Your search keyword '"Pooja Chawla"' showing total 16 results

1. Rhodanine derivatives: An insight into the synthetic and medicinal perspectives as antimicrobial and antiviral agents

Author

Abhishek Chaurasyia, Pooja Chawla, Vikramdeep Monga, and Gurpreet Singh

Subjects

Pharmacology, Drug Discovery, Organic Chemistry, Molecular Medicine, Biochemistry

Abstract

Rhodanine or 2-Thioxothiazolidin-4-one is a privileged heterocyclic compound offering a wide opportunity for structural modification, lead development, and modification. It is one of the highly decorated scaffolds in the drug discovery process. Rhodanine derivatives possess a plethora of biological activities due to their ability to interact with a diverse range of protein targets, which provide tremendous opportunities to discover new drugs with different modes of action. The most common strategy for developing novel rhodanine derivatives is the introduction of structurally diverse substituents at the C-5 or N-3, or both positions. Since the inception of Epralestat into the market in 1992, the exploration of rhodanine-3-acetic acids has led to the development of novel leads against different biological targets such as MRSA, HHV-6, Mycobacterial tuberculosis, dengue, etc. In the current pandemic era, some rhodanine compounds have been explored against SARS-CoV-2. In recent years, rhodanine and its derivatives have witnessed significant progress in developing new drug leads as potential antimicrobial and antiviral agents. Different synthetic methodologies and recent developments in the medicinal chemistry of rhodanine derivatives, including biological activities, their mechanistic aspects, structure-activity relationships, and in silico findings, have been compiled in the present review. This article will benefit the scientific community and offer perspectives on how these scaffolds as privileged structures might be exploited in the future for rational design and discovery of rhodanine-based bio-active molecules.

Published

2022

2. Current Developments in the Pyran-Based Analogues as Anticancer Agents

Author

Parul Grover, Monika Bhardwaj, Garima Kapoor, Lovekesh Mehta, and Pooja Chawla

Subjects

Pharmacology, Cancer Research, Molecular Structure, Drug discovery, Antineoplastic Agents, Related derivatives, Combinatorial chemistry, Carbon, Molecular Docking Simulation, Oxygen, Structure-Activity Relationship, chemistry.chemical_compound, Oxygen atom, chemistry, Heterocyclic Compounds, Pyran, Neoplasms, Animals, Molecular Medicine, Pyrans, Cell based

Abstract

Heterocyclic compounds offer an enormous area for new lead molecules for drug discovery. Till today, efforts are being continuously made to find appropriate treatment for the management of the deadly disease of cancer. Amongst the large number of heterocycles that are found in nature, heterocycles having oxygen obtained noteworthy attention due to their distinctive and pharmacological activities.‘Pyran’ is one of the most significant non-aromatic, sixmembered ring composed of one oxygen atom and five carbon atoms. It is considered a privileged structure since pyran and its related derivatives exhibit a wide spectrum of biological activities. Pyran derivatives are found to have excellent anti-cancer properties against various types of cancer. The present review focussed on the current advances in different types of pyran-based derivatives as anti-cancer agents. Various in vitro (cell based testing), in vivo (animal based testing) models as well as molecular docking along with results are also covered. A subsection describing briefly natural pyran containing anticancer compounds is also incorporated in the review.

Published

2022

3. Discovery and Development of Antibacterial Agents: Fortuitous and Designed

Author

Monica Gulati, Bhupinder Kapoor, Ravleen Kaur, Pooja Rani, Atanas G. Atanasov, Qushmua Alzahrani, Reena Gupta, and Pooja Chawla

Subjects

Pharmacology, Clinical Trials, Phase III as Topic, Drug Development, Drug Resistance, Bacterial, Drug Discovery, Humans, General Medicine, Anti-Bacterial Agents

