Your search keyword '"Radolf JD"' showing total 237 results

1. LB1.64 Cd64-mediated phagocytosis of human syphilitic serum opsonizedtreponema pallidumby human macrophages required ifn-gamma

Author

Hawley, KL, primary, Cruz, AR, additional, Benjamin, SL, additional, Vake, CJ La, additional, LeDoyt, M, additional, Ramirez, LG, additional, Radolf, JD, additional, and Salazar, JC, additional

Published

2017

2. Correspondence.

Author

Wormser GP, Barthold SW, Shapiro ED, Dattwyler RJ, Bakken JS, Seere AC, Bockenstedt LD, Radolf JD, McSweegan E, Yrjänäinen H, Hytönen J, Song XR, Oksi J, Hartiala K, and Viljanen MK

Published

2007

3. LB1.64 Cd64-mediated phagocytosis of human syphilitic serum opsonized treponema pallidumby human macrophages required ifn-gamma

Author

Hawley, KL, Cruz, AR, Benjamin, SL, Vake, CJ La, LeDoyt, M, Ramirez, LG, Radolf, JD, and Salazar, JC

Abstract

IntroductionSyphilis is a multi-stage, sexually transmitted disease caused by the spirochete Treponema pallidum(Tp). Clinical manifestations result from the treponeme’s ability to elicit a robust immune response while at the same time evading host defenses. Syphilitic lesions are comprised of a rich cellular infiltrate, which includes IFN-gamma (IFNg) producing T cells, NK cells and activated macrophages. We previously, we demonstrated that human syphilitic serum (HSS) promotes efficient uptake of Tpby human monocytes and that opsonophagocytosis of Tpmarkedly enhances cytokine production. The purpose of this study is to establish a potential role for macrophages and opsonic Ab in clearance of Tpand generation of tissue-based inflammation during human syphilis.MethodsWe used monocyte-derived macrophages to develop an ex vivomodel for studying spirochete-macrophage interactions. We used macrophage-colony stimulating factor and IFNg for macrophage maturation and evaluated the immunophenotypic modulations by flow cytometry. We assessed Tpuptake, in the presence or absence of HSS by confocal microscopy. We also determined the cellular responses initiated by opsonophagocytosis of Tpusing targeted transcriptional array analysis and cytokine bead array.ResultsIFNg polarisation of macrophages led to an increase in Fcg receptors (FcgRs) expression, phagocytosis of HSS opsonized Tpand cytokine production. Blockade of CD64 significantly diminished spirochetal uptake and pro-inflammatory cytokine secretion by the macrophages.ConclusionOur ex vivostudies provide a potential role for macrophages in clearance of Tpduring human syphilis. These data are the first to demonstrate that CD64 in the primary FcR involved in opsonophagocytosis of Tpand IFNg plays a critical role in the macrophages responsiveness following uptake of the spirochete. Moreover, our study results also provide an ex vivosurrogate system for use in future syphilis vaccine studies.

Published

2017

4. New Pathways in Syphilis Vaccine Development.

Author

Liu A, Giacani L, Hawley KL, Cameron CE, Seña AC, Konda KA, Radolf JD, and Klausner JD

Subjects

Humans, Antigens, Bacterial immunology, Syphilis prevention & control, Syphilis immunology, Treponema pallidum immunology, Vaccine Development, Bacterial Vaccines immunology, Bacterial Vaccines administration & dosage

Abstract

Abstract: The New Pathways in Syphilis Vaccine Development meeting was held before the start of the STI & HIV 2023 World Congress as a pre-meeting symposium to highlight recent advances in the development of an effective syphilis vaccine and discuss the challenges still faced by investigators. Internationally renowned public health officials, clinical investigators, and basic researchers from academia, government, and community-based organizations met on July 24, 2023, in Chicago, Illinois. Four speakers discussed key research findings in syphilis vaccine development, which included antigen selection, identification of epitopes associated with protective immunity, and delivery platforms, with great emphasis on development of chimeric antigens. Significant progress was also shown on the elucidation of Treponema pallidum genomes from virtually all continents to assess the diversity in vaccine candidates of the syphilis spirochete., Competing Interests: Conflict of Interest and Sources of Funding: Studies discussed in this review were supported by grants from the National Institutes of Health, National Institute of Allergy and Infectious Diseases (R01 AI155217, R01 AI139265, and R21 AI173988 to J.D.K., U19 AI144133 to L.G. and C.C., and U19 AI144177 to J.D.R.). Dr. Klausner is an advisor for Direct Diagnostics, LLC., (Copyright © 2024 The Author(s). Published by Wolters Kluwer Health, Inc. on behalf of the American Sexually Transmitted Diseases Association.)

Published

2024

5. Development and utilization of Treponema pallidum expressing green fluorescent protein to study spirochete-host interactions and antibody-mediated clearance: expanding the toolbox for syphilis research.

Author

Delgado KN, Vicente CF, Hennelly CM, Aghakhanian F, Parr JB, Claffey KP, Radolf JD, Hawley KL, and Caimano MJ

Abstract

Syphilis is a sexually transmitted infection caused by the highly invasive and immunoevasive spirochetal pathogen Treponema pallidum subsp. pallidum ( TPA ). Untreated syphilis can lead to infection of multiple organ systems, including the central nervous system. The alarming increase in syphilis cases globally underscores the importance of developing novel strategies to understand the complexities of syphilis pathogenesis. In this study, we took advantage of recent advances in in vitro cultivation and genetic manipulation of syphilis spirochetes to engineer a TPA strain that constitutively expresses green fluorescent protein (GFP). GFP + TPA grew identically to the Nichols parent strain in vitro and exhibited wild-type infectivity in the rabbit model. We then used the GFP + strain to visualize TPA interactions with host cells during co-cultivation in vitro , within infected rabbit testes, and following opsonophagocytosis by murine bone marrow-derived macrophages. Development of fluorescent strain also enabled us to develop a flow cytometric-based assay to assess antibody-mediated damage to the spirochete's fragile outer membrane (OM), demonstrating dose-dependent growth inhibition and OM disruption in vitro . Notably, we observed greater OM disruption of GFP + TPA with sera from immune rabbits infected with the TPA Nichols strain compared to sera generated against the genetically distinct SS14 strain. These latter findings highlight the importance of OM protein-specific antibody responses for clearance of TPA during syphilitic infection. The availability of fluorescent TPA strains paves the way for future studies investigating spirochete-host interactions as well as functional characterization of antibodies directed treponemal OM proteins, the presumptive targets for protective immunity., Competing Interests: J.B.P. reports research support from Gilead Sciences and non-financial support from Abbott Laboratories.

Published

2024

6. Clinical and genomic diversity of Treponema pallidum subspecies pallidum to inform vaccine research: an international, molecular epidemiology study.

Author

Seña AC, Matoga MM, Yang L, Lopez-Medina E, Aghakhanian F, Chen JS, Bettin EB, Caimano MJ, Chen W, Garcia-Luna JA, Hennelly CM, Jere E, Jiang Y, Juliano JJ, Pospíšilová P, Ramirez L, Šmajs D, Tucker JD, Vargas Cely F, Zheng H, Hoffman IF, Yang B, Moody MA, Hawley KL, Salazar JC, Radolf JD, and Parr JB

Subjects

Humans, Male, Female, Adult, Cross-Sectional Studies, Genome, Bacterial, Bacterial Vaccines immunology, Bacterial Vaccines administration & dosage, Middle Aged, Young Adult, Genetic Variation genetics, Phylogeny, United States epidemiology, Genomics, Treponema, Treponema pallidum genetics, Treponema pallidum immunology, Syphilis epidemiology, Syphilis microbiology, Whole Genome Sequencing, Molecular Epidemiology

Abstract

Background: The increase in syphilis rates worldwide necessitates development of a vaccine with global efficacy. We aimed to explore Treponema pallidum subspecies pallidum (TPA) molecular epidemiology essential for vaccine research by analysing clinical data and specimens from early syphilis patients using whole-genome sequencing (WGS) and publicly available WGS data., Methods: In this multicentre, cross-sectional, molecular epidemiology study, we enrolled patients with primary, secondary, or early latent syphilis from clinics in China, Colombia, Malawi, and the USA between Nov 28, 2019, and May 27, 2022. Participants aged 18 years or older with laboratory confirmation of syphilis by direct detection methods or serological testing, or both, were included. Patients were excluded from enrolment if they were unwilling or unable to give informed consent, did not understand the study purpose or nature of their participation, or received antibiotics active against syphilis in the past 30 days. TPA detection and WGS were conducted on lesion swabs, skin biopsies, skin scrapings, whole blood, or rabbit-passaged isolates. We compared our WGS data to publicly available genomes and analysed TPA populations to identify mutations associated with lineage and geography., Findings: We screened 2802 patients and enrolled 233 participants, of whom 77 (33%) had primary syphilis, 154 (66%) had secondary syphilis, and two (1%) had early latent syphilis. The median age of participants was 28 years (IQR 22-35); 154 (66%) participants were cisgender men, 77 (33%) were cisgender women, and two (1%) were transgender women. Of the cisgender men, 66 (43%) identified as gay, bisexual, or other sexuality. Among all participants, 56 (24%) had HIV co-infection. WGS data from 113 participants showed a predominance of SS14-lineage strains with geographical clustering. Phylogenomic analyses confirmed that Nichols-lineage strains were more genetically diverse than SS14-lineage strains and clustered into more distinct subclades. Differences in single nucleotide variants (SNVs) were evident by TPA lineage and geography. Mapping of highly differentiated SNVs to three-dimensional protein models showed population-specific substitutions, some in outer membrane proteins (OMPs) of interest., Interpretation: Our study substantiates the global diversity of TPA strains. Additional analyses to explore TPA OMP variability within strains is vital for vaccine development and understanding syphilis pathogenesis on a population level., Funding: US National Institutes of Health National Institute for Allergy and Infectious Disease, the Bill & Melinda Gates Foundation, Connecticut Children's, and the Czech Republic National Institute of Virology and Bacteriology., Competing Interests: Declaration of interests ACS reports royalties from UptoDate; honoraria from the University of Alabama at Birmingham; and support for meetings or travel from the American STD Association as a member of the Executive Board outside the scope of the current work. JAG-L reports honoraria from the Universidad de Antioquia; support for meetings or travel from Carnott Laboratories, Cantabria Labs, Epidermique, Pharmaderm, and Janssen; receipt of writing materials from Epidermique, Cantabria labs, Isdin, Pharmaderm, Skindrugs, Loreal, Galderma, Cetaphil, Cerave, Isispharma, Carnott, Janssen, Pharmalab, Novartis, Pfizer, and Lilly outside of the scope of work. JJJ reports membership in the Worldwide Antimalarial Resistance Network. KLH reports honoraria from the Eastern Virginia Medical School and the Lawrence Livermore National Laboratory. JDR receives royalties from Biokit, Chembio, and Span Diagnostics for syphilis serodiagnostic reagents; and support for meetings or travel from Indiana University outside the scope of the current work. JBP reports research support from Gilead Sciences; non-financial support from Abbott Diagnostics; and consulting for Zymeron Corporation, all outside the scope of the current work., (Copyright © 2024 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published

2024

7. T-Cell Responses to Treponema pallidum Proteins in Blood and Skin to Advance Syphilis Vaccine Design: Learning From Nature.

Author

Salazar JC and Radolf JD

Subjects

Humans, Bacterial Proteins immunology, T-Lymphocytes immunology, Vaccine Development, Treponema pallidum immunology, Syphilis immunology, Skin microbiology, Skin immunology, Bacterial Vaccines immunology

Abstract

Competing Interests: Potential conflicts of interest. All authors: No reported conflicts. All authors have submitted the ICMJE Form for Disclosure of Potential Conflicts of Interest. Conflicts that the editors consider relevant to the content of the manuscript have been disclosed.

Published

2024

8. Immunodominant extracellular loops of Treponema pallidum FadL outer membrane proteins elicit antibodies with opsonic and growth-inhibitory activities.

Author

Delgado KN, Caimano MJ, Orbe IC, Vicente CF, La Vake CJ, Grassmann AA, Moody MA, Radolf JD, and Hawley KL

Abstract

The global resurgence of syphilis has created a potent stimulus for vaccine development. To identify potentially protective antibodies (Abs) against Treponema pallidum ( TPA ), we used Pyrococcus furiosus thioredoxin ( Pf Trx) to display extracellular loops (ECLs) from three TPA outer membrane protein families (outer membrane factors for efflux pumps, eight-stranded β-barrels, and FadLs) to assess their reactivity with immune rabbit serum (IRS). Five ECLs from the FadL orthologs TP0856, TP0858 and TP0865 were immunodominant. Rabbits and mice immunized with these five Pf Trx constructs produced ECL-specific Abs that promoted opsonophagocytosis of TPA by rabbit peritoneal and murine bone marrow-derived macrophages at levels comparable to IRS and mouse syphilitic serum. ECL-specific rabbit and mouse Abs also impaired viability, motility, and cellular attachment of spirochetes during in vitro cultivation. The results support the use of ECL-based vaccines and suggest that ECL-specific Abs promote spirochete clearance via Fc receptor-independent as well as Fc receptor-dependent mechanisms., Competing Interests: Competing Interests: All authors have no relevant financial or non-financial competing interests to report.

Published

2024

9. An atlas of human vector-borne microbe interactions reveals pathogenicity mechanisms.

Author

Hart TM, Sonnert ND, Tang X, Chaurasia R, Allen PE, Hunt JR, Read CB, Johnson EE, Arora G, Dai Y, Cui Y, Chuang YM, Yu Q, Rahman MS, Mendes MT, Rolandelli A, Singh P, Tripathi AK, Ben Mamoun C, Caimano MJ, Radolf JD, Lin YP, Fingerle V, Margos G, Pal U, Johnson RM, Pedra JHF, Azad AF, Salje J, Dimopoulos G, Vinetz JM, Carlyon JA, Palm NW, Fikrig E, and Ring AM

Subjects

Humans, Animals, Lyme Disease microbiology, Vector Borne Diseases, Host Microbial Interactions, Borrelia burgdorferi pathogenicity, Borrelia burgdorferi metabolism, Host-Pathogen Interactions

Abstract

Vector-borne diseases are a leading cause of death worldwide and pose a substantial unmet medical need. Pathogens binding to host extracellular proteins (the "exoproteome") represents a crucial interface in the etiology of vector-borne disease. Here, we used bacterial selection to elucidate host-microbe interactions in high throughput (BASEHIT)-a technique enabling interrogation of microbial interactions with 3,324 human exoproteins-to profile the interactomes of 82 human-pathogen samples, including 30 strains of arthropod-borne pathogens and 8 strains of related non-vector-borne pathogens. The resulting atlas revealed 1,303 putative interactions, including hundreds of pairings with potential roles in pathogenesis, including cell invasion, tissue colonization, immune evasion, and host sensing. Subsequent functional investigations uncovered that Lyme disease spirochetes recognize epidermal growth factor as an environmental cue of transcriptional regulation and that conserved interactions between intracellular pathogens and thioredoxins facilitate cell invasion. In summary, this interactome atlas provides molecular-level insights into microbial pathogenesis and reveals potential host-directed targets for next-generation therapeutics., Competing Interests: Declaration of interests N.W.P. and A.M.R. are inventors of a patent describing the BASEHIT technique., (Copyright © 2024 Elsevier Inc. All rights reserved.)

