Multi-isotype antibody responses against the multimeric Salmonella Typhi recombinant hemolysin E antigen

A new Aptasensor to detect Salmonella Typhi Hemolysin E protein utilising a graphene oxide-chitosan modified printed circuit board gold electrode

This study presents the first report of HlyE protein (HlyE) detection utilising an electrochemical aptasensor platform. HlyE is a virulent protein produced by Salmonella enterica serotype Typhi (S. Typhi), responsible for typhoid fever. The aptasensor was developed using the in-house-designed printed circuit board gold electrode, modified with graphene oxide-chitosan nanocomposite via the drop cast technique. This platform was immobilised with a specific HlyE aptamer sequence utilising the carbodiimide crosslinking chemistry. The electrochemical characteristics of the developed aptasensor were analysed using cyclic voltammetry, differential pulse voltammetry, and electrochemical impedance spectroscopy techniques using a benchtop potentiostat. The aptasensor successfully detects the HlyE protein ranging from 1.25 to 20 ng/μL, with a detection limit of 0.137 ng/μL within 30 min under optimal detection conditions. The aptasensor demonstrates excellent specificity, reproducibility and stability up to 14 days at room temperature. A preliminary clinical study indicates that the aptasensor was able to discriminate direct serum samples containing HlyE protein from S. Typhi-infected patients among healthy individuals and patients with other diseases using a portable potentiostat reader. Their detection was comparable with the commercially available Typhidot assay, demonstrating its practicality for early diagnosis of S. Typhi infection. Thus, the aptasensor device developed in this study works efficiently as a portable and rapid diagnostic tool for S. Typhi point-of-care detection.

Isolation and characterization of DNA aptamers against the HlyE antigen of Salmonella Typhi

Aptamers have emerged as prominent ligands in clinical diagnostics because they provide various advantages over antibodies, such as quicker generation time, reduced manufacturing costs, minimal batch-to-batch variability, greater modifiability, and improved thermal stability. In the present study, we isolated and characterized DNA aptamers that can specifically bind to the hemolysin E (HlyE) antigen of Salmonella Typhi for future development of typhoid diagnostic tests. The DNA aptamers against Salmonella Typhi HlyE were isolated using systematic evolution of ligands by exponential enrichment (SELEX), and their binding affinity and specificity were assessed utilizing enzyme-linked oligonucleotide assay (ELONA). A total of 11 distinct aptamers were identified, and the binding affinities and species selectivities of the three most probable aptamers were determined. Kd values were obtained in the nanomolar range, with the highest affinity of 83.6 nM determined for AptHlyE97. In addition, AptHlyE11, AptHlyE45 and AptHlyE97 clearly distinguished S. Typhi HlyE from other tested bacteria, such as Salmonella Paratyphi A, Salmonella Paratyphi B, Shigella flexneri, Klebsiella pneumonia and Escherichia coli, therefore displaying desirable specificity. These novel aptamers could be used as diagnostic ligands for the future development of inexpensive and effective point-of-care tests for typhoid surveillance, especially in developing countries of the tropics and subtropics.

Performance of Immunodiagnostic Tests for Typhoid Fever: A Systematic Review and Meta-Analysis

Typhoid fever, also known as typhoid, is a life-threatening bacterial infection that remains a global health concern. The infection is associated with a significant morbidity and mortality rate, resulting in an urgent need for specific and rapid detection tests to aid prevention and management of the disease. The present review aims to assess the specificity and sensitivity of the available literature on the immunodiagnostics of typhoid fever. A literature search was conducted using three databases (PubMed, ProQuest and Scopus) and manual searches through the references of identified full texts to retrieve relevant literature published between 1 January 2011 and 31 December 2020. Of the 577 studies identified in our search, 12 were included in further analysis. Lipopolysaccharides (LPS) and hemolysin E (HlyE) were the most frequently studied antigens. The specimens examined in these studies included serum and saliva. Using blood culture as the gold standard, anti-LPS IgA gave the highest sensitivity of 96% (95% CI: 93–99) and specificity of 96% (95% CI: 93–99) for distinguishing between typhoid cases and healthy controls, whereas the combination of anti-LPS and anti-flagellin total IgGAM gave the highest sensitivity of 93% (95% CI: 86–99) and specificity of 95% (95% CI: 89–100) for distinguishing typhoid cases and other febrile infections. A comparably high sensitivity of 92% (95% CI: 86–98) and specificity of 89% (95% CI: 78–100) were shown in testing based on detection of the combination of anti-LPS (IgA and IgM) and anti-HlyE IgG as well as a slightly lower sensitivity of 91% (95% CI: 74–100) in the case of anti-50kDa IgA. Anti-50kDa IgM had the lowest sensitivity of 36% (95% CI: 6–65) against both healthy and febrile controls. The development of a rapid diagnostic test targeting antibodies against lipopolysaccharides combined with flagellin appeared to be a suitable approach for the rapid detection test of typhoid fever. Saliva is added benefit for rapid typhoid diagnosis since it is less invasive. As a result, further studies could be done to develop additional approaches for adopting such samples.

