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- Volume 21, Issue 16, 2024
Letters in Drug Design & Discovery - Volume 21, Issue 16, 2024
Volume 21, Issue 16, 2024
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A Comprehensive Review of the Advancement in Omic Technologies in the Field of Drug Discovery and Development
Discovering new drugs is time-consuming and expensive and involves many different tools from various domains. Numerous omic technologies, such as genomics, transcriptomics, proteomics, and metabolomics, have been created to speed up the process. Leveraging genetic and genomic insights, these methodologies play a pivotal role. Genetic insights aid in target identification, prioritization, and the prediction of drug outcomes. Gene expression data informs drug discovery, while proteomics uncovers targets and facilitates high-throughput profiling. Enhancing drug efficacy necessitates mechanistic insights into downstream effects, enabling side effects and resistance prediction. Early-stage drug discovery now extensively employs diverse metabolomics platforms. This review underscores the recent strides of omic technologies in drug discovery, affirming their role in enhancing drug viability and regulatory approval. The emphasis lies on the latest advancements in genomics, transcriptomics, proteomics, and metabolomics, collectively fortifying drug development.
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Anti-tumor Activity of Indole: A Review
Authors: Momen R.F. Mohamed, Mai E. Shoman, Taha F. S. Ali and Gamal El-Din A. Abuo-RahmaGenerally, heterocyclic compounds are included in a large class of pharmacologically active compounds. The indole scaffold in this category is widely distributed in nature and present in many active compounds, especially anti-cancer agents. Due to its unique physicochemical and biological properties, the indole platform has been considered a favorable scaffold in anti-cancer drug design and development. Various indole compounds (synthetic, semisynthetic, and natural) show remarkable anti-proliferative activity. According to the recent literature, this review describes the role of indole scaffolds as anti-cancer agents. Indole was reported to induce anti-tumor activity through multiple mechanisms, for example, Epidermal Growth Factor Receptors (EGFR), histone deacetylase (HDAC), kinase, DNA-topoisomerases, and tubulin inhibition. The current review focuses on some indole compounds with amazing effects against different types of cancers as there are too many FDA-approved drugs, for example, osimertinib, alectinib, and anlotinib in NSCLC treatment, panobinostat in multiple myeloma, midostaurin in acute myeloid leukemia treatment, etc. Moreover, several compounds are still in clinical trials to treat different cancer types. Additionally, there are some oxindole derivatives with potent inhibition against different types of tumors, such as ovarian cancer, colorectal cancer, and prostate cancer. Different series of oxindoles are promising and recommended for further studies due to their remarkable inhibition of tumor cells. Accordingly, the collection of data on a pharmacologically significant motif might aid researchers in further employing indoles in developing novel anti-cancer drugs with potentially fewer side effects and higher potency against this rapidly spreading disease.
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P-glycoproteins in the Pathology and Treatment of Alzheimer's Disease
Alzheimer's disease (AD), a central cause of dementia, is characterized by the accumulation of amyloid β-peptide (Aβ) peptides in the brain. P-glycoprotein (P-gp), a highly expressed protein in the BBB, plays a fundamental role in transporting Aβ from the brain to the blood and protecting the blood-brain barrier (BBB). The dysfunction or decreased abundance of this transporting protein is associated with the accumulation of Aβ, leading to dementia and cognitive deficits. In this review article, we consolidate the existing literature on the impact of P-gp in the pathophysiology and therapy of AD. Current evidence claims that p-gp is involved in AD pathology and that enhancing the activity of this transporter may be a promising therapeutic approach to hinder AD progression. There is also a growing interest in P-gp as a potential therapeutic target for AD. Hence, ongoing clinical trials and research should investigate P-gp inhibitor efficacy as a therapeutic approach for improving AD drug delivery to the brain and treatment outcomes.
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Ligand-based Molecular Modeling of HDL Receptor SR-BI Inhibitors as Potent Anti-hyperlipidemic Agents
Authors: Swati Verma and Sarvesh PaliwalIntroductionThe High-density lipoprotein (HDL) receptor, Scavenger receptor class B, type I (SRBI) plays a crucial role in lipoprotein metabolism, cholesterol homeostasis, and atherosclerosis. In the present study, a quantitative structure-activity relationship study (QSAR) investigation was conducted on a data set of 31 novel indolinyl thiazole-based inhibitors of SR-BI mediated lipid uptake.
