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1. Effect of low colostrum intake on gastrointestinal development and uterine and cervical morphometrical architecture in the neonatal gilt

Author

P. Langendijk, M. Fleuren, K. Venrooy, K. Ernst, and G. Page

Subjects
Endometrium, Intestine, Piglet, Postnatal, Reproduction, Animal culture, SF1-1100
Abstract

To assess the importance of natural variation in colostrum intake on piglet gastrointestinal and reproductive development, two equally sized female piglets from each of 27 litters were selected, one with low (average 226 g) and one with high (average 401 g) colostrum intake. At weaning (23 d of age), piglets were euthanised to perform macromorphological measurements on ileum, colon, cervix and uterus tissues, and to obtain tissue samples from the cervix and uterus for histology. Sections of uterine and cervical preparations were analysed using digital image analysis. Despite being selected for the same birth weight (average 1.1 kg, standard deviation 0.18 kg), piglets with low colostrum intake weighed 5.91 ± 0.17 kg and piglets with high colostrum intake weighed 6.96 ± 0.19 kg at weaning (P

Published
2023
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2. A pH-sensitive motif in an outer membrane protein activates bacterial membrane vesicle production

Author

Ruchika Dehinwal, Tata Gopinath, Richard D. Smith, Robert K. Ernst, Dieter M. Schifferli, Matthew K. Waldor, and Francesca M. Marassi

Subjects
Science
Abstract

Abstract Outer membrane vesicles (OMVs) produced by Gram-negative bacteria have key roles in cell envelope homeostasis, secretion, interbacterial communication, and pathogenesis. The facultative intracellular pathogen Salmonella Typhimurium increases OMV production inside the acidic vacuoles of host cells by changing expression of its outer membrane proteins and modifying the composition of lipid A. However, the molecular mechanisms that translate pH changes into OMV production are not completely understood. Here, we show that the outer membrane protein PagC promotes OMV production through pH-dependent interactions between its extracellular loops and surrounding lipopolysaccharide (LPS). Structural comparisons and mutational studies indicate that a pH-responsive amino acid motif in PagC extracellular loops, containing PagC-specific histidine residues, is crucial for OMV formation. Molecular dynamics simulations suggest that protonation of histidine residues leads to changes in the structure and flexibility of PagC extracellular loops and their interactions with the surrounding LPS, altering membrane curvature. Consistent with that hypothesis, mimicking acidic pH by mutating those histidine residues to lysine increases OMV production. Thus, our findings reveal a mechanism for sensing and responding to environmental pH and for control of membrane dynamics by outer membrane proteins.

Published
2024
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5. Characterization of Pseudomonas aeruginosa from subjects with diffuse panbronchiolitis

Author

Charles M. Met, Casey E. Hofstaedter, Ian P. O'Keefe, Hyojik Yang, Dina A. Moustafa, Matthew E. Sherman, Yohei Doi, David A. Rasko, Charles R. Sweet, Joanna B. Goldberg, and Robert K. Ernst

Subjects
Pseudomonas aeruginosa, diffuse panbronchiolitis, LPS, adaptation, Microbiology, QR1-502
Abstract

ABSTRACT Diffuse panbronchiolitis (DPB) is a rare, idiopathic inflammatory disease primarily diagnosed in East Asian populations. DPB is characterized by diffuse pulmonary lesions, inflammation of the respiratory bronchioles, and bacterial infections of the airway. Historically, sputum cultures reveal Pseudomonas aeruginosa in 22% of DPB patients, increasing to 60% after 4 years from disease onset. Although DPB patients have a known susceptibility to respiratory P. aeruginosa infections, as is observed in other chronic lung diseases such as cystic fibrosis (CF), the characterization of DPB P. aeruginosa strains is limited. In this study, we characterized 24 strains obtained from a cohort of DPB patients for traits previously associated with virulence, including growth, motility, antibiotic susceptibility, lipopolysaccharide structure, and genomic diversity. Our cohort of DPB P. aeruginosa strains exhibits considerable genomic variability when compared with isolates from people with cystic fibrosis chronically colonized with P. aeruginosa and acute P. aeruginosa infection isolates. Similar to CF, DPB P. aeruginosa strains produce a diverse array of modified lipid A structures. Antibiotic susceptibility testing revealed increased resistance to erythromycin, a representative agent of the macrolide antibiotics used to manage DPB patients. Differences in the O-antigen type among P. aeruginosa strains collected from these different backgrounds were also observed. Ultimately, the characterization of DPB P. aeruginosa strains highlights several unique qualities of P. aeruginosa strains collected from chronically diseased airways, underscoring the challenges in treating DPB, CF, and other obstructive respiratory disease patients with P. aeruginosa infections.IMPORTANCEDiffuse panbronchiolitis (DPB), a chronic lung disease characterized by persistent P. aeruginosa infection, serves as an informative comparator to more common chronic lung diseases, such as cystic fibrosis (CF). This study aimed to better address the interplay between P. aeruginosa and chronically compromised airway environments through the examination of DPB P. aeruginosa strains, as existing literature regarding DPB is limited to case reports, case series, and clinical treatment guidelines. The evaluation of these features in the context of DPB, in tandem with prevailing knowledge of P. aeruginosa strains collected from more common chronic lung diseases (e.g., CF), can aid in the development of more effective strategies to combat respiratory P. aeruginosa infections in patients with chronic lung diseases.

Published
2024
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7. The multifaceted role of c-di-AMP signaling in the regulation of Porphyromonas gingivalis lipopolysaccharide structure and function

Author

Shirin Ghods, Artur Muszyński, Hyojik Yang, Ratnam S. Seelan, Asal Mohammadi, Jacob S. Hilson, Griffin Keiser, Frank C. Nichols, Parastoo Azadi, Robert K. Ernst, and Fata Moradali

Subjects
Porphyromonas gingivalis, lipopolysaccharide, structural variations, C-di-AMP signaling, cellular bioenergetics, Microbiology, QR1-502
Abstract

BackgroundThis study unveils the intricate functional association between cyclic di-3’,5’-adenylic acid (c-di-AMP) signaling, cellular bioenergetics, and the regulation of lipopolysaccharide (LPS) profile in Porphyromonas gingivalis, a Gram-negative obligate anaerobe considered as a keystone pathogen involved in the pathogenesis of chronic periodontitis. Previous research has identified variations in P. gingivalis LPS profile as a major virulence factor, yet the underlying mechanism of its modulation has remained elusive.MethodsWe employed a comprehensive methodological approach, combining two mutants exhibiting varying levels of c-di-AMP compared to the wild type, alongside an optimized analytical methodology that combines conventional mass spectrometry techniques with a novel approach known as FLATn.ResultsWe demonstrate that c-di-AMP acts as a metabolic nexus, connecting bioenergetic status to nuanced shifts in fatty acid and glycosyl profiles within P. gingivalis LPS. Notably, the predicted regulator gene cdaR, serving as a potent regulator of c-di-AMP synthesis, was found essential for producing N-acetylgalactosamine and an unidentified glycolipid class associated with the LPS profile.ConclusionThe multifaceted roles of c-di-AMP in bacterial physiology are underscored, emphasizing its significance in orchestrating adaptive responses to stimuli. Furthermore, our findings illuminate the significance of LPS variations and c-di-AMP signaling in determining the biological activities and immunostimulatory potential of P. gingivalis LPS, promoting a pathoadaptive strategy. The study expands the understanding of c-di-AMP pathways in Gram-negative species, laying a foundation for future investigations into the mechanisms governing variations in LPS structure at the molecular level and their implications for host-pathogen interactions.

Published
2024
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8. Topical application of synthetic melanin promotes tissue repair

Author

Dauren Biyashev, Zofia E. Siwicka, Ummiye V. Onay, Michael Demczuk, Dan Xu, Madison K. Ernst, Spencer T. Evans, Cuong V. Nguyen, Florencia A. Son, Navjit K. Paul, Naneki C. McCallum, Omar K. Farha, Stephen D. Miller, Nathan C. Gianneschi, and Kurt Q. Lu

Subjects
Medicine
Abstract

Abstract In acute skin injury, healing is impaired by the excessive release of reactive oxygen species (ROS). Melanin, an efficient scavenger of radical species in the skin, performs a key role in ROS scavenging in response to UV radiation and is upregulated in response to toxic insult. In a chemical injury model in mice, we demonstrate that the topical application of synthetic melanin particles (SMPs) significantly decreases edema, reduces eschar detachment time, and increases the rate of wound area reduction compared to vehicle controls. Furthermore, these results were replicated in a UV-injury model. Immune array analysis shows downregulated gene expression in apoptotic and inflammatory signaling pathways consistent with histological reduction in apoptosis. Mechanistically, synthetic melanin intervention increases superoxide dismutase (SOD) activity, decreases Mmp9 expression, and suppresses ERK1/2 phosphorylation. Furthermore, we observed that the application of SMPs caused increased populations of anti-inflammatory immune cells to accumulate in the skin, mirroring their decrease from splenic populations. To enhance antioxidant capacity, an engineered biomimetic High Surface Area SMP was deployed, exhibiting increased wound healing efficiency. Finally, in human skin explants, SMP intervention significantly decreased the damage caused by chemical injury. Therefore, SMPs are promising and effective candidates as topical therapies for accelerated wound healing, including via pathways validated in human skin.

Published
2023
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9. Development of a nano-emulsion based multivalent protein subunit vaccine against Pseudomonas aeruginosa

Author

Debaki R. Howlader, Rahul Shubhra Mandal, Ti Lu, Suhrid Maiti, Zackary K. Dietz, Sayan Das, Sean K. Whittier, Aaron C. Nagel, Satabdi Biswas, David J. Varisco, Francesca M. Gardner, Robert K. Ernst, William D. Picking, and Wendy L. Picking

Subjects
pseudomonas, T3SS vaccine, L-PaF, nano-emulsion, nanoparticle vaccine, RNA seq, Immunologic diseases. Allergy, RC581-607
Abstract

Pseudomonas aeruginosa (Pa) is an opportunistic bacterial pathogen responsible for severe hospital acquired infections in immunocompromised and elderly individuals. Emergence of increasingly drug resistant strains and the absence of a broad-spectrum prophylactic vaccine against both T3SA+ (type III secretion apparatus) and ExlA+/T3SA- Pa strains worsen the situation in a post-pandemic world. Thus, we formulated a candidate subunit vaccine (called ExlA/L-PaF/BECC/ME) against both Pa types. This bivalent vaccine was generated by combining the C-terminal active moiety of exolysin A (ExlA) produced by non-T3SA Pa strains with our T3SA-based vaccine platform, L-PaF, in an oil-in-water emulsion. The ExlA/L-PaF in ME (MedImmune emulsion) was then mixed with BECC438b, an engineered lipid A analogue and a TLR4 agonist. This formulation was administered intranasally (IN) to young and elderly mice to determine its potency across a diverse age-range. The elderly mice were used to mimic the infection seen in elderly humans, who are more susceptible to serious Pa disease compared to their young adult counterparts. After Pa infection, mice immunized with ExlA/L-PaF/BECC/ME displayed a T cell-mediated adaptive response while PBS-vaccinated mice experienced a rapid onset inflammatory response. Important genes and pathways were observed, which give rise to an anti-Pa immune response. Thus, this vaccine has the potential to protect aged individuals in our population from serious Pa infection.