Abstract

Abstract: Today, antibacterial drug resistance has turned into a significant public health issue. Repeated intake, suboptimal and/or unnecessary use of antibiotics, and, additionally, the transfer of resistance genes are the critical elements that make microorganisms resistant to conventional antibiotics. A substantial number of antibacterials that were successfully utilized earlier for prophylaxis and therapeutic purposes have been rendered inadequate due to this phenomenon. Therefore, the exploration of new molecules has become a continuous endeavour. Many such molecules are at various stages of the investigation. A surprisingly high number of new molecules are currently in the stage of phase 3 clinical trials. A few new agents have been commercialized in the last decade. These include solithromycin, plazomicin, lefamulin, omadacycline, eravacycline, delafloxacin, zabofloxacin, finafloxacin, nemonoxacin, gepotidacin, zoliflodacin, cefiderocol, BAL30072, avycaz, zerbaxa, vabomere, relebactam, tedizolid, cadazolid, sutezolid, triclosan, and afabiacin. This article aims to review the investigational and recently approved antibacterials with a focus on their structure, mechanisms of action/resistance, and spectrum of activity. Delving deep, their success or otherwise in various phases of clinical trials is also discussed while attributing the same to various causal factors.

Published

2022

4. A Therapeutic Journey of 5-Pyrazolones as a Versatile Scaffold: A Review

Author

Vikas Gupta, Rajeev Verma, Pooja Chawla, Viney Chawla, Ravinder Sharma, and Nandita Nawal

Subjects

Pharmacology, Molecular Structure, business.industry, medicine.drug_class, General Medicine, Antimicrobial, Anti-inflammatory, Structure-Activity Relationship, Pharmaceutical Preparations, Biological profile, Drug Design, Drug Discovery, Humans, Medicine, Pyrazolones, Structure–activity relationship, 3c protease, business

Abstract

A sizeable proportion of currently marketed drugs come from heterocycles. The heterocyclic moiety 5-pyrazolone is well known five-membered ring containing nitrogen. Derivatives of this wonder nucleus have exhibited activities as diverse as antimicrobial, anti-inflammatory, analgesic, antidepressant, anticonvulsant, antidiabetic, antihyperlipidemic, antiviral, antitubercular, antioxidant, anticancer and antiviral, including action against severe acute respiratory syndrome (SARS) or 3C protease inhibitor. A number of drugs based on this motif have already made it to the market. Standard texts and literature on medicinal chemistry cite different approaches for the synthesis of 5- pyrazolones. The present review provides an insight view to 5-pyrazolone synthesis, their biological profile and structure-activity relationship studies.

Published

2021

5. SYNTHESIS, BIOLOGICAL EVALUATION AND DOCKING STUDIES OF NON HEPATOTOXIC 5-SUBSTITUTED THIAZOLIDINE-2, 4-DIONES AS ANTIDIABETIC, ANTI-HYPERLIPIDEMIC, ANTI-OXIDANT AND CYTOTOXIC AGENTS

Author

Shailendra Pandey, Karuna S. Shukla, and A Pooja Chawla

Subjects

Pharmacology, Anti hyperlipidemic, chemistry.chemical_compound, Docking (dog), Chemistry, Drug Discovery, Thiazolidine, Pharmaceutical Science, Anti oxidant, Cytotoxicity, Biological evaluation

Abstract

A series of eleven thiazolidine-2, 4-dione (TZD) derivatives, were synthesized and characterized by FT-IR, 1 H NMR and mass spectral analysis. All the synthesized TZD derivatives were screened for their in vitro and in vivo anti-diabetic and antioxidant, activities and cytotoxicity. In vivo antihyperglycemic effect was assessed by measuring plasma glucose (PG) levels in alloxan-induced type II diabetic rat models. The compound 4h exhibited better blood glucose lowering activity than the standard drug rosiglitazone. The synthesized TZD derivatives were evaluated for hepatotoxicity and pancreatic tissue studies. Antioxidant activity was evaluated by DPPH method and H2 O2 method. Compounds 4a and 4b exhibited potent antioxidant activity. Among the tested compounds for cytotoxicity using MTT assay method, compound 4i exhibited better viability and cytotoxicity activity. Thiazolidinedione derivatives were evaluated for their affinity towards target PPARg, using rosiglitazone as the reference compound molecular docking visualization through FlexX docking program. From selected anti-diabetic targets, the proposed derivatives exhibited better interaction with PPARγ receptor, where rosiglitazone showed docking score of -19.891 kJ/ mol, compound 4h exhibited highest docking score of -31.6068 kJ/mol. The study showed that all the studied compounds were showing higher docking score when compared to control drug rosiglitazone and it could be a remarkable starting point to evaluate structure activity relationships to develop new lead molecules with potential anti-diabetic activities.