MethodsTo build the QSAR model, Multiple linear regression analysis (MLR), partial least square analysis (PLS), and neural analysis (NN) were performed which were further evaluated internally as well as externally for the prediction of activity. The best QSAR model for MLR was selected with a correlation coefficient (r2) of 0.937, cross-validation r2cv of 0.908, and a standard error (S) value of 0.253. For PLS, r2 was 0.937 and for FFNN r2 was 0.961 (for the training set). This was further evaluated externally by a test set having r2 values 0.870 (MLR), 0.863(PLS), and 0.933(neural network) analysis.
ResultsThe final model comprised hydrophobic parameters (Lipole Z component) and steric parameters (molar refractivity and K alpha2 index).
ConclusionAll these descriptors generated comparable results which prove that the model generated is sound and has good predictability.
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- Drug Design, Discovery and Therapy, Drug Design & Discovery, Medicinal Chemistry, Pharmacology
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Computational Insights on Migraine and Anxiety in Association with BDNF
BackgroundMigraine is an unusual piercing headache on one side of the head. It is due to the dysregulation of epigenetic factors associated with the brain. Migraine affects about one percent of the general population. Despite the recent implementation of worldwide diagnostic criteria for migraine, this disorder remains relatively unknown and is frequently underdiagnosed. Migrainous conditions are also associated with anxiety and stress. This pathologic condition affects the daily life and productivity of the patients.
ObjectiveHence, there is a need to develop proper treatment and management strategies to cope with migraine and associated anxiety. Through in silico approaches, this work elucidates to identify the effective lead compounds for migraine and anxiety.
MethodsBrain-derived neurotrophic factor (BDNF) was identified as a possible target for treating migraine and anxiety using computational analysis. Virtual screening and molecular dynamics simulation were used to find potential agonists with high affinities for BDNF.
ResultsBased on the results of computational analysis (glide XP score, number of interactions, glide energy, and pharmacokinetic factors), four top hit molecules (Asinex_35922, Enamine_44630, Maybridge_1999, and SMMDB_17457) were identified and taken for further analysis. The hydrogen bond interactions between the agonists and the BDNF protein were verified by dynamics analysis.
ConclusionComputational studies support that BDNF agonist molecules could be effective regulating molecules for migraine and anxiety. For further evidence of the effectiveness of lead compounds in treating migraine and related anxiety, more experimental studies are necessary.
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Design and Synthesis of Novel Anti-proliferative Formononetin Derivatives
Authors: Zeping Luo, Liwei Pan, XiuJu Yin and Hailin ChenBackgroundThis study aimed to design and synthesize a series of novel C8-Formononetin derivatives and evaluate their in vitro anti-tumor activity. The experimental results showed that these derivatives exhibited varying degrees of anti-tumor effects on HeLa, A549, and HepG2 cells, and compound 8, in particular, showed excellent inhibitory activity against HepG2 cell growth, which surpassed that of 5-FU.
MethodsImportantly, the cytotoxicity of FMN was significantly enhanced after conjugation with amino acid ethyl ester. To further investigate the mechanisms underlying the anti-tumor effects of these derivatives, various experimental approaches were employed. They include colony formation assay, EdU cell proliferation assay, Transwell migration assay, cell apoptosis assay, cell cycle distribution assay, and ELISA.
ResultsThe results revealed that compound 8 effectively induced cell apoptosis by downregulating the expression of anti-apoptotic proteins P53, Bcl-2, and Mcl-1 while upregulating the expression of pro-apoptotic proteins Bax, Fas, Caspase-3, Caspase-9, and Fas, which leads to apoptosis of tumor cells. Furthermore, compound 8 disrupted the mitochondrial membrane potential, perturbed cellular energy metabolism, and reduced intracellular ATP levels, thereby inhibiting tumor cell growth.
ConclusionThe newly synthesized FMN derivatives in this study hold great potential in the field of anti-tumor research. Compound 8 inhibits tumor cell growth through multiple pathways, which provides new hope for cancer treatment.
