Bioassay Guided Isolation and α-Glucosidase Inhibition Studies of a New Sesquiterpene from Ochradenus aucheri.

AIMS: The aim of the current study was to explore the anti-diabetic potential of Ochradenus aucheri Boiss (O. aucheri). METHOD: All the fractions of O. aucheri were evaluated for α-glucosidase inhibition, followed by bioassay-guided isolation which resulted in a new sesquiterpenoid, as a potential α-glucosidase inhibitor. RESULTS: The preliminary screening showed that all the fractions including n-hexane (38.0 ± 1.38 µg/mL), dichloromethane (92.6 ± 6.18 µg/mL), ethyl acetate (29.2 ± 0.51 µg/mL) and n-butanol (361.8 ± 5.80 µg/mL) displayed significant α-glucosidase inhibitory activity. The activity-directed fractionation and purification of ethyl acetate fraction led to the isolation of one new sesquiterpenoid, Jardenol (1), and two known metabolites: ß-stitosterol-3-O-ß-D-glucopyranoside (2) and ß-Sitosterol (3). To the best of our knowledge, these metabolites have not been isolated from this plant previously. The structure of the new metabolite 1 was confirmed through 1D and 2D NMR spectroscopy, and MS analysis. Compound 1 showed significant α-glucosidase inhibition with an IC50 value of 138.2 ± 2.43 µg/mL as compared to positive control acarbose (IC50 = 942.0 ± 0.60 µg/mL). Additionally, in-silico docking was employed to predict the binding mechanism of compound 1 in the active site of the target enzyme, α-glucosidase. The docking results suggested that the compound forms strong interactions at the catalytic site of α-glucosidase. CONCLUSION: The results of the present study indicated that the newly purified secondary metabolite, Jardenol, can be a promising anti-diabetic compound.

Synthesis, in vitro biological evaluation and in silico studies of novel pyrrolidine derived thiosemicarbazones as dihydrofolate reductase inhibitors.

Dihydrofolate reductase (DHFR) is a crucial enzyme involved in folate metabolism and serves as a prime target for anticancer and antimicrobial therapies. In this study, a series of 4-pyrrolidine-based thiosemicarbazones were synthesized and evaluated for their DHFR inhibitory activity. The synthesis involved a multistep procedure starting from readily available starting materials, leading to the formation of diverse thiosemicarbazone 5(a-r) derivatives. These compounds were then subjected to in vitro assays to evaluate their inhibitory potential against DHFR enzyme. The synthesized compounds 5(a-r) exhibited potent inhibition with IC50 values in the range of 12.37 ± 0.48 µM to 54.10 ± 0.72 µM. Among all the derivatives 5d displayed highest inhibitory activity. Furthermore, molecular docking and ADME studies were performed to understand the binding interactions between the synthesized compounds and the active site of DHFR. The in vitro and in silico data were correlated to identify compounds with promising inhibitory activity and favorable binding modes. This comprehensive study provides insights into the structure-activity relationships of 4-pyrrolidine-based thiosemicarbazones as DHFR inhibitors, offering potential candidates for further optimization towards the development of novel therapeutic agents.

Synthesis of Novel Indolyl Aryl Sulfone-clubbed Hydrazone Derivatives as Potential HIV-1 Non-Nucleoside Reverse Transcriptase Inhibitors: Molecular Modeling and QSAR Studies.