Published

2024

10. Treponema pallidum genetic diversity and its implications for targeted vaccine development: A cross-sectional study of early syphilis cases in Southwestern Colombia.

Author

Salazar JC, Vargas-Cely F, García-Luna JA, Ramirez LG, Bettin EB, Romero-Rosas N, Amórtegui MF, Silva S, Oviedo O, Vigil J, La Vake CJ, Galindo X, Ramirez JD, Martínez-Valencia AJ, Caimano MJ, Hennelly CM, Aghakhanian F, Moody MA, Seña AC, Parr JB, Hawley KL, López-Medina E, and Radolf JD

Subjects

Humans, Colombia epidemiology, Cross-Sectional Studies, Male, Adult, Female, Bacterial Vaccines immunology, Genetic Variation, Vaccine Development, Young Adult, Middle Aged, Whole Genome Sequencing, Animals, Treponema pallidum genetics, Treponema pallidum immunology, Treponema pallidum isolation & purification, Syphilis epidemiology, Syphilis microbiology

Abstract

Background: Venereal syphilis, caused by the spirochete Treponema pallidum subsp. pallidum (TPA), is surging worldwide, underscoring the need for a vaccine with global efficacy. Vaccine development requires an understanding of syphilis epidemiology and clinical presentation as well as genomic characterization of TPA strains circulating within at-risk populations. The aim of this study was to describe the clinical, demographic, and molecular features of early syphilis cases in Cali, Colombia., Methods and Findings: We conducted a cross-sectional study to identify individuals with early syphilis (ES) in Cali, Colombia through a city-wide network of public health centers, private sector HIV clinics and laboratory databases from public health institutions. Whole blood (WB), skin biopsies (SB), and genital and oral lesion swabs were obtained for measurement of treponemal burdens by polA quantitative polymerase chain reaction (qPCR) and for whole-genome sequencing (WGS). Among 1,966 individuals screened, 128 participants met enrollment criteria: 112 (87%) with secondary (SS), 15 (12%) with primary (PS) and one with early latent syphilis; 66/128 (52%) self-reported as heterosexual, while 48 (38%) were men who have sex with men (MSM). Genital ulcer swabs had the highest polA copy numbers (67 copies/μl) by qPCR with a positivity rate (PR) of 73%, while SS lesions had 42 polA copies/μl with PR of 62%. WB polA positivity was more frequent in SS than PS (42% vs 7%, respectively; p = 0.009). Isolation of TPA from WB by rabbit infectivity testing (RIT) was achieved in 5 (56%) of 9 ES WB samples tested. WGS from 33 Cali patient samples, along with 10 other genomic sequences from South America (9 from Peru, 1 from Argentina) used as comparators, confirmed that SS14 was the predominant clade, and that half of all samples had mutations associated with macrolide (i.e., azithromycin) resistance. Variability in the outer membrane protein (OMP) and vaccine candidate BamA (TP0326) was mapped onto the protein's predicted structure from AlphaFold. Despite the presence of mutations in several extracellular loops (ECLs), ECL4, an immunodominant loop and proven opsonic target, was highly conserved in this group of Colombian and South American TPA isolates., Conclusions: This study offers new insights into the sociodemographic and clinical features of venereal syphilis in a highly endemic area of Colombia and illustrates how genomic sequencing of regionally prevalent TPA strains can inform vaccine development., Competing Interests: Outside the submitted work, ACS reports royalties from UptoDate Inc, ELM reports research grants from Sanofi Pasteur, Janssen, Moderna and GSK, grants and consulting fees from Takeda and MSD, and honoraria from Pfizer, JAGL reports support for attending meetings/travel from Janssen, MAM reports membership in an advisory board for GSK, JDR receives royalties from Biokit SA, Chembio, and Span Diagnostics for syphilis serodiagnostic reagents outside the scope of the current work, JBP reports research support from Gilead Sciences, non-financial support from Abbott Diagnostics, and consulting for Zymeron Corporation. All other authors report no competing interests. The commercial funders indicated above provided support in the form of royalties for stated authors but did not have any additional role in the study design, data collection and analysis, decision to publish, or preparation of the manuscript., (Copyright: © 2024 Salazar et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2024

11. Clinical presentation of early syphilis and genomic sequences of Treponema pallidum strains in patient specimens and isolates obtained by rabbit inoculation.

Author

Yang L, Zhang X, Chen W, Seña AC, Zheng H, Jiang Y, Zhao P, Chen R, Wang L, Ke W, Salazar JC, Parr JB, Tucker JD, Hawley KL, Caimano MJ, Hennelly CM, Aghakanian F, Bettin EB, Zhang F, Chen JS, Moody MA, Radolf JD, and Yang B

Abstract

Background: The global resurgence of syphilis necessitates vaccine development., Methods: We collected ulcer exudates and blood from 17 primary syphilis (PS) participants and skin biopsies and blood from 51 secondary syphilis (SS) participants in Guangzhou, China for Treponema pallidum subsp. pallidum (TPA) qPCR, whole genome sequencing (WGS), and isolation of TPA in rabbits., Results: TPA DNA was detected in 15 of 17 ulcer exudates and 3 of 17 blood PS specimens. TPA DNA was detected in 50 of 51 SS skin biopsies and 27 of 51 blood specimens. TPA was isolated from 47 rabbits with success rates of 71% (12/17) and 69% (35/51), respectively, from ulcer exudates and SS bloods. We obtained paired genomic sequences from 24 clinical samples and corresponding rabbit isolates. Six SS14- and two Nichols-clade genome pairs contained rare discordances. Forty-one of the 51 unique TPA genomes clustered within SS14 subgroups largely from East Asia, while 10 fell into Nichols C and E subgroups., Conclusions: Our TPA detection rate was high from PS ulcer exudates and SS skin biopsies and over 50% from SS blood, with TPA isolation in over two-thirds of samples. Our results support the use of WGS from rabbit isolates to inform vaccine development., (© The Author(s) 2024. Published by Oxford University Press on behalf of Infectious Diseases Society of America.)

Published

2024

12. Early syphilis in Guangzhou, China: presentation, molecular detection of Treponema pallidum , and genomic sequences in clinical specimens and isolates obtained by rabbit infectivity testing.

Author

Yang L, Zhang X, Chen W, Seña AC, Zheng H, Jiang Y, Zhao P, Chen R, Wang L, Ke W, Salazar JC, Parr JB, Tucker JD, Hawley KL, Caimano MJ, Hennelly CM, Aghakanian F, Zhang F, Chen JS, Moody MA, Radolf JD, and Yang B

Abstract

Background: The global resurgence of syphilis requires novel prevention strategies. Whole genome sequencing (WGS) of Treponema pallidum ( TPA ) using different specimen types is essential for vaccine development., Methods: Patients with primary (PS) and secondary (SS) syphilis were recruited in Guangzhou, China. We collected ulcer exudates and blood from PS participants, and skin biopsies and blood from SS participants for TPA polA polymerase chain reaction (PCR); ulcer exudates and blood were also used to isolate TPA strains by rabbit infectivity testing (RIT). TPA WGS was performed on 52 ulcer exudates and biopsy specimens and 25 matched rabbit isolates., Results: We enrolled 18 PS and 51 SS participants from December 2019 to March 2022. Among PS participants, TPA DNA was detected in 16 (89%) ulcer exudates and three (17%) blood specimens. Among SS participants, TPA DNA was detected in 50 (98%) skin biopsies and 27 (53%) blood specimens. TP A was isolated from 48 rabbits, with a 71% (12/17) success rate from ulcer exudates and 69% (36/52) from SS bloods. Twenty-three matched SS14 clade genomes were virtually identical, while two Nichols clade pairs had discordant tprK sequences. Forty-two of 52 unique TPA genomes clustered in an SS14 East Asia subgroup, while ten fell into two East Asian Nichols subgroups., Conclusions: Our TPA detection rate was high from PS ulcer exudates and SS skin biopsies and over 50% from SS whole blood, with RIT isolation in over two-thirds of samples. Our results support the use of WGS from rabbit isolates to inform vaccine development., Summary: We performed Treponema pallidum molecular detection and genome sequencing from multiple specimens collected from early syphilis patients and isolates obtained by rabbit inoculation. Our results support the use of whole genome sequencing from rabbit isolates to inform syphilis vaccine development.

Published

2023

13. Use of Epivolve phage display to generate a monoclonal antibody with opsonic activity directed against a subdominant epitope on extracellular loop 4 of Treponema pallidum BamA (TP0326).

Author

Ferguson MR, Delgado KN, McBride S, Orbe IC, La Vake CJ, Caimano MJ, Mendez Q, Moraes TF, Schryvers AB, Moody MA, Radolf JD, Weiner MP, and Hawley KL

Subjects

Mice, Animals, Rabbits, Treponema pallidum, Antibodies, Monoclonal, Immune Sera, Epitopes, Syphilis, Bacteriophages

Abstract

Introduction: Syphilis, a sexually transmitted infection caused by the spirochete Treponema pallidum ( Tp ), is resurging globally. Tp 's repertoire of outer membrane proteins (OMPs) includes BamA (β-barrel assembly machinery subunit A/TP0326), a bipartite protein consisting of a 16-stranded β-barrel with nine extracellular loops (ECLs) and five periplasmic POTRA (polypeptide transport-associated) domains. BamA ECL4 antisera promotes internalization of Tp by rabbit peritoneal macrophages., Methods: Three overlapping BamA ECL4 peptides and a two-stage, phage display strategy, termed "Epivolve" (for epitope evolution) were employed to generate single-chain variable fragments (scFvs). Additionally, antisera generated by immunizing mice and rabbits with BamA ECL4 displayed by a Pyrococcus furiosus thioredoxin scaffold ( Pf Trx BamA/ECL4 ). MAbs and antisera reactivities were evaluated by immunoblotting and ELISA. A comparison of murine and rabbit opsonophagocytosis assays was conducted to evaluate the functional ability of the Abs ( e.g. , opsonization) and validate the mouse assay. Sera from Tp -infected mice (MSS) and rabbits (IRS) were evaluated for ECL4-specific Abs using Pf Trx BamA/ECL4 and overlapping ECL4 peptides in immunoblotting and ELISA assays., Results: Each of the five mAbs demonstrated reactivity by immunoblotting and ELISA to nanogram amounts of Pf Trx BamA/ECL4 . One mAb, containing a unique amino acid sequence in both the light and heavy chains, showed activity in the murine opsonophagocytosis assay. Mice and rabbits hyperimmunized with Pf Trx BamA/ECL4 produced opsonic antisera that strongly recognized the ECL presented in a heterologous scaffold and overlapping ECL4 peptides, including S2. In contrast, Abs generated during Tp infection of mice and rabbits poorly recognized the peptides, indicating that S2 contains a subdominant epitope., Discussion: Epivolve produced mAbs target subdominant opsonic epitopes in BamA ECL4, a top syphilis vaccine candidate. The murine opsonophagocytosis assay can serve as an alternative model to investigate the opsonic potential of vaccinogens. Detailed characterization of BamA ECL4-specific Abs provided a means to dissect Ab responses elicited by Tp infection., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Ferguson, Delgado, McBride, Orbe, La Vake, Caimano, Mendez, Moraes, Schryvers, Moody, Radolf, Weiner and Hawley.)

Published

2023

14. Clinical and genomic diversity of Treponema pallidum subsp. pallidum: A global, multi-center study of early syphilis to inform vaccine research.

Author

Seña AC, Matoga MM, Yang L, Lopez-Medina E, Aghakanian F, Chen JS, Bettin EB, Caimano MJ, Chen W, Garcia-Luna JA, Hennelly CM, Jiang Y, Juliano JJ, Pospíšilová P, Ramirez L, Šmajs D, Tucker JD, Cely FV, Zheng H, Hoffman IF, Yang B, Moody MA, Hawley KL, Salazar JC, Radolf JD, and Parr JB

Abstract

Background: The continuing increase in syphilis rates worldwide necessitates development of a vaccine with global efficacy. We conducted a multi-center, observational study to explore Treponema pallidum subsp. pallidum ( TPA ) molecular epidemiology essential for vaccine research by analyzing clinical data and specimens from early syphilis patients using whole-genome sequencing (WGS) and publicly available WGS data., Methods: We enrolled patients with primary (PS), secondary (SS) or early latent (ELS) syphilis from clinics in China, Colombia, Malawi and the United States between November 2019 - May 2022. Inclusion criteria included age ≥18 years, and syphilis confirmation by direct detection methods and/or serological testing. TPA detection and WGS were conducted on lesion swabs, skin biopsies/scrapings, whole blood, and/or rabbit-passaged isolates. We compared our WGS data to publicly available genomes, and analysed TPA populations to identify mutations associated with lineage and geography., Findings: We screened 2,820 patients and enrolled 233 participants - 77 (33%) with PS, 154 (66%) with SS, and two (1%) with ELS. Median age of participants was 28; 66% were cis -gender male, of which 43% reported identifying as "gay", "bisexual", or "other sexuality". Among all participants, 56 (24%) had HIV co-infection. WGS data from 113 participants demonstrated a predominance of SS14-lineage strains with geographic clustering. Phylogenomic analysis confirmed that Nichols-lineage strains are more genetically diverse than SS14-lineage strains and cluster into more distinct subclades. Differences in single nucleotide variants (SNVs) were evident by TPA lineage and geography. Mapping of highly differentiated SNVs to three-dimensional protein models demonstrated population-specific substitutions, some in outer membrane proteins (OMPs) of interest., Interpretation: Our study involving participants from four countries substantiates the global diversity of TPA strains. Additional analyses to explore TPA OMP variability within strains will be vital for vaccine development and improved understanding of syphilis pathogenesis on a population level., Funding: National Institutes of Health, Bill and Melinda Gates Foundation.