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A Deep Dive into PDE5 Inhibition: Innovative Discoveries via Virtual Screening
Authors: Abhijit Debnath, Hema Chaudhary, Parul Sharma, Rajesh Singh and Shikha SrivastavaBackgroundPDE5 inhibitors have had a surge in popularity over the last decade owing to their efficacy in the treatment of erectile dysfunction, coronary vasculopathy, and pulmonary arterial hypertension. These inhibitors exhibit competitive binding with phosphodiesterase type 5 and inhibit the hydrolysis of cyclic guanosine monophosphate, hence elevating the levels of cGMP in smooth muscle cells and prolonging the duration of an erection. However, due to production costs and side effects, further research is needed to discover new PDE5 inhibitors.
ObjectivesThe study aimed to identify potent PDE5 inhibitors by employing the extensive application of computer-aided drug design.
MethodsThree different databases, named Million Molecules Database, Natural Product Database, and NCI Database, have been screened, which has been followed by filtering based on various drug-likeness rules, docking, ADME, toxicity, consensus molecular docking, and 100 ns molecular dynamics simulation.
ResultsThree compounds (ZINC05351336, ZINC12030898, and ZINC17949426) have exhibited stable-binding characteristics at the active site of PDE5, demonstrating a robust binding affinity. These molecules have been found to possess drug-like capabilities, effective ADME features, low toxicity, and high stability.
ConclusionThe study has delved into the realm of PDE5 inhibitors, which have been found to be effective in treating erectile dysfunction, but high production costs and side effects necessitate new ones. Through computer-aided drug design and screening, three compounds have been identified with promising binding characteristics, drug-appropriate properties, effective ADME profiles, minimal toxicity, and stability, making them potential candidates for future PDE5 inhibitors.
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Development of Potential Antidiabetic Agents using 2D and 3D QSAR, Molecular Docking and ADME Properties In-silico Studies of α-amylase Inhibitors
More LessBackgroundA series of 2-arylbenzimidazole derivatives were designed and developed as antidiabetic drugs using 2D and 3D QSAR, molecular docking and ADME studies.
MethodsAll molecular modeling studies were performed using Molecular Design Suite V-Life MDS software. New chemical entities (NCEs) were designed based on the results of 2D and 3D QSAR studies. Docking studies were performed with the designed NCEs in PDB: 5E0F and the results were compared with the receptor ligand. According to the ADME results, all the proposed compounds have good oral absorption, correct molecular weight, QPlogPo/w. All units show oral absorption above 80%, it is considered well absorbed. All the proposed units show satisfactory results in the area. This indicated that these NCEs have little or no chance of failure in the final stages of the drug development process.
ResultsThe 2D QSAR results showed that the descriptor k2alpha, T_T_N_5, IodinesCount and BrominesCount play the most important role in determining the inhibitory activity of α-amylase. Although 3D QSAR showed that, the q2 and Pred_r2 values of the model (SA kNN MFA model) were 0.7476 and 0.6932. The G score of the proposed compound numbers mol-1, mol-2, mol-3, mol-4, mol-5, mol-6, mol-7 and mol-8 are better compared to the standards, indicating that the proposed compounds have good binding properties affinity to bind to α-amylase.
ConclusionThese investigations have produced statistically significant and exceptionally reliable 2D and 3D Quantitative Structure-Activity Relationship (QSAR) models for antidiabetic medications, particularly α-amylase inhibitors. Furthermore, docking experiments involving the α-amylase enzyme have revealed that the binding energies of most Novel Chemical Entities (NCEs) are comparable to those of the established standards. Docking studies with α-amylase enzyme showed that most NCEs have binding energies comparable to the standard.
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QSAR Analysis and Molecular Docking Studies of Aryl Sulfonamide Derivatives as Mcl-1 Inhibitors and the Influence of Structure and Chirality on the Inhibitory Activity
Authors: Jia Chen, Yang Ma, Jian-Wei Zou, Sheng Hu, Meilan Huang and Guixiang HuBackgroundMcl-1 is a kind of antiapoptotic protein and its overexpression is closely related to the occurrence of cancer. Aryl sulfonamide derivatives are expected to become new anticancer agents due to their high inhibitory activity on the Mcl-1 protein.