Published
2024
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10. Vaccination with a Protective Ipa Protein-Containing Nanoemulsion Differentially Alters the Transcriptomic Profiles of Young and Elderly Mice following Shigella Infection

Author

Ti Lu, Murugesan Raju, Debaki R. Howlader, Zackary K. Dietz, Sean K. Whittier, David J. Varisco, Robert K. Ernst, Lyndon M. Coghill, William D. Picking, and Wendy L. Picking

Subjects
Shigella spp., type III secretion system, vaccine, aging immunity, dual RNA-seq, Medicine
Abstract

Shigella spp. are responsible for bacillary dysentery or shigellosis transmitted via the fecal–oral route, causing significant morbidity and mortality, especially among vulnerable populations. There are currently no licensed Shigella vaccines. Shigella spp. use a type III secretion system (T3SS) to invade host cells. We have shown that L-DBF, a recombinant fusion of the T3SS needle tip (IpaD) and translocator (IpaB) proteins with the LTA1 subunit of enterotoxigenic E. coli labile toxin, is broadly protective against Shigella spp. challenge in a mouse lethal pulmonary model. Here, we assessed the effect of LDBF, formulated with a unique TLR4 agonist called BECC470 in an oil-in-water emulsion (ME), on the murine immune response in a high-risk population (young and elderly) in response to Shigella challenge. Dual RNA Sequencing captured the transcriptome during Shigella infection in vaccinated and unvaccinated mice. Both age groups were protected by the L-DBF formulation, while younger vaccinated mice exhibited more adaptive immune response gene patterns. This preliminary study provides a step toward identifying the gene expression patterns and regulatory pathways responsible for a protective immune response against Shigella. Furthermore, this study provides a measure of the challenges that need to be addressed when immunizing an aging population.

Published
2024
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11. Divergent Pseudomonas aeruginosa LpxO enzymes perform site-specific lipid A 2-hydroxylation

Author

Casey E. Hofstaedter, Courtney E. Chandler, Charles M. Met, Joseph J. Gillespie, Janette M. Harro, David R. Goodlett, David A. Rasko, and Robert K. Ernst

Subjects
lipid A, Pseudomonas, cystic fibrosis, dioxygenases, LPS evolution, Microbiology, QR1-502
Abstract

ABSTRACT Pseudomonas aeruginosa can survive in a myriad of environments, partially due to modifications of its lipid A, the membrane anchor of lipopolysaccharide. We previously demonstrated that divergent late acyltransferase paralogs, HtrB1 and HtrB2, add acyloxyacyl laurate to lipid A 2- and 2′-acyl chains, respectively. The genome of P. aeruginosa also has genes which encode two dioxygenase enzymes, LpxO1 and LpxO2, that individually hydroxylate a specific secondary laurate. LpxO1 acts on the 2′-acyloxyacyl laurate (added by HtrB2), whereas LpxO2 acts on the 2-acyloxyacyl laurate (added by HtrB1) in a site-specific manner. Furthermore, while both enzyme pairs are evolutionarily linked, phylogenomic analysis suggests the LpxO1/HtrB2 enzyme pair as being of ancestral origin, present throughout the Pseudomonas lineage, whereas the LpxO2/HtrB1 enzyme pair likely arose via horizontal gene transfer and has been retained in P. aeruginosa over time. Using a murine pulmonary infection model, we showed that both LpxO1 and LpxO2 enzymes are functional in vivo, as direct analysis of in vivo lipid A structure from bronchoalveolar lavage fluid revealed 2-hydroxylated lipid A. Gene expression analysis reveals increased lpxO2 but unchanged lpxO1 expression in vivo, suggesting differential regulation of these enzymes during infection. We also demonstrate that loss-of-function mutations arise in lpxO1 and lpxO2 during chronic lung infection in people with cystic fibrosis (CF), indicating a potential role for pathogenesis and airway adaptation. Collectively, our study characterizes lipid A 2-hydroxylation during P. aeruginosa airway infection that is regulated by two distinct lipid A dioxygenase enzymes.IMPORTANCEPseudomonas aeruginosa is an opportunistic pathogen that causes severe infection in hospitalized and chronically ill individuals. During infection, P. aeruginosa undergoes adaptive changes to evade host defenses and therapeutic interventions, increasing mortality and morbidity. Lipid A structural alteration is one such change that P. aeruginosa isolates undergo during chronic lung infection in CF. Investigating genetic drivers of this lipid A structural variation is crucial in understanding P. aeruginosa adaptation during infection. Here, we describe two lipid A dioxygenases with acyl-chain site specificity, each with different evolutionary origins. Further, we show that loss of function in these enzymes occurs in CF clinical isolates, suggesting a potential pathoadaptive phenotype. Studying these bacterial adaptations provides insight into selection pressures of the CF airway on P. aeruginosa phenotypes that persist during chronic infection. Understanding these adaptive changes may ultimately provide clinicians better control over bacterial populations during chronic infection.

Published
2024
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12. Structural determination of Rickettsia lipid A without chemical extraction confirms shorter acyl chains in later-evolving spotted fever group pathogens

Author

Hyojik Yang, Victoria I. Verhoeve, Courtney E. Chandler, Shreeram Nallar, Greg A. Snyder, Robert K. Ernst, and Joseph J. Gillespie

Subjects
Rickettsia, lipopolysaccharide, lipid A, FLATn, pathogenesis, rickettsiosis, Microbiology, QR1-502
Abstract

ABSTRACT Rickettsiae are Gram-negative obligate intracellular parasites of numerous eukaryotes. Human pathogens of the transitional group (TRG), typhus group (TG), and spotted fever group (SFG) rickettsiae infect blood-feeding arthropods, have dissimilar clinical manifestations, and possess unique genomic and morphological attributes. Lacking glycolysis, rickettsiae pilfer numerous metabolites from the host cytosol to synthesize peptidoglycan and lipopolysaccharide (LPS). For LPS, O-antigen immunogenicity varies between SFG and TG pathogens; however, lipid A proinflammatory potential is unknown. We previously demonstrated that Rickettsia akari (TRG), Rickettsia typhi (TG), and Rickettsia montanensis (SFG) produce lipid A with long 2′ secondary acyl chains (C16 or C18) compared to short 2′ secondary acyl chains (C12) in Rickettsia rickettsii (SFG) lipid A. To further probe this structural heterogeneity and estimate a time point when shorter 2′ secondary acyl chains originated, we generated lipid A structures for two additional SFG rickettsiae (Rickettsia rhipicephali and Rickettsia parkeri) utilizing fast lipid analysis technique adopted for use with tandem mass spectrometry (FLATn). FLATn allowed analysis of lipid A structure directly from host cell-purified bacteria, providing a substantial improvement over lipid A chemical extraction. FLATn-derived structures indicate SFG rickettsiae diverging after R. rhipicephali evolved shorter 2′ secondary acyl chains. While 2′ secondary acyl chain lengths do not distinguish Rickettsia pathogens from non-pathogens, in silico analyses of Rickettsia LpxL late acyltransferases revealed discrete active sites and hydrocarbon rulers for long versus short 2′ secondary acyl chain addition. Our collective data warrant determining Rickettsia lipid A inflammatory potential and how structural heterogeneity impacts lipid A-host receptor interactions.IMPORTANCEDeforestation, urbanization, and homelessness lead to spikes in Rickettsioses. Vector-borne human pathogens of transitional group (TRG), typhus group (TG), and spotted fever group (SFG) rickettsiae differ by clinical manifestations, immunopathology, genome composition, and morphology. We previously showed that lipid A (or endotoxin), the membrane anchor of Gram-negative bacterial lipopolysaccharide (LPS), structurally differs in Rickettsia rickettsii (later-evolving SFG) relative to Rickettsia montanensis (basal SFG), Rickettsia typhi (TG), and Rickettsia akari (TRG). As lipid A structure influences recognition potential in vertebrate LPS sensors, further assessment of Rickettsia lipid A structural heterogeneity is needed. Here, we sidestepped the difficulty of ex vivo lipid A chemical extraction by utilizing fast lipid analysis technique adopted for use with tandem mass spectrometry, a new procedure for generating lipid A structures directly from host cell-purified bacteria. These data confirm that later-evolving SFG pathogens synthesize structurally distinct lipid A. Our findings impact interpreting immune responses to different Rickettsia pathogens and utilizing lipid A adjuvant or anti-inflammatory properties in vaccinology.

Published
2024
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13. Characterization of spatial lipidomic signatures in tick-bitten guinea pig skin as a model for host-vector-pathogen interaction profiling

Author

Alison J. Scott, Alexis A. Smith, Ron M. A. Heeren, Utpal Pal, and Robert K. Ernst

Subjects
vector-borne diseases, Ixodes, guinea pig, spatial lipidomics, lipids, host-vector interaction, Microbiology, QR1-502
Abstract

ABSTRACT Spatially aware de novo discovery methods are essential tools for therapeutic target identification in complex interphylum interactions such as arthropods and mammals. Notably, the methods should ideally be species agnostic, showing unique features of all interacting species. We evaluated the possibilities for matrix-assisted desorption/ionization mass spectrometry imaging (MALDI-MSI, referred to here as MSI) as a spatial “omics” method to simultaneously profile both an arthropod vector (Ixodes tick) and a mammalian skin (guinea pig) in a bite model. We demonstrated the feasibility of MSI using gelatin-stabilized sample mounting that allowed for serial sectioning and mapping lipids in control and bitten skin, including the tick body and embedded mouthparts. We identified unique lipid ion patterns and observed lipid reorganization beneath the bite site consistent with histological changes. Furthermore, several ions were observed in the tick body with lower intensity in the dermis and control skin, suggesting the transmission of lipids from the tick to mammalian skin. These results establish a multi-system approach for discovering cross-species molecular interactions that can be further developed as targets to disrupt the vector-host interface.IMPORTANCEHere, we demonstrate the adaptability of spatial “omics” methods to identify interphylum processes regulated at the vector-host interface of ticks during a mammalian blood meal. This approach enables a better understanding of complex bipartite or tripartite molecular interactions between hosts, arthropod vectors and transmitted pathogens, and contributes toward the development of spatially aware therapeutic target discovery and description.

