Immunochip for Syphilis Serodiagnostics with the Use of Extended Array of Treponema pallidum Recombinant Antigens

A novel pan-proteome array for high-throughput profiling of the humoral response to Treponema pallidum

Given the resurgence of syphilis, research endeavors to improve current assays for serological diagnosis and management of this disease are a priority. A proteome-scale platform for high-throughput profiling of the humoral response to Treponema pallidum (T. pallidum) proteins during infection could identify antigens suitable to ameliorate the performance and capabilities of treponemal tests for syphilis. Additionally, because infection-induced immunity is partially protective, profiling the response to T. pallidum outer membrane proteins (OMPs) could help select vaccine candidates. Therefore, we developed a pan-proteome array (PPA) based on the Nichols and SS14 strain complete proteomes and used it to define the immunoglobulin M (IgM) and IgG humoral response to T. pallidum proteins in sera collected longitudinally from long-term infected rabbits and from rabbits that were infected, treated, and re-infected. We identified antigens that could facilitate early diagnosis and immunity to a core set of OMP that could explain protection upon reinfection.

Evaluation of a minimal array of Treponema pallidum antigens as biomarkers for syphilis diagnosis, infection staging, and response to treatment

IMPORTANCE

This manuscript explores the host humoral response to selected antigens of the syphilis agent during infection to evaluate their potential use as diagnostic tests and markers for treatment.

Comprehensive Overview of Treponema pallidum Outer Membrane Proteins

Treponema pallidum, the causative agent of syphilis, is a sexually transmitted microorganism that exhibits remarkable motility capabilities, allowing it to affect various systems. Despite its structural resemblance to gram-negative bacteria due to its dual-membrane, T. pallidum possesses a lower abundance of outer membrane proteins (OMPs), which enables it to effectively conceal itself. This review presents a comprehensive analysis of the clinical diagnostic potential associated with the OMPs of T. pallidum. Furthermore, the known OMPs in T. pallidum that are responsible for mediating host interactions have been progressively elucidated. This review aims to shed light on the pathogenesis of syphilis, encompassing aspects such as vascular inflammation, chancre self-healing, neuroinvasion, and reinfection. Additionally, this review offers a detailed overview of the current state and prospects of development in the field of syphilis vaccines, with the ultimate goal of establishing a foundation for understanding the pathogenesis and implementing effective prevention strategies against syphilis.

Treponema pallidum outer membrane proteins: current status and prospects

The outer membrane proteins (OMPs) of Treponema pallidum subsp. Pallidum (T. pallidum), the etiological agent of the sexually transmitted disease syphilis, has long been a hot research topic. Despite many hurdles to studying the pathogen, especially the inability to manipulate T. pallidum in vitro genetically1, considerable progress has been made in elucidating the structure, pathogenesis, and functions of T. pallidum OMPs. In this review, we integrate this information to garner fresh insights into the role of OMPs in the diagnosis, pathogenicity, and vaccine development of T. pallidum. Collectively, the essential scientific discussions herein should provide a framework for understanding the current status and prospects of T. pallidum OMPs.

Decades ago, researchers postulated that the poor surface antigenicity of T. pallidum is the basis for its ability to cause persistent infection. Still, they believed that the mysterious properties of T. pallidum should not be attributed to the presence of the outer membrane proteins (OMPs). Subsequent studies revealed that the OM, which lacks integral membrane proteins, prevents antibody binding2. Since the advent of recombinant DNA technology, the fragility of the OM, low protein content, and the lack of sequence relatedness between T. pallidum and Gram-negative OMPs have complicated efforts to characterize molecules residing at the host-pathogen interface. These hurdles have been overcome by using the genomic sequence with computational tools to identify proteins predicted to form beta barrels, the hallmark conformation of OMPs in many organisms. Diverse methodologies have also confirmed that some candidate OMPs from amphiphilic β-barrels 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 OMPs are more Gram-negative-like than previously supposed. Lipoprotein adhesins and proteases on the spirochete surface also may contribute to disease pathogenesis and protective immunity.

Development and research of a model for differential diagnosis of latent late syphilis and false-positive serological reactions on immunochips with a panel of 12 Treponema pallidum antigens

The aim - to find the optimal attributing rules to distinguish groups of latent stages of syphilis and false positive serological tests of using multivariate discriminant analysis Material and methods. The objects of the study were serum samples from patients with late latent (N=34) syphilis and false positive serological tests (N=31). The samples were studied to determine IgG and IgM levels using indirect immunofluorescent reaction with immunochip containing recombinant antigens T. pallidum Results The mathematical model allows to differentiate with a high degree of confidence patients with late latent syphilis and with false-positive serological reactions to syphilis. Conclusions. . Multivariate discriminant analysis makes possible to create reliable mathematical models to classify patients with late latent syphilis and with false-positive serological reactions to syphilis.

Syphilis Diagnosis and Treatment: State of The Art

The present review summarises the current knowledge in the field of syphilis diagnosis and treatment, along with epidemiologic and historical data. A literature search was conducted in PubMed and Google Scholar, using the search terms “syphilis”, “diagnosis”, “dermoscopy”, “management AND treatment”, “laboratory tests AND syphilis”, and “primary OR secondary OR tertiary OR congenital syphilis”. A total of 55 out of 100 papers were included in this review. An overview of the different clinical presentation of primary, secondary, tertiary, and congenital syphilis, with particular attention to dermatologic signs and dermoscopic examination, is provided. The panorama diagnostic procedures are illustrated, along with their accuracy and recommendation. Treatment and management options of patients at different syphilis stages are provided and discussed according to the referring guidelines. The dermatologist can play a key role in providing the early and correct diagnosis and setting up in the proper management of patients with syphilis infection.