Published

2020

6. Epidermal growth factor receptor inhibitors as potential anticancer agents: An update of recent progress

Author

Pooja Chawla, Vikram Jeet Singh, and Bharti Sharma

Subjects

Antineoplastic Agents, Lapatinib, Biochemistry, Gefitinib, Drug Discovery, medicine, Humans, ERBB3, Epidermal growth factor receptor, skin and connective tissue diseases, Molecular Biology, Protein Kinase Inhibitors, ERBB4, EGFR inhibitors, Cell Proliferation, biology, Molecular Structure, Chemistry, Organic Chemistry, ErbB Receptors, Selumetinib, Cancer research, biology.protein, Erlotinib, Drug Screening Assays, Antitumor, medicine.drug

Abstract

Epidermal growth factor receptor (EGFR) is a vital intermediate in cell signaling pathway including cell proliferation, angiogenesis, apoptosis, and metastatic spread and also having four divergent members with similar structural features, such as EGFR (HER1/ErbB1), ErbB2 (HER2/neu), ErbB3 (HER3), and ErbB4 (HER4). Despite this, clinically exploited inhibitors of EGFR (including erlotinib, lapatinib, gefitinib, selumetinib, etc.) are not specific thus provoking unenviable adverse effects. Some of the paramount obstacles to generate and develop new lead molecules of EGFR inhibitors are drug resistance, mutation, and also selectivity which inspire medicinal chemists to generate novel chemotypes. The discovery of therapeutic agents that inhibit the precise stage in tumorous cells such as EGFR is one of the chief successful targets in many cancer therapies, including lung and breast cancers. This review aims to compile the various recent progressions (2016-2021) in the discovery and development of diverse epidermal growth factor receptor (EGFR) inhibitors belonging to distinct structural classes like pyrazoline, pyrazole, imidazole, pyrimidine, coumarin, benzothiazole, etc. We have summarized preclinical and clinical data, structure-activity relationships (SAR) containing mechanistic and in silico studies to provide proposals for the design and invention of new EGFR inhibitors with therapeutic significance. The detailed progress of the work in the field will provide inexorable scope for the development of novel drug candidates with greater selectivity and efficacy.

Published

2021

7. Recent developments in mitogen activated protein kinase inhibitors as potential anticancer agents

Author

Bharti Sharma, Vikram Jeet Singh, and Pooja Chawla

Subjects

MAPK/ERK pathway, MAP Kinase Signaling System, Antineoplastic Agents, MAPK cascade, Biochemistry, Docking (dog), Drug Development, Neoplasms, Drug Discovery, medicine, Structure–activity relationship, Animals, Humans, Molecular Biology, Protein Kinase Inhibitors, Cell Proliferation, Mitogen-Activated Protein Kinase Kinases, biology, Molecular Structure, Chemistry, Kinase, Organic Chemistry, Cell biology, Molecular Docking Simulation, Mechanism of action, Mitogen-activated protein kinase, biology.protein, medicine.symptom, Intracellular

Abstract

The mitogen activated protein kinase (MAPK) belongs to group of kinase that links the extracellular stimuli to intracellular response. The MAPK signalling pathway (RAS-RAF-MEK-ERK) involved in different pathological conditions like cancer, caused due to genetic or any other factor such as physical or environmental. Many studies have been conducted on the pathological view of MAPK cascade and its associated element like RAS, RAF, MEK, ERK or its isoforms, and still the research is going on particularly with respect to its activation, regulation and inhibition. The MAPK signalling pathway has become the area of research to identify new target for the management of cancer. A number of heterocyclics are key to fight with the cancer associated with these enzymes thus give some hope in the management of cancer by inhibiting MAPK cascade. In the present article, we have focussed on MAPK signalling pathway and role of different heterocyclic scaffolds bearing nitrogen, sulphur and oxygen and about their potential to block MAPK signalling pathway. The heterocyclics are gaining importance due to high potency and selectivity with less off-target effects against different targets involved in the MAPK signalling pathway. We have tried to cover recent advancements in the MAPK signalling pathway inhibitors with an aim to get better understanding of the mechanism of action of the compounds. Several compounds in the preclinical and clinical studies have been thoroughly dealt with. In addition to the synthetic compounds, a significant number of natural products containing heterocyclic moieties as MAPK signalling pathway inhibitors have been put together. The structure activity relationship along with docking studies have been discussed to apprehend the mechanistic studies of various compounds that will ultimately help to design and develop more MAPK signalling pathway inhibitors.