BACKGROUND: Non-Nucleoside Reverse Transcriptases Inhibitors (NNRTIs) are among the most extensively studied enzymes for understanding the biology of Human Immunodeficiency Viruses (HIV) and designing inhibitors for managing HIV infections. Indolyl aryl sulfones (IASs), an underexplored class of potent NNRTIs, require further exploration for the development of newer drugs for HIV. AIMS: In this context, we synthesized a series of novels by Indolyl Aryl Sulfones with a hydrazone moiety at the carboxylate site of the indole nucleus. A 2D-QSAR model was developed to predict Reverse Transcriptase inhibitory activity against wild-type RT (WT-RT) enzyme. METHOD: The model was successfully applied to predict the HIV-1 inhibitory activity of known Indolyl Aryl Sulfones. Considering the reliability, robustness, and reproducibility of the 2D-QSAR model, we made an in-silico prediction of the RT inhibition for our synthesized compounds (1-14). RESULTS: Molecular docking and dynamics simulations established our synthesized Indolyl Aryl Sulfones, particularly compounds 23, 24, and 28, as effective NNRTIs by stabilizing HIV reverse transcriptase's structure. Binding energy calculations revealed compound 28 as the strongest inhibitor (-43.21 ± 0.09 kcal/mol), followed by 23 (-40.94 ± 0.10 kcal/mol) and 24 (-39.18±0.08 kcal/mol), emphasizing their binding affinity towards HIV reverse transcriptase. CONCLUSION: In summary, the synthesized Indolyl Aryl Sulfones, particularly compounds 23, 24, and 28, demonstrate significant potential as Non-Nucleoside Reverse Transcriptase Inhibitors (NNRTIs) against HIV. These results highlight the promising role of these compounds in developing novel NNRTIs for managing HIV infections.

Synthesis of 2,4-Bis(trifluoromethyl)benzaldehyde Hybrid Thiosemicarbazones as Prolyl Oligopeptidase Inhibitors for Neurodegenerative Disorders and their In-silico Analysis.

INTRODUCTION: Prolyl-specific oligopeptidase (POP), one of the brain's highly expressed enzymes, is an important target for the therapy of central nervous system disorders, notably autism spectrum disorder, schizophrenia, Parkinson's, Alzheimer's disease, and dementia. METHOD: The current study was designed to investigate 2,4-bis(trifluoromethyl) benzaldehyde- based thiosemicarbazones as POP inhibitors to treat the above-mentioned disorders. A variety of techniques, such as nuclear magnetic resonance (NMR), mass spectrometry (MS), and Fourier-transform infrared spectroscopy (FTIR), were used for the structural confirmation of synthesized compounds. After in-vitro evaluation, all of these compounds were found to be prominent inhibitors of the POP enzyme (IC50= 10.14 - 41.73 µM). RESULT: Compound 3a emerged as the most active compound (IC50 10.14 ± 0.72 µM) of the series. The kinetic study of the most active 3a (Ki =13.66 0.0012 µM) indicated competitive inhibition of the aforementioned enzyme. CONCLUSION: Moreover, molecular docking depicted a noticeable role of thiosemicarbazide moiety in the binding of these molecules within the active site of the POP enzyme.

Advances in agar-based composites: A comprehensive review.

This review article explores the developments and applications in agar-based composites (ABCs), emphasizing various constituents such as metals, clay/ceramic, graphene, and polymers across diversified fields like wastewater treatment, drug delivery, food packaging, the energy sector, biomedical engineering, bioplastics, agriculture, and cosmetics. The focus is on agar as a sustainable and versatile biodegradable polysaccharide, highlighting research that has advanced the technology of ABCs. A bibliometric analysis is conducted using the Web of Science database, covering publications from January 2020 to March 2024, processed through VOSviewer Software Version 1.6.2. This analysis assesses evolving trends and scopes in the literature, visualizing co-words and themes that underscore the growing importance and potential of ABCs in various applications. This review paper contributes by showcasing the existing state-of-the-art knowledge and motivating further development in this promising field.

Feasibility of a home-based home videogaming intervention with a family-centered approach for children with cerebral palsy: a randomized multiple baseline single-case experimental design.