Published
2023
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14. A protein subunit vaccine elicits a balanced immune response that protects against Pseudomonas pulmonary infection

Author

Debaki R. Howlader, Sayan Das, Ti Lu, Rahul Shubhra Mandal, Gang Hu, David J. Varisco, Zackary K. Dietz, Siva Sai Kumar Ratnakaram, Robert K. Ernst, William D. Picking, and Wendy L. Picking

Subjects
Immunologic diseases. Allergy, RC581-607, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract The opportunistic pathogen Pseudomonas aeruginosa (Pa) causes severe nosocomial infections, especially in immunocompromised individuals and the elderly. Increasing drug resistance, the absence of a licensed vaccine and increased hospitalizations due to SARS-CoV-2 have made Pa a major healthcare risk. To address this, we formulated a candidate subunit vaccine against Pa (L-PaF), by fusing the type III secretion system tip and translocator proteins with LTA1 in an oil-in-water emulsion (ME). This was mixed with the TLR4 agonist (BECC438b). Lung mRNA sequencing showed that the formulation activates genes from multiple immunological pathways eliciting a protective Th1-Th17 response following IN immunization. Following infection, however, the immunized mice showed an adaptive response while the PBS-vaccinated mice experienced rapid onset of an inflammatory response. The latter displayed a hypoxic lung environment with high bacterial burden. Finally, the importance of IL-17 and immunoglobulins were demonstrated using knockout mice. These findings suggest a need for a balanced humoral and cellular response to prevent the onset of Pa infection and that our formulation could elicit such a response.

Published
2023
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15. Carbohydrate fatty acid monosulphate: oil-in-water adjuvant enhances SARS-CoV-2 RBD nanoparticle-induced immunogenicity and protection in mice

Author

Etsuro Nanishi, Francesco Borriello, Hyuk-Soo Seo, Timothy R. O’Meara, Marisa E. McGrath, Yoshine Saito, Jing Chen, Joann Diray-Arce, Kijun Song, Andrew Z. Xu, Soumik Barman, Manisha Menon, Danica Dong, Timothy M. Caradonna, Jared Feldman, Blake M. Hauser, Aaron G. Schmidt, Lindsey R. Baden, Robert K. Ernst, Carly Dillen, Jingyou Yu, Aiquan Chang, Luuk Hilgers, Peter Paul Platenburg, Sirano Dhe-Paganon, Dan H. Barouch, Al Ozonoff, Ivan Zanoni, Matthew B. Frieman, David J. Dowling, and Ofer Levy

Subjects
Immunologic diseases. Allergy, RC581-607, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Development of SARS-CoV-2 vaccines that protect vulnerable populations is a public health priority. Here, we took a systematic and iterative approach by testing several adjuvants and SARS-CoV-2 antigens to identify a combination that elicits antibodies and protection in young and aged mice. While demonstrating superior immunogenicity to soluble receptor-binding domain (RBD), RBD displayed as a protein nanoparticle (RBD-NP) generated limited antibody responses. Comparison of multiple adjuvants including AddaVax, AddaS03, and AS01B in young and aged mice demonstrated that an oil-in-water emulsion containing carbohydrate fatty acid monosulphate derivative (CMS:O/W) most effectively enhanced RBD-NP-induced cross-neutralizing antibodies and protection across age groups. CMS:O/W enhanced antigen retention in the draining lymph node, induced injection site, and lymph node cytokines, with CMS inducing MyD88-dependent Th1 cytokine polarization. Furthermore, CMS and O/W synergistically induced chemokine production from human PBMCs. Overall, CMS:O/W adjuvant may enhance immunogenicity and protection of vulnerable populations against SARS-CoV-2 and other infectious pathogens.

Published
2023
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16. Bordetella pertussis whole cell immunization protects against Pseudomonas aeruginosa infections

Author

Catherine B. Blackwood, Margalida Mateu-Borrás, Emel Sen-Kilic, Gage M. Pyles, Sarah Jo Miller, Kelly L. Weaver, William T. Witt, Annalisa B. Huckaby, Jason Kang, Courtney E. Chandler, Robert K. Ernst, F. Heath Damron, and Mariette Barbier

Subjects
Immunologic diseases. Allergy, RC581-607, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Whole cell vaccines are complex mixtures of antigens, immunogens, and sometimes adjuvants that can trigger potent and protective immune responses. In some instances, such as whole cell Bordetella pertussis vaccination, the immune response to vaccination extends beyond the pathogen the vaccine was intended for and contributes to protection against other clinically significant pathogens. In this study, we describe how B. pertussis whole cell vaccination protects mice against acute pneumonia caused by Pseudomonas aeruginosa. Using ELISA and western blot, we identified that B. pertussis whole cell vaccination induces production of antibodies that bind to lab-adapted and clinical strains of P. aeruginosa, regardless of immunization route or adjuvant used. The cross-reactive antigens were identified using immunoprecipitation, mass spectrometry, and subsequent immunoblotting. We determined that B. pertussis GroEL and OmpA present in the B. pertussis whole cell vaccine led to production of antibodies against P. aeruginosa GroEL and OprF, respectively. Finally, we showed that recombinant B. pertussis OmpA was sufficient to induce protection against P. aeruginosa acute murine pneumonia. This study highlights the potential for use of B. pertussis OmpA as a vaccine antigen for prevention of P. aeruginosa infection, and the potential of broadly protective antigens for vaccine development.

Published
2022
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17. Intranasal administration of BReC-CoV-2 COVID-19 vaccine protects K18-hACE2 mice against lethal SARS-CoV-2 challenge

Author

Ting Y. Wong, Katherine S. Lee, Brynnan P. Russ, Alexander M. Horspool, Jason Kang, Michael T. Winters, M. Allison Wolf, Nathaniel A. Rader, Olivia A. Miller, Morgane Shiflett, Jerilyn Izac, David Varisco, Emel Sen-Kilic, Casey Cunningham, Melissa Cooper, Holly A. Cyphert, Mariette Barbier, Ivan Martinez, Justin R. Bevere, Robert K. Ernst, and F. Heath Damron

Subjects
Immunologic diseases. Allergy, RC581-607, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract SARS-CoV-2 is a viral respiratory pathogen responsible for the current global pandemic and the disease that causes COVID-19. All current WHO approved COVID-19 vaccines are administered through the muscular route. We have developed a prototype two-dose vaccine (BReC-CoV-2) by combining the Receptor Binding Domain (RBD) antigen, via conjugation to Diphtheria toxoid (EcoCRM®). The vaccine is adjuvanted with Bacterial Enzymatic Combinatorial Chemistry (BECC), BECC470. Intranasal (IN) administration of BreC-CoV-2 in K18-hACE2 mice induced a strong systemic and localized immune response in the respiratory tissues which provided protection against the Washington strain of SARS-CoV-2. Protection provided after IN administration of BReC-CoV-2 was associated with decreased viral RNA copies in the lung, robust RBD IgA titers in the lung and nasal wash, and induction of broadly neutralizing antibodies in the serum. We also observed that BReC-CoV-2 vaccination administered using an intramuscular (IM) prime and IN boost protected mice from a lethal challenge dose of the Delta variant of SARS-CoV-2. IN administration of BReC-CoV-2 provided better protection than IM only administration to mice against lethal challenge dose of SARS-CoV-2. These data suggest that the IN route of vaccination induces localized immune responses that can better protect against SARS-CoV-2 than the IM route in the upper respiratory tract.

Published
2022
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18. Publisher Correction: Carbohydrate fatty acid monosulphate: oil-in-water adjuvant enhances SARS-CoV-2 RBD nanoparticle-induced immunogenicity and protection in mice

Author

Etsuro Nanishi, Francesco Borriello, Hyuk-Soo Seo, Timothy R. O’Meara, Marisa E. McGrath, Yoshine Saito, Jing Chen, Joann Diray-Arce, Kijun Song, Andrew Z. Xu, Soumik Barman, Manisha Menon, Danica Dong, Timothy M. Caradonna, Jared Feldman, Blake M. Hauser, Aaron G. Schmidt, Lindsey R. Baden, Robert K. Ernst, Carly Dillen, Jingyou Yu, Aiquan Chang, Luuk Hilgers, Peter Paul Platenburg, Sirano Dhe-Paganon, Dan H. Barouch, Al Ozonoff, Ivan Zanoni, Matthew B. Frieman, David J. Dowling, and Ofer Levy

Subjects
Immunologic diseases. Allergy, RC581-607, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Published
2023
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22. 6-Bromoindirubin-3′-oxime derivatives are highly active colistin adjuvants against Klebsiella pneumoniae

Author

Haoting Li, Anne E. Mattingly, Richard D. Smith, Roberta J. Melander, Robert K. Ernst, and Christian Melander

Subjects
Pharmacology, Organic Chemistry, Drug Discovery, Pharmaceutical Science, Molecular Medicine, Biochemistry
Abstract

Multidrug resistant (MDR) bacterial infections have become increasingly common, leading clinicians to rely on last-resort antibiotics such as colistin.

Published
2023
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23. A Sensitive GC-MS Method for Quantitation of Lipid A Backbone Components and Terminal Phosphate Modifications

Author

Matthew E. Sherman, Richard D. Smith, Francesca M. Gardner, David R. Goodlett, and Robert K. Ernst

Subjects
Structural Biology, Article, Spectroscopy
Abstract

Lipid A, the hydrophobic anchor of lipopolysaccharide (LPS) present in the outer membrane of Gram-negative bacteria, serves as a target for cationic antimicrobial peptides, such as polymyxins. Membrane stress from polymyxins results in activation of two-component regulatory systems that produce lipid A modifying enzymes. These enzymes add neutral moieties, such as aminoarabinose (AraN) and ethanolamine (EtN) to lipid A terminal phosphates that mask the phosphate’s negative charge and inhibit electrostatic interaction with the cationic polymyxins. Currently, these modifications may be detected by MALDI-TOF MS; however, this analysis is only semiquantitative. Herein we describe a GC-MS method to quantitate lipid A backbone hydrolyzed into its individual moieties, and derivatized via methoximation followed by silylation prior to analysis via GC-MS. Changes in AraN and EtN quantity were characterized using a variety of regulatory mutants of Salmonella, revealing differences that were not detected using MALDI-TOF MS analysis. Additionally, an increase in the abundance of AraN and EtN modifications were observed when resistant Enterobacter and Escherichia coli strains were grown in the presence of colistin (polymyxin E). Lastly, increased levels of Pi were found in bisphosphorylated lipid A compared to monophosphorylated lipid A samples. Because lipid A modifications serve as indicators of polymyxin resistance in Gram-negative bacteria, this method provides the capacity to monitor polymyxin resistance by quantification of lipid A modification using GC-MS.