ObjectiveThe study aimed to establish the QSAR model with good prediction ability and elaborate the influence of structure and chirality on the inhibitory activity.
MethodsMultiple QSAR models were built with different types of descriptors and modeling methods. The molecular docking was performed on compounds 45, 25, 26, 24R, and 24S. The MCCV method was used to perform rigorous validations with up to 216 = 65,536 samplings for MLR, SVM, LSSVM, RF, and GP methods based on the model of 2D and 3D combined descriptors.
ResultsThe models based on 2D and 3D combined descriptors demonstrated non-linear LSSVM and GP methods to provide better results (R2>0.94, > 0.86). The predictive performances of MCCV tests have been basically coincident with the single test set’s results. The hydrogen bond acceptor at the appropriate position of the substituent on the chiral center could form the hydrogen bond interaction with residue ASN260, resulting in stronger interaction and higher inhibitory activity. The interaction differences between R and S configurations could be mainly attributed to two residues, HIS224 and ASN260. Furthermore, the steric effect of the substituent on chiral carbon atoms was crucial. A high steric effect could prevent the binding of the substituent and protein, resulting in low inhibitory activity.
ConclusionThe study may provide theoretical guidance on the design and synthesis of novel aryl sulfonamide derivatives with high inhibitory activity.
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In Silico Structure-based Screening of Potential Anticancer Bioactive Natural Constituents from African Natural Products
IntroductionInhibitors of topoisomerases, essential regulators of cancer development, are promising as cancer treatments. These enzymes regulate DNA topology and eliminate topological constraints during various biological processes, including replication, transcription, and recombination. Nature has continually offered scientists pathways to explore the development of new drugs. Indeed, since ancient times, various plant extracts have been utilized in treating multiple pathologies.
ObjectiveIt’s intriguing to diversify the therapeutic classes of natural topoisomerase 1 inhibitors. We aimed to explore the relationship between the toxicity of certain medicinal plants in North Africa and their anti-topoisomerase 1 enzyme activity. This investigation aims to discover potentially valuable compounds for fighting cancer by inhibiting the Topo1 enzyme, enriching the anticancer therapeutic class.
MethodsThis study has conducted a virtual screening of the African Natural Products Database to identify new scaffolds as topoisomerase 1 inhibitors. Molecular docking as a structure-based drug design approach was selected as one of the best approaches, and the complex code ID: 1K4T was used for this purpose.
Results and DiscussionThe molecular docking of more than 5790 natural products extracted from this database was docked into the binding site of the above-cited complex using the Modlock optimizer and Moldock score as search and scoring function algorithms, respectively. The top-ranked compounds have been assessed, analyzed, and compared to Topotecan and Irinotecan as reference ligands and drugs.
ConclusionConsequently, the seven natural products have shown a strong affinity to topoisomerase 1 and DNA. They establish a clear link between topoisomerase 1 inhibition and the anticancer activity of their corresponding plant extracts. Therefore, these hits are promising and serve as a base for further development of new topoisomerase 1 inhibitors.
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Predicting the Pharmacological Targets of Astragalus membranaceus against Hypertensive Nephropathy
Authors: Ningxin Zhang, Chen Guan, Lingyu Xu, Zengying Liu, Chenyu Li, Quandong Bu, Xuefei Shen and Yan XuObjectiveHypertension is one of the main causes of chronic kidney disease. Astragalus membranaceus (AM), an important traditional Chinese medicine for treating hypertensive nephropathy, has a complex composition that makes it challenging to explore its mechanism of action and limits its clinical application. This study aims to investigate the underlying mechanism of AM in treating hypertensive nephropathy.
MethodsWe retrieved all the compound data of AM from the Traditional Chinese Medicine Systems Pharmacology database and screened out the active compounds and their target proteins. Then, a network of candidate compounds and target compounds of AM was constructed using Cytoscape software. Furthermore, hypertensive nephropathy-related genes from the DisGeNET and GeneCards databases were intersected with AM target proteins and hypertensive nephropathy-related genes to determine the potential targets of AM in treating hypertensive nephropathy. Finally, after performing Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway enrichment analyses, we conducted molecular docking to verify the interaction between the main active ingredients of AM and the core targets.