BACKGROUND: Worldwide, children with cerebral palsy (CP) living in underserved communities face barriers to accessing motor therapy services. This study assessed the implementation and effectiveness of an 8-week, upper limb (UL) home-based intervention with a movement-tracking videogame (Bootle Blast) in Costa Rican children with CP. METHODS: Children established a weekly playtime goal and two UL activities of daily living (ADLs) that they would like to improve on. A multiple-baseline, single-case experimental design, was used with the Performance Quality Rating Scale (PQRS) as the repeated measure to track changes in performance of the selected ADLs between the baseline (usual care) and intervention (Bootle Blast) phases. The Canadian Occupational Performance Measure (COPM), the Box and Blocks Test (BBT) and the Children's Hand-Use Experience Questionnaire (CHEQ) were collected before and after the intervention. Technical barriers were documented during weekly video calls with a monitoring therapist. Treatment effect size, slope changes and percentage of non-overlapping data were identified for the PQRS. Descriptive statistics summarized results for the BBT, CHEQ, videogame logs (e.g., playtime) and technical barriers. RESULTS: Fifteen children participated and 13 completed the intervention. Both participants who dropped out did so after completing baseline assessments, but before experiencing Bootle Blast. Children's mean active playtime (i.e., mini-games targeting the UL) across the 8-weeks was 377 min, while mean total time spent engaging with Bootle Blast (active + passive play time [e.g., time navigating menus, reviewing rewards]) was 728 min. In total, eight technical issues (from five children) were reported, and all but three were resolved within 48 h. Partial effectiveness was associated with the intervention. Specifically, 85% of participants improved on the PQRS and 69% achieved clinically important improvements ≥ 2 points in performance on the COPM. Children improved by 1.8 blocks on average on the BBT, while on the CHEQ, five children had a clinically important increase of 10% of the total number of UL activities performed with both hands. CONCLUSION: Bootle Blast is a feasible and effective option to facilitate access and engage children with cerebral palsy in UL home rehabilitation. Trial registration Trial registration number: NCT05403567.

Novel efficacy of pregnane and flavonoid glycosides from Desmidorchis flava in in vivo nociceptive and inflammatory paradigms and their target prediction by cheminformatics approach.

Inflammation is associated with multiple life-threatening conditions. Desmidorchis flava is an edible plant and traditionally used for managing various diseases. Three novel molecules, namely desmiflavaside-C (1), nizwaside (2), and desmiflanoside (3) were isolated from Desmidorchis flava, and their structures were confirmed by mass spectrometry and through reported literature. These compounds were in vivo examined for antinociceptive (tonic visceral nociception) and anti-inflammatory (carrageenan induced paw edema) activities. Significant antinociceptive potential was demonstrated by compound 1 at 0.5 and 1 mg/kg doses followed by compounds 2 and 3. At similar doses, significant anti-inflammatory activity was noted for all the tested compounds. Their antinociceptive and anti-inflammatory activities were comparable to the reference standards. In silico predicted binding modes suggests that these compounds may target allosteric sites of COX-1 and COX-2 enzymes to elicit their anti-inflammatory activities. These isolated natural products may have therapeutic potential in conditions afflicted with pain and inflammation.

Design, synthesis, in vitro and in silico studies of novel piperidine derived thiosemicarbazones as inhibitors of dihydrofolate reductase.

Dihydrofolate reductase (DHFR), an essential enzyme in folate metabolism, presents a promising target for drug development against various diseases, including cancer and tuberculosis. Herein, we present an integrated approach combining in vitro biochemical assays with in silico molecular docking analysis to evaluate the inhibitory potential of 4-piperidine-based thiosemicarbazones 5(a-s) against DHFR. In our in vitro study, a novel series of 4-piperidine-based thiosemicarbazones 5(a-s) were assessed for their inhibitory activity against DHFR enzyme. The synthesized compounds 5(a-s) exhibited potent inhibition with IC50 values in the range of 13.70 ± 0.25 µM to 47.30 ± 0.86 µM. Among all the derivatives 5p displayed highest inhibitory activity. Simultaneously, in silico analysis were performed and compared with standard drug (Methotrexate) to predict the binding affinity and interaction pattern of synthesized compounds with DHFR active site. SAR analysis was done to elucidate how structural modifications impact compound's biological activity, guiding the rational design of potent and selective drug candidates for targeted diseases. These findings may provide a comprehensive assessment of 4-piperdine-based thiosemicarbazones as DHFR inhibitors and contribute to the development of novel therapeutics targeting DHFR-associated diseases.