Published
2022
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24. Decreasing Tryptophan and Increasing Neopterin Plasma Levels During Pregnancy are Associated with High First Trimester Porphyromonas gingivalis K-Serotype IgG Serointensity in a Cohort of Hispanic Women

Author

Teodor T. Postolache, Sanjaya K. Upadhyaya, Anna M. Spector, Iqra Mohyuddin, Niel Constantine, Robert K. Ernst, Abhishek Wadhawan, Samia Valeria Ozorio Dutra, Aline Dagdag, Hina Makkar, Christopher A. Lowry, Faisal Akram, Dietmar Fuchs, Lisa A. Brenner, Maureen W. Groer, and Mark A. Reynolds

Subjects
Drug Discovery, General Medicine
Abstract

Background: Immune activation or high levels of stress may lead to increased metabo-lism of tryptophan during pregnancy. Porphyromonas gingivalis (Pg), the “keystone” periodontal pathogen, induces immune and indoleamine 2,3-dioxygenase (IDO) activation. Thus, we hypothe-sized that larger gestational decreases in tryptophan and elevations in neopterin and kynurenine would occur in pregnant women with elevated IgG antibodies to Pg capsular (K) serotypes. Methods: Venous blood of 52 Hispanic pregnant women with a mean age (SD) of 31.8 (5.9) years was sampled once per trimester of pregnancy (V1, V2, V3), and plasma was obtained and stored. ELISAs were used to measure Pg capsular (K) serotype IgG serointensity (V1 only) and neopterin levels (V1-V3). Tryptophan and kynurenine (V1-V3) were measured with high-performance liquid chromatography. The participants having IgG serointensity for any of the seven Pg K serotypes in the highest quartile were defined as the “High PgK_IgG” group and those having IgG serointensity for all K serotypes in the lowest three quartiles were defined as the “Low PgK_IgG” group. Statis-tics included multivariable linear and nonparametric methods. Results: Significant decreases in plasma tryptophan levels and increases in neopterin during gesta-tion were found in “High PgK_IgG” women but not in “Low PgK_IgG” women. Kynurenine changes were not significantly different between the two groups. Conclusions: If replicated in larger studies and further characterized clinically, radiologically, and microbiologically, our results may potentially lead to novel interventional targets, as well as the de-velopment of more complete prognostic and predictive interactive biomarkers for adverse obstetri-cal outcomes and peripartum depression, and their prevention.

Published
2022
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27. Impact of L-Arginine and L-Glutamine supplementation on growth performance and immune status in weanling pigs challenged with Escherichia coli F4

Author

M O Wellington, T G Hulshof, K Ernst, A Balemans, G I Page, and H M J Van Hees

Subjects
Genetics, Animal Science and Zoology, General Medicine, Food Science
Abstract

Arginine (ARG) and Glutamine (GLN) have been reported to play significant roles in protein metabolism, immunity, and intestinal health in weanling pigs. The present study investigated the independent and interactive effect of supplementing ARG and GLN on pigs' immune status and growth performance following an E. coli F4 challenge. A total of 240 mixed-sex pigs (24 ± 2 d old; 7.3 ± 0.1 kg BW) were used in a 42-d experiment after selection for E. coli F4 susceptibility. The pigs were group-housed (3 pigs/pen), and pens were randomly assigned to five experimental treatments (n=16 pens/treatment). Experimental treatments were: 1) a wheat-barley-soybean meal-based basal diet (CTRL), 2) a basal diet with 2500 mg/kg zinc oxide (ZnO), 3) a basal diet + 0.5% Glutamine (0.5% GLN), 4) basal diet + 0.5% Arginine (0.5% ARG), and 5) basal diet with 0.5% Glutamine+0.5% Arginine (0.5% GLN+ARG). All Pigs were inoculated with E. coli F4 on d7, d8, and d9 post-weaning. Rectal swabs were taken from each pig and plated on blood agar plates for E. coli F4 presence. Blood and fecal samples were taken to determine the acute phase response and selected fecal biomarkers for the immune response. Growth performance and fecal scores were recorded. Fecal swabs resulted in no positive pig for E. coli F4 before inoculation and 73.3% positive post-inoculation. Diarrhea incidence during d7-14 was significantly lower for the ZnO treatment (P < 0.05). The haptoglobin level on d3 was lower than d10 and d20, irrespective of treatment (P < 0.05). The albumin level was lower on d20 compared to d3 and d10 (P < 0.05). There was no treatment effect on albumin levels regardless of sampling day (P > 0.05). The PigMAP was lowest on d3 and highest on d10 (P < 0.05). We did not observe significant treatment differences (P > 0.05) in myeloperoxidase and calprotectin. Pancreatitis-associated protein was higher in the ZnO (P = 0.001) treatment than in the other treatments. Fecal IgA tended (P = 0.10) to be higher in the ZnO and 0.5% ARG treatments. There were no performance differences, except during d0-7, where the ZnO treatment was lower in ADG and ADFI (P < 0.001), while FE was similar across treatments. In summary, no improved performance was observed with either ARG, GLU, or both. The immune response results showed that the E. coli F4 challenge may have exacerbated the acute phase response; hence, the benefits of dietary treatments did not go beyond immune repair and reduction in inflammation.

Published
2023
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28. Interpretable dimensionality reduction and classification of mass spectrometry imaging data in a visceral pain model via non-negative matrix factorization

Author

Kasun Pathirage, Aman Virmani, Alison J. Scott, Richard J. Traub, Robert K. Ernst, Reza Ghodssi, Behtash Babadi, and Pamela Abshire

Abstract

Mass spectrometry imaging (MSI) is a powerful scientific tool for understanding the spatial distribution of biochemical compounds in tissue structures. MSI data analysis presents problems due to the large file sizes and computational resource requirements and also due to the complexity of interpreting the raw spectral data. Dimensionality reduction techniques that address the first issue do not necessarily result in readily interpretable features. In this paper, we present non-negative matrix factorization (NMF) as a dimensionality reduction algorithm that reduces the size of MSI datasets by three orders of magnitude with limited loss of information, yielding spatial and spectral components with meaningful correlation to tissue structure. This analysis is demonstrated on an MSI dataset from female Sprague-Dawley rats for an animal model of comorbid visceral pain hypersensitivity (CPH). The significant findings are: 1) High-dimensional MSI data (∼100,000 ions per pixel) was reduced to 20 spectral NMF components with<20% loss in reconstruction accuracy. 2) Spatial NMF components are reproducible and correlate well with H&E-stained tissue images. 3) Spatial NMF components may be used to provide images with enhanced specificity for different tissue types. 4) Small patches of NMF data (i.e., 20 spatial NMF components over 20 x 20 pixels) provide an accuracy of∼87% in classifying CPH vs näıve control subjects. This paper presents novel methodologies for data augmentation to support classification, ranking of features according to their contribution to classification, and image registration to support tissue-specific imaging.

Published
2023
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29. Intranasal VLP-RBD vaccine adjuvanted with BECC470 confers immunity against Delta SARS-CoV-2 challenge in K18-hACE2-mice

Author

Katherine S Lee, Nathaniel A Rader, Olivia A Miller, Melissa Cooper, Ting Y Wong, Md. Shahrier Amin, Mariette Barbier, Justin R Bevere, Robert K Ernst, and F. Heath Damron

Abstract

As the COVID-19 pandemic transitions to endemic, seasonal boosters are a plausible reality across the globe. We hypothesize that intranasal vaccines can provide better protection against asymptomatic infections and more transmissible variants of SARS-CoV-2. To formulate a protective intranasal vaccine, we utilized a VLP-based platform. Hepatitis B surface antigen- based virus like particles (VLP) linked with receptor binding domain (RBD) antigen were paired with the TLR4-based agonist adjuvant, BECC 470. K18-hACE2 mice were primed and boosted at four-week intervals with either VLP-RBD-BECC or mRNA-1273. Both VLP-RBD-BECC and mRNA-1273 vaccination resulted in production of RBD-specific IgA antibodies in serum. RBD- specific IgA was also detected in the nasal wash and lung supernatants and were highest in VLP-RBD-BECC vaccinated mice. Interestingly, VLP-RBD-BECC vaccinated mice showed slightly lower levels of pre-challenge IgG responses, decreased RBD-ACE2 binding inhibition, and lower neutralizing activityin vitrothan mRNA-1273 vaccinated mice. Both VLP-RBD-BECC and mRNA-1273 vaccinated mice were protected against challenge with a lethal dose of Delta variant SARS-CoV-2. Both vaccines limited viral replication and viral RNA burden in the lungs of mice. CXCL10 is a biomarker of severe SARS-CoV-2 infection and we observed both vaccines limited expression of serum and lung CXCL10. Strikingly, VLP-RBD-BECC when administered intranasally, limited lung inflammation at early timepoints that mRNA-1273 vaccination did not. VLP-RBD-BECC immunization elicited antibodies that do recognize SARS-CoV-2 Omicron variant. However, VLP-RBD-BECC immunized mice were protected from Omicron challenge with low viral burden. Conversely, mRNA-1273 immunized mice had low to no detectable virus in the lungs at day 2. Together, these data suggest that VLP-based vaccines paired with BECC adjuvant can be used to induce protective mucosal and systemic responses against SARS- CoV-2.

