PLoS ONE (Jan 2023)

In-vivo studies on Transitmycin, a potent Mycobacterium tuberculosis inhibitor.

  • Rajesh Mondal,
  • Azger Dusthackeer V N,
  • Palaniyandi Kannan,
  • Amit Kumar Singh,
  • Kannan Thiruvengadam,
  • Radhakrishnan Manikkam,
  • Shainaba A S,
  • Mahizhaveni Balasubramanian,
  • Padmasini Elango,
  • Sam Ebenezer Rajadas,
  • Dinesh Bharadwaj,
  • Gandarvakottai Senthilkumar Arumugam,
  • Suresh Ganesan,
  • Hemanth Kumar A K,
  • Manjula Singh,
  • Shripad Patil,
  • Jaleel U C A,
  • Mukesh Doble,
  • Balagurunathan R,
  • Srikanth Prasad Tripathy,
  • Vanaja Kumar

DOI
https://doi.org/10.1371/journal.pone.0282454
Journal volume & issue
Vol. 18, no. 3
p. e0282454

Abstract

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This study involves the in-vitro and in-vivo anti-TB potency and in-vivo safety of Transitmycin (TR) (PubChem CID:90659753)- identified to be a novel secondary metabolite derived from Streptomyces sp (R2). TR was tested in-vitro against drug resistant TB clinical isolates (n = 49). 94% of DR-TB strains (n = 49) were inhibited by TR at 10μg ml-1. In-vivo safety and efficacy studies showed that 0.005mg kg-1 of TR is toxic to mice, rats and guinea pigs, while 0.001mg kg-1 is safe, infection load did not reduce. TR is a potent DNA intercalator and also targets RecA and methionine aminopeptidases of Mycobacterium. Analogue 47 of TR was designed using in-silico based molecule detoxification approaches and SAR analysis. The multiple targeting nature of the TR brightens the chances of the analogues of TR to be a potent TB therapeutic molecule even though the parental compound is toxic. Analog 47 of TR is proposed to have non-DNA intercalating property and lesser in-vivo toxicity with high functional potency. This study attempts to develop a novel anti-TB molecule from microbial sources. Though the parental compound is toxic, its analogs are designed to be safe through in-silico approaches. However, further laboratory validations on this claim need to be carried out before labelling it as a promising anti-TB molecule.