Synthesis of novel 1,2,3-triazole-tethered N-acyl hydrazones as a new class of carbonic anhydrase II inhibitors: In vitro and in silico potentials.

Carbonic anhydrase II (CA II) is crucial for maintaining homeostasis in several processes, including respiration, lipogenesis, gluconeogenesis, calcification, bone resorption, and electrolyte balance. It is a pivotal druggable target which is implicated in glaucoma, renal, gastric, and pancreatic carcinomas, as well as in malignant brain tumours. Therefore, to identify new CA II (bovine) inhibitors, the current study was designed to synthesize a library of 20 new triazole-linked hydrazones (6a-t). All compounds were characterized by using spectroscopic techniques such as NMR and mass spectrometry. The in-vitro evaluation resulted in impressive inhibitory capability against CA II with IC50 values ranging from 9.10 ± 0.26-48.26 ± 1.30 µM. Among all derivatives, compounds 6a, 6b, 6d, 6k-6m, 6q, 6s and 6t exhibited potent inhibitory potential with 6t deemed as the most active inhibitor. Additionally, kinetic study of the hybrid 6t revealed concentration dependent type of inhibition with Ki value 7.24 ± 0.0086 µM. Furthermore, molecular docking of 6t correlates well with the kinetic analysis. The in-silico ADMET indicated that most of the synthesized compounds have properties conducive to drug development.

Synthesis, in vitro and in silico study of novel 1,3-diphenylurea derived Schiff bases as competitive α-glucosidase inhibitors.

Diabetes mellitus has become a major global health burden because of several related consequences, including heart disease, retinopathy, cataracts, metabolic syndrome, collapsed renal function, and blindness. In the recent study, thirty Schiff base derivatives of 1,3-diphenylurea were synthesized and their anti-diabetic activity was evaluated by targeting α-glucosidase. The compounds exhibited an overwhelming inhibitory potential for α-glucosidase with higher potency ranging from 2.49-37.16 µM. The most effective compound, 5h, showed competitive inhibition of α-glucosidase (K i = 3.96 ± 0.0048 µM) in the kinetic analysis and strong binding interactions with key residues α-glucosidase in docking analysis, indicating its potential for better glycemic control in diabetes patients.

Novel benzimidazole-based azine derivatives as potent urease inhibitors: synthesis, in vitro and in silico approach.

Aim: In light of various biological activities of benzimidazole and azines, this study focuses on reporting novel derivatives of benzimidazole nucleus.Methods: Twenty novel azines of benzimidazole were synthesized, characterized and tested for in vitro urease inhibitory activity.Results: All these derivatives showed excellent to good inhibition in the range of IC50 values 14.21 ± 1.87 to 76.11 ± 1.81 µM by comparing with standard thiourea 21.14 ± 0.42 µM. Docking studies were performed for the targeted benzimidazole derivatives to understand the binding mechanics. The results indicated higher binding efficacy compared with the reference inhibitor.Conclusion: This work identifies potential lead candidates for novel urease inhibitors, which with industrial support may be harnessed for the development of new drugs.

[Box: see text].

Morpholine-tethered Novel Hydrazones as Promising Non-peptidic Prolyl Oligopeptidase (POP) Inhibitors: Synthesis In Vitro and In Silico Studies.