Published

2021

8. Role of heterocyclic compounds in SARS and SARS CoV-2 pandemic

Author

Meenakshi Negi, Pooja Chawla, Viney Chawla, and Abdul Faruk

Subjects

2019-20 coronavirus outbreak, Coronavirus disease 2019 (COVID-19), Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), viruses, coronaviruses, SARS CoV-2, heterocyclic scaffolds, Review Article, Severe Acute Respiratory Syndrome, 01 natural sciences, Biochemistry, Antiviral Agents, World health, Cell Line, MERS, Heterocyclic Compounds, Drug Discovery, Pandemic, Animals, Humans, skin and connective tissue diseases, Molecular Biology, Pandemics, Molecular Structure, 010405 organic chemistry, Chemistry, SARS-CoV-2, pandemic, Organic Chemistry, fungi, virus diseases, Virology, 0104 chemical sciences, COVID-19 Drug Treatment, body regions, 010404 medicinal & biomolecular chemistry, Death toll, Severe acute respiratory syndrome-related coronavirus, SARS CoV, Drug Design, Middle East Respiratory Syndrome Coronavirus, Treatment strategy, Coronavirus Infections

Abstract

Coronaviruses have led to severe emergencies in the world since the outbreak of SARS CoV in 2002, followed by MERS CoV in 2012. SARS CoV-2, the novel pandemic caused by coronaviruses that began in December 2019 in China has led to a total of 24,066,076 confirmed cases and a death toll of 823,572 as reported by World Health Organisation on 26 August 2020, spreading to 213 countries and territories. However, there are still no vaccines or medications available till date against SARS coronaviruses which is an urgent requirement to control the current pandemic like situations. Since many decades, heterocyclic scaffolds have been explored exhaustively for their anticancer, antimalarial, anti-inflammatory, antitubercular, antimicrobial, antidiabetic, antiviral and many more treatment capabilities. Therefore, through this review, we have tried to emphasize on the anticipated role of heterocyclic scaffolds in the design and discovery of the much-awaited anti-SARS CoV-2 therapy, by exploring the research articles depicting different heterocyclic moieties as targeting SARS, MERS and SARS CoV-2 coronaviruses. The heterocyclic motifs mentioned in the review can serve as crucial resources for the development of SARS coronaviruses treatment strategies.

Published

2020

9. Synthetic Strategies Towards Safer NSAIDs Through Prodrug Approach: A Review

Author

Komal Gupta, Pooja Chawla, and Deepika Sharma

Subjects

Pharmacology, Analgesics, Peptic Ulcer, Chemistry, Analgesic, Perforation (oil well), Anti-Inflammatory Agents, Non-Steroidal, General Medicine, Prodrug, medicine.disease_cause, Docking (dog), Mechanism of action, Gastric Mucosa, Drug Discovery, medicine, Animals, Humans, Prodrugs, Antipyretic, Irritation, medicine.symptom, Active metabolite, medicine.drug

Abstract

Non-steroidal anti-inflammatory drugs (NSAIDs) are agents that are used for various properties such as analgesic activity, anti-inflammatory activity, antipyretic activity, etc. But this class of drugs is associated with different side effects such as dyspepsia, gastroduodenal ulcers, gastrointestinal (GI) bleeding and perforation. The prodrug approach is quite beneficial to curb these side effects. Prodrugs are the inactive compounds that, on metabolism get converted into an active metabolite exhibiting desired activities. Commonly used approaches for synthesizing prodrugs are amide, esters, and mutual prodrugs by suppressing the free carboxylic groups responsible for these side effects. In this review, different schemes reported for the synthesis of NSAIDs that are devoid of undesired side effects such as irritation to gastric mucosa, gastrotoxicity, and ulcerogenicity have been compiled. Docking studies and the structure-activity relationship of some compounds are also discussed. The paper shall help the researchers to understand the methods to expedite the synthesis by carrying out substitutions of various groups of the parent compound and establish the mechanism of action of these derivatives of masking the unwanted side effects.