Published
2023
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30. Vitamin D3 and deconvoluting a rash

Author

Madison K. Ernst, Spencer T. Evans, Jose-Marc Techner, Robert M. Rothbaum, Luisa F. Christensen, Ummiye Venus Onay, Dauren Biyashev, Michael M. Demczuk, Cuong V. Nguyen, Kord S. Honda, Thomas S. McCormick, Lam C. Tsoi, Johann E. Gudjonsson, Kevin D. Cooper, and Kurt Q. Lu

Subjects
General Medicine
Published
2023
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31. Position-Specific Secondary Acylation Determines Detection of Lipid A by Murine TLR4 and Caspase-11

Author

Erin M. Harberts, Daniel Grubaugh, Daniel C. Akuma, Sunny Shin, Robert K. Ernst, and Igor E. Brodsky

Subjects
Lipopolysaccharides, Toll-Like Receptor 4, Mice, Host Response and Inflammation, Infectious Diseases, Lipid A, Acylation, Caspases, Immunology, Animals, lipids (amino acids, peptides, and proteins), Parasitology, Microbiology
Abstract

Immune sensing of the Gram-negative bacterial membrane glycolipid lipopolysaccharide (LPS) is both a critical component of host defense against Gram-negative bacterial infection, and a contributor to hyper-inflammatory response, leading to sepsis and death. Innate immune activation by LPS is due to the lipid A moiety, an acylated di-glucosamine molecule that can activate inflammatory responses via the extracellular sensor TLR4/MD2 or the cytosolic sensor caspase-11 (Casp11). The number and length of acyl chains present on bacterial lipid A structures vary across bacterial species and strains, which affects the magnitude of TLR4 and Casp11 activation. TLR4 and Casp11 are thought to respond similarly to various lipid A structures, as tetra-acylated lipid A structures do not activate either sensor, whereas hexa-acylated structures activate both sensors. However, direct analysis of extracellular and cytosolic responses to the same sources and preparations of LPS/lipid A structures have been limited, and the precise features of lipid A that determine the differential activation of each receptor remain poorly defined. To address this question, we used rationally engineered lipid A isolated from a series of bacterial acyl-transferase mutants that produce novel, structurally defined molecules. Intriguingly, we find that the location of specific secondary acyl chains on lipid A resulted in differential recognition by TLR4- or Casp11, providing new insight into the structural features of lipid A required to activate either TLR4- or Casp11. Our findings indicate that TLR4 and Casp11 sense non-overlapping areas of lipid A chemical space, thereby constraining the ability of Gram-negative pathogens to evade innate immunity.

Published
2023

32. Lipid A Variants Activate Human TLR4 and the Noncanonical Inflammasome Differently and Require the Core Oligosaccharide for Inflammasome Activation

Author

Jasmine Alexander-Floyd, Antonia R. Bass, Erin M. Harberts, Daniel Grubaugh, Joseph D. Buxbaum, Igor E. Brodsky, Robert K. Ernst, and Sunny Shin

Subjects
Lipopolysaccharides, Host Response and Inflammation, Inflammasomes, Acylation, Macrophages, Immunology, Microbiology, Toll-Like Receptor 4, Mice, Infectious Diseases, Lipid A, Animals, Humans, Parasitology
Abstract

Detection of Gram-negative bacterial lipid A by the extracellular sensor, myeloid differentiation 2 (MD2)/Toll-like receptor 4 (TLR4), or the intracellular inflammasome sensors, CASP4 and CASP5, induces robust inflammatory responses. The chemical structure of lipid A, specifically its phosphorylation and acylation state, varies across and within bacterial species, potentially allowing pathogens to evade or suppress host immunity. Currently, it is not clear how distinct alterations in the phosphorylation or acylation state of lipid A affect both human TLR4 and CASP4/5 activation. Using a panel of engineered lipooligosaccharides (LOS) derived from Yersinia pestis with defined lipid A structures that vary in their acylation or phosphorylation state, we identified that differences in phosphorylation state did not affect TLR4 or CASP4/5 activation. However, the acylation state differentially impacted TLR4 and CASP4/5 activation. Specifically, all tetra-, penta-, and hexa-acylated LOS variants examined activated CASP4/5-dependent responses, whereas TLR4 responded to penta- and hexa-acylated LOS but did not respond to tetra-acylated LOS or penta-acylated LOS lacking the secondary acyl chain at the 3′ position. As expected, lipid A alone was sufficient for TLR4 activation. In contrast, both core oligosaccharide and lipid A were required for robust CASP4/5 inflammasome activation in human macrophages, whereas core oligosaccharide was not required to activate mouse macrophages expressing CASP4. Our findings show that human TLR4 and CASP4/5 detect both shared and nonoverlapping LOS/lipid A structures, which enables the innate immune system to recognize a wider range of bacterial LOS/lipid A and would thereby be expected to constrain the ability of pathogens to evade innate immune detection.

Published
2023

33. Benchmarking tools for detecting longitudinal differential expression in proteomics data allows establishing a robust reproducibility optimization regression approach

Author

Tommi Välikangas, Tomi Suomi, Courtney E. Chandler, Alison J. Scott, Bao Q. Tran, Robert K. Ernst, David R. Goodlett, and Laura L. Elo

Subjects
Multidisciplinary, General Physics and Astronomy, General Chemistry, General Biochemistry, Genetics and Molecular Biology
Abstract

Quantitative proteomics has matured into an established tool and longitudinal proteomics experiments have begun to emerge. However, no effective, simple-to-use differential expression method for longitudinal proteomics data has been released. Typically, such data is noisy, contains missing values, and has only few time points and biological replicates. To address this need, we provide a comprehensive evaluation of several existing differential expression methods for high-throughput longitudinal omics data and introduce a Robust longitudinal Differential Expression (RolDE) approach. The methods are evaluated using over 3000 semi-simulated spike-in proteomics datasets and three large experimental datasets. In the comparisons, RolDE performs overall best; it is most tolerant to missing values, displays good reproducibility and is the top method in ranking the results in a biologically meaningful way. Furthermore, RolDE is suitable for different types of data with typically unknown patterns in longitudinal expression and can be applied by non-experienced users.

Published
2022
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34. A Matrix-Assisted Laser Desorption Ionization–Time of Flight Mass Spectrometry Direct-from-Urine-Specimen Diagnostic for Gram-Negative Pathogens

Author

Hyojik Yang, Richard D. Smith, Kylie P. Sumner, David R. Goodlett, J. Kristie Johnson, and Robert K. Ernst

Subjects
Microbiology (medical), Infectious Diseases, General Immunology and Microbiology, Ecology, Physiology, Genetics, Cell Biology
Abstract

Urinary tract infections (UTIs) pose a major public health burden. The vast majority of UTIs are caused by Gram-negative bacteria. Current culture-based pathogen identification methods may require up to 24 to 48 h of incubation. In this study, we developed and evaluated a method for Gram-negative pathogen identification direct from urine, without culture, via matrix-assisted laser desorption ionization-time of flight mass spectrometry (MALDI-TOF MS) in approximately 1 h. Urine samples were collected (

Published
2022
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36. Reduced SARS-CoV-2 mRNA vaccine immunogenicity and protection in mice with diet-induced obesity and insulin resistance

Author

Timothy R. O’Meara, Etsuro Nanishi, Marisa E. McGrath, Soumik Barman, Danica Dong, Carly Dillen, Manisha Menon, Hyuk-Soo Seo, Sirano Dhe-Paganon, Robert K. Ernst, Ofer Levy, Matthew B. Frieman, and David J. Dowling

Abstract

BackgroundObesity and Type 2 Diabetes Mellitus (T2DM) are associated with an increased risk of severe outcomes from infectious diseases, including COVID-19. These conditions are also associated with distinct responses to immunization, including an impaired response to widely used SARS-CoV-2 mRNA vaccines.ObjectiveTo establish a connection between reduced immunization efficacy via modeling the effects of metabolic diseases on vaccine immunogenicity that is essential for the development of more effective vaccines for this distinct vulnerable population.MethodsWe utilized a murine model of diet-induced obesity and insulin resistance to model the effects of comorbid T2DM and obesity on vaccine immunogenicity and protection.ResultsMice fed a high-fat diet (HFD) developed obesity, hyperinsulinemia, and glucose intolerance. Relative to mice fed a normal diet (ND), HFD mice vaccinated with a SARS-CoV-2 mRNA vaccine exhibited significantly lower anti-spike IgG titers, predominantly in the IgG2c subclass, associated with a lower type 1 response, along with a 3.83-fold decrease in neutralizing titers. Furthermore, enhanced vaccine-induced spike-specific CD8+T cell activation and protection from lung infection against SARS-CoV-2 challenge were seen only in ND mice but not in HFD mice.ConclusionWe demonstrate impaired immunity following SARS-CoV-2 mRNA immunization in a murine model of comorbid T2DM and obesity, supporting the need for further research into the basis for impaired anti-SARS-CoV-2 immunity in T2DM and investigation of novel approaches to enhance vaccine immunogenicity among those with metabolic diseases.Capsule summaryObesity and type 2 diabetes impair SARS-CoV-2 mRNA vaccine efficacy in a murine model.

Published
2022
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37. Bacterial lipids: powerful modifiers of the innate immune response [version 1; referees: 2 approved]

Author

Courtney E. Chandler and Robert K. Ernst

Subjects
Review, Articles, Biomacromolecule-Ligand Interactions, Cell Signaling & Trafficking Structures, Cellular Microbiology & Pathogenesis, Immunity to Infections, Immunomodulation, Innate Immunity, Medical Microbiology, lipoproteins, LPS, LTA, TLR2, TLR4, innate immunity
Abstract

The innate immune system serves as a first line of defense against microbial pathogens. The host innate immune response can be triggered by recognition of conserved non-self-microbial signature molecules by specific host receptor proteins called Toll-like receptors. For bacteria, many of these molecular triggers reside on or are embedded in the bacterial membrane, the interface exposed to the host environment. Lipids are the most abundant component of membranes, and bacteria possess a unique set of lipids that can initiate or modify the host innate immune response. Bacterial lipoproteins, peptidoglycan, and outer membrane molecules lipoteichoic acid and lipopolysaccharide are key modulators of the host immune system. This review article will highlight some of the research emerging at the crossroads of bacterial membranes and innate immunity.

