Infectious disease
Abstract
Sosuga virus (SOSV) is a recently discovered paramyxovirus with a single known human case of disease. There has been little laboratory research on SOSV pathogenesis or immunity, and no approved therapeutics or vaccines are available. Here, we report the discovery of human monoclonal antibodies (mAbs) from the circulating memory B cells of the only known human case and survivor of SOSV infection. We isolated six mAbs recognizing the functional attachment protein hemagglutinin-neuraminidase (HN) and 18 mAbs against the fusion (F) protein. The anti-HN mAbs all target the globular head of the HN protein and can be organized into 4 competition-binding groups that exhibit epitope diversity. The anti-F mAbs can be divided into pre- or postfusion conformation-specific categories and further into 8 competition-binding groups. The only antibody in the panel that did not display neutralization activity was the single, postfusion-specific anti-F mAb. Most of the anti-HN mAbs were more potently neutralizing than the anti-F mAbs, with mAbs in one of the HN competition-binding groups possessing ultra-potent (<1 ng/mL) half maximal inhibitory (IC50) virus neutralization values. These findings provide insight into the molecular basis for human antibody recognition of paramyxovirus surface proteins and the mechanisms of SOSV neutralization.
Authors
Helen M. Parrington, Nurgun Kose, Erica Armstrong, Laura S. Handal, Summer Diaz, Joseph Reidy, Jinhui Dong, Guillaume B.E. Stewart-Jones, Punya Shrivastava-Ranjan, Shilpi Jain, César G. Albariño, Robert H. Carnahan, James E. Crowe
Abstract
The widespread presence of autoantibodies in acute infection with SARS-CoV-2 is increasingly recognized, but the prevalence of autoantibodies in non–SARS-CoV-2 infections and critical illness has not yet been reported. We profiled IgG autoantibodies in 267 patients from 5 independent cohorts with non–SARS-CoV-2 viral, bacterial, and noninfectious critical illness. Serum samples were screened using Luminex arrays that included 58 cytokines and 55 autoantigens, many of which are associated with connective tissue diseases (CTDs). Samples positive for anti-cytokine antibodies were tested for receptor blocking activity using cell-based functional assays. Anti-cytokine antibodies were identified in > 50% of patients across all 5 acutely ill cohorts. In critically ill patients, anti-cytokine antibodies were far more common in infected versus uninfected patients. In cell-based functional assays, 11 of 39 samples positive for select anti-cytokine antibodies displayed receptor blocking activity against surface receptors for Type I IFN, GM-CSF, and IL-6. Autoantibodies against CTD-associated autoantigens were also commonly observed, including newly detected antibodies that emerged in longitudinal samples. These findings demonstrate that anti-cytokine and autoantibodies are common across different viral and nonviral infections and range in severity of illness.
Authors
Allan Feng, Emily Y. Yang, Andrew Reese Moore, Shaurya Dhingra, Sarah Esther Chang, Xihui Yin, Ruoxi Pi, Elisabeth K.M. Mack, Sara Völkel, Reinhard Geßner, Margrit Gündisch, Andreas Neubauer, Harald Renz, Sotirios Tsiodras, Paraskevi C. Fragkou, Adijat A. Asuni, Joseph E. Levitt, Jennifer G. Wilson, Michelle Leong, Jennifer H. Lumb, Rong Mao, Kassandra Pinedo, Jonasel Roque, Christopher M. Richards, Mikayla Stabile, Gayathri Swaminathan, Maria L. Salagianni, Vasiliki Triantafyllia, Wilhelm Bertrams, Catherine A. Blish, Jan E. Carette, Jennifer Frankovich, Eric Meffre, Kari Christine Nadeau, Upinder Singh, Taia T. Wang, Eline T. Luning Prak, Susanne Herold, Evangelos Andreakos, Bernd Schmeck, Chrysanthi Skevaki, Angela J. Rogers, Paul J. Utz
Abstract
The expression of indoleamine 2,3-dioxygenase (IDO), a robust immunosuppressant, is significantly induced in macaque tuberculosis (TB) granulomas, where it is expressed on IFN-responsive macrophages and myeloid-derived suppressor cells. IDO expression is also highly induced in human TB granulomas, and products of its activity are detected in patients with TB. In vivo blockade of IDO activity resulted in the reorganization of the granuloma with substantially greater T cells being recruited to the core of the lesions. This correlated with better immune control of TB and reduced lung M. tuberculosis burdens. To study if the IDO blockade strategy can be translated to a bona fide host-directed therapy in the clinical setting of TB, we studied the effect of IDO inhibitor 1-methyl-d-tryptophan adjunctive to suboptimal anti-TB chemotherapy. While two-thirds of controls and one-third of chemotherapy-treated animals progressed to active TB, inhibition of IDO adjunctive to the same therapy protected macaques from TB, as measured by clinical, radiological, and microbiological attributes. Although chemotherapy improved proliferative T cell responses, adjunctive inhibition of IDO further enhanced the recruitment of effector T cells to the lung. These results strongly suggest the possibility that IDO inhibition can be attempted adjunctive to anti-TB chemotherapy in clinical trials.