Published

2023

15. Editorial: Syphilis infection: clinical, epidemiology, basic science, and behavioral research.

Author

Zhou P, Ye M, Tucker JD, Zhang L, and Radolf JD

Subjects

Humans, Behavioral Research, Risk Factors, Research, Syphilis epidemiology

Abstract

Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

Published

2023

16. Development of a biomarker signature using grating-coupled fluorescence plasmonic microarray for diagnosis of MIS-C.

Author

Maltz-Matyschsyk M, Melchiorre CK, Herbst KW, Hogan AH, Dibble K, O'Sullivan B, Graf J, Jadhav A, Lawrence DA, Lee WT, Carson KJ, Radolf JD, Salazar JC, and Lynes MA

Abstract

Multisystem inflammatory syndrome in children (MIS-C) is a rare but serious condition that can develop 4-6 weeks after a school age child becomes infected by SARS-CoV-2. To date, in the United States more than 8,862 cases of MIS-C have been identified and 72 deaths have occurred. This syndrome typically affects children between the ages of 5-13; 57% are Hispanic/Latino/Black/non-Hispanic, 61% of patients are males and 100% have either tested positive for SARS-CoV-2 or had direct contact with someone with COVID-19. Unfortunately, diagnosis of MIS-C is difficult, and delayed diagnosis can lead to cardiogenic shock, intensive care admission, and prolonged hospitalization. There is no validated biomarker for the rapid diagnosis of MIS-C. In this study, we used Grating-coupled Fluorescence Plasmonic (GCFP) microarray technology to develop biomarker signatures in pediatric salvia and serum samples from patients with MIS-C in the United States and Colombia. GCFP measures antibody-antigen interactions at individual regions of interest (ROIs) on a gold-coated diffraction grating sensor chip in a sandwich immunoassay to generate a fluorescent signal based on analyte presence within a sample. Using a microarray printer, we designed a first-generation biosensor chip with the capability of capturing 33 different analytes from 80  μ L of sample (saliva or serum). Here, we show potential biomarker signatures in both saliva and serum samples in six patient cohorts. In saliva samples, we noted occasional analyte outliers on the chip within individual samples and were able to compare those samples to 16S RNA microbiome data. These comparisons indicate differences in relative abundance of oral pathogens within those patients. Microsphere Immunoassay (MIA) of immunoglobulin isotypes was also performed on serum samples and revealed MIS-C patients had several COVID antigen-specific immunoglobulins that were significantly higher than other cohorts, thus identifying potential new targets for the second-generation biosensor chip. MIA also identified additional biomarkers for our second-generation chip, verified biomarker signatures generated on the first-generation chip, and aided in second-generation chip optimization. Interestingly, MIS-C samples from the United States had a more diverse and robust signature than the Colombian samples, which was also illustrated in the MIA cytokine data. These observations identify new MIS-C biomarkers and biomarker signatures for each of the cohorts. Ultimately, these tools may represent a potential diagnostic tool for use in the rapid identification of MIS-C., Competing Interests: ML has intellectual property (U.S. Patent #7,655,421) related to functional phenotyping of leukocytes by SPR microarray. ML, MM-M, DL, and JG have ongoing, NIH-funded, collaborations with Ciencia, Inc. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Maltz-Matyschsyk, Melchiorre, Herbst, Hogan, Dibble, O’Sullivan, Graf, Jadhav, Lawrence, Lee, Carson, Radolf, Salazar, Lynes and Connecticut Children’s COVID Collaborative.)

Published

2023

17. BosR and PlzA reciprocally regulate RpoS function to sustain Borrelia burgdorferi in ticks and mammals.

Author

Grassmann AA, Tokarz R, Golino C, McLain MA, Groshong AM, Radolf JD, and Caimano MJ

Subjects

Mice, Animals, Bacterial Proteins genetics, Bacterial Proteins metabolism, Sigma Factor genetics, Sigma Factor metabolism, Mammals metabolism, Gene Expression Regulation, Bacterial, Borrelia burgdorferi genetics, Borrelia metabolism, Ticks genetics, Lyme Disease genetics

Abstract

The RNA polymerase alternative σ factor RpoS in Borrelia burgdorferi (Bb), the Lyme disease pathogen, is responsible for programmatic-positive and -negative gene regulation essential for the spirochete's dual-host enzootic cycle. RpoS is expressed during tick-to-mammal transmission and throughout mammalian infection. Although the mammalian-phase RpoS regulon is well described, its counterpart during the transmission blood meal is unknown. Here, we used Bb-specific transcript enrichment by tick-borne disease capture sequencing (TBDCapSeq) to compare the transcriptomes of WT and ΔrpoS Bb in engorged nymphs and following mammalian host-adaptation within dialysis membrane chambers. TBDCapSeq revealed dramatic changes in the contours of the RpoS regulon within ticks and mammals and further confirmed that RpoS-mediated repression is specific to the mammalian-phase of Bb's enzootic cycle. We also provide evidence that RpoS-dependent gene regulation, including repression of tick-phase genes, is required for persistence in mice. Comparative transcriptomics of engineered Bb strains revealed that the Borrelia oxidative stress response regulator (BosR), a noncanonical Fur family member, and the cyclic diguanosine monophosphate (c-di-GMP) effector PlzA reciprocally regulate the function of RNA polymerase complexed with RpoS. BosR is required for RpoS-mediated transcription activation and repression in addition to its well-defined role promoting transcription of rpoS by the RNA polymerase alternative σ factor RpoN. During transmission, ligand-bound PlzA antagonizes RpoS-mediated repression, presumably acting through BosR.

Published

2023

18. High-throughput nanopore sequencing of Treponema pallidum tandem repeat genes arp and tp0470 reveals clade-specific patterns and recapitulates global whole genome phylogeny.

Author

Lieberman NAP, Armstrong TD, Chung B, Pfalmer D, Hennelly CM, Haynes A, Romeis E, Wang QQ, Zhang RL, Kou CX, Ciccarese G, Conte ID, Cusini M, Drago F, Nakayama SI, Lee K, Ohnishi M, Konda KA, Vargas SK, Eguiluz M, Caceres CF, Klausner JD, Mitja O, Rompalo A, Mulcahy F, Hook EW 3rd, Hoffman IF, Matoga MM, Zheng H, Yang B, Lopez-Medina E, Ramirez LG, Radolf JD, Hawley KL, Salazar JC, Lukehart SA, Seña AC, Parr JB, Giacani L, and Greninger AL

Abstract

Sequencing of most Treponema pallidum genomes excludes repeat regions in tp0470 and the tp0433 gene, encoding the acidic repeat protein ( arp ). As a first step to understanding the evolution and function of these genes and the proteins they encode, we developed a protocol to nanopore sequence tp0470 and arp genes from 212 clinical samples collected from ten countries on six continents. Both tp0470 and arp repeat structures recapitulate the whole genome phylogeny, with subclade-specific patterns emerging. The number of tp0470 repeats is on average appears to be higher in Nichols-like clade strains than in SS14-like clade strains. Consistent with previous studies, we found that 14-repeat arp sequences predominate across both major clades, but the combination and order of repeat type varies among subclades, with many arp sequence variants limited to a single subclade. Although strains that were closely related by whole genome sequencing frequently had the same arp repeat length, this was not always the case. Structural modeling of TP0470 suggested that the eight residue repeats form an extended α-helix, predicted to be periplasmic. Modeling of the ARP revealed a C-terminal sporulation-related repeat (SPOR) domain, predicted to bind denuded peptidoglycan, with repeat regions possibly incorporated into a highly charged β-sheet. Outside of the repeats, all TP0470 and ARP amino acid sequences were identical. Together, our data, along with functional considerations, suggests that both TP0470 and ARP proteins may be involved in T. pallidum cell envelope remodeling and homeostasis, with their highly plastic repeat regions playing as-yet-undetermined roles., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Lieberman, Armstrong, Chung, Pfalmer, Hennelly, Haynes, Romeis, Wang, Zhang, Kou, Ciccarese, Conte, Cusini, Drago, Nakayama, Lee, Ohnishi, Konda, Vargas, Eguiluz, Caceres, Klausner, Mitja, Rompalo, Mulcahy, Hook, Hoffman, Matoga, Zheng, Yang, Lopez-Medina, Ramirez, Radolf, Hawley, Salazar, Lukehart, Seña, Parr, Giacani and Greninger.)

Published

2022

19. Extracellular Loops of the Treponema pallidum FadL Orthologs TP0856 and TP0858 Elicit IgG Antibodies and IgG + -Specific B-Cells in the Rabbit Model of Experimental Syphilis.

Author

Delgado KN, Montezuma-Rusca JM, Orbe IC, Caimano MJ, La Vake CJ, Luthra A, Hennelly CM, Nindo FN, Meyer JW, Jones LD, Parr JB, Salazar JC, Moody MA, Radolf JD, and Hawley KL

Subjects

Antibodies, Bacterial metabolism, Bacterial Vaccines, Epitopes, Humans, Immunoglobulin G metabolism, Leukocytes, Mononuclear, Membrane Proteins metabolism, Thioredoxins metabolism, Syphilis microbiology, Treponema pallidum genetics

Abstract

The resurgence of syphilis in the new millennium has called attention to the importance of a vaccine for global containment strategies. Studies with immune rabbit serum (IRS) indicate that a syphilis vaccine should elicit antibodies (Abs) that promote opsonophagocytosis of treponemes by activated macrophages. The availability of three-dimensional models for Treponema pallidum's ( Tp ) repertoire of outer membrane proteins (OMPs) provides an architectural framework for identification of candidate vaccinogens with extracellular loops (ECLs) as the targets for protective Abs. Herein, we used Pyrococcus furiosus thioredoxin ( Pf Trx) as a scaffold to display Tp OMP ECLs to interrogate sera and peripheral blood mononuclear cells (PBMCs) from immune rabbits for ECL-specific Abs and B cells. We validated this approach using a Pf Trx scaffold presenting ECL4 from BamA, a known opsonic target. Using scaffolds displaying ECLs of the FadL orthologs TP0856 and TP0858, we determined that ECL2 and ECL4 of both proteins are strongly antigenic. Comparison of ELISA and immunoblot results suggested that the Pf Trx scaffolds present conformational and linear epitopes. We then used the FadL ECL2 and ECL4 Pf Trx constructs as "hooks" to confirm the presence of ECL-specific B cells in PBMCs from immune rabbits. Our results pinpoint immunogenic ECLs of two newly discovered OMPs, while advancing the utility of the rabbit model for circumventing bottlenecks in vaccine development associated with large-scale production of folded OMPs. They also lay the groundwork for production of rabbit monoclonal Abs (MAbs) to characterize potentially protective ECL epitopes at the atomic level. IMPORTANCE Recent identification and structural modeling of Treponema pallidum's ( Tp ) repertoire of outer membrane proteins (OMPs) represent a critical breakthrough in the decades long quest for a syphilis vaccine. However, little is known about the antigenic nature of these β-barrel-forming OMPs and, more specifically, their surface exposed regions, the extracellular loops (ECLs). In this study, using Pyrococcus furiosus thioredoxin ( Pf Trx) as a scaffold to display Tp OMP ECLs, we interrogated immune rabbit sera and peripheral blood mononuclear cells for the presence of antibodies (Abs) and circulating rare antigen-specific B cells. Our results pinpoint immunogenic ECLs of two newly discovered OMPs, while advancing the utility of the rabbit model for surveying the entire Tp OMPeome for promising OMP vaccinogens. This work represents a major advancement toward characterizing potentially protective OMP ECLs and future vaccine studies. Additionally, this strategy could be applied to OMPs of nonspirochetal bacterial pathogens.

Published

2022

20. A suite of PCR-LwCas13a assays for detection and genotyping of Treponema pallidum in clinical samples.

Author

Chen W, Luo H, Zeng L, Pan Y, Parr JB, Jiang Y, Cunningham CH, Hawley KL, Radolf JD, Ke W, Ou J, Yang J, Yang B, and Zheng H

Subjects

Animals, Anti-Bacterial Agents pharmacology, Drug Resistance, Bacterial genetics, Genotype, Macrolides, Rabbits, Real-Time Polymerase Chain Reaction, Sensitivity and Specificity, Treponema, Syphilis diagnosis, Treponema pallidum genetics

Abstract

The performance of commonly used assays for diagnosis of syphilis varies considerably depending on stage of infection and sample type. In response to the need for improved syphilis diagnostics, we develop assays that pair PCR pre-amplification of the tpp47 gene of Treponema pallidum subsp. pallidum with CRISPR-LwCas13a. The PCR-LwCas13a assay achieves an order of magnitude better analytical sensitivity than real-time PCR with equivalent specificity. When applied to a panel of 216 biological specimens, including 135 clinically confirmed primary and secondary syphilis samples, the PCR-LwCas13a assay demonstrates 93.3% clinical sensitivity and 100% specificity, outperforming tpp47 real-time PCR and rabbit-infectivity testing. We further adapt this approach to distinguish Treponema pallidum subsp. pallidum lineages and identify genetic markers of macrolide resistance. Our study demonstrates the potential of CRISPR-based approaches to improve diagnosis and epidemiological surveillance of syphilis., (© 2022. The Author(s).)

