Detection of Mtb and NTM: preclinical validation of a new asymmetric PCR-binary deoxyribozyme sensor assay.
Yasmin Castillos das NevesAna Julia ReisMarcos Alaniz RodriguesErica ChimaraMaria Cristina da Silva LourençoJacques FountainIvy Bastos RamisAndrea von GrollYulia V GerasimovaKyle H RohdePedro Eduardo Almeida da SilvaPublished in: Microbiology spectrum (2024)
Tuberculosis (TB) and infectious diseases caused by non-tuberculous mycobacteria (NTM) are global concerns. The development of a rapid and accurate diagnostic method, capable of detecting and identifying different mycobacteria species, is crucial. We propose a molecular approach, the BiDz-TB/NTM, based on the use of binary deoxyribozyme (BiDz) sensors for the detection of Mycobacterium tuberculosis (Mtb) and NTM of clinical interest. A panel of DNA samples was used to evaluate Mtb-BiDz, Mycobacterium abscessus / Mycobacterium chelonae -BiDz, Mycobacterium avium -BiDz, Mycobacterium intracellulare / Mycobacterium chimaera -BiDz, and Mycobacterium kansasii -BiDz sensors in terms of specificity, sensitivity, accuracy, and limit of detection. The BiDz sensors were designed to hybridize specifically with the genetic signatures of the target species. To obtain the BiDz sensor targets, amplification of a fragment containing the hypervariable region 2 of the 16S rRNA was performed, under asymmetric PCR conditions using the reverse primer designed based on linear-after-the-exponential principles. The BiDz-TB/NTM was able to correctly identify 99.6% of the samples, with 100% sensitivity and 0.99 accuracy. The individual values of specificity, sensitivity, and accuracy, obtained for each BiDz sensor, satisfied the recommendations for new diagnostic methods, with sensitivity of 100%, specificity and accuracy ranging from 98% to 100% and from 0.98 to 1.0, respectively. The limit of detection of BiDz sensors ranged from 12 genome copies (Mtb-BiDz) to 2,110 genome copies (Mkan-BiDz). The BiDz-TB/NTM platform would be able to generate results rapidly, allowing the implementation of the appropriate therapeutic regimen and, consequently, the reduction of morbidity and mortality of patients.IMPORTANCEThis article describes the development and evaluation of a new molecular platform for accurate, sensitive, and specific detection and identification of Mycobacterium tuberculosis and other mycobacteria of clinical importance. Based on BiDz sensor technology, this assay prototype is amenable to implementation at the point of care. Our data demonstrate the feasibility of combining the species specificity of BiDz sensors with the sensitivity afforded by asymmetric PCR amplification of target sequences. Preclinical validation of this assay on a large panel of clinical samples supports the further development of this diagnostic tool for the molecular detection of pathogenic mycobacteria.
Keyphrases
- mycobacterium tuberculosis
- pulmonary tuberculosis
- real time pcr
- loop mediated isothermal amplification
- label free
- high throughput
- low cost
- genome wide
- primary care
- gene expression
- high resolution
- infectious diseases
- single molecule
- ionic liquid
- dna methylation
- quality improvement
- machine learning
- circulating tumor
- hepatitis c virus
- genetic diversity
- copy number
- antiretroviral therapy
- patient reported outcomes
- quantum dots
- patient reported
- data analysis
- circulating tumor cells