from androgenized mice harbored more alternatively activated (M2) macrophages than vehicle-treated mice, reflecting an earlier shift from a pro-inflammatory (M1) phenotype. Androgen exposure also led to a sharp increase in activin A-producing myeloid cells in the infected kidney, as well as decreased levels of follistatin (which normally antagonizes activin action). As a result, infection in androgenized mice featured prolonged polarization of macrophages toward a pro-fibrotic M2a phenotype, accompanied by an increase in M2a-associated cytokines. These data indicate that androgen enhancement of UTI severity and resulting scar formation is related to augmented local activin A production and corresponding promotion of M2a macrophage polarization., (Copyright © 2020 Hreha, Collins, Daugherty, Griffith, Hruska and Hunstad.)

Published

2020

43. Spatial proteomics revealed a CX 3 CL1-dependent crosstalk between the urothelium and relocated macrophages through IL-6 during an acute bacterial infection in the urinary bladder.

Author

Bottek J, Soun C, Lill JK, Dixit A, Thiebes S, Beerlage AL, Horstmann M, Urbanek A, Heuer H, Uszkoreit J, Eisenacher M, Bracht T, Sitek B, Hoffmann F, Vijitha N, von Eggeling F, and Engel DR

Subjects

Animals, Disease Models, Animal, Disease Susceptibility, Fluorescent Antibody Technique, Immunohistochemistry, Macrophages immunology, Mice, Urinary Bladder immunology, Urinary Bladder metabolism, Urinary Bladder microbiology, Urinary Tract Infections etiology, Urinary Tract Infections metabolism, Urinary Tract Infections pathology, Urothelium microbiology, Cell Communication, Chemokine CX3CL1 metabolism, Interleukin-6 metabolism, Macrophages metabolism, Proteomics methods, Urothelium immunology, Urothelium metabolism

Abstract

The urothelium of the urinary bladder represents the first line of defense. However, uropathogenic E. coli (UPEC) damage the urothelium and cause acute bacterial infection. Here, we demonstrate the crosstalk between macrophages and the urothelium stimulating macrophage migration into the urothelium. Using spatial proteomics by MALDI-MSI and LC-MS/MS, a novel algorithm revealed the spatial activation and migration of macrophages. Analysis of the spatial proteome unravelled the coexpression of Myo9b and F4/80 in the infected urothelium, indicating that macrophages have entered the urothelium upon infection. Immunofluorescence microscopy additionally indicated that intraurothelial macrophages phagocytosed UPEC and eliminated neutrophils. Further analysis of the spatial proteome by MALDI-MSI showed strong expression of IL-6 in the urothelium and local inhibition of this molecule reduced macrophage migration into the urothelium and aggravated the infection. After IL-6 inhibition, the expression of matrix metalloproteinases and chemokines, such as CX 3 CL1 was reduced in the urothelium. Accordingly, macrophage migration into the urothelium was diminished in the absence of CX 3 CL1 signaling in Cx 3 cr1 gfp/gfp mice. Conclusively, this study describes the crosstalk between the infected urothelium and macrophages through IL-6-induced CX 3 CL1 expression. Such crosstalk facilitates the relocation of macrophages into the urothelium and reduces bacterial burden in the urinary bladder.

Published

2020

44. Cytotoxic necrotizing factor 1 promotes bladder cancer angiogenesis through activating RhoC.

Author

Guo Y, Wang J, Zhou K, Lv J, Wang L, Gao S, Keller ET, Zhang ZS, Wang Q, and Yao Z

Subjects

Animals, Cell Line, Escherichia coli Infections metabolism, Escherichia coli Infections microbiology, HEK293 Cells, Humans, Mice, Mice, Inbred BALB C, Mice, Nude, Neovascularization, Pathologic microbiology, Neutrophils metabolism, Tumor Microenvironment physiology, Urinary Bladder microbiology, Urinary Bladder Neoplasms microbiology, Urinary Tract Infections metabolism, Urinary Tract Infections microbiology, Bacterial Toxins metabolism, Escherichia coli Proteins metabolism, Neovascularization, Pathologic metabolism, Urinary Bladder metabolism, Urinary Bladder Neoplasms metabolism, rhoC GTP-Binding Protein metabolism

