Your search keyword '"Pradhan T"' showing total 14 results

1. 6-Shogaol Exhibits Anti-viral and Anti-inflammatory Activity in COVID-19-Associated Inflammation by Regulating NLRP3 Inflammasomes.

Author

Kode J, Maharana J, Dar AA, Mukherjee S, Gadewal N, Sigalapalli DK, Kumar S, Panda D, Ghosh S, Keshry SS, Mamidi P, Chattopadhyay S, Pradhan T, Kailaje V, Inamdar S, and Gujjarwar V

Abstract

Recent global health concern motivated the exploration of natural medicinal plant resources as an alternative target for treating COVID-19 infection and associated inflammation. In the current study, a phytochemical, 6-shogaol [1-(4-hydroxy-3-methoxyphenyl)dec-4-en-3-one; 6-SHO] was investigated as a potential anti-inflammatory and anti-COVID-19 agent. In virus release assay, 6-SHO efficiently (94.5%) inhibited SARS-CoV2 replication. When tested in the inflammasome activation model, 6-SHO displayed mechanistic action by regulating the expression of the inflammasome pathway molecules. In comparison to the existing drugs, remdesivir and hydroxy-chloroquine, 6-SHO was not only found to be as effective as the standard anti-viral drugs but also much superior and safe in terms of predicted physicochemical properties and clinical toxicity. Comparative molecular dynamics simulation demonstrated a stable interaction of 6-SHO with NLRP3 (the key inflammasome regulator) in the explicit water environment. Overall, this study provides important cues for further development of 6-SHO as potential anti-inflammatory and anti-viral therapeutic agents., Competing Interests: The authors declare no competing financial interest., (© 2023 The Authors. Published by American Chemical Society.)

Published

2023

2. Sensitivity-Enhanced Multidimensional Solid-State NMR Spectroscopy by Optimal-Control-Based Transverse Mixing Sequences.

Author

Blahut J, Brandl MJ, Pradhan T, Reif B, and Tošner Z

Subjects

Carbon, Humans, Immunoglobulin Light Chains, Magnetic Resonance Spectroscopy methods, Nuclear Magnetic Resonance, Biomolecular methods, Proteins chemistry, Protons

Abstract

Recently, proton-detected magic-angle spinning (MAS) solid-state nuclear magnetic resonance (NMR) spectroscopy has become an attractive tool to study the structure and dynamics of insoluble proteins at atomic resolution. The sensitivity of the employed multidimensional experiments can be systematically improved when both transversal components of the magnetization are transferred simultaneously after an evolution period. The method of preservation of equivalent pathways has been explored in solution-state NMR; however, it does not find widespread application due to relaxation issues connected with increased molecular size. We present here for the first time heteronuclear transverse mixing sequences for correlation experiments at moderate and fast MAS frequencies. Optimal control allows to boost the signal-to-noise ratio (SNR) beyond the expected factor of 2 for each indirect dimension. In addition to the carbon-detected sensitivity-enhanced 2D NCA experiment, we present a novel proton-detected, doubly sensitivity-enhanced 3D hCANH pulse sequence for which we observe a 3-fold improvement in SNR compared to the conventional experimental implementation. The sensitivity gain turned out to be essential to unambiguously characterize a minor fibril polymorph of a human lambda-III immunoglobulin light chain protein that escaped detection so far.