Published

2022

21. Bacterial Indole as a Multifunctional Regulator of Klebsiella oxytoca Complex Enterotoxicity.

Author

Ledala N, Malik M, Rezaul K, Paveglio S, Provatas A, Kiel A, Caimano M, Zhou Y, Lindgren J, Krasulova K, Illes P, Dvořák Z, Kortagere S, Kienesberger S, Cosic A, Pöltl L, Zechner EL, Ghosh S, Mani S, Radolf JD, and Matson AP

Subjects

Humans, Infant, Newborn, Klebsiella oxytoca genetics, Klebsiella oxytoca metabolism, Enterotoxins metabolism, Cytotoxins metabolism, Indoles metabolism, Enterocolitis, Pseudomembranous microbiology, Klebsiella Infections microbiology

Abstract

Gastrointestinal microbes respond to biochemical metabolites that coordinate their behaviors. Here, we demonstrate that bacterial indole functions as a multifactorial mitigator of Klebsiella grimontii and Klebsiella oxytoca pathogenicity. These closely related microbes produce the enterotoxins tilimycin and tilivalline; cytotoxin-producing strains are the causative agent of antibiotic-associated hemorrhagic colitis and have been associated with necrotizing enterocolitis of premature infants. We demonstrate that carbohydrates induce cytotoxin synthesis while concurrently repressing indole biosynthesis. Conversely, indole represses cytotoxin production. In both cases, the alterations stemmed from differential transcription of npsA and npsB , key genes involved in tilimycin biosynthesis. Indole also enhances conversion of tilimycin to tilivalline, an indole analog with reduced cytotoxicity. In this context, we established that tilivalline, but not tilimycin, is a strong agonist of pregnane X receptor (PXR), a master regulator of xenobiotic detoxification and intestinal inflammation. Tilivalline binding upregulated PXR-responsive detoxifying genes and inhibited tubulin-directed toxicity. Bacterial indole, therefore, acts in a multifunctional manner to mitigate cytotoxicity by Klebsiella spp.: suppression of toxin production, enhanced conversion of tilimycin to tilivalline, and activation of PXR. IMPORTANCE The human gut harbors a complex community of microbes, including several species and strains that could be commensals or pathogens depending on context. The specific environmental conditions under which a resident microbe changes its relationship with a host and adopts pathogenic behaviors, in many cases, remain poorly understood. Here, we describe a novel communication network involving the regulation of K. grimontii and K. oxytoca enterotoxicity. Bacterial indole was identified as a central modulator of these colitogenic microbes by suppressing bacterial toxin (tilimycin) synthesis and converting tilimycin to tilivalline while simultaneously activating a host receptor, PXR, as a means of mitigating tissue cytotoxicity. On the other hand, fermentable carbohydrates were found to inhibit indole biosynthesis and enhance toxin production. This integrated network involving microbial, host, and metabolic factors provides a contextual framework to better understand K. oxytoca complex pathogenicity.

Published

2022

22. PlzA is a bifunctional c-di-GMP biosensor that promotes tick and mammalian host-adaptation of Borrelia burgdorferi.

Author

Groshong AM, Grassmann AA, Luthra A, McLain MA, Provatas AA, Radolf JD, and Caimano MJ

Subjects

Animals, Cyclic GMP analogs & derivatives, Female, Host-Pathogen Interactions physiology, Immune Evasion physiology, Ixodes parasitology, Lyme Disease metabolism, Mice, Adaptation, Physiological physiology, Bacterial Proteins metabolism, Borrelia burgdorferi metabolism, Borrelia burgdorferi pathogenicity, Virulence physiology

Abstract

In this study, we examined the relationship between c-di-GMP and its only known effector protein, PlzA, in Borrelia burgdorferi during the arthropod and mammalian phases of the enzootic cycle. Using a B. burgdorferi strain expressing a plzA point mutant (plzA-R145D) unable to bind c-di-GMP, we confirmed that the protective function of PlzA in ticks is c-di-GMP-dependent. Unlike ΔplzA spirochetes, which are severely attenuated in mice, the plzA-R145D strain was fully infectious, firmly establishing that PlzA serves a c-di-GMP-independent function in mammals. Contrary to prior reports, loss of PlzA did not affect expression of RpoS or RpoS-dependent genes, which are essential for transmission, mammalian host-adaptation and murine infection. To ascertain the nature of PlzA's c-di-GMP-independent function(s), we employed infection models using (i) host-adapted mutant spirochetes for needle inoculation of immunocompetent mice and (ii) infection of scid mice with in vitro-grown organisms. Both approaches substantially restored ΔplzA infectivity, suggesting that PlzA enables B. burgdorferi to overcome an early bottleneck to infection. Furthermore, using a Borrelia strain expressing a heterologous, constitutively active diguanylate cyclase, we demonstrate that 'ectopic' production of c-di-GMP in mammals abrogates spirochete virulence and interferes with RpoS function at the post-translational level in a PlzA-dependent manner. Structural modeling and SAXS analysis of liganded- and unliganded-PlzA revealed marked conformational changes that underlie its biphasic functionality. This structural plasticity likely enables PlzA to serve as a c-di-GMP biosensor that in its respective liganded and unliganded states promote vector- and host-adaptation by the Lyme disease spirochete., Competing Interests: The authors have declared that no competing interests exist.

Published

2021

23. Structural Modeling of the Treponema pallidum Outer Membrane Protein Repertoire: a Road Map for Deconvolution of Syphilis Pathogenesis and Development of a Syphilis Vaccine.

Author

Hawley KL, Montezuma-Rusca JM, Delgado KN, Singh N, Uversky VN, Caimano MJ, Radolf JD, and Luthra A

Subjects

Bacterial Outer Membrane immunology, Bacterial Vaccines genetics, Bacterial Vaccines immunology, Humans, Models, Structural, Protein Conformation, Syphilis microbiology, Treponema pallidum chemistry, Treponema pallidum genetics, X-Ray Diffraction, Bacterial Outer Membrane chemistry, Bacterial Vaccines chemistry, Syphilis prevention & control, Treponema pallidum immunology

Abstract

Treponema pallidum, an obligate human pathogen, has an outer membrane (OM) whose physical properties, ultrastructure, and composition differ markedly from those of phylogenetically distant Gram-negative bacteria. We developed structural models for the outer membrane protein (OMP) repertoire (OMPeome) of T. pallidum Nichols using solved Gram-negative structures, computational tools, and small-angle X-ray scattering (SAXS) of selected recombinant periplasmic domains. The T. pallidum "OMPeome" harbors two "stand-alone" proteins (BamA and LptD) involved in OM biogenesis and four paralogous families involved in the influx/efflux of small molecules: 8-stranded β-barrels, long-chain-fatty-acid transporters (FadLs), OM factors (OMFs) for efflux pumps, and T. pallidum repeat proteins (Tprs). BamA (TP0326), the central component of a β-barrel assembly machine (BAM)/translocation and assembly module (TAM) hybrid, possesses a highly flexible polypeptide-transport-associated (POTRA) 1-5 arm predicted to interact with TamB (TP0325). TP0515, an LptD ortholog, contains a novel, unstructured C-terminal domain that models inside the β-barrel. T. pallidum has four 8-stranded β-barrels, each containing positively charged extracellular loops that could contribute to pathogenesis. Three of five FadL-like orthologs have a novel α-helical, presumptively periplasmic C-terminal extension. SAXS and structural modeling further supported the bipartite membrane topology and tridomain architecture of full-length members of the Tpr family. T. pallidum's two efflux pumps presumably extrude noxious small molecules via four coexpressed OMFs with variably charged tunnels. For BamA, LptD, and OMFs, we modeled the molecular machines that deliver their substrates into the OM or external milieu. The spirochete's extended families of OM transporters collectively confer a broad capacity for nutrient uptake. The models also furnish a structural road map for vaccine development. IMPORTANCE The unusual outer membrane (OM) of T. pallidum, the syphilis spirochete, is the ultrastructural basis for its well-recognized capacity for invasiveness, immune evasion, and persistence. In recent years, we have made considerable progress in identifying T. pallidum's repertoire of OMPs. Here, we developed three-dimensional (3D) models for the T. pallidum Nichols OMPeome using structural modeling, bioinformatics, and solution scattering. The OM contains three families of OMP transporters, an OMP family involved in the extrusion of noxious molecules, and two "stand-alone" proteins involved in OM biogenesis. This work represents a major advance toward elucidating host-pathogen interactions during syphilis; understanding how T. pallidum, an extreme auxotroph, obtains a wide array of biomolecules from its obligate human host; and developing a vaccine with global efficacy.

Published

2021

24. Outcomes From Re-Treatment and Cerebrospinal Fluid Analyses in Patients With Syphilis Who Had Serological Nonresponse or Lack of Seroreversion After Initial Therapy.

Author

Zhang X, Shahum A, Yang LG, Xue Y, Wang L, Yang B, Zheng H, Chen JS, Radolf JD, and Seña AC

Subjects

China epidemiology, Humans, Seroconversion, Syphilis Serodiagnosis, HIV Infections drug therapy, Neurosyphilis, Syphilis drug therapy, Syphilis epidemiology

Abstract

Background: We conducted an observational study to determine whether patients with syphilis who do not demonstrate serological cure or lack of seroreversion in nontreponemal (NT) antibody titers after initial therapy benefit from re-treatment and cerebrospinal fluid (CSF) analysis., Methods: We enrolled patients with syphilis from sexually transmitted disease clinics in Guangzhou, China, who had persistent NT titers after therapy. Serological nonresponse was defined as a <4-fold decline in baseline NT titers after therapy. Lack of seroreversion was defined as demonstrating a ≥4-fold NT titer decline but without seroreversion to negative, or having persistent low-level titers (i.e., 1:1-1:2) after therapy. After consent, we abstracted medical record data regarding syphilis diagnoses, initial and re-treatment regimens, and serological outcomes. Nontreponemal titers were obtained from participants at enrollment and follow-up. We evaluated CSF findings among a subgroup of participants relative to re-treatment., Results: From March 2012 to February 2016, we enrolled 135 HIV-negative patients with syphilis with persistent NT titers after initial therapy. Among 116 participants with ≥12 months of follow-up, 60 (52%) received re-treatment of syphilis. Overall, there were no significant differences in serological response between those who were re-treated and those who were not among serological nonresponders (29% vs. 27%; P = 1.0) or among participants without seroconversion (41% vs. 37%; P = 0.8). Of 60 participants who underwent CSF analyses, 8 (13%) had CSF abnormalities, but only 2 (3%) met the neurosyphilis criteria after re-treatment., Conclusions: Most HIV-negative patients with syphilis who have serological nonresponse or lack of seroreversion after therapy do not benefit from re-treatment in the short term, and neurosyphilis is uncommon., Competing Interests: Conflict of Interest and Sources of Funding: The authors have no conflicts of interest to disclose. This work was supported by the National Institute of Health's Division of Microbiology and Infectious Diseases of the National Institute of Allergy and Infectious Diseases (R01 AI-26756, U19 AI-144177) and through research funds provided by Connecticut Children, and the Bureau of Science and Information Technology of Guangzhou Municipality (201704020219)., (Copyright © 2020 American Sexually Transmitted Diseases Association. All rights reserved.)

Published

2021

25. Macrophage mediated recognition and clearance of Borrelia burgdorferi elicits MyD88-dependent and -independent phagosomal signals that contribute to phagocytosis and inflammation.

Author

Benjamin SJ, Hawley KL, Vera-Licona P, La Vake CJ, Cervantes JL, Ruan Y, Radolf JD, and Salazar JC

Subjects

Actins genetics, Animals, Cells, Cultured, Chemokines genetics, Cytoskeleton genetics, Female, Interferon Regulatory Factor-1 genetics, Interferon Regulatory Factor-1 metabolism, Mice, Mice, Inbred C57BL, Mice, Knockout, Phagocytosis, Sequence Analysis, RNA, Signal Transduction, Borrelia burgdorferi physiology, Inflammation immunology, Lyme Disease immunology, Macrophages immunology, Phagosomes metabolism

Abstract

Background: Macrophages play prominent roles in bacteria recognition and clearance, including Borrelia burgdorferi (Bb), the Lyme disease spirochete. To elucidate mechanisms by which MyD88/TLR signaling enhances clearance of Bb by macrophages, we studied wildtype (WT) and MyD88 -/- Bb-stimulated bone marrow-derived macrophages (BMDMs)., Results: MyD88 -/- BMDMs exhibit impaired uptake of spirochetes but comparable maturation of phagosomes following internalization of spirochetes. RNA-sequencing of infected WT and MyD88 -/- BMDMs identified a large cohort of differentially expressed MyD88-dependent genes associated with re-organization of actin and cytoskeleton during phagocytosis along with several MyD88-independent chemokines involved in inflammatory cell recruitment. We computationally generated networks which identified several MyD88-dependent intermediate proteins (Rhoq and Cyfip1) that are known to mediate inflammation and phagocytosis respectively., Conclusion: Our findings show that MyD88 signaling enhances, but is not required, for bacterial uptake or phagosomal maturation and provide mechanistic insights into how MyD88-mediated phagosomal signaling enhances Bb uptake and clearance.

Published

2021

26. Analysis of Treponema pallidum Strains From China Using Improved Methods for Whole-Genome Sequencing From Primary Syphilis Chancres.

Author

Chen W, Šmajs D, Hu Y, Ke W, Pospíšilová P, Hawley KL, Caimano MJ, Radolf JD, Sena A, Tucker JD, Yang B, Juliano JJ, Zheng H, and Parr JB

Subjects

Animals, China, Humans, Rabbits, Treponema pallidum genetics, Whole Genome Sequencing, Chancre diagnosis, Chancre microbiology, Syphilis diagnosis, Syphilis microbiology, Treponema pallidum classification

Abstract

Background: Whole-genome sequencing (WGS) of Treponema pallidum subspecies pallidum (TPA) has been constrained by the lack of in vitro cultivation methods for isolating spirochetes from patient samples., Methods: We built upon recently developed enrichment methods to sequence TPA directly from primary syphilis chancre swabs collected in Guangzhou, China., Results: By combining parallel, pooled whole-genome amplification with hybrid selection, we generated high-quality genomes from 4 of 8 chancre-swab samples and 2 of 2 rabbit-passaged isolates, all subjected to challenging storage conditions., Conclusions: This approach enabled the first WGS of Chinese samples without rabbit passage and provided insights into TPA genetic diversity in China., (© The Author(s) 2020. Published by Oxford University Press for the Infectious Diseases Society of America. All rights reserved. For permissions, e-mail: journals.permissions@oup.com.)

Published

2021

27. Host-specific functional compartmentalization within the oligopeptide transporter during the Borrelia burgdorferi enzootic cycle.