Abstract

Uropathogenic Escherichia coli (UPEC), a leading cause of urinary tract infections, is associated with prostate and bladder cancers. Cytotoxic necrotizing factor 1 (CNF1) is a key UPEC toxin; however, its role in bladder cancer is unknown. In the present study, we found CNF1 induced bladder cancer cells to secrete vascular endothelial growth factor (VEGF) through activating Ras homolog family member C (RhoC), leading to subsequent angiogenesis in the bladder cancer microenvironment. We then investigated that CNF1-mediated RhoC activation modulated the stabilization of hypoxia-inducible factor 1α (HIF1α) to upregulate the VEGF. We demonstrated in vitro that active RhoC increased heat shock factor 1 (HSF1) phosphorylation, which induced the heat shock protein 90α (HSP90α) expression, leading to stabilization of HIF1α. Active RhoC elevated HSP90α, HIF1α, VEGF expression, and angiogenesis in the human bladder cancer xenografts. In addition, HSP90α, HIF1α, and VEGF expression were also found positively correlated with the human bladder cancer development. These results provide a potential mechanism through which UPEC contributes to bladder cancer progression, and may provide potential therapeutic targets for bladder cancer., (© 2020 Federation of American Societies for Experimental Biology.)

Published

2020

45. A highly polarized T H 2 bladder response to infection promotes epithelial repair at the expense of preventing new infections.

Author

Wu J, Hayes BW, Phoenix C, Macias GS, Miao Y, Choi HW, Hughes FM Jr, Todd Purves J, Lee Reinhardt R, and Abraham SN

Subjects

Animals, Bacterial Load, Biomarkers, Cell Line, Cystitis pathology, Cytokines metabolism, Disease Models, Animal, Female, Mice, Mice, Knockout, Mucous Membrane pathology, Th1 Cells immunology, Th1 Cells metabolism, Th1 Cells pathology, Urinary Tract Infections etiology, Urinary Tract Infections metabolism, Urinary Tract Infections microbiology, Wound Healing genetics, Wound Healing immunology, Cystitis etiology, Cystitis metabolism, Lymphocyte Activation immunology, Mucous Membrane immunology, Mucous Membrane metabolism, Th2 Cells immunology, Th2 Cells metabolism

Abstract

Urinary tract infections (UTIs) typically evoke prompt and vigorous innate bladder immune responses, including extensive exfoliation of the epithelium. To explain the basis for the extraordinarily high recurrence rates of UTIs, we examined adaptive immune responses in mouse bladders. We found that, following each bladder infection, a highly T helper type 2 (T H 2)-skewed immune response directed at bladder re-epithelialization is observed, with limited capacity to clear infection. This response is initiated by a distinct subset of CD301b + OX40L + dendritic cells, which migrate into the bladder epithelium after infection before trafficking to lymph nodes to preferentially activate T H 2 cells. The bladder epithelial repair response is cumulative and aberrant as, after multiple infections, the epithelium was markedly thickened and bladder capacity was reduced relative to controls. Thus, recurrence of UTIs and associated bladder dysfunction are the outcome of the preferential focus of the adaptive immune response on epithelial repair at the expense of bacterial clearance.

Published

2020

46. Distinguishing Low and High Water Consumers-A Paradigm of Disease Risk.

Author

Armstrong LE, Muñoz CX, and Armstrong EM

Subjects

Arginine Vasopressin blood, Beverages, Diabetes Mellitus etiology, Diabetes Mellitus prevention & control, Feeding Behavior, Food, Healthy Volunteers, Hydrocortisone blood, Kidney Calculi metabolism, Metabolic Syndrome etiology, Metabolic Syndrome prevention & control, Obesity etiology, Obesity prevention & control, Renal Insufficiency, Chronic etiology, Renal Insufficiency, Chronic prevention & control, Risk, Urinary Tract Infections metabolism, Water, Water-Electrolyte Balance, Drinking physiology, Recommended Dietary Allowances

Abstract

A long-standing body of clinical observations associates low 24-h total water intake (TWI = water + beverages + food moisture) with acute renal disorders such as kidney stones and urinary tract infections. These findings prompted observational studies and experimental interventions comparing habitual low volume (LOW) and high volume (HIGH) drinkers. Investigators have learned that the TWI of LOW and HIGH differ by 1-2 L·d -1 , their hematological values (e.g., plasma osmolality, plasma sodium) are similar and lie within the laboratory reference ranges of healthy adults and both groups appear to successfully maintain water-electrolyte homeostasis. However, LOW differs from HIGH in urinary biomarkers (e.g., reduced urine volume and increased osmolality or specific gravity), as well as higher plasma concentrations of arginine vasopressin (AVP) and cortisol. Further, evidence suggests that both a low daily TWI and/or elevated plasma AVP influence the development and progression of metabolic syndrome, diabetes, obesity, chronic kidney disease, hypertension and cardiovascular disease. Based on these studies, we propose a theory of increased disease risk in LOW that involves chronic release of fluid-electrolyte (i.e., AVP) and stress (i.e., cortisol) hormones. This narrative review describes small but important differences between LOW and HIGH, advises future investigations and provides practical dietary recommendations for LOW that are intended to decrease their risk of chronic diseases.

