BITS Faculty Publications

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Author: search.filters.author.Paul, Atish TulshiramSubject: search.filters.subject.Pharmacy

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    Biaryl carboxamide-based peptidomimetics analogs as potential pancreatic lipase inhibitors for treating obesity
    (Wiley, 2024-01) Kumar, Gautam; Paul, Atish Tulshiram
    A series of 1,1′-biphenyl-3-carboxamide and furan-phenyl-carboxamide analogs were synthesized using an optimized scheme and confirmed by 1H and 13C nuclear magnetic resonance and high-resolution mass spectrometry techniques. The synthesized peptidomimetics analogs were screened in vitro to understand the inhibitory potential of pancreatic lipase (PL). Analogs were assessed for the PL inhibitory activity based on interactions, geometric complementarity, and docking score. Among the synthesized analogs, 9, 29, and 24 were found to have the most potent PL inhibitory activity with IC50 values of 3.87, 4.95, and 5.34 µM, respectively, compared to that of the standard drug, that is, orlistat, which inhibits PL with an IC50 value of 0.99 µM. The most potent analog, 9, exhibited a competitive-type inhibition with an inhibition constant (Ki) of 2.72 µM. In silico molecular docking of analog 9 with the PL (PDB ID:1LPB) showed a docking score of −11.00 kcal/mol. Analog 9 formed crucial hydrogen bond interaction with Ser152, His263, π–cation interaction with Asp79, Arg256, and π–π stacking with Phe77, Tyr114 at the protein's active site. The molecular dynamic simulation confirmed that analog 9 forms stable interactions with PL at the end of 200 ns with root mean square deviation values of 2.5 and 6 Å. No toxicity was observed for analog 9 (concentration range of 1–20 µM) when tested by MTT assay in RAW 264.7 cells.
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    Coumarin analogues as promising anti-obesity agents: in silico design, synthesis, and in vitro pancreatic lipase inhibitory activity
    (Wiley, 2025-01) Paul, Atish Tulshiram
    A set of coumarin-3-carboxamide analogues were designed, synthesized, and evaluated for their ability to impede pancreatic lipase (PL) activity. Out of all the analogues, 5dh and 5de demonstrated promising inhibitory activity against PL, as indicated by their respective IC50 values of 9.20 and 11.4 μM, as compared to Orlistat (IC50 = 0.97 μM). It was found that analogue 5dh inhibited PL in a competitive manner with an inhibition constant (Ki) of 4.504 μM. Additionally, the docking analysis validated the interactions between the analogue 5dh (MolDock score of −140.251 kcal/mol) and key amino acids in the active site, including Leu 153, Gly 76, Arg 256, His 151, Phe 77, and His 263. The inhibitory activity of these analogues was significantly correlated with their MolDock scores (Pearson's r = 0.6586). Finally, molecular dynamics simulation was also performed for 100 ns in order to elucidate the stability, confirmation and intermolecular interactions of the active analogue 5dh. The results of this investigation suggested that the complex maintained its stability despite the dynamic conditions exhibiting interactions with important amino acids. In summary, the outcomes indicated that the synthesized analogues exhibited the potential to inhibit PL activity.
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    Quality by design-based optimization of teriflunomide and quercetin combinational topical transferosomes for the treatment of rheumatoid arthritis
    (Elsevier, 2024-12) Jindal, Anil B.; Paul, Atish Tulshiram
    Rheumatoid arthritis (RA) is an immune-mediated inflammatory disease. Combination therapy is anticipated to surpass monotherapy by targeting multiple pathways involved in RA progression. The present aim is to develop a combination of Teriflunomide (TFD) and Quercetin (QCN) loaded transferosomal gel to enhance permeability and achieve localized delivery to joint tissues. TFD or QCN transferosomes were optimized employing a 3-level, 3-factorial design Box-Behnken design (BBD). The transferosomes exhibited sustained in-vitro drug release. The topical combination gel underwent thorough evaluation of rheology, and also ex-vivo studies showed enhanced permeability through rat skin. The synergistic combination of TFD and QCN effectively suppressed NO, TNF-α and IL-6 levels in in-vitro RAW 264.7 cells. The cytotoxicity in HaCaT cell lines indicates non-toxicity of the gel, further confirmed by skin irritation study conducted in rats. The in-vivo anti-arthritic activity was evaluated in complete freund’s adjuvant induced rat paw edema model illustrates the effectiveness of the combination transferosomal gel compared to other treatment groups. In conclusion, the topical delivery of TFD and QCN combination transferosomal gel demonstrated anti-arthritic activity through localized delivery whichallows for dose reduction, thereby may reduce the systemic drug exposure and mitigate the side effects associated with oral administration of TFD