Authors
Bindu Singh, Chivonne Moodley, Dhiraj K. Singh, Ruby A. Escobedo, Riti Sharan, Garima Arora, Shashank R. Ganatra, Vinay Shivanna, Olga Gonzalez, Shannan Hall-Ursone, Edward J. Dick Jr., Deepak Kaushal, Xavier Alvarez, Smriti Mehra
Abstract
Cystic fibrosis (CF) is characterized by chronic bacterial infections leading to progressive bronchiectasis and respiratory failure. Pseudomonas aeruginosa (Pa) is the predominant opportunistic pathogen infecting the CF airways. The guanine nucleotide exchange factor Vav3 plays a critical role in Pa adhesion to the CF airways by inducing luminal fibronectin deposition that favors bacteria trapping. Here we report that Vav3 overexpression in CF is caused by upregulation of the mRNA-stabilizing protein HuR. We found that HuR accumulates in the cytoplasm of CF airway epithelial cells, binds to and stabilizes Vav3 mRNA. Interestingly, disruption of HuR-Vav3 mRNA interaction improved the CF epithelial integrity, inhibited the formation of the fibronectin-made bacterial docking platforms and prevented Pa adhesion to the CF airway epithelium. These findings indicate that targeting HuR represents a promising anti-adhesive approach in CF to prevent initial stages of Pa infection in a context of emergence of multidrug resistant pathogens.
Authors
Mehdi Badaoui, Cyril Sobolewski, Alexandre Luscher, Marc Bacchetta, Thilo Köhler, Christian van Delden, Michelangelo Foti, Marc Chanson
Abstract
Urinary catheterization facilitates urinary tract colonization by Escherichia coli and increases infection risk. Here we aimed to identify strain-specific characteristics associated with the transition from colonization to infection in catheterized patients. In a single-site study population, we compared E. coli isolates from patients with catheter-associated asymptomatic bacteriuria (CAASB) to those with catheter-associated urinary tract infection (CAUTI). CAUTI isolates were dominated by a phylotype B2 subclade containing the multidrug resistant ST131 lineage relative to CAASB isolates, which were phylogenetically more diverse. A distinctive combination of virulence-associated genes was present in the CAUTI-associated B2 subclade. Catheter-associated biofilm formation was widespread among isolates and did not distinguish CAUTI from CAASB strains. Preincubation with CAASB strains could potently inhibit catheter colonization by multiple ST131 CAUTI isolates. Comparative genomic analysis identified a group of variable genes associated with high catheter-biofilm formation present in both CAUTI and CAASB strains. Among these, ferric citrate transport (Fec) system genes were experimentally associated with enhanced catheter biofilm formation using reporter and fecA deletion strains. Together, these results are consistent with a variable role for catheter biofilm formation in promoting CAUTI by ST131-like strains or resisting CAUTI by lower risk strains that engage in niche exclusion.