Published

2020

10. Thiophene-based derivatives as anticancer agents: An overview on decade's work

Author

Shelly Pathania, Pooja Chawla, and Archna

Subjects

Molecular Structure, 010405 organic chemistry, Organic Chemistry, Antineoplastic Agents, Thiophenes, Sulfur containing, 01 natural sciences, Biochemistry, Combinatorial chemistry, Thiophene derivatives, 0104 chemical sciences, 010404 medicinal & biomolecular chemistry, chemistry.chemical_compound, Structure-Activity Relationship, chemistry, Biological profile, Drug Discovery, Thiophene, Structure–activity relationship, Humans, Molecular Biology

Abstract

Heterocyclic compounds hold a pivotal place in medicinal chemistry due to their wide range of biological activities and thus, are exhaustively explored in the field of drug design and development. Continuous efforts are being carried out for the development of medicinal agents especially, for dreadful diseases like cancer. Thiophene, a sulfur containing heterocyclic scaffold, has emerged as one of the relatively well-explored scaffold for the development of library of molecules having potential anticancer profile. Thiophene analogs have been reported to bind with a wide range of cancer-specific protein targets, depending on the nature and position of substitutions. Accordingly, thiophene analogs have been reported to cause their biological action through inhibition of different signaling pathways involved in cancer. Functionally, different anticancer targets require different structural features, so researchers have tried to synthesize new thiophene derivatives with varied substitutions. In the present review, authors have presented the information available on thiophene-based molecules as anticancer agents with special focus on synthetic methodologies, biological profile and structure activity relationship (SAR) studies. Various patents granted for thiophene containing molecules as anticancer have also been included.

Published

2020

11. Reactive metabolites of the anticonvulsant drugs and approaches to minimize the adverse drug reaction

Author

Rohit Pal, Shah Alam Khan, Pooja Chawla, Karanvir Singh, Bhupinder Kumar, and Jawaid Akhtar

Subjects

Pharmacology, Phenytoin, Drug, Valproic Acid, Molecular Structure, Drug discovery, Chemistry, media_common.quotation_subject, Organic Chemistry, General Medicine, Lamotrigine, medicine.disease, Pharmacokinetics, Seizures, Drug Discovery, medicine, Humans, Anticonvulsants, Adverse effect, Adverse drug reaction, medicine.drug, media_common

Abstract

Several generations of antiepileptic drugs (AEDs) are available in the market for the treatment of seizures, but these are amalgamated with acute to chronic side effects. The most common side effects of AEDs are dose-related, but some are idiosyncratic adverse drug reactions (ADRs) that transpire due to the formation of reactive metabolite (RM) after the bioactivation process. Because of the adverse reactions patients usually discontinue the medication in between the treatment. The AEDs such as valproic acid, lamotrigine, phenytoin etc., can be categorized under such types because they form the RM which may prevail with life-threatening adverse effects or immune-mediated reactions. Hepatotoxicity, teratogenicity, cutaneous hypersensitivity, dizziness, addiction, serum sickness reaction, renal calculi, metabolic acidosis are associated with the metabolites of drugs such as arene oxide, N-desmethyldiazepam, 2-(1-hydroxyethyl)-2-methylsuccinimide, 2-(sulphamoy1acetyl)-phenol, E-2-en-VPA and 4-en-VPA and carbamazepine-10,11-epoxide, etc. The major toxicities are associated with the moieties that are either capable of forming RM or the functional groups may itself be too reactive prior to the metabolism. These functional groups or fragment structures are typically known as structural alerts or toxicophores. Therefore, minimizing the bioactivation potential of lead structures in the early phases of drug discovery by a modification to low-risk drug molecules is a priority for the pharmaceutical companies. Additionally, excellent potency and pharmacokinetic (PK) behaviour help in ensuring that appropriate (low dose) candidate drugs progress into the development phase. The current review discusses about RMs in the anticonvulsant drugs along with their mechanism vis-a-vis research efforts that have been taken to minimize the toxic effects of AEDs therapy.