ResultsA total of 87 effective components of AM were obtained from the Traditional Chinese Medicine Systems Pharmacology (TCMSP) database. According to the network of active compounds and their target proteins, 18 of the 20 effective compounds in AM could act on 210 proteins. Taking the intersection of 274 hypertensive nephropathy-related genes and AM target proteins, 49 potential targets of AM in treating hypertensive nephropathy were identified. Using the median degree value, we determined 25 core targets of AM in treating hypertensive nephropathy. GO enrichment analysis showed that the biological processes of AM on hypertensive nephropathy mainly focused on the inflammatory response, hypoxia response, angiogenesis, cell proliferation, and cell migration. KEGG pathway enrichment analysis mainly involved cancer pathways, the AGE-RAGE signaling pathway in diabetic complications, blood flow shear stress, and atherosclerosis. Molecular docking results showed that quercetin, kaempferol, and 7-O-methylisomucronulatol had strong binding activity with several target proteins and may exert protective effects by stabilizing the interaction between molecules through the intermolecular forces of hydrogen bonds.
ConclusionThis study reveals the targets of AM in treating hypertensive nephropathy using network pharmacology and molecular docking, providing new clues for developing novel drugs for hypertensive nephropathy and basic research development.
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Design and Biological Evaluation of Cephalosporin based Metallo-β-lactamase (MBL) Inhibitors#
BackgroundPrevalence of microbial resistance due to Metallo-β-lactamase (MBL) enzyme pose a serious threat to human life. MBLs depend on active site zinc for their hydrolytic activity; hence, the investigation of zinc chelators emerged as an attractive strategy for the development of potent MBL inhibitors.
MethodsTo prove that such chelators selectively target MBLs, in the present investigation, novel cephalosporins based MBL inhibitors (Cef-MBLi) were designed as a conjugate of cephalosporins with a potent zinc binder 8-thioquinoline (8-TQ).
ResultsCef-MBLi showed site specific release of conjugate only in the presence of a Verona-integron encoded metallo-β-lactamase 2 (VIM-2) bacterial enzyme through hydrolytic cleavage mechanism. A total of 6 (4a-e and 6f) New Chemical Entities (NCE’s) were prepared, characterized and subjected for in vitro study.
ConclusionAmong tested NCE’s, 4c showed potent MBL inhibitory activity against the VIM-2 enzyme.
# ZRC communication no: 687
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Fluconazole Microemulsions: Preparation, Statistical Optimization by Two-level Factorial Design, and Physicochemical Evaluation
BackgroundCandida albicans is the yeast that causes the fungal infection known as candidiasis. One of the standard methods for treating candida is the application of fluconazole. The low solubility of fluconazole in aqueous media is a big problem in the use of this agent. Novel drug delivery systems, such as microemulsions, could be applied to solve this problem. The main aim of this study was to perform statistical optimization of the formulation and physicochemical characterization of fluconazole microemulsion.
MethodsOptimization of the microemulsion formulation was done by using experimental design software, and then fluconazole was loaded onto the best formulation at a concentration of 1 % w/w. The physiochemistry of the microemulsion formulation was assessed by pH measurement, rheology measurement, simultaneous thermal analysis, and Scanning Electron Microscopy (SEM).
ResultsThe two-level fractional factorial design application demonstrated the optimum formulation to consist of surfactant, co-surfactant, oil content, and water, comprising 58%, 27%, 10%, and 5% of the formulation, respectively. Desirable thermal mass was observed up to 150°C. The formulation was a non-Newtonian shear-thinning liquid in terms of viscosity, with a reported pH between 6.5-7.
ConclusionConsiderably stable, high-quality microemulsion formulations containing fluconazole are presented, which are applicable for antifungal skin candidiasis treatment in clinical trials.
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Effects of Compound in Hedyotis diffusa Willd against Acute Myeloid Leukemia: An In Silico and In Vitro Study
Authors: Chunyi Lyu, Xuewei Yin, Zonghong Li, Teng Wang and Ruirong XuBackgroundHedyotis diffusa Willd (HDW) is an herb that has been used empirically for treating cancer, and its antileukemic effect has been confirmed by laboratory evidence. This study aimed to explore the underlying mechanism by which HDW and its active compound exert effects on acute myeloid leukemia (AML) through in silico analyses combined with experimental validation.
