T. Jabeen scite author profile

Resistance against currently used antitubercular therapeutics increasingly undermines efforts to contain the worldwide tuberculosis (TB) epidemic. Recently, benzothiazinone (BTZ) inhibitors have shown nanomolar potency against both drug-susceptible and multidrug-resistant strains of the tubercle bacillus. However, their proposed mode of action is lacking structural evidence. We report here the crystal structure of the BTZ target, FAD-containing oxidoreductase Mycobacterium tuberculosis DprE1, which is essential for viability. Different crystal forms of ligand-free DprE1 reveal considerable levels of structural flexibility of two surface loops that seem to govern accessibility of the active site. Structures of complexes with the BTZ-derived nitroso derivative CT325 reveal the mode of inhibitor binding, which includes a covalent link to conserved Cys387, and reveal a trifluoromethyl group as a second key determinant of interaction with the enzyme. Surprisingly, we find that a noncovalent complex was formed between DprE1 and CT319, which is structurally identical to CT325 except for an inert nitro group replacing the reactive nitroso group. This demonstrates that binding of BTZ-class inhibitors to DprE1 is not strictly dependent on formation of the covalent link to Cys387. On the basis of the structural and activity data, we propose that the complex of DrpE1 bound to CT325 is a representative of the BTZ-target complex. These results mark a significant step forward in the characterization of a key TB drug target.mycobacterial cell wall | X-ray crystallography | multi drug resistance | arabinan | decaprenylphosphoryl-D-arabinose

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Crystal Structure of a Novel Regulatory 40-kDa Mammary Gland Protein (MGP-40) Secreted during Involution

Mohanty

Singh

Paramasivam

et al. 2003

Journal of Biological Chemistry

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We have determined the crystal structure of a novel regulatory protein (MGP-40) from the mammary gland. This protein is implicated as a protective signaling factor that determines which cells are to survive the drastic tissue remodeling that occurs during involution. It has been indicated that certain cancers could surreptitiously utilize the proposed normal protective signaling by proteins of this family to extend their own survival and thereby allow them to invade the organ and metastasize. In view of this, MGP-40 could form an important target for rational structure-based drug design against breast cancer. It is a single chain, glycosylated protein with a molecular mass of 40 kDa. It was isolated from goat dry secretions and has been cloned and sequenced. It was crystallized by microdialysis from 20 mg ml Mammary glands secrete a class of very important proteins during involution. We have isolated a glycoprotein from goat dry secretions which has a molecular mass of 40 kDa. This mammary gland protein has been named MGP-40.

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Crystal Structure of Schistatin, a Disintegrin Homodimer from Saw-scaled Viper (Echis carinatus) at 2.5Å Resolution

Bilgrami

Tomar

Yadav

et al. 2004

Journal of Molecular Biology

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Aspirin induces its anti-inflammatory effects through its specific binding to phospholipase A₂: Crystal structure of the complex formed between phospholipase A₂and aspirin at 1.9 Å resolution

Singh¹,

Ethayathulla²,

Jabeen³

et al. 2005

Journal of Drug Targeting

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Phospholipase A2 is potentially an important target for structure-based rational drug design. In order to determine the involvement of phospholipase A2 in the action of non-steroidal anti-inflammatory drugs (NSAIDs), the crystal structure of the complex formed between phospholipase A2 and aspirin has been determined at 1.9 angstroms resolution. The structure contains 915 protein atoms, 1 calcium ion, 13 atoms of aspirin and 105 water molecules. The observed electron density of the aspirin molecule in the structure was of very high quality thus allowing the precise determination of its atomic coordinates leading to the clear description of its interactions with the enzyme. The structure of the complex clearly shows that aspirin is literally embedded in the hydrophobic environment of PLA2. It is so placed in the substrate binding channel that it forms several important attractive interactions with calcium ion, His 48 and Asp 49. Thus, the structure of the complex clearly shows that aspirin occupies a favourable place in the specific binding site of PLA2. The binding studies have shown that acetyl salicylate (aspirin) binds to PLA2 enzyme specifically with a dissociation constant of 6.4 x 10(-6) M. The structural details and binding data suggest that the inhibition of PLA2 by aspirin is of pharmacological

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Inhibition mechanism of human galectin‐7 by a novel galactose‐benzylphosphate inhibitor

et al. 2011

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Galectins are involved in many cellular processes due to their ability to bind carbohydrates. Understanding their functions has shown the necessity for potent and specific galectin inhibitors. Human galectin-7 (hGal-7), in particular, has been highlighted as an important marker in many types of cancer by either inhibiting or promoting tumour growth. Producing ligands able to selectively target hGal-7 will offer promising tools for deciphering cancer processes in which hGal-7 is involved as well as present potential solutions for future therapeutics. Here we report the high resolution crystal structure of hGal-7 in complex with a synthetic 2-O-benzylphosphate-galactoside inhibitor (which is > 60-fold more potent than its parent galactoside). The high resolution crystallographic analysis highlights the validity of using saccharide derivatives, conserving properties of the galactose binding, while enhanced affinity and specificity is provided by the added phosphate group. This structural information will allow the design of further inhibitors with improved potency and specificity.DatabaseThe atomic coordinates for the complex of human galectin-7 as well as for the free structure have been deposited with the Protein Data Bank (accession numbers 3ZXE and 3ZXF respectively)Structured digital abstracthGal-7 and hGal-7 bind by X-raycrystallography (Viewinteraction)

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T. Jabeen

Structural basis of inhibition of Mycobacterium tuberculosis DprE1 by benzothiazinone inhibitors

Crystal Structure of a Novel Regulatory 40-kDa Mammary Gland Protein (MGP-40) Secreted during Involution

Crystal Structure of Schistatin, a Disintegrin Homodimer from Saw-scaled Viper (Echis carinatus) at 2.5Å Resolution

Aspirin induces its anti-inflammatory effects through its specific binding to phospholipase A₂: Crystal structure of the complex formed between phospholipase A₂and aspirin at 1.9 Å resolution

Inhibition mechanism of human galectin‐7 by a novel galactose‐benzylphosphate inhibitor

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T. Jabeen

Structural basis of inhibition of Mycobacterium tuberculosis DprE1 by benzothiazinone inhibitors

Crystal Structure of a Novel Regulatory 40-kDa Mammary Gland Protein (MGP-40) Secreted during Involution

Crystal Structure of Schistatin, a Disintegrin Homodimer from Saw-scaled Viper (Echis carinatus) at 2.5Å Resolution

Aspirin induces its anti-inflammatory effects through its specific binding to phospholipase A2: Crystal structure of the complex formed between phospholipase A2and aspirin at 1.9 Å resolution

Inhibition mechanism of human galectin‐7 by a novel galactose‐benzylphosphate inhibitor

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Aspirin induces its anti-inflammatory effects through its specific binding to phospholipase A₂: Crystal structure of the complex formed between phospholipase A₂and aspirin at 1.9 Å resolution