Published

2021

12. Voltage gated sodium channel inhibitors as anticonvulsant drugs: A systematic review on recent developments and structure activity relationship studies

Author

Pooja Chawla, Md. Jawaid Akhtar, Rohit Pal, and Bhupinder Kumar

Subjects

Pharmacology, Biochemistry, Sodium Channels, Structure-Activity Relationship, Epilepsy, Sodium channel blocker, Drug Development, Seizures, Drug Discovery, medicine, Animals, Humans, Structure–activity relationship, Voltage-Gated Sodium Channel Blockers, Molecular Biology, Anticonvulsant drugs, Dose-Response Relationship, Drug, Molecular Structure, Chemistry, Sodium channel, Organic Chemistry, Chronic pain, medicine.disease, Cellular excitability, Anticonvulsants

Abstract

Voltage-gated sodium channel blockers are one of the vital targets for the management of several central nervous system diseases, including epilepsy, chronic pain, psychiatric disorders, and spasticity. The voltage-gated sodium channels play a key role in controlling cellular excitability. This reduction in excitotoxicity is also applied to improve the symptoms of epileptic conditions. The effectiveness of antiepileptic drugs as sodium channel depends upon the reversible blocking of the spontaneous discharge without blocking its propagation. There are number of antiepileptic drug(s) which are in pipeline to flour the market to conquer abnormal neuronal excitability. They inhibit the seizures through the inhibition of complex voltage- and frequency-dependent ionic currents through sodium channels. Over the past decade, the sodium channel is one of the most explored targets to control or treat the seizure, but there has not been any game-changing discovery yet. Although there are large numbers of drugs approved for the treatment of epilepsy, however they are associated with several acute to chronic side effects. Many research groups have tirelessly worked for better therapeutic medication on this popular target to treat epileptic seizures. The review quotes briefly the developments of the approved examples of sodium channel blockers as anticonvulsant drugs. Medicinal chemists have tried the design and development of some more potent anticonvulsant drugs to minimize the toxicity that are discussed here, and an emphasis is given for their possible mechanism and the structure–activity relationship (SAR).

Published

2021

13. An overview on medicinal perspective of thiazolidine-2,4-dione: A remarkable scaffold in the treatment of type 2 diabetes

Author

Punniyakoti Veeraveedu Thanikachalam, Pooja Chawla, Rahul K. Maurya, Srinivasan Ramamurthy, and Garima Bansal

Subjects

NFκB, nuclear factor kappa-B, 0301 basic medicine, HFD, high-fat diet, Scaffold, mCPBA, meta-chloroperoxybenzoic acid, endocrine system diseases, IL-β, interlukin-beta, OGTT, oral glucose tolerance test, medicine.medical_treatment, Type 2 diabetes, Boc, Butyloxycarbonyl, DMSO, dimethyl sulfoxide, Pharmacology, GPT, glutamic pyruvic transaminase, TFAA, trifluoroacetic anhydride, DNA, deoxyribonucleic acid, LBD, ligand-binding domain, 0302 clinical medicine, AST, aspartate transaminase, DM, diabetes mellitus, LDL, low-density lipoprotein, NBS, N-bromosuccinimide, Thiazolidine-2,4-diones, PDB, protein data bank, TZD, thiazolidine-2,4-dione, AF, activation factor, lcsh:R5-920, Multidisciplinary, E, Entgegen, GLUT4, glucose transporter type 4, Drug discovery, Diabetes, WAT, white adipose tissue, TG, triglycerides, DCM, dichloromethane, PTP1B, protein-tyrosine phosphatase 1B, 030220 oncology & carcinogenesis, DMF, dimethylformamide, Rosiglitazone, lcsh:Medicine (General), THF, tetrahydrofuran, medicine.drug, KOH, potassium hydroxide, PPAR-γ, HEp-2, Human epithelial type 2, ALT, alanine transaminase, RXR, retinoid X receptor, HDL, high-density lipoprotein, PPAR, peroxisome-proliferator activated receptor, STZ, streptozotocin, SAR, structure-activity relationship, Article, ADDP, 1,1′-(Azodicarbonyl)dipiperidine, TFA, trifluoroacetic acid, HEK, human embryonic kidney, 03 medical and health sciences, Diabetes mellitus, FFA, free fatty acid, INS-1, insulin-secreting cells, medicine, lcsh:Science (General), HCl, Hydrochloric Acid, ComputingMethodologies_COMPUTERGRAPHICS, Thiazolidine 2 4 dione, GAL4, Galactose transporter type, MDA, malondialdehyde, PPRE, peroxisome proliferator response element, NO, nitric oxide, Pioglitazone, ALP, alkaline phosphatase, Z, Zusammen, business.industry, Pd, Palladium, Insulin, TNF-α, tumor necrosis factor-alpha, T2DM, type 2 diabetes mellitus, K2CO3, Potassium carbonate, medicine.disease, NaH, Sodium Hydride, QSAR, quantitative structure-activity relationship, 030104 developmental biology, FDA, food and drug administration, DBD, DNA-binding domain, NA, nicotinamide, ECG, electrocardiogram, IDF, international diabetes federation, i.m, Intramuscular, business, lcsh:Q1-390