MethodsThe targets of the compounds were collected from the database and intersected with AML targets. Based on these data, a protein-protein interaction (PPI) network and compound-target (C-T) network were constructed, and KEGG enrichment analysis was performed. Topological analysis of the C-T network and PPI network was performed to screen for hub compounds and targets. Molecular dynamics simulations were conducted to test the binding mode and strength between the targets and the compounds at the molecular level. Cell viability, flow cytometry, ELISA, and Q-PCR were further used to evaluate the in silico results.
ResultsA total of 86 targets of 12 screened active compounds of HDW against AML were identified. According to topological analysis, tumor protein p53 (TP53) and signal transducer and activator of transcription 3 (STAT3) exhibited the highest degree of centrality (DC) in the PPI networks of HDW targets. Quercetin had a higher affinity for TP53 than for STAT3. Molecular dynamics simulations confirmed that the TP53-quercetin docked complex was stable with respect to the original TP53-ligand complex. The targets of HDW and quercetin against AML were significantly enriched in multiple biological processes, including the p53 signaling pathway and apoptosis. The results from the in vitro experiment confirmed that quercetin triggers apoptosis in the human AML cell line KG-1 through the p53 pathway protein.
ConclusionThis study outlines the multi-compound, multi-target, and multi-pathway mechanism by which HDW affects AML based on an in silico predictive model and further validates the antileukemic mechanism of the screened active compound in an in vitro model. This study provides a perspective for studying the antileukemic mechanism of HDW for further research.
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Exploring and Designing Potential Inhibitors of SIRT2 in Natural Products by Artificial Intelligence (AI) and Molecular Dynamics Methods
Authors: Yangyang Ni, Juxia Bai, Yuqi Zhang, Haoran Qiao, Liqun Liang, Junfeng Wan, Yanyan Zhu, Haijing Cao, Huiyu Li and Qingjie ZhaoBackgroundThe histone deacetylase family of proteins, which includes the sirtuins, participates in a wide range of cellular processes, and is intimately involved in neurodegenerative illnesses. The research on sirtuins has garnered a lot of interest. However, there are currently no effective therapeutic drugs.
MethodsIn order to explore the potential inhibitors of SIRTs, we first screened four potential lead compounds of SIRT2 in Traditional Chinese Medicine (TCM) for nervous disease using the AutoDock Vina method. Then, with Molecular Dynamics (MD) simulation method, we discovered how these inhibitors from Traditional Chinese herbal medicines affect this protein at the atomic level.
Results and DiscussionWe found hydrophobic interactions between inhibitors and SIRT2 to be crucial. The small molecules have been found to have strong effect on the residues in the zinc-binding domain, exhibiting relationship with the signaling pathway. Finally, based on the conformational characteristics and the MD properties of the four potential inhibitors in TCM, we have designed the new skeleton molecules according to the parameters of binding energy, fingerprint similarity, 3D similarity, and RO5, with AI method using MolAICal software.
ConclusionWe have proposed the candidate inhibitor of SIRT2. Our research has provided a new approach that can be used to explore potential inhibitors from TCM. This could potentially pave the way for the creation of effective medicines.
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Synthesis, Antiproliferative Evaluation, and Molecular Docking of Thieno[3,2-e]indazole Derivatives
Authors: Rafat M. Mohareb, Ibram Refat Mikhail, Marwa Soliman Gamaan and Ensaf S. AlwanBackgroundAlthough indazole derivatives are rare and may not be available easily in nature, there are many reports demonstrating their pharmaceutical and other applications.
ObjectiveThis study aimed to synthesize new indazole derivatives and evaluate their anti-proliferative activity to produce new anti-cancer agents.
MethodsCompounds 3a-c were synthesized through the reaction. The 2-aryllidenecyclohexane-1,3-dione derivatives 3a-c were obtained through the reaction of cyclohexane-1,3-dione with aromatic aldehydes used for the synthesis of thieno-[3,2-e]indazole derivatives. These derivatives were characterized by extensive analytical and spectral studies and were further used as starting materials for some heterocyclic transformations to produce biologically active compounds. The antiproliferative activities of the newly synthesized compounds were evaluated against the six cancer cell lines, A549, HT-29, MKN-45, U87MG, SMMC-7721, and H460. Most of the tested compounds exhibited high cytotoxicity except a few compounds.