Authors
Zongsen Zou, Robert F. Potter, William H. McCoy 4th, John A. Wildenthal, George L. Katumba, Peter J. Mucha, Gautam Dantas, Jeffrey P. Henderson
Abstract
Pseudomonas aeruginosa undergoes diversification during infection of the cystic fibrosis (CF) lung. Understanding these changes requires model systems that capture the complexity of the CF lung environment. We previously identified loss-of-function mutations in the two-component regulatory system sensor kinase gene pmrB, in P. aeruginosa from CF and from experimental infection of mice. Here, we demonstrate that whilst such mutations lower in vitro MICs for multiple antimicrobial classes, this is not reflected in increased antibiotic susceptibility in vivo. Loss of PmrB impairs aminoarabinose modification of lipopolysaccharide, increasing the negative charge of the outer membrane and promoting uptake of cationic antimicrobials. However, in vivo, this can be offset by increased membrane binding of other positively charged molecules present in lungs. The polyamine spermidine readily coats the surface of PmrB-deficient P. aeruginosa, reducing susceptibility to antibiotics that rely on charge differences to bind the outer membrane and increasing biofilm formation. Spermidine is elevated in lungs during P. aeruginosa infection in mice and during episodes of antimicrobial treatment in people with CF. These findings highlight the need to study antimicrobial resistance under clinically relevant environmental conditions. Microbial mutations carrying fitness costs in vitro may be advantageous during infection, where host resources can be utilised.
Authors
Chowdhury M. Hasan, Sian Pottenger, Angharad E. Green, Adrienne A. Cox, Jack S. White, Trevor Jones, Craig Winstanley, Aras Kadioglu, Megan H. Wright, Daniel R. Neill, Joanne L. Fothergill
Abstract
Disseminated coccidioidomycosis (DCM) is caused by Coccidioides, pathogenic fungi endemic to the Southwestern United States and Mexico. Illness occurs in approximately 30% of those infected, <1% of whom develop disseminated disease. To address why some individuals allow dissemination, we enrolled DCM patients and performed whole-exome sequencing. In an exploratory set of 67 DCM patients, two had haploinsufficient STAT3 mutations, while defects in β-glucan sensing and response were seen in 34/67 (50.7%) cases. Damaging CLEC7A (n=14) and PLCG2 (n=11) variants were associated with impaired production of β-glucan-stimulated TNF-α from peripheral blood mononuclear cells compared to healthy controls (P<0.005). Using ancestry-matched controls, damaging CLEC7A and PLCG2 variants were over-represented in DCM (P=0.0206, P=0.015, respectively) including CLEC7A Y238* (P=0.0105) and PLCG2 R268W (P=0.0025). A validation cohort of 111 DCM patients confirmed PLCG2 R268W (P=0.0276), CLEC7A I223S (P=0.044), and CLEC7A Y238* (P=0.0656). Stimulation with a DECTIN-1 agonist induced DUOX1/DUOXA1-derived H2O2 in transfected cells. Heterozygous DUOX1 or DUOXA1 variants which impaired H2O2 production were overrepresented in discovery and validation cohorts. Patients with DCM have impaired β-glucan sensing or response affecting TNF-α and H2O2 production. Impaired Coccidioides recognition and decreased cellular response are associated with disseminated coccidioidomycosis.
Authors
Amy P. Hsu, Agnieszka Korzeniowska, Cynthia C. Aguilar, Jingwen Gu, Eric Karlins, Andrew J. Oler, Gang Chen, Glennys V. Reynoso, Joie Davis, Alexandria Chaput, Tao Peng, Ling Sun, Justin B. Lack, Derek J. Bays, Ethan R. Stewart, Sarah E. Waldman, Daniel A. Powell, Fariba M. Donovan, Jigar V. Desai, Nima Pouladi, Debra A. Long Priel, Daisuke Yamanaka, Sergio D. Rosenzweig, Julie E. Niemela, Jennifer Stoddard, Alexandra F. Freeman, Christa S. Zerbe, Douglas B. Kuhns, Yves A. Lussier, Kenneth N. Olivier, Richard C. Boucher, Heather D. Hickman, Jeffrey Frelinger, Joshua Fierer, Lisa F. Shubitz, Thomas L. Leto, George R. Thompson III, John N. Galgiani, Michail S. Lionakis, Steven M. Holland
Abstract
Diabetes mellitus (DM) is highly comorbid with severe dengue diseases; however, the underlying mechanisms are unclear. DM patients display a 1.61-fold increased risk of developing dengue hemorrhagic fever. In search of host factors involved in DENV infection, this study utilizes high glucose (HG) treatment and shows that HG increases viral protein expression and virion release but has no effects on the early stages of viral infection. Following HG stimulation, DEN-Luc-transfected assay and cellular replicon-based assay display increased viral translation, while using the glucose uptake inhibitor phloretin blocks this effect. HG treatment increases the translational factor poly(A)-binding protein (PABP) in a glucose transporter-associated PI3K/AKT-regulated manner. Silencing PABP significantly decreases HG-prompted virion production. HG enhances the formation of the PABP-eIF4G complex, which is regulated by protein-disulfide isomerase. Hyperglycemia increases PABP expression, mortality, viral protein expression, and viral loads in streptozotocin-induced DM mice. Overall, hyperglycemic stress facilitates DENV infection by strengthening PABP-mediated viral translation.