Abstract

Graphical abstract, Highlights • TZDs, an important pharmacophore in the treatment of diabetes. • Various analog-based synthetic strategies and biological significance are discussed. • Clinical studies using TZDs along with other antidiabetic agents are also highlighted. • SAR has been discussed to suggest the interactions between derivatives and receptor sites. • Pyrazole, chromone, and acid-based TZDs can be considered as potential lead molecules., Diabetes or diabetes mellitus is a complex or polygenic disorder, which is characterized by increased levels of glucose (hyperglycemia) and deficiency in insulin secretion or resistance to insulin over an elongated period in the liver and peripheral tissues. Thiazolidine-2,4-dione (TZD) is a privileged scaffold and an outstanding heterocyclic moiety in the field of drug discovery, which provides various opportunities in exploring this moiety as an antidiabetic agent. In the past few years, various novel synthetic approaches had been undertaken to synthesize different derivatives to explore them as more potent antidiabetic agents with devoid of side effects (i.e., edema, weight gain, and bladder cancer) of clinically used TZD (pioglitazone and rosiglitazone). In this review, an effort has been made to summarize the up to date research work of various synthetic strategies for TZD derivatives as well as their biological significance and clinical studies of TZDs in combination with other category as antidiabetic agents. This review also highlights the structure-activity relationships and the molecular docking studies to convey the interaction of various synthesized novel derivatives with its receptor site.

Published

2019

14. Synthesis and biological evaluation of thiazolidine-2,4-dione-pyrazole conjugates as antidiabetic, anti-inflammatory and antioxidant agents

Author

Shamsher Singh, Punniyakoti Veeraveedu Thanikachalam, Garima Bansal, Vikramdeep Monga, and Pooja Chawla

Subjects

Blood Glucose, Antioxidant, medicine.drug_class, medicine.medical_treatment, Interleukin-1beta, Pyrazole, 01 natural sciences, Biochemistry, Antioxidants, Anti-inflammatory, Mice, Structure-Activity Relationship, chemistry.chemical_compound, In vivo, Malondialdehyde, Drug Discovery, medicine, Animals, Hypoglycemic Agents, Moiety, Receptor, Molecular Biology, Dose-Response Relationship, Drug, Molecular Structure, Tumor Necrosis Factor-alpha, 010405 organic chemistry, Anti-Inflammatory Agents, Non-Steroidal, Organic Chemistry, Combinatorial chemistry, In vitro, Thin-layer chromatography, 0104 chemical sciences, Mice, Inbred C57BL, Molecular Docking Simulation, PPAR gamma, 010404 medicinal & biomolecular chemistry, chemistry, Pyrazoles, Thiazolidinediones, alpha-Amylases