ResultsIn this study, new compounds were synthesized, characterized, and evaluated toward the selected six cancer cell lines. All tested compounds displayed potent c-Met enzymatic activity with IC50 values ranging from 0.25 to 10.30 nM and potent prostate PC-3 cell line inhibition with IC50 values ranging from 0.17 to 9.31 μM.
ConclusionThe results obtained in this work demonstrated that the variations in substituents within the aryl moiety, together with the attached heterocyclic ring, have a notable influence on the antiproliferative activity. The results obtained in this work encourage further work in the future.
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A Linear and Nonlinear QSAR Analysis of Benzimidazole Derivative XY123 in Prostate Cancer Treatment
Authors: Bing Li and Xiaoqiang LiuBackgroundMetastatic Castration-resistant Prostate Cancer (mCRPC) represents a critical challenge in current prostate cancer treatment. Benzimidazole Derivative XY123 has emerged as a novel inhibitor for its treatment.
ObjectiveThis study aims to establish a robust Quantitative Structure-Activity Relationship (QSAR) model for predicting the activity of Benzimidazole Derivative XY123 derivatives, aiding the development of novel anti-prostate cancer drugs.
MethodsUtilizing CODESSA software, descriptors were computed based on various moieties of Benzimidazole Derivative XY123 derivatives. Multiple linear regression models were constructed, and both linear and nonlinear QSAR models were developed using heuristics and gene expression programming.
ResultsThe linear model with two descriptors demonstrated the best predictive capacity for inhibitor activity, while the nonlinear model generated through Gene Expression Programming (GEP) exhibited correlation coefficients of 0.83 and 0.82 for the training and test sets, respectively. The average errors were 0.03 and 0.05, indicating the stability and the improved predictive ability of the nonlinear model.
ConclusionThe QSAR linear model has an advantage over the nonlinear model in optimizing Benzimidazole Derivative XY123, providing a direction for the development of effective drugs for mCRPC treatment.
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Design, Synthesis, and In vitro Biological Activities of Matrine Skeleton Derivatives as Potential Cancer Inhibitors
Authors: Bin Zhou, Lisheng Wang, Yongquan Wei, Meiyan Jiang and Xingdong WangBackgroundThirteen derivatives were designed and synthesized based on the excellent lead compound Matrine.
ObjectiveThis study aimed to discover novel anticancer agents with superior anticancer activity and to support the discovery of new drugs.
MethodsThe in vitro antiproliferative activity of all derivatives against four human cancer cells, A549, HGC-27, HCT-116, and HeLa, was determined by MTT. The best active compounds were subjected to cell cloning, migration, cell cycle and apoptosis, and molecular docking.
ResultsCompound 5XI showed the best activity against all four cell lines, especially against A549 cells, with an IC50 of 5.805 μmol/L. The antiproliferative activity of 5XI was much higher than that of matrine and only slightly weaker than that of Cisplatin, a multi-targeted small molecule inhibitor. 5XI also showed excellent inhibitory activity in cell cycle, apoptosis, cell scratch, and cell cloning assays and has shown good affinity in docking studies.
Conclusion5XI has excellent antiproliferative activity, significantly inhibits cell cloning and migration, affects cancer cell cycle distribution, and induces apoptosis in a concentration-dependent manner, making it a potential anticancer drug agent.
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Structural Insights into Mouse β3-adrenergic Receptor: A Promising Target for Obesity and Diabetes Therapeutics
Authors: Vijayalakshmi Gangadhara, Kavishankar Gawli and Asha AbrahamBackgroundInvestigating the structural attributes of the murine beta3-adrenergic receptor (β3-AR) is imperative for comprehending metabolic regulation, given its close resemblance to the human β3-AR. This receptor holds promise as a target for novel drug development against obesity and diabetes. Despite its potential, the absence of knowledge regarding the structure of murine β3-AR hampers a comprehensive understanding of its functionality.
ObjectiveOur study aimed to model the three-dimensional (3D) structure of murine β3-AR through various molecular structure prediction and simulation techniques, thus addressing the existing gap in structural information.