Published
2017
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38. An In Vitro Model of the Efficacy of Breast Implant Irrigant Solutions Against Gram-Negative Infections

Author

Michael Ha, Ledibabari M. Ngaage, Richard D. Smith, Jerilyn R. Izac, Peter C. Kim, Devinder Singh, Sheri Slezak, Robert K. Ernst, Janette Harro, and Yvonne M. Rasko

Subjects
Breast Implants, Escherichia coli, Humans, Surgery, Povidone-Iodine, Breast Implantation, Anti-Bacterial Agents
Abstract

In implant-based breast surgery, infections remain a clinically challenging complication. Surgeons often prophylactically address this risk by irrigating the implant at the time of placement. However, there remain few data on the ideal irrigant for gram-negative species.The authors assessed the relative efficacy of 10% povidone-iodine, triple-antibiotic solution, Prontosan, Clorpactin, and normal saline (negative control) against 3 gram-negative bacterial backgrounds: Escherichia coli , Pseudomonas aeruginosa , and Proteus species. A laboratory-adapted strain and a clinical isolate were selected for each group of bacteria. Sterile, smooth implant discs were immersed in each irrigant solution and then incubated in suspensions of each bacterial strain overnight at 37°C. Each disc was then rinsed and sonicated to displace biofilm-forming bacteria from the implant surface. The displaced bacteria were enumerated by plating, and normalized values were calculated for the bacterial counts of each irrigant.Povidone-iodine resulted in the greatest reduction of bacterial load for all 6 strains by a factor of 10 1 to 10 6 . Prontosan had a lesser, yet significant reduction in all bacterial strains. Triple-antibiotic solution demonstrated the greatest reduction in one Proteus species strain, and Clorpactin reduced bacterial counts in only half of the bacterial strains. When comparing laboratory strains to clinical isolates, significant differences were seen in each bacterial species in at least 2 irrigant solutions.Povidone-iodine has been proven the most effective at reducing bacterial contamination of E. coli, P. aeruginosa , and Proteus species in both laboratory-adapted strains and clinical isolates.This study proves that povidone-iodine is the most effective at preventing gram-negative infections in breast implant surgery.

Published
2022

39. Surface Anchoring of the Kingella kingae Galactan Is Dependent on the Lipopolysaccharide O-Antigen

Author

Nina R. Montoya, Eric A. Porsch, Vanessa L. Muñoz, Artur Muszyński, Jiri Vlach, David K. Hahn, Parastoo Azadi, Matthew Sherman, Hyojik Yang, Courtney E. Chandler, Robert K. Ernst, and Joseph W. St. Geme

Subjects
Lipopolysaccharides, Virology, Child, Preschool, Neisseriaceae Infections, Humans, O Antigens, Glycosyltransferases, Kingella kingae, Child, Microbiology, Galactans
Abstract

Kingella kingae is a leading cause of bone and joint infections and other invasive diseases in young children. A key K. kingae virulence determinant is a secreted exopolysaccharide that mediates resistance to serum complement and neutrophils and is required for full pathogenicity. The K. kingae exopolysaccharide is a galactofuranose homopolymer called galactan and is encoded by the pamABC genes in the pamABCDE locus. In this study, we sought to define the mechanism by which galactan is tethered on the bacterial surface, a prerequisite for mediating evasion of host immune mechanisms. We found that the pamD and pamE genes are glycosyltransferases and are required for synthesis of an atypical lipopolysaccharide (LPS) O-antigen. The LPS O-antigen in turn is required for anchoring of galactan, a novel mechanism for association of an exopolysaccharide with the bacterial surface.SignificanceKingella kingae is an emerging pediatric pathogen and produces invasive disease by colonizing the oropharynx, invading the bloodstream, and disseminating to distant sites. This organism produces a uniquely multifunctional exopolysaccharide called galactan that is critical for virulence and promotes intravascular survival by mediating resistance to serum and neutrophils. In this study, we established that at least some galactan is anchored to the bacterial surface via a novel structural interaction with an atypical lipopolysaccharide O-antigen. Additionally, we demonstrated that the atypical O-antigen is synthesized by the pamD and pamE genes, located downstream of the gene cluster responsible for galactan biosynthesis. This work addresses how the K. kingae exopolysaccharide can mediate innate immune resistance and advances understanding of bacterial exopolysaccharides and lipopolysaccharides.

Published
2022

40. Entwicklungen in der medikamentösen Therapie des triple-negativen Mammakarzinoms

Author

Visnja Fink, K Ernst, A. Fink, Wolfgang Janni, Brigitte Rack, T Braun, J Huober, and A De Gregorio

Subjects
0301 basic medicine, Gynecology, 03 medical and health sciences, medicine.medical_specialty, 030104 developmental biology, 0302 clinical medicine, Oncology, business.industry, 030220 oncology & carcinogenesis, Medicine, Hematology, business
Abstract

In der Gruppe der Mammakarzinome hat das triple-negative Mammakarzinom (TNBC, „triple-negative breast cancer“) das heterogenste Outcome und die schlechteste Prognose. Durch das Fehlen von Hormonrezeptoren und des HER2/neu(„human epidermal growth factor receptor 2“)-Rezeptor bestehen in der aktuellen klinischen Routine keine Zielstrukturen fur eine spezifische Therapie. Es erfolgte eine Literaturrecherche zur aktuellen Studienlage und vielversprechenden Therapieansatzen. In der kurativen Situation finden sich neue Ansatze in der Hinzunahme von Checkpointinhibitoren zusatzlich zur Standardchemotherapie. Ebenfalls gibt es mit Capecitabin analog der CREATE-X-Studie bei non-PCR eine postneoadjuvante Therapie. In der palliativen Situation findet man neben verschiedenen Chemotherapien einen Ansatz in der Testung von Tumorgewebe und der Keimbahn. Bei PD-L1(„programmed cell death 1 ligand 1“)-Positivitat kann auf den bereits zugelassenen Checkpointinhibitor Atezolizumab zuruckgegriffen werden. Bevacizumab ist auch bei manchen Patientinnen eine Option. Weitere mogliche Antikorpertherapien umfassen in Zukunft Pembrolizumab sowie die Antikorper-drug-Konjugate Sacituzumab-Govitecan und Trastuzumab-Deruxtecan. Bei einer Aktivierung des AKT/PI3K(Phosphoinositid-3-Kinase)-Signalwegs scheinen AKT-Inhibitoren wie Capivasertib oder Ipatasertib eine Option darzustellen. Bei BRCA-Positivitat stehen PARP(Poly[ADP-ribose]-Polymerasen)-Inhibitoren zur Verfugung. Trotz Fehlens der Hormonrezeptoren und des HER2/neu-Rezeptors bestehen mittlerweile mit der PD-L1-Testung, der Keimbahnanalyse und auch der Testung auf eine Aktivierung des AKT/PI3K-Signalwegs weitere zielgerichtete Therapieoptionen fur das TNBC sowohl in der kurativen als auch in der palliativen Situation.

Published
2021
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41. Immediate dental and skeletal influence of distractor position on surgically assisted rapid palatal expansion with or without pterygomaxillary disjunction

Author

K. Ernst, Stephan Christian Möhlhenrich, Frank Hölzle, S. Chhatwani, Kristian Kniha, G. Danesh, Andreas Prescher, Florian Peters, and Ali Modabber

Subjects
Molar, Palatal Expansion Technique, Cone beam computed tomography, genetic structures, medicine.medical_treatment, Crown (dentistry), 03 medical and health sciences, 0302 clinical medicine, stomatognathic system, Alveolar Process, Maxilla, Alveolar ridge, Humans, Medicine, Tooth Cusp, Orthodontics, Palate, business.industry, Significant difference, 030206 dentistry, Cone-Beam Computed Tomography, humanities, Fresh cadaver, Otorhinolaryngology, 030220 oncology & carcinogenesis, Surgery, Oral Surgery, business, psychological phenomena and processes
Abstract

The outcome of surgically assisted rapid palatal expansion (SARPE) can be affected by pterygomaxillary disjunction (PMD) and the distractor position. In this study, SARPE was performed, with or without PMD, in 20 fresh cadaver heads. Transverse expansion was conducted twice using a bone-borne distractor in the anterior and posterior positions, resulting in four groups (n=10). Cone beam computed tomography scans were completed before and after SARPE to evaluate maxillary changes. A comparative anterior decrease and posterior increase in midpalatal opening resulted from SARPE with PMD combined with a posteriorly placed distractor. Significant differences in the internal transverse changes were found between the two SARPE techniques combined with an anterior distractor at the level of the premolars and molars for alveolar ridge width (P=0.040, P=0.024), and at the level of the molars for the dental crown width (P=0.017) and corresponding tooth cusp width (P=0.018). In contrast, using a posteriorly placed distractor led to a significant difference for tooth cusp width only (P=0.050). No statistically significant differences were found between external transverse changes or between distractor positions. PMD is more important in achieving a more uniform and parallel transverse expansion pattern than the distractor position. However, a posterior distractor seems to intensify the effects of PMD.

Published
2021
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42. A pilot study of an anti-endotoxin Ig-enriched bovine colostrum to prevent experimental sepsis

Author

Alan S. Cross, Surekha Shridhar, Robert K. Ernst, John E. Palardy, Abdullah Chahin, Alison J. Scott, Scott M Baliban, and Steven M. Opal

Subjects
Lipopolysaccharides, 0301 basic medicine, endotoxin, medicine.drug_class, 030106 microbiology, Immunology, Antibiotics, Immunoglobulins, Pilot Projects, Spleen, medicine.disease_cause, Microbiology, Sepsis, 03 medical and health sciences, Immune system, Antibiotic resistance, Escherichia coli, Animals, Medicine, antimicrobial resistance, Molecular Biology, Antibody, biology, business.industry, Pseudomonas aeruginosa, Original Articles, Cell Biology, RC581-607, medicine.disease, Antibodies, Bacterial, Bacterial Load, bovine colostrum, Endotoxins, 030104 developmental biology, Infectious Diseases, medicine.anatomical_structure, Immunoglobulin G, Bacterial Vaccines, Models, Animal, biology.protein, Colostrum, Cattle, Immunologic diseases. Allergy, business, Bacterial Outer Membrane Proteins
Abstract

Despite the dramatic increase in antimicrobial resistance, there is a dearth of antibiotics in development and few pharmaceutical companies working in the field. Further, any new antibiotics are likely to have a short shelf life. Ab-based interventions offer alternatives that are not likely to be circumvented by the widely prevalent antibiotic resistance genes. Bovine colostrum (BC)—the first milk after parturition, rich in nutrients and immune components—promotes gut integrity and modulates the gut microbiome. We developed a hyperimmune BC (HBC) enriched in Abs to a highly conserved LOS core region of Gram-negative bacteria by immunizing pregnant cows with a vaccine comprised of detoxified LOS from Escherichia coli O111 Rc (J5) mutant non-covalently complexed to group B meningococcal outer membrane protein (J5dLOS/OMP). This vaccine generated robust levels of anti-J5 LOS Ab in the colostrum. When given orally to neutropenic rats challenged orally with Pseudomonas aeruginosa, administration of HBC improved survival compared to non-immune rats, while both BC preparations improved survival compared to PBS controls. Elevated circulating endotoxin levels correlated with mortality. HBC and to a lesser extent non-immune BC reduced bacterial burden from the liver, lung, and spleen. We conclude that HBC and to a lesser extent BC may be effective supplements that improve outcome from lethal gut-derived disseminated infection and may reduce transmission of Gram-negative bacilli from the gastrointestinal tract.