Published

2022

3. Self-association and nitroaromatic-induced deaggregation of pyrene substituted pyridine amides.

Author

Kim SK, Lim JM, Pradhan T, Jung HS, Lynch VM, Kim JS, Kim D, and Sessler JL

Abstract

The self-assembly features of the bis-pyrene methyl amide functionalized pyridine and benzene "tweezers" 1 and 2 were studied in organic solution and in the solid state. These systems were found to display remarkably different self-association features and optical properties, which was rationalized by control experiments using compounds bearing pyrenemethyl esters, alkyl groups, or a single pyrene substituent (3-6). As dilute solutions in chloroform, tweezers 1 displays both pyrene monomer and excimer emission features reflecting intramolecular contacts between the pyrene subunits. At higher concentrations in chloroform, as well as in the solid state, tweezers 1 self-assembles to form a linear supramolecular polymer. In contrast, tweezers 2 does not interact in an intermolecular fashion and photoexcitation produces emission features characteristic of a pyrene monomer. DFT (density functional theory) and TDDFT (time dependent density functional theory) calculations revealed that the lowest vertical transitions are forbidden and that S1 of 1 is an emissive state. In contrast to 1 and 2, both pyrene-free control systems 5 and 6 were found to form linearly self-assembled supramolecular arrays in the solid state, albeit of differing structure. Upon exposure to trinitrobenzene (TNB), the self-assembled structures formed from 1 undergo deaggregation to form TNB complexes. This change is reflected in both an easily discernible color change and a quenching of the fluorescence emission intensity. Changes in the optical features were also seen in the case of 2. However, notable differences between these two ostensibly similar systems were seen.

Published

2014

4. Bimodal calix[2]triazole[2]arene fluorescent ionophore.

Author

Cho J, Pradhan T, Kim JS, and Kim S

Subjects

Crystallography, X-Ray, Magnetic Resonance Spectroscopy, Molecular Structure, Quantum Theory, Calixarenes chemical synthesis, Calixarenes chemistry, Ionophores chemistry, Metals chemistry, Triazoles chemical synthesis, Triazoles chemistry

Abstract

Pyrene-appended calix[2]triazole[2]arene capable of bimodal sensing has been synthesized. Upon addition of Zn(2+) (or Cd(2+)), it selectively exhibits an enhanced monomeric emission (~13-20-fold) over other metal ions. On the other hand, it displays excellent selectivity for Fe(2+) over other metal ions (even over Fe(3+)) from the angle of excimeric emissions (10-fold enhancement). Density Functional Theory (DFT) based theoretical calculations distinguished the bimodal activity of the probe and supported the experimental observations.

Published

2013

5. Enhanced electrogenerated chemiluminescence of phenylethynylpyrene derivatives: use of weakly electron-donating group as a substituent.

Author

Lee YO, Pradhan T, Yoo S, Kim TH, Kim J, and Kim JS

Abstract

A weakly donating group (n-propyl) has been used as a substituent at the para-position of the phenyl group for a series of phenylethynylpyrene derivatives where the number of phenylethynyl peripheral arms appended to the pyrene core is varied. This system markedly improved the concurrent stability of both cation and anion radicals and consequently greatly improved electrogenerated chemiluminescence (ECL). Density functional theory (DFT)-based theoretical calculations supported the associated photophysical and electrochemical properties of the series compounds.

Published

2012

6. Fluorescent chemosensors based on spiroring-opening of xanthenes and related derivatives.

Author

Chen X, Pradhan T, Wang F, Kim JS, and Yoon J

Subjects

Animals, Enzyme Assays, Humans, Hydrogen-Ion Concentration, Chemistry Techniques, Analytical instrumentation, Spectrometry, Fluorescence methods, Spiro Compounds chemistry, Xanthenes chemistry

Published

2012

7. Pyrophosphate-selective fluorescent chemosensor based on 1,8-naphthalimide-DPA-Zn(II) complex and its application for cell imaging.