INTRODUCTION: Prolyl oligopeptidase (POP) is a pivotal druggable target implicated in diverse biological processes and linked to the development of various ailments, including neurodegenerative disorders. While conventional peptide-based inhibitors have been a centerpiece, their limitations, such as restricted bioavailability, necessitate exploration of non-peptidic inhibitors for their therapeutic potential. METHOD: This study focuses on designing, synthesizing, and assessing morpholine-based hydrazones targeting the catalytic serine residue of POP. The hydrazones (5a-o), reported as moderately potent analogs compared to the renowned Z-Pro-Prolinal, demonstrated in vitro POP inhibition with IC50 values ranging from 13.60 ± 2.51 to 36.51 ± 1.82 µM. The derivative 5h, with an IC50 of 13.60 ± 2.51 µM, emerged as the most potent inhibitor. RESULTS: Moreover, the in vitro kinetic study of compound 5h indicated that it exhibited concentration-dependent type of inhibition. in silico docking studies of 5h revealed robust interactions in the POP enzyme's active site, yielding a docking score of -6.30 Kcal/- mol, consistent with experimental results. CONCLUSION: All findings underscored the potential of synthesized derivatives for drug development.

Exploring the Therapeutic Potential of Coumarin-thiazolotriazole Pharmacophores for SARS-CoV-2 Spike Protein through In-vitro and In-silico Evaluation.

INTRODUCTION: The pandemic caused by SARS-CoV-2 significantly impacted human life around the globe. Numerous unexpected modifications of the SARS-CoV-2 genome have resulted in the emergence of new types and have caused great concern globally. METHOD: Inhibitory effects of bioactive phytochemicals derived from natural and synthetic sources are promising for pathogenic viruses. in vitro and in silico techniques were used in the current study to identify novel inhibitors of coumarin clubbed thiazolo[3,2-b][1,2,4]triazoles against the SARS-CoV-2 spike protein. RESULT: Interestingly, all the tested molecules demonstrated substantial inhibition of spike protein with 91.81-57.90% inhibition. The spike protein was remarkably inhibited by compounds 6k (91.83%), 6j (89.75%), 6m (87.69%),6i (86.60%), 6l (85.40%), 6h (84.70%), 6l (84.70%), 6g (83.40%), 6b (82.60%), 6f (81.90%), while compounds 6d 6a, 6c, and 6e exhibited significant activity against spike protein with 79.60%, 77.10%, 75.30%, and 57.90% inhibition, respectively. The binding mechanism of these novel inhibitors with spike protein was deduced in silico, which reflects that the active molecules firmly bind with the receptor binding domain (RBD) of spike protein, thereby inhibiting its function. CONCLUSION: The combined in vitro and in silico investigations unfold the therapeutic potential of coumarin-thiazolotriazole scaffolds in the treatment of SARS-CoV-2 infection.

Design, synthesis, and in vitro and in silico study of 1-benzyl-indole hybrid thiosemicarbazones as competitive tyrosinase inhibitors.

Developing new anti-tyrosinase drugs seems crucial for the medical and industrial fields since irregular melanin synthesis is linked to the resurgence of several skin conditions, including melanoma, and the browning of fruits and vegetables. A novel series of N-1 and C-3 substituted indole-based thiosemicarbazones 5(a-r) are synthesized and further analyzed for their inhibition potential against tyrosinase enzyme through in vitro assays. The synthesized compounds displayed very good to moderate inhibition with half maximal inhibitory concentration in the range of 12.40 ± 0.26 µM to 47.24 ± 1.27 µM. Among all the derivatives 5k displayed the highest inhibitory activity. According to SAR analysis, the derivatives with 4-substitution at the benzyl or phenyl ring of the thiosemicarbazones exhibited better inhibitory potential against tyrosinase. In silico analysis (including ADMET prediction and molecular docking) was conducted and compared with the standard drug (kojic acid). These findings may help the hunt for new melanogenesis inhibitors that the food and cosmetics industries may find valuable.

Synthesis, in vitro, and in silico study of novel pyridine based 1,3-diphenylurea derivatives as tyrosinase inhibitors.

