Browsing by Author "Mishra, Hridesh"

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    Comparison of human monocyte derived macrophages and THP1-like macrophages as in vitro models for M. tuberculosis infection
    (Elsevier, 2019) Madhvi, Abhilasha; Mishra, Hridesh; Leisching, G. R.; Mahlobo, P. Z.; Baker, B.
    Macrophages are the preferential cell types to study various aspects of mycobacterial infection. Commonly used infection models for in-vitro studies are primary macrophages such as human monocyte derived macrophages (hMDMs) and macrophage like cell lines (THP-1). It is not clear if commercially available THP-1 cells can be used as hMDMs alternative for in-vitro M.tb infection experiments. We conducted a detailed investigation of the hMDM and THP-1 response to mycobacterial infection on a comparative basis and assess the most crucial aspects of infection which are most commonly studied. We assessed mycobacterial uptake and intracellular growth over time of a pathogenic drug-resistant and drug-susceptible M.tb strains (R179 and H37Rv) through colony forming units (CFUs). Both strains depicted similar uptake and intracellular growth in hMDMs and THP-1 macrophages over time (R179, p=0.954) (H37Rv, p=0.922). Cytotoxicity assays revealed a consistent viability up to day 16 post-infection across the strains in both THP-1 and hMDMs (R179, p=0.271) (H37Rv, p=0.068). Interestingly, both cell lines showed similar mycobacterial uptake and cellular viability in both susceptible as well as resistant M.tb strains. Cytokine/chemokine mRNA analysis through qPCR found no difference between cell types. Further, cytokine secretion measured through Luminex revealed no difference across the strains. Also, cytokine secretion analysis showed no difference in both cell lines across strains. In conclusion, our study shows that THP-1 and hMDMs bacterial uptake, viability and host response to drug-susceptible and drug-resistant mycobacterial infections are similar. Therefore, present study demonstrate that THP-1 cells are suitable substitutes for hMDMs for in-vitro M.tb infection experiments.
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    Distinct host-immune response toward species related intracellular mycobacterial killing : a transcriptomic study
    (Taylor & Francis, 2020) Madhvi, Abhilasha; Mishra, Hridesh; Chegoua, Novel N.; Tromp, Gerard; Van Heerden, Carel J.; Pietersen, R. D.; Leisching, Gina; Baker, Bienyameen
    The comparison of the host immune response when challenged with pathogenic and nonpatho- genic species of mycobacteria can provide answers to the unresolved question of how pathogens subvert or inhibit an effective response. We infected human monocyte derived macrophages (hMDMs) with different species of mycobacteria, in increasing order of pathogenicity, i.e. M. smegmatis, M. bovis BCG, and M. tuberculosis R179 that had been cultured in the absence of detergents. RNA was isolated post-infection and transcriptomic analysis using amplicons (Ampliseq) revealed 274 differentially expressed genes (DEGs) across three species, out of which we selected 19 DEGs for further validation. We used qRT-PCR to confirm the differential expression of 19 DEGs. We studied biological network through Ingenuity Pathway Analysis® (IPA) which revealed up-regulated pathways of the interferon and interleukin family related to the killing of M. smegmatis. Apart from interferon and interleukin family, we found one up-regulated (EIF2AK2) and two down-regulated (MT1A and TRIB3) genes as unique potential targets found by Ampliseq and qRT-PCR which may be involved in the intracellular mycobacterial killing. The roles of these genes have not previously been described in tuberculosis. Multiplex ELISA of culture supernatants showed increased host immune response toward M. smegmatis as compared to M. bovis BCG and M.tb R179. These results enhance our understanding of host immune response against M.tb infection.