Enteric Fever Diagnosis: Current Challenges and Future Directions

Enteric fever is a life-threatening systemic febrile disease caused by Salmonella enterica serovars Typhi and Paratyphi (S. Typhi and S. Paratyphi). Unfortunately, the burden of the disease remains high primarily due to the global spread of various drug-resistant Salmonella strains despite continuous advancement in the field. An accurate diagnosis is critical for effective control of the disease. However, enteric fever diagnosis based on clinical presentations is challenging due to overlapping symptoms with other febrile illnesses that are also prevalent in endemic areas. Current laboratory tests display suboptimal sensitivity and specificity, and no diagnostic methods are available for identifying asymptomatic carriers. Several research programs have employed systemic approaches to identify more specific biomarkers for early detection and asymptomatic carrier detection. This review discusses the pros and cons of currently available diagnostic tests for enteric fever, the advancement of research toward improved diagnostic tests, and the challenges of discovering new ideal biomarkers and tests.

Evaluation of Salmonella Typhi antigen YncE alongside HlyE for the detection of typhoid fever and its carriers

Typhoid fever is a disease caused by Salmonella Typhi that was implicated in millions of illnesses worldwide annually. Individuals that do not recover fully from typhoid fever can become asymptomatic carriers of the disease. Host antibodies against the S. Typhi antigens, HlyE (for acute typhoid) and YncE (for carriers) were previously reported to be useful biomarkers for the disease. Here, we expressed and purified recombinant HlyE and YncE antigens and tested the IgG, IgA and IgM responses in 422 sera samples retrieved from acute typhoid patients, other febrile, food handlers, and healthy individuals. The results showed that HlyE-IgG, -IgA and -IgM ELISAs have a collective sensitivity of 83% while YncE-IgG and -IgA ELISAs identified 16 possible carriers based on their antibody profiles. The identification of sensitive biomarkers for typhoid carrier detection is crucial for disease eradication.

Development of ELISAs for diagnosis of acute typhoid fever in Nigerian children

Improved serodiagnostic tests for typhoid fever (TF) are needed for surveillance, to facilitate patient management, curb antibiotic resistance, and inform public health programs. To address this need, IgA, IgM and IgG ELISAs using Salmonella enterica serovar Typhi (S. Typhi) lipopolysaccharide (LPS) and hemolysin E (t1477) protein were conducted on 86 Nigerian pediatric TF and 29 non-typhoidal Salmonella (NTS) cases, 178 culture-negative febrile cases, 28 "other" (i.e., non-Salmonella) pediatric infections, and 48 healthy Nigerian children. The best discrimination was achieved between TF and healthy children. LPS-specific IgA and IgM provided receiver operator characteristic areas under the curve (ROC AUC) values of 0.963 and 0.968, respectively, and 0.978 for IgA+M combined. Similar performance was achieved with t1477-specific IgA and IgM (0.968 and 0.968, respectively; 0.976 combined). IgG against LPS and t1477 was less accurate for discriminating these groups, possibly as a consequence of previous exposure, although ROC AUC values were still high (0.928 and 0.932, respectively). Importantly, discrimination between TF and children with other infections was maintained by LPS-specific IgA and IgM (AUC = 0.903 and 0.934, respectively; 0.938 combined), and slightly reduced for IgG (0.909), while t1477-specific IgG performed best (0.914). A similar pattern was seen when comparing TF with other infections from outside Nigeria. The t1477 may be recognized by cross-reactive antibodies from other acute infections, although a robust IgG response may provide some diagnostic utility in populations where incidence of other infections is low, such as in children. The data are consistent with IgA and IgM against S. Typhi LPS being specific markers of acute TF.

Detection of Salivary IgA Antibodies Against the HlyE Antigen as a Diagnosis of Typhoid Fever

INTRODUCTION

The Salmonella typhi (S. typhi) haemolysin E protein (HlyE) has been shown to be a sensitive and specific antigen for the detection of typhoid fever through the detection of anti-HlyE antibodies in sera. Saliva can also be a useful diagnostic fluid as it also contains antibodies against bacterial pathogens.

AIM

This study aims to evaluate the potential detection of salivary anti-HlyE antibodies as a diagnosis of typhoid fever.

MATERIALS AND METHODS

Saliva was collected from acute typhoid patients (n=16) who presented at Hospital Universiti Sains Malaysia with prolonged fever of more than five days and were positive for S. Typhi blood culture. Saliva was also collected from convalescent typhoid patients (n=11), patients with other febrile fevers (n=15), and from healthy individuals (n=25). An ELISA was developed to detect the presence of IgA antibodies against HlyE in the saliva of typhoid patients.

RESULTS

The acute typhoid group had a higher mean absorbance value of 1.496 compared to the convalescent typhoid (0.538), other febrile fevers (0.678), and healthy individuals (0.457) group.

CONCLUSION

This study demonstrated the utility of salivary anti-HlyE IgA antibody as a biomarker for the diagnosis of typhoid fever. Follow-up studies with a larger sample size will allow the optimization of the sensitivity and specificity of the assay. This non-invasive method can be useful for mass screening programs.