Tyrosinase inhibitors are studied in the cosmetics and pharmaceutical sectors as tyrosinase enzyme is involved in the biosynthesis and regulation of melanin, hence these inhibitors are beneficial for the management of melanogenesis and hyperpigmentation-related disorders. In the current work, a novel series of diphenyl urea derivatives containing a halo-pyridine moiety (5a-t) was synthesized via a multi-step synthesis. In vitro, tyrosinase inhibitory assay results showed that, except for two compounds, the derivatives were excellent inhibitors of human tyrosinase. The average IC50 value of the inhibitors (15.78 µM) is lower than that of kojic acid (17.3 µM) used as the reference compound, indicating that, on average, these molecules are more potent than the reference. Derivative 5a was identified as the most potent human tyrosinase inhibitor of the series, with an IC50 value of 3.5 ± 1.2  µM, approximately 5 times more potent than kojic acid. To get further insights into the nature of binding site interactions, molecular docking and molecular dynamics simulation studies were carried out. Moreover, the evaluation of in silico ADME properties showed a highly favorable profile for the synthesized compounds. These findings suggested that the further development of this class of compounds could be useful to get potent drug-like compounds that can target hyperpigmentation-related disorders.

Disrupting protease and deubiquitinase activities of SARS-CoV-2 papain-like protease by natural and synthetic products discovered through multiple computational and biochemical approaches.

The single-stranded RNA genome of SARS-CoV-2 encodes several structural and non-structural proteins, among which the papain-like protease (PLpro) is crucial for viral replication and immune evasion and has emerged as a promising therapeutic target. The current study aims to discover new inhibitors of PLpro that can simultaneously disrupt its protease and deubiquitinase activities. Using multiple computational approaches, six compounds (CP1-CP6) were selected from our in-house compounds database, with higher docking scores (-7.97 kcal/mol to -8.14 kcal/mol) and fitted well in the active pocket of PLpro. Furthermore, utilizing microscale molecular dynamics simulations (MD), the dynamic behavior of selected compounds was studied. Those molecules strongly binds at the PLpro active site and forms stable complexes. The dynamic motions suggest that the binding of CP1-CP6 brought the protein to a closed conformational state, thereby altering its normal function. In an in vitro evaluation, CP2 showed the most significant inhibitory potential for PLpro (protease activity = 2.71 ± 0.33 µM and deubiquitinase activity = 3.11 ± 0.75 µM), followed by CP1, CP5, CP4 and CP6. Additionally, CP1-CP6 showed no cytotoxicity at a concentration of 30 µM in the human BJ cell line.

Tuberculosis is the predominant infection in systemic sclerosis: thirty-year retrospective study of serious infections from a single centre.

To look for the spectrum of infections and the factors predisposing to infection in patients with systemic sclerosis (SSc). In this retrospective study, demographic, clinical features, details of infections, immunosuppressive therapy, and outcomes of patients with SSc attending clinics at department of Clinical Immunology and Rheumatology, Sanjay Gandhi Postgraduate Institute of Medical Sciences, Lucknow, India from 1990 to 2022 were captured. Multivariable-adjusted logistic regression was applied to identify independent predictors of infection. Data of 880 patients, mean age 35.5 ± 12 years, and female: male ratio 7.7:1, were analyzed. One hundred and fifty-three patients had at least 1 infection with a total of 233 infectious episodes. Infections were most common in lung followed by skin and soft tissue. Tuberculosis was diagnosed in 45 patients (29.4%). Klebsiella was the commonest non-tubercular organism in lung and Escherichia coli in urinary tract infections. In comparison to matched control group, patients with infection had a greater number of admissions due to active disease, odds ratio (OR) 6.27 (CI 3.23-12.18), were receiving immunosuppressive medication OR, 5.05 (CI 2.55-10.00), and had more digital ulcers OR, 2.53 (CI 1.17-5.45). Patients who had infection had more likelihood for death OR, 13.63 (CI 4.75 -39.18). Tuberculosis is the commonest infection and lung remains the major site of infection in patients with SSc. Number of hospital admissions, digital ulcers and immunosuppressive therapy are predictors of serious infection in patients with SSc. Patients with infections had more likelihood of death.