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    Implementing analytical quality by design in reversed phase-high performance liquid chromatography for simultaneous estimation of teriflunomide and quercetin: Applicability in dual drug loaded topical microemulsion
    (Taylor & Francis, 2024-03) Jindal, Anil B.; Paul, Atish Tulshiram
    The current study reports the development of a novel, robust, and sensitive reversed-phase high-performance liquid chromatography (RP-HPLC) method for the simultaneous estimation of teriflunomide (TFD) and quercetin (QCN) in dual drug-loaded microemulsion. TFD and QCN have been reported to exhibit anti-inflammatory effects by targeting various inflammatory mediators involved in the pathogenesis of rheumatoid arthritis (RA). This analytical method employs a risk-based approach and follows the principles of analytical quality by design (AQbD). The study involved preliminary screening trials and systematic risk analysis to identify critical method attributes, that significantly impact the critical quality attributes (CQAs). For the optimization of method,a face centered central composite design was utilized, and 16 experimental runs were performed using design expert software version 7.0.0. Chromatographic conditions were carefully optimized using AQbD, falling within the design space and consisting of ammonium acetate buffer (pH 3.5) and acetonitrile (60:40, % v/v) with a flow rate of 1.0 mL/min. An analytical Hibar Lichospher 100 RP-18e column (250 × 4.6 mm, 5 µm) was employed, with detection wavelength of 280 nm and 367 nm for TFD and QCN, respectively. The optimized method underwent validation according to ICH guidelines and demonstrating applicability for evaluating topical microemulsion.
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    Design and Synthesis of Echitamine-inspired Hybrid Analogues Containing Thiazolidinediones as Potential Pancreatic Lipase Inhibitors
    (Bentham Science, 2022-11) Paul, Atish Tulshiram
    Obesity is a multifactorial metabolic disease characterised by excessive accumulation of triglycerides. The prevalence and morbidity rates associated with obesity are increasing tremendously, posing a significant risk to society. Pancreatic lipase (PL) is a key enzyme responsible for the digestion of dietary triglycerides; hence its inhibition is considered an attractive target in obesity.
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    SET7, a lysine-specific methyl transferase: An intriguing epigenetic target to combat diabetic nephropathy
    (Elsevier, 2023-10) Paul, Atish Tulshiram
    Diabetic nephropathy (DN) is a dreadful complication of diabetes that affects ∼50% of diabetics and is a leading cause of end-stage renal disease (ESRD). Studies have linked aberrant expression of lysine methyltransferases (KMTs) to the onset and progression of DN. SET7 is a KMT that methylates specific lysine residues of the histone and nonhistone proteins. It plays an important role in the transforming growth factor-β (TGF-β)-induced upregulation of extracellular matrix (ECM)-associated genes that are responsible for the inflammatory cascade observed in DN. Inhibiting SET7 has potential to attenuate renal disorders in animal studies. This review will focus on the role of SET7 in DN and its potential as a therapeutic target to combat DN.
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    Long-term antitrypanosomal effect of quinapyramine sulphate-loaded oil-based nanosuspension in T. evansi-infected mouse model
    (Springer, 2023-08) Paul, Atish Tulshiram; Jindal, Anil B.
    The goal of the present work consisted of the formulation development and evaluation of quinapyramine sulphate (QS)-loaded long-acting oil-based nanosuspension for improved antitrypanosomal effect. QS was transformed into a hydrophobic ionic complex using anionic sodium cholate (Na.C). The complex was characterized by FTIR, DSC, and XRD. Oil-based nanosuspension was prepared by dispersing the QS-Na.C complex in thixotropically thickened olive oil. The nanoformulation was found to be cytocompatible (82.5 ± 5.87% cell viability at the minimum effective concentration [MEC]) in THP-1 cell lines and selectively trypanotoxic (p < 0.0001). The pharmacokinetic studies of QS-Na.C complex-loaded oily nanosuspension showed 13.54-fold, 7.09-fold, 1.78-fold, and 17.35-fold increases in t1/2, AUC0-∞, Vz/F, and MRT0-ꝏ, respectively, as compared to free QS. Moreover, a 7.08-fold reduction in plasma clearance was observed after the treatment with the optimized formulation in Wistar rats. Furthermore, treatment with QS-Na.C complex-loaded oily nanosuspension (7.5 mg/kg) in T. evansi-infected mice model showed the absence of parasitaemia for more than 75 days after the treatment during in vivo efficacy studies. The efficacy of the treatment was assessed by observation of blood smear and PCR assay for DNA amplification. To conclude, our findings suggest that the efficient delivery of QS from the developed QS-Na.C complex-loaded oily nanosuspension could be a promising treatment option for veterinary infections against trypanosomiasis.
