Taufiq Rahman scite author profile

The store-operated calcium entry (SOCE) pathway is an important route for generating cytosolic Ca2+ signals that regulate a diverse array of biological processes. Abnormal SOCE seem to underlie several diseases that notably include allergy, inflammation and cancer. Therefore, any modulator of this pathway is likely to have significant impact in cell biology under both normal and abnormal conditions. In this study, we screened the FDA-approved drug library for agents that share significant similarity in 3D shape and surface electrostatics with few, hitherto best known inhibitors of SOCE. This has led to the identification of five drugs that showed dose-dependent inhibition of SOCE in cell-based assay, probably through interacting with the Orai1 protein which effectively mediates SOCE. Of these drugs, leflunomide and teriflunomide could suppress SOCE significantly at clinically-relevant doses and this provides for an additional mechanism towards the therapeutic utility of these drugs as immunosuppressants. The other three drugs namely lansoprazole, tolvaptan and roflumilast, were less potent in suppressing SOCE but were more selective and thus they may serve as novel scaffolds for future development of new, more efficacious SOCE inhibitors.

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Pharmacological and Ethnomedicinal Overview of Heritiera fomes: Future Prospects

Mahmud

Islam

Saha

et al. 2014

International Scholarly Research Notices

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Mangrove plants are specialized woody plants growing in the swamps of tidal-coastal areas and river deltas of tropical and subtropical parts of the world. They have been utilized for medicinal and other purposes by the coastal people over the years. Heritiera fomes Buch. Ham. (family: Sterculiaceae) commonly known as Sundari (Bengali) is a preeminent mangrove plant occurring in the Sundarbans forest located in the southern part of Bangladesh and adjoining West Bengal province of India. The plant has applications in traditional folk medicine as evidenced by its extensive use for treating diabetes, hepatic disorders, gastrointestinal disorders, goiter, and skin diseases by the local people and traditional health practitioners. A number of investigations indicated that the plant possesses significant antioxidant, antinociceptive, antihyperglycemic, antimicrobial, and anticancer activities. Phytochemical analyses have revealed the presence of important chemical constituents like saponins, alkaloids, glycosides, tannins, steroids, flavonoids, gums, phytosterols, and reducing sugars. The present study is aimed at compiling information on phytochemical, biological, pharmacological, and ethnobotanical properties of this important medicinal plant, with a view to critically assess the legitimacy of the use of this plant in the aforementioned disorders as well as providing directions for further research.

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Structure-Based Design of Novel Biphenyl Amide Antagonists of Human Transient Receptor Potential Cation Channel Subfamily M Member 8 Channels with Potential Implications in the Treatment of Sensory Neuropathies

Journigan

Feng

Rahman

et al. 2019

ACS Chem. Neurosci.

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experiments. V.B.J. designed the computational studies and analyzed the data. V.B.J. designed the compounds, performed the chemical synthesis and SAR analysis. C.E.H. and N.B. contributed to the chemical synthesis. Z.F., Y.W., and S.W. constructed the homology model and conducted the MD simulations and docking experiments. S.R. conducted the Ca 2+ imaging studies. S.G.-R., A.F.-C., and G.F.-B. carried out the in vivo assays. J.K.H. carried out the electrophysiology assays. V.B.J. designed and coordinated the work.

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Recent progress on the prospective application of machine learning to structure-based virtual screening

Ghislat

Rahman

Ballester

2021

Current Opinion in Chemical Biology

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Inhibition of indole production increases the activity of quinolone antibiotics against E. coli persisters

Zarkan

Matuszewska

Trigg

et al. 2020

Sci Rep

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Persisters are a sub-population of genetically sensitive bacteria that survive antibiotic treatment by entering a dormant state. The emergence of persisters from dormancy after antibiotic withdrawal leads to recurrent infection. Indole is an aromatic molecule with diverse signalling roles, including a role in persister formation. Here we demonstrate that indole stimulates the formation of Escherichia coli persisters against quinolone antibiotics which target the GyrA subunit of DNA gyrase. However, indole has no effect on the formation of E. coli persisters against an aminocoumarin, novobiocin, which targets the GyrB subunit of DNA gyrase. Two modes of indole signalling have been described: persistent and pulse. The latter refers to the brief but intense elevation of intracellular indole during stationary phase entry. We show that the stimulation of quinolone persisters is due to indole pulse, rather than persistent, signalling. In silico docking of indole on DNA gyrase predicts that indole docks perfectly to the ATP binding site of the GyrB subunit. We propose that the inhibition of indole production offers a potential route to enhance the activity of quinolones against E. coli persisters. The decreasing effectiveness of antibiotic therapy represents an unprecedented, worldwide threat to human and animal health. The most widely publicised, and best understood, aspect of this problem is antibiotic resistance. This involves genetic change, through mutation or horizontal gene transfer. The target organism is rendered immune to the antibiotic by inactivation of the drug, alteration of its target or export from the cell 1. A less well studied but increasingly important aspect of the anti-bacterial problem is the ability of small sub-populations (< 1%) of genetically sensitive bacteria to survive high concentrations of antibiotic by entering a dormant or partially-dormant state. These cells are known as antibiotic persisters 2-4. When treated with a bactericidal concentration of an antibiotic, persisters display a temporary, non-heritable phenotype where they survive but do not replicate. When the antibiotic therapy is withdrawn, persisters revert to the growing state, giving rise to a population characterised by the same antibiotic sensitivity as the original population. In contrast, resistant cells continue to grow and divide in the presence of the antibiotic and the resistance phenotype is heritable 5-7. The mechanisms by which persister cells enter a dormant state are not well understood. It has been suggested that the activation of chromosome-encoded toxin-antitoxin systems is an important mechanism 8 although this has recently been questioned 9. Links have also been made to the stringent response and carbon source transitions 10. A few reports 11,12 have suggested a role for the signalling molecule indole and this seems plausible because indole has been known for several years to induce reversible E. coli dormancy 13. Indole is an aromatic signalling molecule produced by over 85 species of bacteria encompassing ...

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Taufiq Rahman

Unveiling some FDA-approved drugs as inhibitors of the store-operated Ca2+ entry pathway

Pharmacological and Ethnomedicinal Overview of Heritiera fomes: Future Prospects

Structure-Based Design of Novel Biphenyl Amide Antagonists of Human Transient Receptor Potential Cation Channel Subfamily M Member 8 Channels with Potential Implications in the Treatment of Sensory Neuropathies

Recent progress on the prospective application of machine learning to structure-based virtual screening

Inhibition of indole production increases the activity of quinolone antibiotics against E. coli persisters

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