Literature-based Survey of Medicinal Plants Since 1900: A Case Study to Treat Cancer in the Sultanate of Oman.

ETHNOPHARMACOLOGICAL RELEVANCE: Due to the high prevalence of cancer, researchers for the past decades have made considerable efforts for its management and treatment. Medicinal plants have always been exploited to discover novel anticancer agents. Oman's huge biodiversity has created a rich source of traditional medicine. OBJECTIVE: The current survey has aimed to document the traditionally used medicinal plants of Oman and their therapeutic role in the treatment of cancer. MATERIAL METHOD: This study comprises of literature-based survey through different databases, including Google, Scopus, Google Scholar, Web of Science, Science Direct, Springer Link, BioMed Central and PubMed. RESULTS: The current review revealed a total of 57 plant species that belong to 35 families that are used in the treatment of cancer in Oman. Most documented plants belong to Solanaceae (6 sp.), Apocyanaceae (5 sp.) and Lamiaceae (4 sp.). The literature reveals that the residents of the area mostly use leaves (38.5%) and prepare their recipes in the form of decoction (40.3%). Moreover, herbs are the most dominant life form (43.85%). Among all forms of cancer in Oman, breast (47%), wound (26), and lung cancer (0.5%) were found dominantly. A literature study confirmed that the medicinal plants used for cancer in Oman are rich in phytochemicals such as quercetin, allicin, coumarin, alliin, kaempferol, solamargine, rutin, lupeol, ursolic acid and luteolin that have shown significant biological activities including anti-cancer potential. It reflects the efficacy of these plants to be used as a medicine in clinical trials. Among all, Boswellia sacra Flueck. is of key importance due to the presence Boswellic acid being used for the treatment of different types of cancer. CONCLUSION: The residents of Oman have great knowledge about the traditional use of medicinal plants for the treatment of various diseases like cancer. The therapeutic potential and physiological efficacy of Omani medicinal plants should be further explored at a molecular level via in vivo and in vitro experiments.

Corrigendum to "Antimicrobial topical polymeric films loaded with Acetyl-11-keto-ß-boswellic acid (AKBA), boswellic acid and silver nanoparticles: Optimization, characterization, and biological activity" [Heliyon 10(11) 15th June 2024, e31671].

[This corrects the article DOI: 10.1016/j.heliyon.2024.e31671.].

Phytoconstituents with cardioprotective properties: A pharmacological overview on their efficacy against myocardial infarction.

Myocardial infarction (MI) is considered one of the most common cardiac diseases and major cause of death worldwide. The prevalence of MI and MI-associated mortality have been increasing in recent years due to poor lifestyle habits viz. residency, obesity, stress, and pollution. Synthetic drugs for the treatment of MI provide good chance of survival; however, the demand to search more safe, effective, and natural drugs is increasing. Plants provide fruitful sources for powerful antioxidant and anti-inflammatory agents for prevention and/or treatment of MI. However, many plant extracts lack exact information about their possible dosage, toxicity and drug interactions which may hinder their usefulness as potential treatment options. Phytoconstituents play cardioprotective role by either acting as a prophylactic or adjuvant therapy to the concurrently used synthetic drugs to decrease the dosage or relief the side effects of such drugs. This review highlights the role of different herbal formulations, examples of plant extracts and types of several isolated phytoconstituents (phenolic acids, flavonoids, stilbenes, alkaloids, phenyl propanoids) in the prevention of MI with reported activities. Moreover, their possible mechanisms of action are also discussed to guide future research for the development of safer substitutes to manage MI.