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    Synthesis, molecular modelling and pharmacological evaluation of novel indole-thiazolidinedione based hybrid analogues as potential pancreatic lipase inhibitors
    (Taylor & Francis, 2023-12) Paul, Atish Tulshiram
    A series of novel indole-thiazolidinedione hybrid analogues (7a to 7 u) were synthesised, characterised and evaluated for their potential Pancreatic Lipase (PL) inhibition. Amongst the screened analogues, 7r was found to be the most active PL inhibitor with an IC50 of 2.67 µM. Furthermore, enzyme inhibition kinetics study revealed a competitive mode of inhibition by the analogues. This fact was confirmed via fluorescence spectroscopy which further suggested the presence of one binding site for the synthesized analogues. Molecular docking was performed using human PL (PDB ID: 1LPB) and were in agreement with the in vitro results (Pearson’s r = 0.8355, p < 0.05). A molecular dynamics study (100 ns) indicated that 7r was stable in a dynamic environment. The analogue 7r exhibited potential antioxidant activity and was devoid of cytotoxic effect on RAW 264.7 cells. Based on the in-vitro profiles, 7r was selected for the in-vivo pharmacological evaluation. Oral triglyceride tolerance test highlighted effect of 7r on the inhibition of triglyceride absorption. A four-week treatment of 7r in the HFD feed mice provided information regarding its anti-obesity effect with respect to parameters such as body weight, triglycerides, total cholesterol and high-density lipids. Quantification of the faecal triglyceride contents inveterates the potential role of 7r in the PL inhibition. Overall, the synthesized analogue 7r exerted an anti-obesity effect comparable to orlistat. All these results demonstrated the potential role of the newly synthesised indole-thiazolidinedione hybrid analogues in PL inhibition and may be studied further to find potential drug candidates for treating obesity.
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    Pancreatic lipase and its related proteins: where are we now?
    (Elsevier, 2024-01) Paul, Atish Tulshiram
    Obesity is a disease of epidemic proportions, with a worrisome upward trend. The high consumption of lipids, a major energy source, leads to obesity because of their high calorific value. Pancreatic lipase (PTL), produced by pancreatic acinar cells, hydrolyzes 50–70% of triacylglycerol (TAG) from food. PTL-related protein 1 (PLRP1) and 2 (PLRP2) are also produced by these cells. In vertebrates, PLRP1 has relatively less lipolytic activity, whereas PLRP2 has an essential role in lipid digestion, especially in infants. In this review, we summarize the structure and function of PTL, PLRP1, and PLRP2, and the metabolic fate of PTL inhibitors. We also discuss the current status of clinical trials on orlistat and its combinations for obesity treatment.
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    Investigating the role of indole and quinazolinone-based hybrid analogues with ketoamide fragment and alkyl extension for potential PL inhibition
    (Elsevier, 2024-04) Paul, Atish Tulshiram
    Pancreatic lipase (PL) is a key enzyme responsible for the digestion of dietary fat. Hence the inhibition of PL is an effective strategy for mitigating obesity. In this study, a novel series of 18 indolyl oxoacetamide–quinazolinone hybrid analogues (9a-h, 13aa-13fd) were designed, synthesized, and evaluated for PL inhibition activity. An approach of molecular hybridization was utilized by considering the PL inhibitory potential of indole, α-ketoamide, and quinazolinone scaffolds. A Propyl linker was attached for better binding at the PL active site, leading to enhanced PL inhibitory potential. Among all the synthesized analogues, 13be exhibited the highest PL inhibitory activity (IC50 = 4.71 ± 0.851 μM) with a docking score of -147.06 kcal/mol. The activities of all the synthesized analogues were compared with the orlistat (IC50 = 0.86 ± 0.090 µM). The most potent analogue, 13be revealed the competitive mode of enzyme inhibition with the Ki value of 1.826 µM. The molecular docking and dynamics simulation analysis also revealed the strong binding of 13be at the active site of PL. Interestingly, the potent analogue 13be when tested on RAW 264.7 cell line using MTT assay, was found to be nontoxic at a concentration range of 1-20 µM. Therefore, the current work validates the effectiveness of the molecular hybridization approach for designing indolyl oxoacetamide–quinazolinone hybrids for inhibiting PL.