MBL

WELCOME TO THE CYBER PORTAL OF MOLECULAR BIOMEDICINE LABORATORY. THE LAB CONGRATULATES AND WELCOMES MR. VIKAS H.M. ON BEING APPOINTED AS PROJECT FELLOW FOR DBT MAJOR RESEARCH PROJECT Molecular Biomedidicine laboratory welcomes Mr. Siddesh B.M as a research Scholar.

Synthesis and antiproliferative activity of benzophenone tagged pyridine analogues towards activation of Caspase activated DNAse mediated nuclear fragmentation in Dalton’s lymphoma

Apoptosis plays a very crucial role in the maintenance of tissue homeostasis by regulating cell death. The fragmentation of chromosomal DNA into nucleosomal units, producing small DNA fragments or DNA ladder, is considered as a prominent biochemical hallmark of apoptotic cell death. The molecular characterization of this process identifies a specific DNase called Caspase activated DNase (CAD) or DNA fragmentation factor (DFF-40) that cleaves cellular DNA in a caspase-dependent manner that kills the cells in an appropriate way. Our lab used this phenomenon and synthesized series of novel molecules to identify an active molecule capable of inducing apoptosis by activating CAD.
Published in the journal Bioorganic chemistry: doi:10.1016/j.bioorg.2016.02.001 
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This laboratory (MBL) in collaboration with Department of Chemistry, Yuvaraja’s College, University of Mysore, made an attempt to synthesize the compounds which would activate CAD by dissociating the inhibitor of CAD (ICAD) from CAD which is normally heterodimerised with ICAD. A series of benzophenone tagged pyridine analogues were synthesized. Our group has reported a number of novel benzophenone conjugated analogues as potent inhibitors targeting angiogenesis. Pyridine, one of the most prevalent heterocyclic compounds in nature, which is present in the coenzyme vitamin B6 family and in numerous alkaloids, was conjugated with benzophenone. Among the synthesized series the lab has identified two novel active molecules, 8b and 8e. Compounds 8b with fluoro group and 8e with chloro substituent at the benzoyl ring of benzophenone scaffold as well as pyridine ring with hydroxy group exhibited significant activity. Further investigations suggested that compounds 8b and 8e have the potency to activate caspase activated DNase (endonuclease) which is responsible for DNA fragmentation, a primary hallmark of apoptosis and thereby inhibits the Dalton’s lymphoma ascites tumour growth.
Dr.B.T. Prabhakar and Mr. Prabhu Thirusangu
Mr.H.G. Shamanth Neralagundi


 This research work was published in the journal Bioorganic chemistry (Published by Elsevier). This work is funded by Government of Karnataka, Vision Group on Science and Technology, Bangalore [VGST/CISEE/2012-13/282], Lady Tata Memorial Trust, Mumbai,  UGC (F.No.41-507/2012(SR), SERB-DST (SR/FT/LS-25/2011) and VGST (VGST/ GRD231/ CISEE/2013-14), DBT (6242-P37/RGCB/PMD/DBT/PBKR/2015). [Note: This is inclusive of the grants/funds of both the collaborators]. Shaukath Ara Khanum, Mohammed Al-Ghorbani, Gurupadaswamy H.D, and Girish V were involved in design and synthesis of molecules. Prabhakar B.T and Prabhu Thirusangu were involved in the project design, experimental plan and writing of the biological section of this manuscript.  Shamanth Neralagundi HG assisted the experimental section of the biology work.

 ABSTRACT
A series of benzophenones possessing pyridine nucleus 8a-l were synthesized by multistep reaction sequence and evaluated for antiproliferative activity against DLA cells by in vitro and in vivo studies. The results suggested that, compounds 8b with fluoro group and 8e with chloro substituent at the benzoyl ring of benzophenone scaffold as well as pyridine ring with hydroxy group exhibited significant activity. Further investigation in mouse model suggests that compounds 8b and 8e have the potency to activate caspase activated DNase (endonuclease) which is responsible for DNA fragmentation, a primary hallmark of apoptosis and thereby inhibits the Dalton’s lymphoma ascites tumour growth.

Keywords: Benzophenone-pyridine; DLA; CAD; Endonuclease

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