MethodsEmploying diverse structure prediction programs, we refined the predicted structure of murine β3-AR. Primary sequence analysis offered insights into charge distribution, stability, and hydrophobic properties. The binding sites were identified in the modeled structure. Molecular Dynamics (MD) simulation provided the structural stability and dynamic behavior of the predicted β3-AR structure.
ResultsThe β3-AR protein exhibited specific characteristics, including a pI of 9.57, an aliphatic index of 98.35, a GRAVY score of 0.289, and the presence of conserved motifs and disulfide linkages. Utilizing the programs such as Phyre2, SWISS MODEL, I-Tasser, and AlphaFold2, we generated a 3D model of murine β3-AR. Subsequent refinement using ModRefiner revealed a structure comprising 13 helices, 2 strands, and 21 turns. The Ramachandran plot indicated favorable regions for 93.2% of residues, with minimal deviations. A 50 ns MD simulation demonstrated the consistent stability and integrity of the β3-AR protein. The top three binding pockets were identified based on varying areas and volumes. Dynamic behavior within residues Ser 252 and Arg 253 was observed, indicating flexibility in conformation. This study marks the first-ever exploration, offering initial structural insights into murine β3-AR.
ConclusionThis study underscores the critical role of computational approaches in predicting the 3D structure of β3-AR. We derived a refined model by employing diverse prediction techniques, elucidating key features. The findings emphasize the significance of this methodology in comprehending the structural foundation of β3-AR, providing valuable insights for targeted medication development against conditions such as obesity and diabetes.
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- Drug Design, Discovery and Therapy, Drug Design & Discovery, Medicinal Chemistry, Pharmacology
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Do Anticancer Medicinal Compounds have DNMT1 Regulating Activity: An In silico Investigation
Authors: Fahad Hassan Shah and Song Ja KimBackgroundDNA methyltransferases (DNMTs) are a group of epigenetic enzymes implicated in regulating gene expression in actively dividing cells. Among these enzymes, DNMT1 plays a leading role in causing increased DNA methylation of tumor suppressors and other genes in cancer cells. This methylation event disrupts the cell cycle regulating genes, allowing an uninterrupted proliferation of cancer cells, and stimulating the inhibition of the degradation of proteins and aberrant transcription activation. Cytosine analog drugs have been shown to reduce DNA methylation but provoke the expression of other prometastatic genes. On the other hand, medicinal compounds act similarly to cytosine analogs by reducing the expression and activity of DNMT1, as reported in some in vitro cancer studies. However, it remains a mystery what those promising medicinal compounds are that show such activity.
ObjectivesThe objective of this study was to screen medicinal compounds that reduce the expression and interact with the active site residues of DNMT1.
MethodsTo analyze medicinal compounds against DNMT1, two in silico tools were employed: DIGEP-pred and IGEMDOCK to discover and identify 98 lead medicinal compounds having anticancer potential, capable of regulating DNMT1 expression and activity.
ResultsOur results have identified twenty (20) medicinal compounds that reduced the expression of DNMT1 up to 50-77% as compared to the standard cytosine analog (91.5%). These compounds have also interacted with the reported active site residues of DNMT1, as predicted by IGEMDOCK. These compounds have adequate druglikeness, toxicity, and pharmacokinetic properties as described by Protox-II and ADMET lab 2.0.
ConclusionThus, our study provides an initial report of those medicinal compounds that have DNMT1 targeting ability and have a relatively safer pharmacokinetic and toxicity profile.
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Volumes & issues
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Volume 21 (2024)
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Volume 20 (2023)
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Volume 19 (2022)
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Volume 18 (2021)
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Volume 17 (2020)
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Volume 16 (2019)
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Volume 15 (2018)
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Volume 14 (2017)
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Volume 13 (2016)
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Volume 12 (2015)
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Volume 11 (2014)
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Volume 10 (2013)
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Volume 9 (2012)
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Volume 8 (2011)
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Volume 7 (2010)
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Volume 6 (2009)
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Volume 5 (2008)
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Volume 4 (2007)
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Volume 3 (2006)
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Volume 2 (2005)
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Volume 1 (2004)