The pros and cons of the QuantiFERON test for the diagnosis of tuberculosis, prediction of disease progression, and treatment monitoring

Objective/Background: Tuberculosis (TB) is a re-emerging disease with the advent of human immunodeficiency virus/AIDS infections. Discovered in 1959, diagnosed by various approaches and treated with antibiotics, the treatment of TB infection still poses public health concerns. Many cases of resistance and cross-resistance are observed. Diagnosis by culture, which is considered as the standard method, takes too long (20–30days) and is not suitable for extrapulmonary TB. QuantiFERON test, which is an indirect immunoassay based on blood, was developed. Much hope was placed in this new approach because it is based on blood, and many research teams have used it. We discuss the results of these different research groups who have used QuantiFERON for diagnosis, prediction of disease progression, or monitoring patients during the treatment of TB. Methods: rticles published in PubMed and documents published on Google were searched with the keywords: diagnosis and TB and QuantiFERON; TB and QuantiFERON and therapeutic monitoring; interferon-γ release assay; disease progression. These articles were read and analyzed. Results: The results were controversial with regards to using the QuantiFERON test for the diagnosis of TB according to the study population (ethnic group, bacillus Calmette–Guérin vaccine use) and according to the state of the immune system of the people studied (human immunodeficiency virus immunosuppression in cancer medication, hypertension). Also, research findings were controversial with regards to using QuantiFERON for monitoring TB patients on anti-TB medications. Also, the predictive positive value for the progression to TB among immigrant close contacts of both interferon-γ release assays was not better than that of the tuberculin skin test. Conclusion: The QuantiFERON has advantages and limitations depending on the type of population studied. Recommendations are made to improve the sensitivity and specificity and to differentiate between latent and active TB by adding other specific proteins in the Mycobacterium tuberculosis antigen cocktail

Upregulated bovine tuberculosis microRNAs Trigger oncogenic pathways: An In silico perception

Background/Objective: Although microRNA (miRNA)-directed regulation of bovine tuberculosis (bTB) has already been reported, very little is known about the incited pathways and genes. We profiled bTB-upregulated miRNAs through an in silico methodology. Methods: The data of upregulated miRNAs in bTB versus healthy controls were collected and clustered into three groups by their tissue specificity as follows: G1 (mammary gland-specific): bta-miR-146a; G2 (peripheral blood mononuclear cell-specific): bta-miR-155; and G3 (alveolar macrophage-specific): bta-miR-146a, bta-miR-155, bta-miR-142-5p, bta-miR-423-3p, bta-miR-21-5p, bta-miR-27a-3p, bta-miR-99b, bta-miR-147, bta-miR-223, and bta-let-7i. The miRNA–mRNA interaction network was defined by TargetScan. The gene ontology terms and Kyoto Encyclopedia of Genes and Genomes pathways of these transcripts were examined. Results: The results illustrate the induction of pathways in cancer, highly enriched, and unanimous to all three gene sets (G1, G2, and G3). Mitogen-activated protein kinase and PI3K-Akt signaling were specific to G2 and G3 with fibroblast growth factors formed the key factors. Conclusion: The inferred cancer cascades denote a probable modulation of innate immune response in an infectious state. These baseline pictures could lay the ground for further substantive studies