Author

Groshong AM, McLain MA, and Radolf JD

Subjects

Animals, Biological Transport, Female, Gene Expression Regulation, Bacterial, Lyme Disease genetics, Lyme Disease metabolism, Mice, Mice, Inbred C3H, Rats, Rats, Sprague-Dawley, Virulence, Bacterial Proteins metabolism, Borrelia burgdorferi physiology, Host-Pathogen Interactions, Ixodes microbiology, Lyme Disease microbiology, Membrane Transport Proteins metabolism, Oligopeptides metabolism

Abstract

Borrelia burgdorferi must acquire all of its amino acids (AAs) from its arthropod vector and vertebrate host. Previously, we determined that peptide uptake via the oligopeptide (Opp) ABC transporter is essential for spirochete viability in vitro and during infection. Our prior study also suggested that B. burgdorferi employs temporal regulation in concert with structural variation of oligopeptide-binding proteins (OppAs) to meet its AA requirements in each biological niche. Herein, we evaluated the contributions to the B. burgdorferi enzootic cycle of three of the spirochete's five OppAs (OppA1, OppA2, and OppA5). An oppA1 transposon (tn) mutant lysed in the hyperosmolar environment of the feeding tick, suggesting that OppA1 imports amino acids required for osmoprotection. The oppA2tn mutant displayed a profound defect in hematogenous dissemination in mice, yet persisted within skin while inducing only a minimal antibody response. These results, along with slightly decreased growth of the oppA2tn mutant within DMCs, suggest that OppA2 serves a minor nutritive role, while its dissemination defect points to an as yet uncharacterized signaling function. Previously, we identified a role for OppA5 in spirochete persistence within the mammalian host. We now show that the oppA5tn mutant displayed no defect during the tick phase of the cycle and could be tick-transmitted to naïve mice. Instead of working in tandem, however, OppA2 and OppA5 appear to function in a hierarchical manner; the ability of OppA5 to promote persistence relies upon the ability of OppA2 to facilitate dissemination. Structural homology models demonstrated variations within the binding pockets of OppA1, 2, and 5 indicative of different peptide repertoires. Rather than being redundant, B. burgdorferi's multiplicity of Opp binding proteins enables host-specific functional compartmentalization during the spirochete lifecycle., Competing Interests: The authors have declared that no competing interests exist.

Published

2021

28. Lyme Disease in Humans.

Author

Radolf JD, Strle K, Lemieux JE, and Strle F

Subjects

Animals, Arthropod Vectors microbiology, Disease Management, Disease Susceptibility, Host-Pathogen Interactions immunology, Humans, Life Cycle Stages, Lyme Disease diagnosis, Lyme Disease epidemiology, Lyme Disease transmission, Organ Specificity, Ticks microbiology, Borrelia burgdorferi genetics, Borrelia burgdorferi growth & development, Lyme Disease microbiology

Abstract

Lyme disease (Lyme borreliosis) is a tick-borne, zoonosis of adults and children caused by genospecies of the Borrelia burgdorferi sensu lato complex. The ailment, widespread throughout the Northern Hemisphere, continues to increase globally due to multiple environmental factors, coupled with increased incursion of humans into habitats that harbor the spirochete. B. burgdorferi sensu lato is transmitted by ticks from the Ixodes ricinus complex. In North America, B. burgdorferi causes nearly all infections; in Europe, B. afzelii and B. garinii are most associated with human disease. The spirochete's unusual fragmented genome encodes a plethora of differentially expressed outer surface lipoproteins that play a seminal role in the bacterium's ability to sustain itself within its enzootic cycle and cause disease when transmitted to its incidental human host. Tissue damage and symptomatology (i.e., clinical manifestations) result from the inflammatory response elicited by the bacterium and its constituents. The deposition of spirochetes into human dermal tissue generates a local inflammatory response that manifests as erythema migrans (EM), the hallmark skin lesion. If treated appropriately and early, the prognosis is excellent. However, in untreated patients, the disease may present with a wide range of clinical manifestations, most commonly involving the central nervous system, joints, or heart. A small percentage (~10%) of patients may go on to develop a poorly defined fibromyalgia-like illness, post-treatment Lyme disease (PTLD) unresponsive to prolonged antimicrobial therapy. Below we integrate current knowledge regarding the ecologic, epidemiologic, microbiologic, and immunologic facets of Lyme disease into a conceptual framework that sheds light on the disorder that healthcare providers encounter.

Published

2021

29. Evidence that immunization with TP0751, a bipartite Treponema pallidum lipoprotein with an intrinsically disordered region and lipocalin fold, fails to protect in the rabbit model of experimental syphilis.

Author

Luthra A, Montezuma-Rusca JM, La Vake CJ, LeDoyt M, Delgado KN, Davenport TC, Fiel-Gan M, Caimano MJ, Radolf JD, and Hawley KL

Subjects

Animals, Bacterial Proteins genetics, Bacterial Vaccines genetics, Humans, Lipoproteins genetics, Protein Domains, Protein Folding, Rabbits, Syphilis genetics, Syphilis pathology, Syphilis prevention & control, Treponema pallidum genetics, Treponema pallidum pathogenicity, Bacterial Proteins immunology, Bacterial Vaccines immunology, Immunization, Lipoproteins immunology, Syphilis immunology, Treponema pallidum immunology

Abstract

Deconvolution of syphilis pathogenesis and selection of candidate syphilis vaccinogens requires detailed knowledge of the molecular architecture of the Treponema pallidum outer membrane (OM). The T. pallidum OM contains a low density of integral OM proteins, while the spirochete's many lipoprotein immunogens are periplasmic. TP0751, a lipoprotein with a lipocalin fold, is reportedly a surface-exposed protease/adhesin and protective antigen. The rapid expansion of calycin/lipocalin structures in the RCSB PDB database prompted a comprehensive reassessment of TP0751. Small angle X-ray scattering analysis of full-length protein revealed a bipartite topology consisting of an N-terminal, intrinsically disordered region (IDR) and the previously characterized C-terminal lipocalin domain. A DALI server query using the lipocalin domain yielded 97 hits, 52 belonging to the calycin superfamily, including 15 bacterial lipocalins, but no Gram-negative surface proteins. Surprisingly, Tpp17 (TP0435) was identified as a structural ortholog of TP0751. In silico docking predicted that TP0751 can bind diverse ligands along the rim of its eight-stranded β-barrel; high affinity binding of one predicted ligand, heme, to the lipocalin domain was demonstrated. qRT-PCR and immunoblotting revealed very low expression of TP0751 compared to other T. pallidum lipoproteins. Immunoblot analysis of immune rabbit serum failed to detect TP0751 antibodies, while only one of five patients with secondary syphilis mounted a discernible TP0751-specific antibody response. In opsonophagocytosis assays, neither TP0751 nor Tpp17 antibodies promoted uptake of T. pallidum by rabbit peritoneal macrophages. Rabbits immunized with intact, full-length TP0751 showed no protection against local or disseminated infection following intradermal challenge with T. pallidum. Our data argue that, like other lipoprotein lipocalins in dual-membrane bacteria, TP0751 is periplasmic and binds small molecules, and we propose that its IDR facilitates ligand binding by and offloading from the lipocalin domain. The inability of TP0751 to elicit opsonic or protective antibodies is consistent with a subsurface location., Competing Interests: The authors have declared that no competing interests exist.

Published

2020

30. The RpoS Gatekeeper in Borrelia burgdorferi : An Invariant Regulatory Scheme That Promotes Spirochete Persistence in Reservoir Hosts and Niche Diversity.

Author

Caimano MJ, Groshong AM, Belperron A, Mao J, Hawley KL, Luthra A, Graham DE, Earnhart CG, Marconi RT, Bockenstedt LK, Blevins JS, and Radolf JD

Abstract

Maintenance of Borrelia burgdorferi within its enzootic cycle requires a complex regulatory pathway involving the alternative σ factors RpoN and RpoS and two ancillary trans -acting factors, BosR and Rrp2. Activation of this pathway occurs within ticks during the nymphal blood meal when RpoS, the effector σ factor, transcribes genes required for tick transmission and mammalian infection. RpoS also exerts a 'gatekeeper' function by repressing σ 70 -dependent tick phase genes (e.g., ospA , lp6.6 ). Herein, we undertook a broad examination of RpoS functionality throughout the enzootic cycle, beginning with modeling to confirm that this alternative σ factor is a 'genuine' RpoS homolog. Using a novel dual color reporter system, we established at the single spirochete level that ospA is expressed in nymphal midguts throughout transmission and is not downregulated until spirochetes have been transmitted to a naïve host. Although it is well established that rpoS /RpoS is expressed throughout infection, its requirement for persistent infection has not been demonstrated. Plasmid retention studies using a trans -complemented Δ rpoS mutant demonstrated that (i) RpoS is required for maximal fitness throughout the mammalian phase and (ii) RpoS represses tick phase genes until spirochetes are acquired by a naïve vector. By transposon mutant screening, we established that bba34/oppA5 , the only OppA oligopeptide-binding protein controlled by RpoS, is a bona fide persistence gene. Lastly, comparison of the strain 297 and B31 RpoS DMC regulons identified two cohorts of RpoS-regulated genes. The first consists of highly conserved syntenic genes that are similarly regulated by RpoS in both strains and likely required for maintenance of B. burgdorferi sensu stricto strains in the wild. The second includes RpoS-regulated plasmid-encoded variable surface lipoproteins ospC , dbpA and members of the ospE/ospF/elp , mlp , revA , and Pfam54 paralogous gene families, all of which have evolved via inter- and intra-strain recombination. Thus, while the RpoN/RpoS pathway regulates a 'core' group of orthologous genes, diversity within RpoS regulons of different strains could be an important determinant of reservoir host range as well as spirochete virulence.

Published

2019

31. Sequence Variation of Rare Outer Membrane Protein β-Barrel Domains in Clinical Strains Provides Insights into the Evolution of Treponema pallidum subsp. pallidum , the Syphilis Spirochete.

Author

Kumar S, Caimano MJ, Anand A, Dey A, Hawley KL, LeDoyt ME, La Vake CJ, Cruz AR, Ramirez LG, Paštěková L, Bezsonova I, Šmajs D, Salazar JC, and Radolf JD

Subjects

Amino Acid Sequence, Bacterial Outer Membrane Proteins metabolism, Base Sequence, Female, Genetic Variation, Humans, Male, Molecular Sequence Data, Phylogeny, Protein Domains, Sequence Alignment, Spirochaetales classification, Spirochaetales genetics, Spirochaetales growth & development, Spirochaetales isolation & purification, Treponema pallidum classification, Treponema pallidum isolation & purification, Bacterial Outer Membrane Proteins chemistry, Bacterial Outer Membrane Proteins genetics, Evolution, Molecular, Syphilis microbiology, Treponema pallidum genetics, Treponema pallidum growth & development

Abstract

In recent years, considerable progress has been made in topologically and functionally characterizing integral outer membrane proteins (OMPs) of Treponema pallidum subspecies pallidum , the syphilis spirochete, and identifying its surface-exposed β-barrel domains. Extracellular loops in OMPs of Gram-negative bacteria are known to be highly variable. We examined the sequence diversity of β-barrel-encoding regions of tprC , tprD , and bamA in 31 specimens from Cali, Colombia; San Francisco, California; and the Czech Republic and compared them to allelic variants in the 41 reference genomes in the NCBI database. To establish a phylogenetic framework, we used T. pallidum 0548 ( tp0548 ) genotyping and tp0558 sequences to assign strains to the Nichols or SS14 clades. We found that (i) β-barrels in clinical strains could be grouped according to allelic variants in T. pallidum subsp. pallidum reference genomes; (ii) for all three OMP loci, clinical strains within the Nichols or SS14 clades often harbored β-barrel variants that differed from the Nichols and SS14 reference strains; and (iii) OMP variable regions often reside in predicted extracellular loops containing B-cell epitopes. On the basis of structural models, nonconservative amino acid substitutions in predicted transmembrane β-strands of T. pallidum repeat C (TprC) and TprD2 could give rise to functional differences in their porin channels. OMP profiles of some clinical strains were mosaics of different reference strains and did not correlate with results from enhanced molecular typing. Our observations suggest that human host selection pressures drive T. pallidum subsp. pallidum OMP diversity and that genetic exchange contributes to the evolutionary biology of T. pallidum subsp. pallidum They also set the stage for topology-based analysis of antibody responses to OMPs and help frame strategies for syphilis vaccine development. IMPORTANCE Despite recent progress characterizing outer membrane proteins (OMPs) of Treponema pallidum , little is known about how their surface-exposed, β-barrel-forming domains vary among strains circulating within high-risk populations. In this study, sequences for the β-barrel-encoding regions of three OMP loci, tprC , tprD , and bamA , in T. pallidum subsp. pallidum isolates from a large number of patient specimens from geographically disparate sites were examined. Structural models predict that sequence variation within β-barrel domains occurs predominantly within predicted extracellular loops. Amino acid substitutions in predicted transmembrane strands that could potentially affect porin channel function were also noted. Our findings suggest that selection pressures exerted within human populations drive T. pallidum subsp. pallidum OMP diversity and that recombination at OMP loci contributes to the evolutionary biology of syphilis spirochetes. These results also set the stage for topology-based analysis of antibody responses that promote clearance of T. pallidum subsp. pallidum and frame strategies for vaccine development based upon conserved OMP extracellular loops., (Copyright © 2018 Kumar et al.)

Published

2018

32. The Treponema pallidum Outer Membrane.

Author

Radolf JD and Kumar S

Subjects

Bacterial Outer Membrane Proteins chemistry, Bacterial Outer Membrane Proteins genetics, Humans, Periplasm immunology, Periplasm metabolism, Syphilis microbiology, Treponema pallidum immunology, Treponema pallidum pathogenicity, Bacterial Outer Membrane Proteins metabolism, Treponema pallidum cytology

Abstract

The outer membrane (OM) of Treponema pallidum, the uncultivatable agent of venereal syphilis, has long been the subject of misconceptions and controversy. Decades ago, researchers postulated that T. pallidum's poor surface antigenicity is the basis for its ability to cause persistent infection, but they mistakenly attributed this enigmatic property to the presence of a protective outer coat of serum proteins and mucopolysaccharides. Subsequent studies revealed that the OM is the barrier to antibody binding, that it contains a paucity of integral membrane proteins, and that the preponderance of the spirochete's immunogenic lipoproteins is periplasmic. Since the advent of recombinant DNA technology, the fragility of the OM, its low protein content, and the lack of sequence relatedness between T. pallidum and Gram-negative outer membrane proteins (OMPs) have complicated efforts to characterize molecules residing at the host-pathogen interface. We have overcome these hurdles using the genomic sequence in concert with computational tools to identify proteins predicted to form β-barrels, the hallmark conformation of OMPs in double-membrane organisms and evolutionarily related eukaryotic organelles. We also have employed diverse methodologies to confirm that some candidate OMPs do, in fact, form amphiphilic β-barrels and are surface-exposed in T. pallidum. These studies have led to a structural homology model for BamA and established the bipartite topology of the T. pallidum repeat (Tpr) family of proteins. Recent bioinformatics has identified several structural orthologs for well-characterized Gram-negative OMPs, suggesting that the T. pallidum OMP repertoire is more Gram-negative-like than previously supposed. Lipoprotein adhesins and proteases on the spirochete surface also may contribute to disease pathogenesis and protective immunity.