Recombinant Treponema pallidum protein Tp0768 promotes proinflammatory cytokine secretion of macrophages through ER stress and ROS/NF-κB pathway

In response to danger signals, macrophages rapidly produce many inflammatory cytokines that trigger the cascade release of inflammatory mediators, leading to tissue damage, which is an important cause of clinical manifestations of syphilis at all stages. However, we still know very little about the specific mechanism of this process. Tp0768 is an infection-stage-dependent antigen that plays an important role in the infection of Treponema pallidum. In this study, we demonstrated that Tp0768 stimulation of macrophages can cause IL-1β, IL-6, and IL-8 mRNA expression levels to increase in a dose- and time-dependent manner. Further research showed that Tp0768 activated ER stress and the ROS/NF-κB pathway in macrophages. Inhibition of ER stress and the ROS/NF-κB pathway inhibited the expression of IL-1β, IL-6, and IL-8 induced by Tp0768. In addition, pretreatment with a PERK pathway inhibitor significantly reduced the expression of the NF-κB and JNK pathways, while also downregulating the expression of IL-1β, IL-6, and IL-8. Tp0768 stimulation can activate IRE1α/XBP-1 signaling and participate in the induction of inflammatory cytokines through the JNK pathway. These findings indicate that Tp0768 promotes the secretion of proinflammatory cytokines IL-1β, IL-6, and IL-8 by macrophages through ER stress and the ROS/NF-κB pathway, which are also involved in the activation of the NF-κB and JNK pathways that are induced by the PERK pathway and activation of IRE1α/XBP-1 signaling. KEY POINTS: • This study found for the first time that the recombinant Treponema pallidum protein Tp0768 promotes the production of IL-1β, IL-6, and IL-8 by macrophages through ER stress. • Recombinant Treponema pallidum protein Tp0768 regulates the ROS/NF-κB pathway through ER stress. • ER stress-related pathway PERK induces the expression of IL-1β, IL-6, and IL-8 by activating the NF-κB pathway and the JNK pathway. • IRE1α can induce the splicing of XBP-1mRNA and activate the JNK pathway.

Differential Serodiagnostics of Latent Stages of Syphilis Based on Measuring IgG and IgM Levels towards Extended Panel of Recombinant Antigens of T. pallidum

Immunochips containing 12 recombinant antigens of T. pallidum (Тр15, Тр17, Тр47, TmpA, Тр0163, Тр0277, Тр0319, Тр0453, Тр0684, Тр0965, Тр0971, and Тр1038) were prepared to assay for IgG and IgM in serum samples (n=68) of healthy individuals and patients with the latent stages of syphilis. The linear discriminant analysis of detected IgG and IgM differentiated three groups of serum samples as 1) early latent syphilis; 2) seroresistant early latent syphilis; and 3) late latent syphilis with overall differentiation potency of 95.6% (88.9-100%). The samples of all syphilis patients were differentiated from the samples of healthy individuals with 100% specificity.

[Сomparison of immunoarrays for syphilis diagnostics produced by co-polymerization immobilization and non-contact printing techniques.]

The aim of the study was to investigate the characteristics of immunoarrays (microarrays) produced by co-polymerization immobilization and non-contact printing techniques for enhancing the capacities of syphilis diagnostics. In diagnostic context immunoarrays of both protein immobilization techniques have shown high sensitivity and specificity together with potency to differentiate syphilis stages in serologic assays. The article discloses the advantages and limitations of non-contact printing techniques as well as the results and problems revealed in the study. Solution of these problems in future may provide the development of new serodiagnostic tools with higher accuracy of the results.

[Diagnostic imminoarray assay for characterization of immunoglobulin igg and igm level in syphilis patients serum towards 12 recombinant antigens of t. pallidum before and after the therapy.]

The aim of the study was to characterize the dynamics of immunoglobulin IgG and IgM level in syphilis patients serum at different stages of the disease before and after the therapy towards 12 diagnostic antigens of T. pallidum in an microarray assay and to evaluate these data as possible prognostic markers. The dynamics of immunoglobulin IgG and IgM level was measured in the reaction of indirect immunofluorescence using microarray and compared to the results of non-treponemal RPR test and treponemal tests as EIA and reaction of passive hemagglutination. In microarray assay diagnostically high level of IgM in patients with primary, secondary and early latent and late latent syphilis decreased dramatically to zero after the successful therapy. Continuously high level of IgM after the therapy proposes the persistence of infection agents in the organism and points out the need of additional antimicrobial treatment. In most of the cases anti-treponemal IgG level also declined after the successful therapy and this confirms the appropriate treatment. The results of microarray assay coincide with the results of other mentioned laboratory tests for syphilis diagnostics. Microarray assay with the recombinant T. pallidum antigens gives the perspective for creating methods with wider spectrum of diagnostic and therapy control options using the IgM immunoglobulin level as a marker for successful syphilis treatment.

Immunoproteomics Methods and Techniques

The varied landscape of the adaptive immune response is determined by the peptides presented by immune cells, derived from viral or microbial pathogens or cancerous cells. The study of immune biomarkers or antigens is not new, and classical methods such as agglutination, enzyme-linked immunosorbent assay, or Western blotting have been used for many years to study the immune response to vaccination or disease. However, in many of these traditional techniques, protein or peptide identification has often been the bottleneck. Recent progress in genomics and mass spectrometry have led to many of the rapid advances in proteomics approaches. Immunoproteomics describes a rapidly growing collection of approaches that have the common goal of identifying and measuring antigenic peptides or proteins. This includes gel-based, array-based, mass spectrometry-based, DNA-based, or in silico approaches. Immunoproteomics is yielding an understanding of disease and disease progression, vaccine candidates, and biomarkers. This review gives an overview of immunoproteomics and closely related technologies that are used to define the full set of protein antigens targeted by the immune system during disease.