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In-vivo studies on Transitmycin, a potent Mycobacterium tuberculosis inhibitor
Date Issued
01-03-2023
Author(s)
Mondal, Rajesh
Dusthackeer, Azger V.N.
Kannan, Palaniyandi
Singh, Amit Kumar
Thiruvengadam, Kannan
Manikkam, Radhakrishnan
Shainaba, A. S.
Balasubramanian, Mahizhaveni
Elango, Padmasini
Rajadas, Sam Ebenezer
Bharadwaj, Dinesh
Arumugam, Gandarvakottai Senthilkumar
Ganesan, Suresh
Kumar, Hemanth A.K.
Singh, Manjula
Patil, Shripad
Jaleel, U. C.A.
Indian Institute of Technology, Madras
Balagurunathan, R.
Tripathy, Srikanth Prasad
Kumar, Vanaja
Abstract
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.
Volume
18