Published
2021
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43. Partitioning of Seven Different Classes of Antibiotics into LPS Monolayers Supports Three Different Permeation Mechanisms through the Outer Bacterial Membrane

Author

Hannah Cetuk, Alison J. Scott, Andriy Anishkin, Susan B. Rempe, Robert K. Ernst, and Sergei Sukharev

Subjects
Lipopolysaccharides, Static Electricity, Porins, Cefsulodin, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Escherichia coli, Electrochemistry, medicine, General Materials Science, Spectroscopy, Cephalosporin Antibiotic, Antibacterial agent, biology, Chemistry, Surfaces and Interfaces, 021001 nanoscience & nanotechnology, Condensed Matter Physics, biology.organism_classification, Antimicrobial, Anti-Bacterial Agents, 0104 chemical sciences, Biophysics, Colistin, 0210 nano-technology, Bacterial outer membrane, Bacteria, Polymyxin B, medicine.drug
Abstract

The outer membrane (OM) of Gram-negative (G-) bacteria presents a barrier for many classes of antibacterial agents. Lipopolysaccharide (LPS), present in the outer leaflet of the OM, is stabilized by divalent cations and is considered to be the major impediment for antibacterial agent permeation. However, the actual affinities of major antibiotic classes toward LPS have not yet been determined. In the present work, we use Langmuir monolayers formed from E. coli Re and Rd types of LPS to record pressure-area isotherms in the presence of antimicrobial agents. Our observations suggest three general types of interactions. First, some antimicrobials demonstrated no measurable interactions with LPS. This lack of interaction in the case of cefsulodin, a third-generation cephalosporin antibiotic, correlates with its low efficacy against G- bacteria. Ampicillin and ciprofloxacin also show no interactions with LPS, but in contrast to cefsulodin, both exhibit good efficacy against G- bacteria, indicating permeation through common porins. Second, we observe substantial intercalation of the more hydrophobic antibiotics, novobiocin, rifampicin, azithromycin, and telithromycin, into relaxed LPS monolayers. These largely repartition back to the subphase with monolayer compression. We find that the hydrophobic area, charge, and dipole all show correlations with both the mole fraction of antibiotic retained in the monolayer at the monolayer-bilayer equivalence pressure and the efficacies of these antibiotics against G- bacteria. Third, amine-rich gentamicin and the cationic antimicrobial peptides polymyxin B and colistin show no hydrophobic insertion but are instead strongly driven into the polar LPS layer by electrostatic interactions in a pressure-independent manner. Their intercalation stably increases the area per molecule (by up to 20%), which indicates massive formation of defects in the LPS layer. These defects support a self-promoted permeation mechanism of these antibiotics through the OM, which explains the high efficacy and specificity of these antimicrobials against G- bacteria.

Published
2021
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44. Optimization of RG1-VLP vaccine performance in mice with novel TLR4 agonists

Author

C. Russell Middaugh, Breana Myers, Reinhard Kirnbauer, Athina Zacharia, Akshay Jain, William D. Picking, Robert K. Ernst, Richard B.S. Roden, Nicholas R. Larson, Sarah M. Valencia, Simone Difilippantonio, Ligia A. Pinto, Chelsea Sanders, Jason D. Marshall, Erin Harberts, and Robert H. Shoemaker

Subjects
viruses, medicine.medical_treatment, 030231 tropical medicine, Antibodies, Viral, complex mixtures, Article, Epitope, Mice, 03 medical and health sciences, 0302 clinical medicine, Pseudovirion, Antigen, medicine, Animals, Papillomavirus Vaccines, Vaccines, Virus-Like Particle, 030212 general & internal medicine, Neutralizing antibody, Papillomaviridae, Mice, Inbred BALB C, General Veterinary, General Immunology and Microbiology, biology, Immunogenicity, Papillomavirus Infections, Public Health, Environmental and Occupational Health, virus diseases, Oncogene Proteins, Viral, Virology, Toll-Like Receptor 4, Vaccination, Infectious Diseases, Humoral immunity, biology.protein, Molecular Medicine, Capsid Proteins, Adjuvant
Abstract

Current human papilloma virus (HPV) vaccines provide substantial protection against the most common HPV types responsible for oral and anogenital cancers, but many circulating cancer-causing types remain that lack vaccine coverage. The novel RG1-VLP (virus-like particle) vaccine candidate utilizes the HPV16-L1 subunit as a backbone to display an inserted HPV16-L2 17–36 a.a. “RG1” epitope; the L2 RG1 epitope is conserved across many HPV types and the generation of cross-neutralizing antibodies (Abs) against which has been demonstrated. In an effort to heighten the immunogenicity of the RG1-VLP vaccine, we compared in BALB/c mice adjuvant formulations consisting of novel bacterial enzymatic combinatorial chemistry (BECC)-derived toll-like receptor 4 (TLR4) agonists and the aluminum hydroxide adjuvant Alhydrogel. In the presence of BECC molecules, consistent improvements in the magnitude of Ab responses to both HPV16-L1 and the L2 RG1 epitope were observed compared to Alhydrogel alone. Furthermore, neutralizing titers to HPV16 as well as cross-neutralization of pseudovirion (PsV) types HPV18 and HPV39 were augmented in the presence of BECC agonists as well. Levels of L1 and L2-specific Abs were achieved after two vaccinations with BECC/Alhydrogel adjuvant that were equivalent to or greater than levels achieved with 3 vaccinations with Alhydrogel alone, indicating that the presence of BECC molecules resulted in accelerated immune responses that could allow for a decreased dose schedule for VLP-based HPV vaccines. In addition, dose-sparing studies indicated that adjuvantation with BECC/Alhydrogel allowed for a 75% reduction in antigen dose while still retaining equivalent magnitudes of responses to the full VLP dose with Alhydrogel. These data suggest that adjuvant optimization of HPV VLP-based vaccines can lead to rapid immunity requiring fewer boosts, dose-sparing of VLPs expensive to produce, and the establishment of a longer-lasting humoral immunity.

Published
2021
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45. A scaffold hopping strategy to generate new aryl-2-amino pyrimidine MRSA biofilm inhibitors

Author

Richard J.H. Smith, Robert K. Ernst, Alexander W. Weig, Christian Melander, Patrick M. O'Connor, Roberta J. Melander, Samantha L. Barlock, and Orry M. Marciano

Subjects
Klebsiella pneumoniae, medicine.drug_class, Antibiotics, Pharmaceutical Science, medicine.disease_cause, 01 natural sciences, Biochemistry, Microbiology, 03 medical and health sciences, Minimum inhibitory concentration, Drug Discovery, medicine, Pharmacology, 0303 health sciences, biology, 010405 organic chemistry, 030306 microbiology, Chemistry, Organic Chemistry, Biofilm, biochemical phenomena, metabolism, and nutrition, biology.organism_classification, Small molecule, 0104 chemical sciences, Staphylococcus aureus, Colistin, Molecular Medicine, Bacteria, medicine.drug
Abstract

Infections that stem from bacterial biofilms are difficult to eradicate. Within a biofilm state, bacteria are upwards of 1000-fold more resistant to conventional antibiotics, necessitating the development of alternative approaches to treat biofilm-based infections. One such approach is the development of small molecule adjuvants that can inhibit/disrupt bacterial biofilms. When such molecules are paired with conventional antibiotics, these dual treatments present a combination approach to eradicate biofilm-based infections. Previously, we have demonstrated that small molecules containing either a 2-amino pyrimidine (2-AP) or a 2-aminoimidazole (2-AI) heterocycle are potent anti-biofilm agents. Herein, we now report a scaffold hopping strategy to generate new aryl 2-AP analogs that inhibit biofilm formation by methicillin-resistant Staphylococcus aureus (MRSA). These molecules also suppress colistin resistance in colistin resistant Klebsiella pneumoniae, lowering the minimum inhibitory concentration (MIC) by 32-fold.

Published
2021
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46. On-Tissue Derivatization of Lipopolysaccharide for Detection of Lipid A Using MALDI-MSI

Author

Robert K. Ernst, Shelley N. Jackson, David R. Goodlett, Courtney E. Chandler, Amina S. Woods, Alison J. Scott, Hyo-Jik Yang, Imaging Mass Spectrometry (IMS), RS: M4I - Imaging Mass Spectrometry (IMS), AMIBM, and RS: FSE Biobased Materials

Subjects
Lipopolysaccharides, Lipopolysaccharide, Polysaccharide, medicine.disease_cause, Kidney, Mass spectrometry imaging, Article, Analytical Chemistry, Lipid A, chemistry.chemical_compound, Mice, Limit of Detection, IMAGING MASS-SPECTROMETRY, medicine, Escherichia coli, Animals, chemistry.chemical_classification, Innate immune system, Chemistry, Glycosidic bond, Biochemistry, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Pseudomonas aeruginosa, Acid hydrolysis, lipids (amino acids, peptides, and proteins)
Abstract

We developed a method to directly detect and map the Gram-negative bacterial virulence factor lipid A derived from lipopolysaccharide (LPS) by coupling acid hydrolysis with matrix-assisted laser desorption/ionization mass spectrometry imaging (MALDI-MSI). As the structure of lipid A (endotoxin) determines the innate immune outcome during infection, the ability to map its location within an infected organ or animal is needed to understand localized inflammatory responses that results during host-pathogen interactions. We previously demonstrated detec- tion of free lipid A from infected tissue; however detection of lipid A derived from intact (smooth) LPS from host-pathogen MSI studies, proved elusive. Here, we detected LPS-derived lipid A from the Gram-negative pathogens, Escherichia coli (Ec, m/z 1797) and Pseudomonas aeruginosa (Pa, m/z 1446) using on-tissue acid hydrolysis to cleave the glycosidic linkage between the polysaccharide (core and 0-antigen) and lipid A moieties of LPS. Using accurate mass methods, the ion corresponding to the major Ec and Pa lipid A species (m/z 1797 and 1446, respectively) were unambiguously discriminated from complex tissue substrates. Further, we evaluated potential delocalization and signal loss of other tissue lipids and found no evidence for either, making this LPS-to-Lipid A-MSI (LLA-MSI) method, compatible with simultaneous host-pathogen lipid imaging following acid hydrolysis. This spatially sensitive technique is the first step in mapping host-influenced de novo lipid A modifications, such as those associated with antimicrobial resistance phenotypes, during Gram-negative bacterial infection and will advance our understanding of the host-pathogen interface.