Published

2018

33. Peptide Uptake Is Essential for Borrelia burgdorferi Viability and Involves Structural and Regulatory Complexity of its Oligopeptide Transporter.

Author

Groshong AM, Dey A, Bezsonova I, Caimano MJ, and Radolf JD

Subjects

Animals, Borrelia burgdorferi cytology, Borrelia burgdorferi genetics, Borrelia burgdorferi growth & development, Disease Models, Animal, Gene Expression Regulation, Bacterial, Lyme Disease microbiology, Lyme Disease pathology, Membrane Transport Proteins chemistry, Membrane Transport Proteins genetics, Mice, Inbred C3H, Models, Molecular, Protein Conformation, Virulence, Borrelia burgdorferi metabolism, Membrane Transport Proteins metabolism, Microbial Viability, Oligopeptides metabolism

Abstract

Borrelia burgdorferi is an extreme amino acid (AA) auxotroph whose genome encodes few free AA transporters and an elaborate oligopeptide transport system ( B. burgdorferi Opp [ Bb Opp]). Bb Opp consists of five oligopeptide-binding proteins (OBPs), two heterodimeric permeases, and a heterodimeric nucleotide-binding domain (NBD). Homology modeling based on the crystal structure of liganded Bb OppA4 revealed that each OBP likely binds a distinct range of peptides. Transcriptional analyses demonstrated that the OBPs are differentially and independently regulated whereas the permeases and NBDs are constitutively expressed. A conditional NBD mutant failed to divide in the absence of inducer and replicated in an IPTG (isopropyl-β-d-thiogalactopyranoside) concentration-dependent manner. NBD mutants grown without IPTG exhibited an elongated morphotype lacking division septa, often with flattening at the cell center due to the absence of flagellar filaments. Following cultivation in dialysis membrane chambers, NBD mutants recovered from rats not receiving IPTG also displayed an elongated morphotype. The NBD mutant was avirulent by needle inoculation, but infectivity was partially restored by oral administration of IPTG to infected mice. We conclude that peptides are a major source of AAs for B. burgdorferi both in vitro and in vivo and that peptide uptake is essential for regulation of morphogenesis, cell division, and virulence. IMPORTANCE Borrelia burgdorferi , the causative agent of Lyme disease, is an extreme amino acid (AA) auxotroph with a limited repertoire of annotated single-AA transporters. A major issue is how the spirochete meets its AA requirements as it transits between its arthropod vector and mammalian reservoir. While previous studies have confirmed that the B. burgdorferi oligopeptide transport ( opp ) system is capable of importing peptides, the importance of the system for viability and pathogenesis has not been established. Here, we evaluated the opp system structurally and transcriptionally to elucidate its ability to import a wide range of peptides during the spirochete's enzootic cycle. Additionally, using a novel mutagenesis strategy to abrogate opp transporter function, we demonstrated that peptide uptake is essential for bacterial viability, morphogenesis, and infectivity. Our studies revealed a novel link between borrelial physiology and virulence and suggest that peptide uptake serves an intracellular signaling function regulating morphogenesis and division., (Copyright © 2017 Groshong et al.)

Published

2017

34. The major outer sheath protein forms distinct conformers and multimeric complexes in the outer membrane and periplasm of Treponema denticola.

Author

Puthenveetil R, Kumar S, Caimano MJ, Dey A, Anand A, Vinogradova O, and Radolf JD

Subjects

Escherichia coli metabolism, Escherichia coli Proteins chemistry, Escherichia coli Proteins metabolism, Mass Spectrometry, Bacterial Outer Membrane Proteins metabolism, Bacterial Proteins chemistry, Bacterial Proteins metabolism, Periplasm metabolism, Treponema denticola metabolism

Abstract

The major outer sheath protein (MOSP) is a prominent constituent of the cell envelope of Treponema denticola (TDE) and one of its principal virulence determinants. Bioinformatics predicts that MOSP consists of N- and C-terminal domains, MOSP N and MOSP C . Biophysical analysis of constructs refolded in vitro demonstrated that MOSP C , previously shown to possess porin activity, forms amphiphilic trimers, while MOSP N forms an extended hydrophilic monomer. In TDE and E. coli expressing MOSP with a PelB signal sequence (PelB-MOSP), MOSP C is OM-embedded and surface-exposed, while MOSP N resides in the periplasm. Immunofluorescence assay, surface proteolysis, and novel cell fractionation schemes revealed that MOSP in TDE exists as outer membrane (OM) and periplasmic trimeric conformers; PelB-MOSP, in contrast, formed only OM-MOSP trimers. Although both conformers form hetero-oligomeric complexes in TDE, only OM-MOSP associates with dentilisin. Mass spectrometry (MS) indicated that OM-MOSP interacts with proteins in addition to dentilisin, most notably, oligopeptide-binding proteins (OBPs) and the β-barrel of BamA. MS also identified candidate partners for periplasmic MOSP, including TDE1658, a spirochete-specific SurA/PrsA ortholog. Collectively, our data suggest that MOSP destined for the TDE OM follows the canonical BAM pathway, while formation of a stable periplasmic conformer involves an export-related, folding pathway not present in E. coli.

Published

2017

35. Syphilis.

Author

Peeling RW, Mabey D, Kamb ML, Chen XS, Radolf JD, and Benzaken AS

Subjects

Algorithms, Humans, Syphilis complications, Syphilis diagnosis, Syphilis epidemiology, Syphilis therapy

Abstract

Treponema pallidum subspecies pallidum (T. pallidum) causes syphilis via sexual exposure or via vertical transmission during pregnancy. T. pallidum is renowned for its invasiveness and immune-evasiveness; its clinical manifestations result from local inflammatory responses to replicating spirochaetes and often imitate those of other diseases. The spirochaete has a long latent period during which individuals have no signs or symptoms but can remain infectious. Despite the availability of simple diagnostic tests and the effectiveness of treatment with a single dose of long-acting penicillin, syphilis is re-emerging as a global public health problem, particularly among men who have sex with men (MSM) in high-income and middle-income countries. Syphilis also causes several hundred thousand stillbirths and neonatal deaths every year in developing nations. Although several low-income countries have achieved WHO targets for the elimination of congenital syphilis, an alarming increase in the prevalence of syphilis in HIV-infected MSM serves as a strong reminder of the tenacity of T. pallidum as a pathogen. Strong advocacy and community involvement are needed to ensure that syphilis is given a high priority on the global health agenda. More investment is needed in research on the interaction between HIV and syphilis in MSM as well as into improved diagnostics, a better test of cure, intensified public health measures and, ultimately, a vaccine.

Published

2017

36. IFNγ Enhances CD64-Potentiated Phagocytosis of Treponema pallidum Opsonized with Human Syphilitic Serum by Human Macrophages.

Author

Hawley KL, Cruz AR, Benjamin SJ, La Vake CJ, Cervantes JL, LeDoyt M, Ramirez LG, Mandich D, Fiel-Gan M, Caimano MJ, Radolf JD, and Salazar JC

Abstract

Syphilis is a multi-stage, sexually transmitted disease caused by the spirochete Treponema pallidum ( Tp ). Considered broadly, syphilis can be conceptualized as a dualistic process in which spirochete-driven inflammation, the cause of clinical manifestations, coexists to varying extents with bacterial persistence. Inflammation is elicited in the tissues, along with the persistence of spirochetes to keep driving a robust immune response while evading host defenses; this duality is best exemplified during the florid, disseminated stage called secondary syphilis (SS). SS lesions typically contain copious amounts of spirochetes along with a mixed cellular infiltrate consisting of CD4 + T cells, CD8 + T cells, NK cells, plasma cells, and macrophages. In the rabbit model, Tp are cleared by macrophages via antibody-mediated opsonophagocytosis. Previously, we demonstrated that human syphilitic serum (HSS) promotes efficient uptake of Tp by human monocytes and that opsonophagocytosis of Tp markedly enhances cytokine production. Herein, we used monocyte-derived macrophages to study Tp -macrophage interactions ex vivo . In the absence of HSS, monocyte-derived macrophages internalized low numbers of Tp and secreted little cytokine (e.g., TNF). By contrast, these same macrophages internalized large numbers of unopsonized Borrelia burgdorferi and secreted robust levels of cytokines. Maturation of macrophages with M-CSF and IFNγ resulted in a macrophage phenotype with increased expression of HLA-DR, CD14, inducible nitric oxide synthase, TLR2, TLR8, and the Fcγ receptors (FcγR) CD64 and CD16, even in the absence of LPS. Importantly, IFNγ-polarized macrophages resulted in a statistically significant increase in opsonophagocytosis of Tp accompanied by enhanced production of cytokines, macrophage activation markers (CD40, CD80), TLRs (TLR2, TLR7, TLR8), chemokines (CCL19, CXCL10, CXCL11), and T H 1-promoting cytokines (IL-12, IL-15). Finally, the blockade of FcγRs, primarily CD64, significantly diminished spirochetal uptake and proinflammatory cytokine secretion by IFNγ-stimulated macrophages. Our ex vivo studies demonstrate the importance of CD64-potentiated uptake of opsonized Tp and suggest that IFNγ-activated macrophages have an important role in the context of early syphilis. Our study results also provide an ex vivo surrogate system for use in future syphilis vaccine studies.

Published

2017

37. Two Distinct Mechanisms Govern RpoS-Mediated Repression of Tick-Phase Genes during Mammalian Host Adaptation by Borrelia burgdorferi , the Lyme Disease Spirochete.

Author

Grove AP, Liveris D, Iyer R, Petzke M, Rudman J, Caimano MJ, Radolf JD, and Schwartz I

Subjects

Animals, Antigens, Bacterial genetics, Bacterial Outer Membrane Proteins genetics, Bacterial Proteins genetics, Borrelia burgdorferi physiology, Green Fluorescent Proteins genetics, Host-Pathogen Interactions, Mutation, Operon, Peritoneal Cavity microbiology, Promoter Regions, Genetic, Rats, Sigma Factor genetics, Transcription, Genetic, Adaptation, Physiological, Bacterial Proteins metabolism, Borrelia burgdorferi genetics, Gene Expression Regulation, Bacterial, Sigma Factor metabolism, Ticks microbiology

Abstract

The alternative sigma factor RpoS plays a key role modulating gene expression in Borrelia burgdorferi , the Lyme disease spirochete, by transcribing mammalian host-phase genes and repressing σ 70 -dependent genes required within the arthropod vector. To identify cis regulatory elements involved in RpoS-dependent repression, we analyzed green fluorescent protein (GFP) transcriptional reporters containing portions of the upstream regions of the prototypical tick-phase genes ospAB , the glp operon, and bba74 As RpoS-mediated repression occurs only following mammalian host adaptation, strains containing the reporters were grown in dialysis membrane chambers (DMCs) implanted into the peritoneal cavities of rats. Wild-type spirochetes harboring ospAB - and glp-gfp constructs containing only the minimal (-35/-10) σ 70 promoter elements had significantly lower expression in DMCs relative to growth in vitro at 37°C; no reduction in expression occurred in a DMC-cultivated RpoS mutant harboring these constructs. In contrast, RpoS-mediated repression of bba74 required a stretch of DNA located between -165 and -82 relative to its transcriptional start site. Electrophoretic mobility shift assays employing extracts of DMC-cultivated B. burgdorferi produced a gel shift, whereas extracts from RpoS mutant spirochetes did not. Collectively, these data demonstrate that RpoS-mediated repression of tick-phase borrelial genes occurs by at least two distinct mechanisms. One (e.g., ospAB and the glp operon) involves primarily sequence elements near the core promoter, while the other (e.g., bba74 ) involves an RpoS-induced transacting repressor. Our results provide a genetic framework for further dissection of the essential "gatekeeper" role of RpoS throughout the B. burgdorferi enzootic cycle. IMPORTANCE Borrelia burgdorferi , the Lyme disease spirochete, modulates gene expression to adapt to the distinctive environments of its mammalian host and arthropod vector during its enzootic cycle. The alternative sigma factor RpoS has been referred to as a "gatekeeper" due to its central role in regulating the reciprocal expression of mammalian host- and tick-phase genes. While RpoS-dependent transcription has been studied extensively, little is known regarding the mechanism(s) of RpoS-mediated repression. We employed a combination of green fluorescent protein transcriptional reporters along with an in vivo model to define cis regulatory sequences responsible for RpoS-mediated repression of prototypical tick-phase genes. Repression of ospAB and the glp operon requires only sequences near their core promoters, whereas modulation of bba74 expression involves a putative RpoS-dependent repressor that binds upstream of the core promoter. Thus, Lyme disease spirochetes employ at least two different RpoS-dependent mechanisms to repress tick-phase genes within the mammal., (Copyright © 2017 Grove et al.)

Published

2017

38. Treponema pallidum, the syphilis spirochete: making a living as a stealth pathogen.

Author

Radolf JD, Deka RK, Anand A, Šmajs D, Norgard MV, and Yang XF

Subjects

Bacterial Outer Membrane Proteins genetics, Bacterial Outer Membrane Proteins metabolism, Bacterial Proteins genetics, Bacterial Proteins immunology, Genomics, Humans, Sequence Alignment, Syphilis immunology, Syphilis transmission, Toll-Like Receptor 2 immunology, Toll-Like Receptor 2 metabolism, Treponema pallidum genetics, Treponema pallidum physiology, Immune Evasion, Syphilis microbiology, Treponema pallidum immunology, Treponema pallidum pathogenicity

Abstract

The past two decades have seen a worldwide resurgence in infections caused by Treponema pallidum subsp. pallidum, the syphilis spirochete. The well-recognized capacity of the syphilis spirochete for early dissemination and immune evasion has earned it the designation 'the stealth pathogen'. Despite the many hurdles to studying syphilis pathogenesis, most notably the inability to culture and to genetically manipulate T. pallidum, in recent years, considerable progress has been made in elucidating the structural, physiological, and regulatory facets of T. pallidum pathogenicity. In this Review, we integrate this eclectic body of information to garner fresh insights into the highly successful parasitic lifestyles of the syphilis spirochete and related pathogenic treponemes., Competing Interests: The authors report no conflicts of interest.