Published

2020

47. TGFβ1 orchestrates renal fibrosis following Escherichia coli pyelonephritis.

Author

Hreha TN, Collins CA, Daugherty AL, Twentyman J, Paluri N, and Hunstad DA

Subjects

Animals, Female, Fibrosis metabolism, Fibrosis microbiology, Kidney metabolism, Kidney microbiology, Kidney pathology, Mice, Inbred C57BL, Pyelonephritis microbiology, Signal Transduction, Testosterone administration & dosage, Testosterone analogs & derivatives, Androgens metabolism, Pyelonephritis metabolism, Pyelonephritis pathology, Transforming Growth Factor beta metabolism, Urinary Tract Infections metabolism, Urinary Tract Infections microbiology, Uropathogenic Escherichia coli metabolism

Abstract

Renal scarring after pyelonephritis is linked to long-term health risks for hypertension and chronic kidney disease. Androgen exposure increases susceptibility to, and severity of, uropathogenic Escherichia coli (UPEC) pyelonephritis and resultant scarring in both male and female mice, while anti-androgen therapy is protective against severe urinary tract infection (UTI) in these models. This work employed androgenized female C57BL/6 mice to elucidate the molecular mechanisms of post-infectious renal fibrosis and to determine how these pathways are altered by the presence of androgens. We found that elevated circulating testosterone levels primed the kidney for fibrosis by increasing local production of TGFβ1 before the initiation of UTI, altering the ratio of transcription factors Smad2 and Smad3 and increasing the presence of mesenchymal stem cell (MSC)-like cells and Gli1 + activated myofibroblasts, the cells primarily responsible for deposition of scar components. Increased production of TGFβ1 and aberrations in Smad2:Smad3 were maintained throughout the course of infection in the presence of androgen, correlating with renal scarring that was not observed in non-androgenized female mice. Pharmacologic inhibition of TGFβ1 signaling blunted myofibroblast activation. We conclude that renal fibrosis after pyelonephritis is exacerbated by the presence of androgens and involves activation of the TGFβ1 signaling cascade, leading to increases in cortical populations of MSC-like cells and the Gli1 + activated myofibroblasts that are responsible for scarring., (© 2020 The Authors. Physiological Reports published by Wiley Periodicals, Inc. on behalf of The Physiological Society and the American Physiological Society.)

Published

2020

48. Association of Toll-like 4 receptor gene polymorphism (rs4986790, rs4986791) with the risk of urinary tract infection: A systematic review and meta-analysis.

Author

Huang WL, Xu Y, and Wan SP

Subjects

Animals, Female, Humans, Male, Urinary Tract Infections genetics, Genetic Predisposition to Disease genetics, Polymorphism, Single Nucleotide genetics, Toll-Like Receptor 4 genetics, Urinary Tract Infections metabolism

Abstract

Recently published studies had shown that there may be a potential link between the Single nucleotide polymorphism (SNP) of Toll-like receptor-4 (TLR4), and the risk of urinary tract infection (UTI); however, no consensus was reached. To further understand the relationship between TLR SNPs and urinary tract infections, we searched for related studies published in PubMed, EMBASE, and Web of Science before October 30, 2018, for further systematic review and meta-analysis. Our study accrued 10 case-control studies, which included 1476 urinary tract infection patients and 1449 healthy controls in TLR4(rs4986790, rs4986791). R3.4.2 and Stata 15.0 software were used for the analysis. In general, there was no statistically significant association between rs4986790 and urinary tract infection in the four genetic models. However, in the subgroup analysis, the Asian population showed significantly difference in the allelic model (G vs A: OR = 1.88 [95% CI:1.42-2.49], P = .03). In addition, there were also significant differences in the dominant model (GG + AG vs AA OR = 1.97 [95% CI:1.46-2.66], P = .01). Due to the small number of available literatures, no meaningful conclusion can be drawn regarding the relationship between TLR4 (rs4986791) and the risk of urinary tract infections in general. Nevertheless, our meta-analysis shows that in Asian populations, TLR4 (rs4986790) may be associated with risk of urinary tract infection., (© 2019 The Authors. The Kaohsiung Journal of Medical Sciences published by John Wiley & Sons Australia on behalf of Kaohsiung Medical University.)