Authors
Ting-Jing Shen, Chia-Ling Chen, Tsung-Ting Tsai, Ming-Kai Jhan, Chyi-Huey Bai, Yu-Chun Yen, Ching-Wen Tsai, Cheng-Yi Lee, Po-Chun Tseng, Chia-Yi Yu, Chiou-Feng Lin
Abstract
Pseudomonas aeruginosa is one of the most common nosocomial infections worldwide, and frequently causes ventilator-associated acute pneumonia in immunocompromised patients. Abundant neutrophil extracellular traps (NETs) contribute to acute lung injury, thereby aggravating ventilator-induced lung damage. While pattern recognition receptors (PRRs) TLR4 and TLR5 are required for host defense against P. aeruginosa invasion, the PRR responsible for P. aeruginosa-induced NET formation, proinflammatory cytokine release, and acute lung injury remains unclear. We found that myeloid C-type lectin domain family 5 member A (CLEC5A) interacts with lipopolysaccharides of P. aeruginosa, and is responsible for P. aeruginosa-induced NET formation and lung inflammation. P. aeruginosa activates CLEC5A to induce caspase-1-dependent NET formation, but it neither causes gasdermin D (GSDMD) cleavage nor contributes to P. aeruginosa-induced neutrophil death. Blockade of CLEC5A attenuates P. aeruginosa-induced NETosis and lung injury, and simultaneous administration of anti-CLEC5A mAb with ciprofloxacin increases survival rate and decreases collagen deposition in the lungs of mice challenged with a lethal dose of P. aeruginosa. Thus, CLEC5A is a promising therapeutic target to reduce ventilator-associated lung injury and fibrosis in P. aeruginosa-induced pneumonia.
Authors
Pei-Shan Sung, Yu-Chun Peng, Shao-Ping Yang, Cheng-Hsun Chiu, Shie-Liang Hsieh
Abstract
BACKGROUND. Increased reinfection rates with SARS-CoV-2 have recently been reported, with some locations basing reinfection on a second positive PCR test at least 90 days after initial infection. In this study, we used the Johns Hopkins SARS-CoV-2 genomic surveillance data to evaluate the frequency of sequencing validated, confirmed and inferred reinfections between March 2020 and July 2022. METHODS. Patients who had two or more positive SARS-CoV-2 tests in our system with samples sequenced as a part of our surveillance efforts were identified as the cohort for our study. SARS-CoV-2 genomes of patients’ initial and later samples were compared. RESULTS. A total of 755 patients (920 samples) had a positive test at least 90 days after the initial test with a median time between tests of 377 days. Sequencing was attempted on 231 samples and was successful in 127. Successful sequencing spiked during the Omicron surge and showed higher median days from initial infection compared to failed sequences. A total of 122 (98%) patients showed evidence of reinfection, 45 of which had sequence validated reinfection and 77 had inferred reinfections (later sequence showed a clade that was not circulating when the patient was initially infected). Of 45 sequence validated reinfections, 43 (96%) were caused by the Omicron variant, 41 (91%) were symptomatic, 32 (71%) were vaccinated prior to the second infection, 6 (13%) were Immunosuppressed, and only 2 (4%) were hospitalized. CONCLUSIONS. Sequence validated reinfections increased with the Omicron variant but were generally associated with mild infections.
Authors
C. Paul Morris, Raghda E. Eldesouki, Amary Fall, David C. Gaston, Julie M. Norton, Nicholas D. Gallagher, Chun Huai Luo, Omar Abdullah, Eili Y. Klein, Heba H. Mostafa
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