Published
2020

47. Streamlined Analysis of Cardiolipins in Prokaryotic and Eukaryotic Samples Using a Norharmane Matrix by MALDI-MSI

Author

Alison J. Scott, Robert K. Ernst, David R. Goodlett, Shelley N. Jackson, Hyo-Jik Yang, Amina S. Woods, Imaging Mass Spectrometry (IMS), and RS: M4I - Imaging Mass Spectrometry (IMS)

Subjects
Cardiolipins, Endogeny, mass spectrometry imaging, norharmane (NRM), Article, LIPIDOMICS, Mass spectrometry imaging, Mice, chemistry.chemical_compound, Matrix (mathematics), IMAGING MASS-SPECTROMETRY, Structural Biology, Lipidomics, Cardiolipin, Animals, MALDI, Spectroscopy, eukaryotic lipids, Bacteria, prokaryotic lipids, Maldi msi, PHOSPHOLIPIDS, Membrane, chemistry, Biochemistry, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, MEMBRANE, cardiolipin, Carbolines
Abstract

Cardiolipins (CLs) are an important, regulated lipid class both in prokaryotic and eukaryotic cells, yet they remain largely unexplored by matrix-assisted laser desorption/ionization mass spectrometry imaging (MALDI-MSI) in tissues. To date, no in-depth optimization studies of label-free visualization of CLs in complex biological samples have been reported. Here we report a streamlined modification to our previously reported MALDI-MSI method for detection of endogenous CLs in prokaryotic and eukaryotic cells based on preparation with norharmane (NRM) matrix. Notably, the use of NRM matrix permitted sensitive detection (4.7 pg/mm(2)) of spotted CL synthetic standards. By contrast, four other MALDI matrices commonly used for lipid analysis failed to generate CL ions. Using this NRM-based method, endogenous CLs were detected from two types of complex biological samples: dried bacterial arrays and mouse tissue sections. In both cases, using NRM resulted in a better signal/noise for CL ions than the other matrices. Furthermore, inclusion of a washing step improved CL detection from tissue and this combined tissue preparation method (washing and NRM matrix) was used to profile normal mouse lung. Mouse lung yielded 26 unique CLs that were mapped and identified. Consistent with previous findings, CLs containing polyunsaturated fatty acids (PUFAs) were found in abundance in the airway and vascular features of the lung. This work represents a comprehensive investigation of detection conditions for CL using MALDI-MSI in complex biological samples that resulted in a streamlined method that enables future studies of the biological role(s) of CL in tissue.

Published
2020
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48. Inactivation of AdeABC and AdeIJK efflux pumps elicits specific nonoverlapping transcriptional and phenotypic responses in Acinetobacter baumannii

Author

Inga V. Leus, Robert K. Ernst, Richard D Smith, Helen I. Zgurskaya, Lauren Smith, Sophie Richardson, Justyna W. Adamiak, and Anhthu Trinh

Subjects
Acinetobacter baumannii, Microbial Sensitivity Tests, Microbiology, Substrate Specificity, Gene Knockout Techniques, 03 medical and health sciences, Antibiotic resistance, Bacterial Proteins, Drug Resistance, Multiple, Bacterial, Gene expression, Molecular Biology, Gene, Gene knockout, 030304 developmental biology, Genetics, 0303 health sciences, biology, Sequence Analysis, RNA, 030306 microbiology, Membrane Transport Proteins, Gene Expression Regulation, Bacterial, biology.organism_classification, Phenotype, Anti-Bacterial Agents, Multiple drug resistance, RNA, Bacterial, Lipid A, Efflux, Acinetobacter Infections
Abstract

Multidrug resistant (MDR) strains of Acinetobacter baumannii present a serious clinical challenge. The development of antibiotic resistance in this species is enabled by efflux pumps of the Resistance-Nodulation-Division (RND) superfamily of proteins creating an efficient permeability barrier for antibiotics. At least three RND pumps, AdeABC, AdeIJK, and AdeFGH are encoded in the A. baumannii genome and are reported to contribute to antibiotic resistance in clinical isolates. In this study, we analyzed the contributions of AdeABC and AdeIJK in antibiotic resistance and growth physiology of the two MDR strains, AYE and AB5075. We found that not only the two pumps have nonoverlapping substrate specificities, their inactivation leads to specific nonoverlapping changes in gene expression as determined by RNA sequencing and confirmed by gene knockouts and growth phenotypes. Our results suggest that inactivation of AdeIJK elicits broader changes in the abundances of mRNAs and this response is modified in the absence of AdeB. In contrast, inactivation of AdeB leads to a focused cellular response, which is not sensitive to the activity of AdeIJK. We identified additional efflux pumps and transcriptional regulators that contribute to MDR phenotype of clinical A. baumannii isolates.

Published
2020
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49. Early evolutionary loss of the lipid A modifying enzyme PagP resulting in innate immune evasion in Yersinia pestis

Author

Robert K. Ernst, Iyarit Thaipisuttikul, Adeline M. Hajjar, Aaron C. Pride, David A. Rasko, David R. Goodlett, Mark R. Pelletier, Jason W. Sahl, Erin Harberts, Courtney E. Chandler, Jace W. Jones, M. Stephen Trent, and Russell E. Bishop

Subjects
0303 health sciences, Multidisciplinary, Innate immune system, biology, Lipopolysaccharide, 030306 microbiology, biology.organism_classification, 3. Good health, Microbiology, Lipid A, 03 medical and health sciences, chemistry.chemical_compound, Yersinia pestis, chemistry, Acyltransferase, Yersinia pseudotuberculosis, lipids (amino acids, peptides, and proteins), Yersinia enterocolitica, Bacterial outer membrane, 030304 developmental biology
Abstract

Immune evasion through membrane remodeling is a hallmark of Yersinia pestis pathogenesis. Yersinia remodels its membrane during its life cycle as it alternates between mammalian hosts (37 °C) and ambient (21 °C to 26 °C) temperatures of the arthropod transmission vector or external environment. This shift in growth temperature induces changes in number and length of acyl groups on the lipid A portion of lipopolysaccharide (LPS) for the enteric pathogens Yersinia pseudotuberculosis (Ypt) and Yersinia enterocolitica (Ye), as well as the causative agent of plague, Yersinia pestis (Yp). Addition of a C16 fatty acid (palmitate) to lipid A by the outer membrane acyltransferase enzyme PagP occurs in immunostimulatory Ypt and Ye strains, but not in immune-evasive Yp Analysis of Yp pagP gene sequences identified a single-nucleotide polymorphism that results in a premature stop in translation, yielding a truncated, nonfunctional enzyme. Upon repair of this polymorphism to the sequence present in Ypt and Ye, lipid A isolated from a Yp pagP+ strain synthesized two structures with the C16 fatty acids located in acyloxyacyl linkage at the 2' and 3' positions of the diglucosamine backbone. Structural modifications were confirmed by mass spectrometry and gas chromatography. With the genotypic restoration of PagP enzymatic activity in Yp, a significant increase in lipid A endotoxicity mediated through the MyD88 and TRIF/TRAM arms of the TLR4-signaling pathway was observed. Discovery and repair of an evolutionarily lost lipid A modifying enzyme provides evidence of lipid A as a crucial determinant in Yp infectivity, pathogenesis, and host innate immune evasion.

Published
2020
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50. Screening an Established Natural Product Library Identifies Secondary Metabolites That Potentiate Conventional Antibiotics

Author

Anne E. Mattingly, Richard J.H. Smith, Christian Melander, Robert K. Ernst, Roberta J. Melander, and Karlie E Cox

Subjects
Methicillin-Resistant Staphylococcus aureus, Klebsiella pneumoniae, medicine.drug_class, Antibiotics, Microbial Sensitivity Tests, Article, Microbiology, Prodigiosin, chemistry.chemical_compound, Antibiotic resistance, stomatognathic system, medicine, Novobiocin, Biological Products, Natural product, biology, Colistin, business.industry, biochemical phenomena, metabolism, and nutrition, biology.organism_classification, Anti-Bacterial Agents, Acinetobacter baumannii, Infectious Diseases, chemistry, Cusp (anatomy), business, medicine.drug
Abstract

Health organizations worldwide have warned that we are on the cusp of a “post-antibiotic era,” necessitating new approaches to combat antibiotic resistant infections. One such approach is the development of antibiotic adjuvants, which have little or no inherent antibiotic activity at their active concentrations but instead potentiate the activity of antibiotics against antibiotic-resistant bacteria. Recently, we demonstrated that meridianin D, a natural product originally reported to have activity against Staphylococcus aureus and Mycobacterium tuberculosis, possesses the ability to reverse colistin resistance in colistin resistant bacteria. As most natural product screens typically involve screening for only certain activities (anticancer, antiviral, and antimicrobial are typical), we posited that the meridianin D discovery was not unique and there are potentially many natural products that have adjuvant activity. To explore this, the National Cancer Institute (NCI) Natural Product Library Set IV was screened for adjuvant activity using four classes of antibiotics (β-lactams, aminoglycosides, macrolides, and polymyxins) against three bacterial pathogens (methicillin-resistant Staphylococcus aureus (MRSA), Acinetobacter baumannii, and Klebsiella pneumoniae). Sixteen compounds suppressed β-lactam resistance in MRSA, five of which effected a 16-fold reduction in the oxacillin minimum inhibitory concentration (MIC). Two natural products effectively suppressed aminoglycoside resistance in both of the Gram-negative species tested, and no hits were observed with macrolides. In contrast, a larger number of natural product adjuvants were identified when screening against colistin-resistant strains of A. baumannii and K. pneumoniae. Nine compounds reduced the colistin MIC to its breakpoint or lower (up to a 1024-fold reduction). Clorobiocin, novobiocin, and prodigiosin were most effective, reducing the colistin MIC in K. pneumoniae strain B9 to 2 μg/mL at concentrations as low as 0.625, 2.5, and 1.25 μm, respectively. Restored sensitivity to colistin with these compounds does not appear to coincide with known mechanisms of colistin resistance.

Published
2020
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