Published

2020

49. Characterizing Patients with Recurrent Urinary Tract Infections in Vesicoureteral Reflux: A Pilot Study of the Urinary Proteome.

Author

Vitko D, Cho PS, Kostel SA, DiMartino SE, Cabour LD, Migliozzi MA, Logvinenko T, Warren PG, Froehlich JW, and Lee RS

Subjects

Female, Humans, Male, Peptides urine, Pilot Projects, Recurrence, Urinary Tract Infections metabolism, Urine chemistry, Vesico-Ureteral Reflux metabolism, Proteome, Urinary Tract Infections urine, Vesico-Ureteral Reflux urine

Abstract

Recurrent urinary tract infections (UTIs) pose a significant burden on the health care system. Underlying mechanisms predisposing children to UTIs and associated changes in the urinary proteome are not well understood. We aimed to investigate the urinary proteome of a subset of children who have vesicoureteral reflux (VUR) and recurrent UTIs because of their risk of developing infection-related renal damage. Improving diagnostic modalities to identify UTI risk factors would significantly alter the clinical management of children with VUR. We profiled the urinary proteomes of 22 VUR patients with low grade VUR (1-3 out of 5), a history of recurrent UTIs, and renal scarring, comparing them to those obtained from 22 age-matched controls. Urinary proteins were analyzed by mass spectrometry followed by protein quantitation based on spectral counting. Of the 2,551 proteins identified across both cohorts, 964 were robustly quantified, as defined by meeting criteria with spectral count (SC) ≥2 in at least 7 patients in either VUR or control cohort. Eighty proteins had differential expression between the two cohorts, with 44 proteins significantly up-regulated and 36 downregulated (q <0.075, FC ≥1.2). Urinary proteins involved in inflammation, acute phase response (APR), modulation of extracellular matrix (ECM), and carbohydrate metabolism were altered among the study cohort., (© 2020 Vitko et al.)

Published

2020

50. Acidosis induces antimicrobial peptide expression and resistance to uropathogenic E. coli infection in kidney collecting duct cells via HIF-1α.

Author

Peng H, Purkerson JM, Freeman RS, Schwaderer AL, and Schwartz GJ

Subjects

Acidosis immunology, Animals, Antimicrobial Cationic Peptides genetics, Cell Line, Escherichia coli Infections immunology, Escherichia coli Infections metabolism, Escherichia coli Infections microbiology, Host-Pathogen Interactions, Immunity, Innate, Kidney Tubules, Collecting immunology, Kidney Tubules, Collecting microbiology, Mice, Prolyl Hydroxylases metabolism, Protein Stability, Signal Transduction, Up-Regulation, Urinary Tract Infections immunology, Urinary Tract Infections metabolism, Urinary Tract Infections microbiology, Uropathogenic Escherichia coli immunology, beta-Defensins metabolism, Cathelicidins, Acidosis metabolism, Antimicrobial Cationic Peptides metabolism, Escherichia coli Infections prevention & control, Hypoxia-Inducible Factor 1, alpha Subunit metabolism, Kidney Tubules, Collecting metabolism, Urinary Tract Infections prevention & control, Uropathogenic Escherichia coli pathogenicity

Abstract

Acute pyelonephritis is frequently associated with metabolic acidosis. We previously reported that metabolic acidosis stimulates expression of hypoxia-inducible factor (HIF)-1α-induced target genes such as stromal derived factor-1 and cathelicidin, an antimicrobial peptide. Since the collecting duct (CD) plays a pivotal role in regulating acid-base homeostasis and is the first nephron segment encountered by an ascending microbial infection, we examined the contribution of HIF-1α to innate immune responses elicited by acid loading of an M-1 immortalized mouse CD cell line. Acid loading of confluent M-1 cells was achieved by culture in pH 6.8 medium supplemented with 5-( N -ethyl- N -isopropyl)-amiloride to block Na + /H + exchange activity for 24 h. Acid loading induced antimicrobial peptide [cathelicidin and β-defensin (Defb2 and Defb26)] mRNA expression and M-1 cell resistance to uropathogenic Escherichia coli infection to an extent similar to that obtained by inhibition of HIF prolyl hydroxylases, which promote HIF-1α protein degradation. The effect of acid loading on M-1 cell resistance to uropathogenic E. coli infection was reduced by inhibition of HIF-1α (PX-478), and, in combination with prolyl hydroxylase inhibitors, acidosis did not confer additional resistance. Thus, metabolic stress of acidosis triggers HIF-1α-dependent innate immune responses in CD (M-1) cells. Whether pharmacological stabilization of HIF prevents or ameliorates pyelonephritis in vivo warrants further investigation.

Published

2020