| Literature DB >> 33441562 |
Ayushi Chaurasiya1, Swati Garg1, Ashish Khanna2, Chintam Narayana2, Ved Prakash Dwivedi3, Nishant Joshi4, Zill E Anam1, Niharika Singh1, Jhalak Singhal1, Shikha Kaushik1, Amandeep Kaur Kahlon1, Pallavi Srivastava1, Manisha Marothia1, Mukesh Kumar1, Santosh Kumar3, Geeta Kumari1, Akshay Munjal1, Sonal Gupta1, Preeti Singh1, Soumya Pati4, Gobardhan Das1, Ram Sagar5, Anand Ranganathan6, Shailja Singh7.
Abstract
Hijacking of host metabolic status by a pathogen for its regulated dissemination from the host is prerequisite for the propagation of infection. M. tuberculosis secretes an NAD+-glycohydrolase, TNT, to induce host necroptosis by hydrolyzing Nicotinamide adenine dinucleotide (NAD+). Herein, we expressed TNT in macrophages and erythrocytes; the host cells for M. tuberculosis and the malaria parasite respectively, and found that it reduced the NAD+ levels and thereby induced necroptosis and eryptosis resulting in premature dissemination of pathogen. Targeting TNT in M. tuberculosis or induced eryptosis in malaria parasite interferes with pathogen dissemination and reduction in the propagation of infection. Building upon our discovery that inhibition of pathogen-mediated host NAD+ modulation is a way forward for regulation of infection, we synthesized and screened some novel compounds that showed inhibition of NAD+-glycohydrolase activity and pathogen infection in the nanomolar range. Overall this study highlights the fundamental importance of pathogen-mediated modulation of host NAD+ homeostasis for its infection propagation and novel inhibitors as leads for host-targeted therapeutics.Entities:
Year: 2021 PMID: 33441562 DOI: 10.1038/s41420-020-00366-z
Source DB: PubMed Journal: Cell Death Discov ISSN: 2058-7716