Author

Zhang JF, Kim S, Han JH, Lee SJ, Pradhan T, Cao QY, Lee SJ, Kang C, and Kim JS

Subjects

Animals, Cell Line, Mice, Models, Molecular, Molecular Structure, Amines chemistry, Diphosphates chemistry, Fluorescent Dyes chemistry, Naphthalimides chemistry, Picolinic Acids chemistry, Zinc chemistry

Abstract

A new zinc(II) complex with a two-dipicolylamine-substituted 1,8-naphthalimide for recognition of pyrophosphate with ratiometrical fluorescence changes in aqueous solution has been synthesized and characterized. Its biological application to monitor the intracellular pyrophosphate (PPi) was successfully demonstrated by the observation that the fluorescence of 1 was enhanced by the presence of the Zn(2+) ion and was quenched by addition of PPi., (© 2011 American Chemical Society)

Published

2011

8. Ferrocene-appended aryl triazole for electrochemical recognition of phosphate ions.

Author

Cao QY, Pradhan T, Kim S, and Kim JS

Subjects

Crystallography, X-Ray, Hydrogen Bonding, Ions chemistry, Metallocenes, Models, Molecular, Molecular Conformation, Ferrous Compounds chemistry, Phosphates chemistry, Triazoles chemistry

Abstract

A neutral ferrocene-appended aryl triazole receptor 1 for phosphate anions has been synthesized and characterized by X-ray crystal analysis. Among various anions, 1 shows a distinct electrochemical recognition of phosphate anions by its multiple H-bonding (C-H···O) with a tetrahedral anion, which is supported by density functional theory based theoretical calculation and (1)H NMR titration results., (© 2011 American Chemical Society)

Published

2011

9. Intramolecular charge transfer reaction, polarity, and dielectric relaxation in AOT/water/heptane reverse micelles: pool size dependence.

Author

Biswas R, Rohman N, Pradhan T, and Buchner R

Abstract

Intramolecular charge transfer (ICT) reaction in a newly synthesized molecule, of 4-(1-morpholenyl) benzonitrile (M6C), in AOT/water/heptane reverse micelles at different pool sizes has been studied by using steady-state and time-resolved fluorescence emission spectroscopy. The pool size dependences of the reaction equilibrium constant and reaction rate have been explained in terms of the average polarity of the confined solvent pools estimated from the fluorescence emission Stokes shift of a nonreactive probe, coumarin 153, dissolved in these microemulsions. The complex permittivity measurements in the frequency range 0.01

Published

2008

10. Spectroscopic studies of catanionic reverse microemulsion: correlation with the superactivity of horseradish peroxidase enzyme in a restricted environment.

Author

Biswas R, Das AR, Pradhan T, Touraud D, Kunz W, and Mahiuddin S

Subjects

Anions, Buffers, Cations, Solubility, Spectrophotometry, Ultraviolet, Emulsions, Horseradish Peroxidase metabolism

Abstract

Catanionic microemulsions formed by dodecyltrimethylammonium bromide (DTAB), sodium dodecyl sulfate (SDS), n-hexanol, dodecane, and citrate buffer have been characterized by using dynamic light scattering (DLS) and spectroscopic studies. While the DLS measurements provide information about the hydrodynamic diameters of the microemulsion droplets formed upon variation of the constituents, steady-state and time-resolved fluorescence emission experiments probe the polarity and the dynamics of the trapped solvent pool inside of the microemulsion droplets of nanometer dimension. In addition, time-resolved fluorescence anisotropy shows the rigidity of the confined solvent pool as well as the coupling between the motion of a solute and those of the solvent molecules. The results obtained from the DLS and those from the steady-state and time-resolved fluorescence emission studies have been found to correlate well with the superactivity of horseradish peroxidase enzyme in the catanionic microemulsions. Subsequently, the time-zero estimate for the dynamic Stokes shift in these microemulsions reveals that approximately 50% of the total solvent dynamical response is missed due to the limited time resolution employed in our experiments. The amplitude of the missing portion is similar to what has been observed recently for nanoscopic water by Fayer and co-workers (Piletic, I. R.; Tan, H.-S.; Fayer, M. D. J. Phys. Chem. B 2005, 109, 21273).

Published

2008

11. Excited state intramolecular charge transfer reaction in binary mixtures of water and tertiary butanol (TBA): alcohol mole fraction dependence.