Published

2016

39. Consensus computational network analysis for identifying candidate outer membrane proteins from Borrelia spirochetes.

Author

Kenedy MR, Scott EJ 2nd, Shrestha B, Anand A, Iqbal H, Radolf JD, Dyer DW, and Akins DR

Subjects

Algorithms, Amino Acid Sequence, Bacterial Outer Membrane Proteins genetics, Bacterial Outer Membrane Proteins isolation & purification, Bacterial Outer Membrane Proteins metabolism, Borrelia burgdorferi genetics, Borrelia burgdorferi metabolism, Computer Communication Networks, Computing Methodologies, Consensus, Genome, Bacterial, Humans, Liposomes metabolism, Lyme Disease microbiology, Operon, Porins metabolism, Vaccine Potency, Virulence Factors metabolism, Bacterial Outer Membrane Proteins chemistry, Borrelia burgdorferi chemistry

Abstract

Background: Similar to Gram-negative organisms, Borrelia spirochetes are dual-membrane organisms with both an inner and outer membrane. Although the outer membrane contains integral membrane proteins, few of the borrelial outer membrane proteins (OMPs) have been identified and characterized to date. Therefore, we utilized a consensus computational network analysis to identify novel borrelial OMPs., Results: Using a series of computer-based algorithms, we selected all protein-encoding sequences predicted to be OM-localized and/or to form β-barrels in the borrelial OM. Using this system, we identified 41 potential OMPs from B. burgdorferi and characterized three (BB0838, BB0405, and BB0406) to confirm that our computer-based methodology did, in fact, identify borrelial OMPs. Triton X-114 phase partitioning revealed that BB0838 is found in the detergent phase, which would be expected of a membrane protein. Proteolysis assays indicate that BB0838 is partially sensitive to both proteinase K and trypsin, further indicating that BB0838 is surface-exposed. Consistent with a prior study, we also confirmed that BB0405 is surface-exposed and associates with the borrelial OM. Furthermore, we have shown that BB0406, the product of a co-transcribed downstream gene, also encodes a novel, previously uncharacterized borrelial OMP. Interestingly, while BB0406 has several physicochemical properties consistent with it being an OMP, it was found to be resistant to surface proteolysis. Consistent with BB0405 and BB0406 being OMPs, both were found to be capable of incorporating into liposomes and exhibit pore-forming activity, suggesting that both proteins are porins. Lastly, we expanded our computational analysis to identify OMPs from other borrelial organisms, including both Lyme disease and relapsing fever spirochetes., Conclusions: Using a consensus computer algorithm, we generated a list of candidate OMPs for both Lyme disease and relapsing fever spirochetes and determined that three of the predicted B. burgdorferi proteins identified were indeed novel borrelial OMPs. The combined studies have identified putative spirochetal OMPs that can now be examined for their roles in virulence, physiology, and disease pathogenesis. Importantly, the studies described in this report provide a framework by which OMPs from any human pathogen with a diderm ultrastructure could be cataloged to identify novel virulence factors and vaccine candidates.

Published

2016

40. Genomic insights into the Ixodes scapularis tick vector of Lyme disease.

Author

Gulia-Nuss M, Nuss AB, Meyer JM, Sonenshine DE, Roe RM, Waterhouse RM, Sattelle DB, de la Fuente J, Ribeiro JM, Megy K, Thimmapuram J, Miller JR, Walenz BP, Koren S, Hostetler JB, Thiagarajan M, Joardar VS, Hannick LI, Bidwell S, Hammond MP, Young S, Zeng Q, Abrudan JL, Almeida FC, Ayllón N, Bhide K, Bissinger BW, Bonzon-Kulichenko E, Buckingham SD, Caffrey DR, Caimano MJ, Croset V, Driscoll T, Gilbert D, Gillespie JJ, Giraldo-Calderón GI, Grabowski JM, Jiang D, Khalil SMS, Kim D, Kocan KM, Koči J, Kuhn RJ, Kurtti TJ, Lees K, Lang EG, Kennedy RC, Kwon H, Perera R, Qi Y, Radolf JD, Sakamoto JM, Sánchez-Gracia A, Severo MS, Silverman N, Šimo L, Tojo M, Tornador C, Van Zee JP, Vázquez J, Vieira FG, Villar M, Wespiser AR, Yang Y, Zhu J, Arensburger P, Pietrantonio PV, Barker SC, Shao R, Zdobnov EM, Hauser F, Grimmelikhuijzen CJP, Park Y, Rozas J, Benton R, Pedra JHF, Nelson DR, Unger MF, Tubio JMC, Tu Z, Robertson HM, Shumway M, Sutton G, Wortman JR, Lawson D, Wikel SK, Nene VM, Fraser CM, Collins FH, Birren B, Nelson KE, Caler E, and Hill CA

Subjects

Animals, Gene Expression Profiling, Genomics, Lyme Disease transmission, Oocytes, Xenopus laevis, Anaplasma phagocytophilum, Arachnid Vectors genetics, Genome genetics, Ixodes genetics, Ligand-Gated Ion Channels genetics

Abstract

Ticks transmit more pathogens to humans and animals than any other arthropod. We describe the 2.1 Gbp nuclear genome of the tick, Ixodes scapularis (Say), which vectors pathogens that cause Lyme disease, human granulocytic anaplasmosis, babesiosis and other diseases. The large genome reflects accumulation of repetitive DNA, new lineages of retro-transposons, and gene architecture patterns resembling ancient metazoans rather than pancrustaceans. Annotation of scaffolds representing ∼57% of the genome, reveals 20,486 protein-coding genes and expansions of gene families associated with tick-host interactions. We report insights from genome analyses into parasitic processes unique to ticks, including host 'questing', prolonged feeding, cuticle synthesis, blood meal concentration, novel methods of haemoglobin digestion, haem detoxification, vitellogenesis and prolonged off-host survival. We identify proteins associated with the agent of human granulocytic anaplasmosis, an emerging disease, and the encephalitis-causing Langat virus, and a population structure correlated to life-history traits and transmission of the Lyme disease agent.

Published

2016

41. A systematic review of syphilis serological treatment outcomes in HIV-infected and HIV-uninfected persons: rethinking the significance of serological non-responsiveness and the serofast state after therapy.

Author

Seña AC, Zhang XH, Li T, Zheng HP, Yang B, Yang LG, Salazar JC, Cohen MS, Moody MA, Radolf JD, and Tucker JD

Subjects

Age Factors, CD4 Lymphocyte Count, HIV Infections drug therapy, Humans, Syphilis microbiology, Treatment Failure, Treatment Outcome, Viral Load, HIV Infections virology, Syphilis drug therapy, Syphilis Serodiagnosis

Abstract

Background: Syphilis remains a global public health threat and can lead to severe complications. In addition to resolution of clinical manifestations, a reduction in nontreponemal antibody titers after treatment is regarded as "proof of cure." However, some patients manifest < 4-fold decline ("serological non-response") or persistently positive nontreponemal titers despite an appropriate decline ("serofast") that may represent treatment failure, reinfection, or a benign immune response. To delineate these treatment phenomena, we conducted a systematic review of the literature regarding serological outcomes and associated factors among HIV-infected and -uninfected subjects., Methods: Six databases (PubMed, Embase, CINAHL, Web of Science, Scopus, and BIOSIS) were searched with no date restrictions. Relevant articles that evaluated serological treatment responses and correlates of serological cure (≥ four-fold decline in nontreponemal titers) were included., Results: We identified 1693 reports in the literature, of which 20 studies met selection criteria. The median proportion of patients who had serological non-response was 12.1% overall (interquartile range, 4.9-25.6), but varied depending on the time points after therapy. The serofast proportion could only be estimated from 2 studies, which ranged from 35.2-44.4%. Serological cure was primarily associated with younger age, higher baseline nontreponemal titers, and earlier syphilis stage. The relationship between serological cure and HIV status was inconsistent; among HIV-infected patients, CD4 count and HIV viral load was not associated with serological cure., Conclusions: Serological non-response and the serofast state are common syphilis treatment outcomes, highlighting the importance of determining the immunological and clinical significance of persistent nontreponemal antibody titers after therapy.

Published

2015

42. Structural characterization and modeling of the Borrelia burgdorferi hybrid histidine kinase Hk1 periplasmic sensor: A system for sensing small molecules associated with tick feeding.

Author

Bauer WJ, Luthra A, Zhu G, Radolf JD, Malkowski MG, and Caimano MJ

Subjects

Amino Acid Sequence, Catalytic Domain, Conserved Sequence, Crystallography, X-Ray, Cyclic GMP analogs & derivatives, Cyclic GMP chemistry, Histidine Kinase, Models, Molecular, Molecular Sequence Data, Periplasm enzymology, Protein Structure, Quaternary, Protein Structure, Secondary, Borrelia burgdorferi enzymology, Periplasmic Proteins chemistry, Protein Kinases chemistry

Abstract

Two-component signal transduction systems are the primary mechanisms by which bacteria perceive and respond to changes in their environment. The Hk1/Rrp1 two-component system (TCS) in Borrelia burgdorferi consists of a hybrid histidine kinase and a response regulator with diguanylate cyclase activity, respectively. Phosphorylated Rrp1 catalyzes the synthesis of c-di-GMP, a second messenger associated with bacterial life-style control networks. Spirochetes lacking either Hk1 or Rrp1 are virulent in mice but destroyed within feeding ticks. Activation of Hk1 by exogenous stimuli represents the seminal event for c-di-GMP signaling. We reasoned that structural characterization of Hk1's sensor would provide insights into the mechanism underlying signal transduction and aid in the identification of activating ligands. The Hk1 sensor is composed of three ligand-binding domains (D1-3), each with homology to periplasmic solute-binding proteins (PBPs) typically associated with ABC transporters. Herein, we determined the structure for D1, the most N-terminal PBP domain. As expected, D1 displays a bilobed Venus Fly Trap-fold. Similar to the prototypical sensor PBPs HK29S from Geobacter sulfurreducens and VFT2 from Bordetella pertussis, apo-D1 adopts a closed conformation. Using complementary approaches, including SAXS, we established that D1 forms a dimer in solution. The D1 structure enabled us to model the D2 and D3 domains. Differences in the ligand-binding pockets suggest that each PBP recognizes a different ligand. The ability of Hk1 to recognize multiple stimuli provides spirochetes with a means of distinguishing between the acquisition and transmission blood meals and generate a graded output response that is reflective of the perceived environmental threats., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published

2015

43. Cyclic di-GMP modulates gene expression in Lyme disease spirochetes at the tick-mammal interface to promote spirochete survival during the blood meal and tick-to-mammal transmission.

Author

Caimano MJ, Dunham-Ems S, Allard AM, Cassera MB, Kenedy M, and Radolf JD

Subjects

Animals, Bacterial Proteins metabolism, Borrelia burgdorferi genetics, Cyclic GMP metabolism, Female, Humans, Lyme Disease transmission, Mice, Mice, Inbred C3H, Microbial Viability, Rats, Rats, Sprague-Dawley, Ticks physiology, Bacterial Proteins genetics, Borrelia burgdorferi growth & development, Borrelia burgdorferi metabolism, Cyclic GMP analogs & derivatives, Gene Expression Regulation, Bacterial, Lyme Disease microbiology, Ticks microbiology

Abstract

Borrelia burgdorferi, the Lyme disease spirochete, couples environmental sensing and gene regulation primarily via the Hk1/Rrp1 two-component system (TCS) and Rrp2/RpoN/RpoS pathways. Beginning with acquisition, we reevaluated the contribution of these pathways to spirochete survival and gene regulation throughout the enzootic cycle. Live imaging of B. burgdorferi caught in the act of being acquired revealed that the absence of RpoS and the consequent derepression of tick-phase genes impart a Stay signal required for midgut colonization. In addition to the behavioral changes brought on by the RpoS-off state, acquisition requires activation of cyclic di-GMP (c-di-GMP) synthesis by the Hk1/Rrp1 TCS; B. burgdorferi lacking either component is destroyed during the blood meal. Prior studies attributed this dramatic phenotype to a metabolic lesion stemming from reduced glycerol uptake and utilization. In a head-to-head comparison, however, the B. burgdorferi Δglp mutant had a markedly greater capacity to survive tick feeding than B. burgdorferi Δhk1 or Δrrp1 mutants, establishing unequivocally that glycerol metabolism is only one component of the protection afforded by c-di-GMP. Data presented herein suggest that the protective response mediated by c-di-GMP is multifactorial, involving chemotactic responses, utilization of alternate substrates for energy generation and intermediary metabolism, and remodeling of the cell envelope as a means of defending spirochetes against threats engendered during the blood meal. Expression profiling of c-di-GMP-regulated genes through the enzootic cycle supports our contention that the Hk1/Rrp1 TCS functions primarily, if not exclusively, in ticks. These data also raise the possibility that c-di-GMP enhances the expression of a subset of RpoS-dependent genes during nymphal transmission., (Copyright © 2015, American Society for Microbiology. All Rights Reserved.)

Published

2015

44. A Homology Model Reveals Novel Structural Features and an Immunodominant Surface Loop/Opsonic Target in the Treponema pallidum BamA Ortholog TP&#95;0326.