Abstract

A series of fourteen novel thiazolidine-2,4-dione derivatives clubbed with pyrazole moiety were synthesized via four step reaction procedure. Reactions were monitored by thin layer chromatography and were characterized by physicochemical and spectrophotometric (IR, Mass, 1HNMR and 13CNMR) analysis. The spectral data were in good agreement with their structures. The title compounds were docked against peroxisome proliferated activated receptors (PPAR-γ) and alpha-amylase and further evaluated for in vivo and in vitro antidiabetic, in vitro anti-inflammatory and antioxidant activities. Compound GB14 exhibited significant blood glucose lowering activity and was also found to be active inhibitor of alpha-amylase. Compound GB7 was found to be potent anti-inflammatory agent in terms of reducing inflammatory markers (TNF-α, IL-β, MDA) and also showed antioxidant activity to good extent. Therefore, these compounds may be considered as promising candidates for the development of new antidiabetic agents.

Published

2019

15. Synthesis, biological evaluation and molecular docking studies of novel 3,5-disubstituted 2,4-thiazolidinediones derivatives

Author

Alok Ranjan Srivastava, Rohit Bhatia, and Pooja Chawla

Subjects

Blood Glucose, Antioxidant, medicine.medical_treatment, Anti-Inflammatory Agents, Protein Data Bank (RCSB PDB), 01 natural sciences, Biochemistry, Antioxidants, Diabetes Mellitus, Experimental, Structure-Activity Relationship, In vivo, Drug Discovery, medicine, Animals, Edema, Hypoglycemic Agents, Structure–activity relationship, Rats, Wistar, Molecular Biology, Binding Sites, 010405 organic chemistry, Chemistry, Organic Chemistry, Carbon-13 NMR, Combinatorial chemistry, Protein Structure, Tertiary, Rats, 0104 chemical sciences, Molecular Docking Simulation, PPAR gamma, 010404 medicinal & biomolecular chemistry, Docking (molecular), Proton NMR, Thiazolidinediones, Knoevenagel condensation

Abstract

A series of thirteen novel 2,4-thiazolidinedione derivatives were synthesized through three step reaction procedure. The title compounds were synthesized by Knoevenagel condensation at the 5th position of the 2,4-thiazolidinedione ring. Various physicochemical and spectral studies were conducted to characterize the synthesized derivatives including- IR, Mass, 1H NMR, 13C NMR and elemental analysis. The derivatives were screened for in vivo anti diabetic, in vivo anti-inflammatory and in vitro free radical scavenging activities by carrageenan induced rat paw edema method, alloxan induced diabetes in wistar rats method and FRAP (ferric reducing antioxidant power) method respectively. Some of the derivatives emerged out as potent antidiabetic, anti inflammatory and free radical scavenging agents. Molecular docking was carried out to investigate some possible structural insights into the potential binding patterns of the most potent anti-diabetic molecules NB7,NB12 and NB13 with the active sites of target PPARγ (PDB ID: 2PRG) using MOE software. Dichloro derivative compound NB-7 has shown great potential in the present study as it not only has maximum antidiabetic activity but also possess excellent anti-inflammatory and antioxidant potential.

Published

2019

16. Fullerenes: From Carbon to Nanomedicine

Author

Shailendra K. Saraf, Pooja Chawla, Radhika Maheshwari, Viney Chawla, and Shubhini A. Saraf

Subjects

Pharmacology, Fullerene, Anti-HIV Agents, Carbon chemistry, chemistry.chemical_element, Antineoplastic Agents, Nanotechnology, General Medicine, Antioxidants, Carbon, Enzyme inhibition, Nanomedicine, Neuroprotective Agents, Anti-Infective Agents, chemistry, Carbon allotrope, Drug Discovery, Fullerenes, Enzyme Inhibitors

Abstract

Fullerenes, the third carbon allotrope, have emerged as agents which could revolutionize the treatment of many diseases. Fullerenes possess different biological applications like neuroprotective agents, antioxidants, anti-HIV activity, enzyme inhibition, antiapoptotic activity and the list is ever increasing. Moreover, they are being utilized as drug carrier systems and also for many non-biological applications like superconductors, catalysis and so on. Their size has made them promising agents for nanotechnology. This article aims at outlining the chemistry, properties and non-biological applications of fullerenes and their evolution to biological applications, thereby traversing their evolution from simple carbon allotropes to present day nano-medicinal agents.

Published

2010