Author

Pradhan T, Ghoshal P, and Biswas R

Abstract

The excited state intramolecular charge transfer reaction of 4-(1-azetidinyl)benzonitrile (P4C) has been studied in water-tertiary butanol (TBA) mixtures at different alcohol mole fractions by using steady state and time-resolved fluorescence spectroscopy. The ratio between the areas under the locally excited (LE) and charge transferred (CT) emission bands is found to exhibit a sharp rise at alcohol mole fraction approximately 0.04, a value at which several thermodynamic properties of this mixture is known to show anomalous change due to the enhancement of H-bonding network. The radiative rate associated with the LE emission also shows a maximum at this TBA mole fraction. Although the structural transition from the water-like tetrahedral network to the alcohol-like chain is reflected in the red shift of the absorption spectrum up to TBA mole fraction approximately 0.10, the emission bands (both LE and CT) show the typical nonideal alcohol mole fraction dependence at all TBA mole fractions. Quantum yield, CT radiative rate as well as transition moments also exhibit a nonideal alcohol mole fraction dependence. The time-resolved emission decay of P4C has been found to be biexponential at all TBA mole fractions, regardless of emission collection around either the LE or the CT bands. The time constant associated with the slow component (tau(slow)) shows a minimum at TBA mole fraction approximately 0.04, whereas such a minimum for the fast time constant, tau(fast) (representing the rate of LE --> CT conversion reaction) is not observed. The nonobservation of the minimum in tau(fast) might be due to the limited time resolution employed in our experiments.

Published

2008

12. Electrolyte-concentration and ion-size dependence of excited-state intramolecular charge-transfer reaction in (alkylamino)benzonitriles: steady-state spectroscopic studies.

Author

Pradhan T and Biswas R

Abstract

Steady-state spectroscopic studies have been performed with three intramolecular charge-transfer molecules, 4-(1-azetidinyl)benzonitrile (P4C), 4-(1-pyrrolidinyl)benzonitrile (P5C), and 4-(1-piperidinyl)benzonitrile (P6C), in ethyl acetate and acetonitrile in presence of lithium perchlorate (LiClO(4)) at room temperature to investigate the effects of electrolytes on excited-state intramolecular charge-transfer reaction. Electrolyte-concentration and ion-size dependences of several spectroscopic properties such as quantum yield, absorption and emission transition moments, radiative and nonradiative rates, and changes in reaction free energies associated with LE --> CT conversion have been determined for these molecules and reported. For P4C, quantum yield decreases by a factor of approximately 7 at the highest electrolyte concentration relative to that in pure ethyl acetate whereas it is a factor of approximately 4 for both P5C and P6C. However, in acetonitrile with 1.0 M LiClO(4), quantum yield reduces to almost half of that in the pure solvent. Formation of a charge-transfer (CT) state is found to be strongly favored over the locally excited (LE) state as the electrolyte (LiClO(4)) concentration is increased, electrolyte effects being more pronounced in ethyl acetate than in acetonitrile. Relative to pure ethyl acetate, reaction free energy change (-DeltaG(r)) increases by a factor of approximately 5, approximately 4, and approximately 2 for P4C, P5C, and P6C, respectively, at 2.5 M LiClO(4) in this solvent. -DeltaG(r) for P4C exhibits a change in sign (from negative to positive) upon addition of electrolyte in ethyl acetate. In acetonitrile, however, these changes are within a few percent, except for P4C where it is about 4 times greater at 1.0 M LiClO(4) than that in pure acetonitrile. The electrolyte-induced total red shift of the CT band of these TICT molecules is 3 times higher in ethyl acetate than in acetonitrile. Although both the quantum yield and CT emission peak frequency decrease linearly with the increase in ion size, -DeltaG(r) remains largely insensitive. Further studies using a nonreactive probe (coumarin 153) in concentrated electrolyte solutions also show qualitatively similar results.

Published

2007

13. Electrolyte-concentration and ion-size dependence of excited-state intramolecular charge-transfer reaction in (alkylamino)benzonitriles: time-resolved fluorescence emission studies.