Author

Luthra A, Anand A, Hawley KL, LeDoyt M, La Vake CJ, Caimano MJ, Cruz AR, Salazar JC, and Radolf JD

Subjects

Amino Acid Sequence, Animals, Bacterial Outer Membrane Proteins genetics, Humans, Immunodominant Epitopes genetics, Molecular Sequence Data, Protein Structure, Secondary, Protein Structure, Tertiary, Rabbits, Syphilis microbiology, Treponema pallidum genetics, Treponema pallidum immunology, Bacterial Outer Membrane Proteins chemistry, Bacterial Outer Membrane Proteins immunology, Immunodominant Epitopes chemistry, Immunodominant Epitopes immunology, Opsonin Proteins immunology, Syphilis immunology, Treponema pallidum chemistry

Abstract

Unlabelled: We recently demonstrated that TP&#95;0326 is a bona fide rare outer membrane protein (OMP) in Treponema pallidum and that it possesses characteristic BamA bipartite topology. Herein, we used immunofluorescence analysis (IFA) to show that only the β-barrel domain of TP&#95;0326 contains surface-exposed epitopes in intact T. pallidum. Using the solved structure of Neisseria gonorrhoeae BamA, we generated a homology model of full-length TP&#95;0326. Although the model predicts a typical BamA fold, the β-barrel harbors features not described in other BamAs. Structural modeling predicted that a dome comprised of three large extracellular loops, loop 4 (L4), L6, and L7, covers the barrel's extracellular opening. L4, the dome's major surface-accessible loop, contains mainly charged residues, while L7 is largely neutral and contains a polyserine tract in a two-tiered conformation. L6 projects into the β-barrel but lacks the VRGF/Y motif that anchors L6 within other BamAs. IFA and opsonophagocytosis assay revealed that L4 is surface exposed and an opsonic target. Consistent with B cell epitope predictions, immunoblotting and enzyme-linked immunosorbent assay (ELISA) confirmed that L4 is an immunodominant loop in T. pallidum-infected rabbits and humans with secondary syphilis. Antibody capture experiments using Escherichia coli expressing OM-localized TP&#95;0326 as a T. pallidum surrogate further established the surface accessibility of L4. Lastly, we found that a naturally occurring substitution (Leu(593) → Gln(593)) in the L4 sequences of T. pallidum strains affects antibody binding in sera from syphilitic patients. Ours is the first study to employ a "structure-to-pathogenesis" approach to map the surface topology of a T. pallidum OMP within the context of syphilitic infection., Importance: Previously, we reported that TP&#95;0326 is a bona fide rare outer membrane protein (OMP) in Treponema pallidum and that it possesses the bipartite topology characteristic of a BamA ortholog. Using a homology model as a guide, we found that TP&#95;0326 displays unique features which presumably relate to its function(s) in the biogenesis of T. pallidum's unorthodox OM. The model also enabled us to identify an immunodominant epitope in a large extracellular loop that is both an opsonic target and subject to immune pressure in a human population. Ours is the first study to follow a structure-to-pathogenesis approach to map the surface topology of a T. pallidum rare OMP within the context of syphilitic infection., (Copyright © 2015, American Society for Microbiology. All Rights Reserved.)

Published

2015

45. Bipartite Topology of Treponema pallidum Repeat Proteins C/D and I: OUTER MEMBRANE INSERTION, TRIMERIZATION, AND PORIN FUNCTION REQUIRE A C-TERMINAL β-BARREL DOMAIN.

Author

Anand A, LeDoyt M, Karanian C, Luthra A, Koszelak-Rosenblum M, Malkowski MG, Puthenveetil R, Vinogradova O, and Radolf JD

Subjects

Circular Dichroism, Cloning, Molecular, Escherichia coli metabolism, Hot Temperature, Liposomes chemistry, Microscopy, Electron, Microscopy, Fluorescence, Nanoparticles chemistry, Octoxynol, Peptides chemistry, Periplasm metabolism, Polyethylene Glycols chemistry, Protein Denaturation, Protein Multimerization, Protein Structure, Secondary, Protein Structure, Tertiary, Recombinant Proteins chemistry, Scattering, Radiation, Syphilis microbiology, Temperature, Bacterial Outer Membrane Proteins chemistry, Porins chemistry, Treponema pallidum chemistry

Abstract

We previously identified Treponema pallidum repeat proteins TprC/D, TprF, and TprI as candidate outer membrane proteins (OMPs) and subsequently demonstrated that TprC is not only a rare OMP but also forms trimers and has porin activity. We also reported that TprC contains N- and C-terminal domains (TprC(N) and TprC(C)) orthologous to regions in the major outer sheath protein (MOSP(N) and MOSP(C)) of Treponema denticola and that TprC(C) is solely responsible for β-barrel formation, trimerization, and porin function by the full-length protein. Herein, we show that TprI also possesses bipartite architecture, trimeric structure, and porin function and that the MOSP(C)-like domains of native TprC and TprI are surface-exposed in T. pallidum, whereas their MOSP(N)-like domains are tethered within the periplasm. TprF, which does not contain a MOSP(C)-like domain, lacks amphiphilicity and porin activity, adopts an extended inflexible structure, and, in T. pallidum, is tightly bound to the protoplasmic cylinder. By thermal denaturation, the MOSP(N) and MOSP(C)-like domains of TprC and TprI are highly thermostable, endowing the full-length proteins with impressive conformational stability. When expressed in Escherichia coli with PelB signal sequences, TprC and TprI localize to the outer membrane, adopting bipartite topologies, whereas TprF is periplasmic. We propose that the MOSP(N)-like domains enhance the structural integrity of the cell envelope by anchoring the β-barrels within the periplasm. In addition to being bona fide T. pallidum rare outer membrane proteins, TprC/D and TprI represent a new class of dual function, bipartite bacterial OMP., (© 2015 by The American Society for Biochemistry and Molecular Biology, Inc.)

Published

2015

46. Stage-specific global alterations in the transcriptomes of Lyme disease spirochetes during tick feeding and following mammalian host adaptation.

Author

Iyer R, Caimano MJ, Luthra A, Axline D Jr, Corona A, Iacobas DA, Radolf JD, and Schwartz I

Subjects

Adaptation, Physiological, Animals, Bacterial Proteins genetics, Bacterial Proteins metabolism, Borrelia burgdorferi growth & development, Borrelia burgdorferi pathogenicity, Borrelia burgdorferi physiology, Carbohydrate Metabolism genetics, Cell Membrane metabolism, Cell Movement, Cell Wall metabolism, Chemotaxis genetics, Gene Expression Regulation, Bacterial, Ixodes growth & development, Larva microbiology, Membrane Transport Proteins genetics, Membrane Transport Proteins metabolism, Mice, Inbred C3H, Nymph microbiology, Oligonucleotide Array Sequence Analysis, Real-Time Polymerase Chain Reaction, Sigma Factor genetics, Sigma Factor metabolism, Borrelia burgdorferi genetics, Ixodes microbiology, Life Cycle Stages genetics, Lyme Disease microbiology, Transcriptome

Abstract

Borrelia burgdorferi, the agent of Lyme disease, is maintained in nature within an enzootic cycle involving a mammalian reservoir and an Ixodes sp. tick vector. The transmission, survival and pathogenic potential of B. burgdorferi depend on the bacterium's ability to modulate its transcriptome as it transits between vector and reservoir host. Herein, we employed an amplification-microarray approach to define the B. burgdorferi transcriptomes in fed larvae, fed nymphs and in mammalian host-adapted organisms cultivated in dialysis membrane chambers. The results show clearly that spirochetes exhibit unique expression profiles during each tick stage and during cultivation within the mammal; importantly, none of these profiles resembles that exhibited by in vitro grown organisms. Profound shifts in transcript levels were observed for genes encoding known or predicted lipoproteins as well as proteins involved in nutrient uptake, carbon utilization and lipid synthesis. Stage-specific expression patterns of chemotaxis-associated genes also were noted, suggesting that the composition and interactivities of the chemotaxis machinery components vary considerably in the feeding tick and mammal. The results as a whole make clear that environmental sensing by B. burgdorferi directly or indirectly drives an extensive and tightly integrated modulation of cell envelope constituents, chemotaxis/motility machinery, intermediary metabolism and cellular physiology. These findings provide the necessary transcriptional framework for delineating B. burgdorferi regulatory pathways throughout the enzootic cycle as well as defining the contribution(s) of individual genes to spirochete survival in nature and virulence in humans., (© 2014 John Wiley & Sons Ltd.)

Published

2015

47. Treponema pallidum in Gel Microdroplets: A Method for Topological Analysis of BamA (TP0326) and Localization of Rare Outer Membrane Proteins.

Author

Luthra A, Anand A, and Radolf JD

Subjects

Animals, Gels, Protein Transport, Bacterial Outer Membrane Proteins metabolism, Microtechnology methods, Treponema pallidum cytology

Abstract

The noncultivable spirochete Treponema pallidum subspecies pallidum (T. pallidum) is the etiological agent of venereal syphilis. In contrast to the outer membranes (OMs) of gram-negative bacteria, the OM of T. pallidum lacks lipopolysaccharide, contains a paucity of integral membrane proteins, and is extremely labile. The lability of the T. pallidum OM greatly hinders efforts to localize the bacterium's rare outer membrane proteins (OMPs). To circumvent this problem, we developed the gel microdroplet method in which treponemes are encapsulated in porous agarose beads and then probed with specific antibodies in the absence or presence of low concentrations of the non-ionic detergent Triton X-100. To demonstrate the general utility of this method for surface localization of any T. pallidum antigen, herein we describe a protocol for immunolabeling of encapsulated treponemes using antibodies directed against the β-barrel and POTRA domains of TP0326, the spirochete's BamA ortholog.

Published

2015

48. Xenodiagnosis for posttreatment Lyme disease syndrome: resolving the conundrum or adding to it?

Author

Bockenstedt LK and Radolf JD

Subjects

Animals, Female, Humans, Male, Arachnid Vectors microbiology, Ixodes microbiology, Lyme Disease diagnosis, Xenodiagnosis methods

Published

2014

49. Evaluation of the Borrelia burgdorferi BBA64 protein as a protective immunogen in mice.

Author

Brandt KS, Patton TG, Allard AS, Caimano MJ, Radolf JD, and Gilmore RD

Subjects

Animals, Antibodies, Bacterial blood, Antigens, Bacterial administration & dosage, Disease Models, Animal, Escherichia coli genetics, Female, Gene Expression, Lyme Disease immunology, Lyme Disease Vaccines administration & dosage, Mice, Rats, Rats, Sprague-Dawley, Recombinant Proteins administration & dosage, Recombinant Proteins immunology, Vaccines, Subunit administration & dosage, Vaccines, Subunit immunology, Vaccines, Synthetic administration & dosage, Vaccines, Synthetic immunology, Antigens, Bacterial immunology, Lyme Disease prevention & control, Lyme Disease Vaccines immunology

Abstract

The Borrelia burgdorferi bba64 gene product is a surface-localized lipoprotein synthesized within mammalian and tick hosts and is involved in vector transmission of disease. These properties suggest that BBA64 may be a vaccine candidate against Lyme borreliosis. In this study, protective immunity against B. burgdorferi challenge was assessed in mice immunized with the BBA64 protein. Mice developed a high-titer antibody response following immunization with soluble recombinant BBA64 but were not protected when challenged by needle inoculation of culture-grown spirochetes. Likewise, mice passively immunized with an anti-BBA64 monoclonal antibody were not protected against needle-inoculated organisms. BBA64-immunized mice were subjected to B. burgdorferi challenge by the natural route of a tick bite, but these trials did not demonstrate significant protective immunity in either outbred or inbred strains of mice. Lipidated recombinant BBA64 produced in Escherichia coli was assessed for possible improved elicitation of a protective immune response. Although inoculation with this antigen produced a high-titer antibody response, the lipidated BBA64 also was unsuccessful in protecting mice from B. burgdorferi challenge by tick bites. Anti-BBA64 antibodies raised in rats eradicated the organisms, as evidenced by in vitro borreliacidal assays, thus demonstrating the potential for BBA64 to be effective as a protective immunogen. However, passive immunization with the same monospecific rat anti-BBA64 polyclonal serum failed to provide protection against tick bite-administered challenge. These results reveal the challenges faced in not only identifying B. burgdorferi proteins with potential protective capability but also in producing recombinant antigens conducive to preventive therapies against Lyme borreliosis.

Published

2014

50. Structural modeling and physicochemical characterization provide evidence that P66 forms a β-barrel in the Borrelia burgdorferi outer membrane.

Author

Kenedy MR, Luthra A, Anand A, Dunn JP, Radolf JD, and Akins DR

Subjects

Antigens, Bacterial metabolism, Antigens, Surface metabolism, Bacterial Outer Membrane Proteins metabolism, Bacterial Proteins analysis, Bacterial Proteins genetics, Bacterial Vaccines metabolism, Borrelia burgdorferi genetics, Immunoprecipitation, Lipoproteins metabolism, Models, Molecular, Porins analysis, Porins genetics, Protein Binding, Protein Conformation, Protein Multimerization, Proteolysis, Recombinant Fusion Proteins analysis, Recombinant Fusion Proteins genetics, Trypsin metabolism, Bacterial Proteins chemistry, Borrelia burgdorferi chemistry, Porins chemistry

Abstract

The Borrelia burgdorferi outer membrane (OM) contains numerous surface-exposed lipoproteins but a relatively low density of integral OM proteins (OMPs). Few membrane-spanning OMPs of B. burgdorferi have been definitively identified, and none are well characterized structurally. Here, we provide evidence that the borrelial OMP P66, a known adhesin with pore-forming activity, forms a β-barrel in the B. burgdorferi OM. Multiple computer-based algorithms predict that P66 forms a β-barrel with either 22 or 24 transmembrane domains. According to our predicted P66 topology, a lysine residue (K487) known to be sensitive to trypsin cleavage is located within a surface-exposed loop. When we aligned the mature P66 amino acid sequences from B. burgdorferi and B. garinii, we found that K487 was present only in the B. burgdorferi P66 protein sequence. When intact cells from each strain were treated with trypsin, only B. burgdorferi P66 was trypsin sensitive, indicating that K487 is surface exposed, as predicted. Consistent with this observation, when we inserted a c-Myc tag adjacent to K487 and utilized surface localization immunofluorescence, we detected the loop containing K487 on the surface of B. burgdorferi. P66 was examined by both Triton X-114 phase partitioning and circular dichroism, confirming that the protein is amphiphilic and contains extensive (48%) β-sheets, respectively. Moreover, P66 also was able to incorporate into liposomes and form channels in large unilamellar vesicles. Finally, blue native PAGE (BN-PAGE) revealed that under nondenaturing conditions, P66 is found in large complexes of ∼400 kDa and ∼600 kDa. Outer surface lipoprotein A (OspA) and OspB both coimmunoprecipitate with P66, demonstrating that P66 associates with OspA and OspB in B. burgdorferi. The combined computer-based structural analyses and supporting physicochemical properties of P66 provide a working model to further examine the porin and integrin-binding activities of this OMP as they relate to B. burgdorferi physiology and Lyme disease pathogenesis.

Published

2014