Author

Pradhan T and Biswas R

Abstract

Time-resolved studies with three intramolecular charge-transfer molecules 4-(1-azetidinyl)benzonitrile (P4C), 4-(1-pyrrolidinyl)benzonitrile (P5C), and 4-(1-piperidinyl)benzonitrile (P6C) in ethyl acetate in presence of LiClO(4) indicate that the average reaction time for LE --> CT conversion increases at low electrolyte concentration and then decreases to become comparable and even lower than that in the pure solvent. Except for Mg(2+), the average reaction time decreases linearly with the ion size in perchlorate solutions of ethyl acetate. The observed electrolyte-concentration dependence of the average reaction time for these molecules agrees well with the predictions from the theory of Zwan and Hynes [Chem. Phys. 1991, 152, 169] in the broad barrier overdamped limit with barrier frequency, omega(b) approximately 2 x 10(12) s(-1).

Published

2007

14. Pharmacology and cell biology of the bombesin receptor subtype 4 (BB4-R).

Author

Katsuno T, Pradhan TK, Ryan RR, Mantey SA, Hou W, Donohue PJ, Akeson MA, Spindel ER, Battey JF, Coy DH, and Jensen RT

Subjects

3T3 Cells, Animals, Binding Sites, Bombesin agonists, Bombesin analogs & derivatives, Bombesin antagonists & inhibitors, Bombesin physiology, CHO Cells, Carcinoma, Non-Small-Cell Lung, Cricetinae, Humans, Ligands, Lung Neoplasms, Mice, Mice, Inbred BALB C, Peptide Fragments metabolism, Peptide Fragments pharmacology, Peptide Fragments physiology, Radioligand Assay, Receptors, Bombesin biosynthesis, Time Factors, Transfection, Tumor Cells, Cultured, Bombesin metabolism, Receptors, Bombesin metabolism, Receptors, Bombesin physiology

Abstract

Recently, a fourth member of the bombesin (Bn) receptor family (fBB4-R) was isolated from a cDNA library from the brain of the frog, Bombina orientalis. Its pharmacology and cell biology are largely unknown, and no known natural cell lines or tissues possess sufficient numbers of fBB4-R's to allow either of these to be determined. To address these issues, we have used three different strategies. fBB4-R expression in cells widely used for other Bn receptor subtypes was unsuccessful as was expression in two frog cell lines. However, stable fBB4-R cell lines were obtained in CHO-K1 cells which were shown to faithfully demonstrate the correct pharmacology of the related Bn receptor, the GRP receptor, when expressed in these cells. [DPhe6,betaAla11,Phe13,Nle14]Bn(6-14) was found to have high affinity (Ki = 0.4 nM) for the fBB4 receptor and 125I-[DTyr6,betaala11,Phe13,Nle14]Bn(6-14) to be an excellent ligand for this receptor. The fBB4-R had a unique pharmacology for naturally occurring Bn-related agonists, with the presence of a penultimate phenylalanine being critical for high-affinity interaction. It also had a unique profile for six classes of Bn antagonists. The fBB4-R was coupled to phospholipase C with activation increasing [3H]inositol phosphates and mobilizing Ca2+ almost entirely from cellular sources. There was a close correlation between agonist the receptor occupation and the receptor activation. Three of the five classes of Bn receptor antagonists that interacted with higher affinity with the fBB4-R functioned as fBB4-R antagonists and two as partial agonists. fBB4-R activation stimulated increases in phospholipase D (PLD) over the same range of concentrations at which it activated phospholipase C. These results demonstrate that the fBB4 receptor has a unique pharmacology for agonists and antagonists and is coupled to phospholipase C and D. The availability of these cell lines, this novel ligand, and the identification of three classes of antagonists that can be used as lead compounds should facilitate the further investigation of the pharmacology and cell biology of the BB4 receptor.

Published

1999