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Background: The recent emergence of fungal resistance strains has caused concern in medical settings. Medicinal plants continue to be viable sources of bioactive chemicals with therapeutic potential. These compounds can be extracted in different techniques using various solvents that give rise to a wide variety of extracted bioactive compounds that act as anti-fungal. The research aimed to evaluate the effect of fenugreek seed extracts on resistant isolates of Candida spp. isolated from sever COVID-19 patients. Methodology: The study was conducted from August 2021 to November 2022 at Al-Imam Al-Hussein Medical City and Al-Hayat Respiratory Diseases Units. Under a specialist's physician's supervision, severe COVID-19 cases were collected. The collected 455 sputum samples were examined directly and cultured on Sabouraud's Dextrose agar (SDA) media;growth colonies were distinguished and used Grams stain with the API system before the antifungal susceptibility test was performed in accordance with clinical and laboratory standards institute (CLSI 2020) by disc diffusion method to differentiate the resistance microorganism. The extraction process was conducted using the soxhlet technique (100 grams of seed powder and 800 milliliters of solvents (chloroform, methanol, and water) for eight hours. Electrical rotatory evaporators were used to evaporate the extract to get the concentrated crude extracts. FTIR and GC-MS instruments used to detection of bioactive compounds in crude fenugreek seed extracts(aqueous, methanol, and chloroform). Then, different concentrations of each extract (25, 50, 100, and 150 mg/ml) and their effect against the tested resistance study isolated were examined by well diffusion method and Minimum inhibitory concentration was measured. Result(s): A 455 were enrolled in this study. Patients' ages ranged from 20 to 91 years (mean 52.23, SD 15.009). This study indicated that more than half of the samples were males [(262) 57.6%] and [(193) 42.4%] were females. The FTIR and GC-MS showed the methanolic extract potent the most bioactive compounds, followed by the chloroform and water extracts. Evaluation of antimicrobial effects at 50 mg/ml, the methanolic extract showed the greatest effect, with a mean inhibition zone of 9.33 mm and a significant value of 0.01;at 100 mg/ml, the chloroform extract showed the next greatest effect, with a mean inhibition zone of 10.33 mm and a significant value of 0.005. At 150 mg/ml, the aqueous extracts showed the least effect, with a mean inhibition zone of 8.33 mm and a non-significant value of 0.024. Conclusion(s): Candida spp. were most frequent isolated yeast from sputum of patients with severe COVID-19. Methanol extract was the most effective anti-candida, followed by chloroform extract, and the aqueous extract was the least effective. The most effective anti-candida drug is ketoconazole.Copyright © 2022.
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Context: COVID-19 was caused by the spread and transmission of SARS-CoV-2 at the end of 2019 until now. The problem comes when antiviral drugs have not yet been found and patients infected with SARS-CoV-2 can trigger a cytokine storm condition due to the effects of viral replication. Indonesia has various kinds of medicinal plants, such as Sonchus arvensis L., which are used as medicinal plants. Aim(s): To analyze the activity of the inhibitor as SARS-CoV-2 antiviral agents from n-hexane fractions of S. arvensis leaves. Method(s): The sample was collected from GC-MS analysis, PubChem, and Protein Databank database, then drug-likeness identification using Lipinski Rule of Five server and bioactive prediction of bioactive compounds as inhibitor activity was conducted by Molinspiration server. Furthermore, the docking simulation was performed using PyRx 0.9.9 software to determine the binding activity, molecular interaction by Discovery Studio software to identify position and interaction type, 3D molecular visualization by PyMol 2.5. software, and dynamic by CABS-flex 2.0 server to predict interaction stability. Result(s): alpha-Amyrin and beta-amyrin from n-hexane fractions of S. arvensis leaves had activity as SARS-CoV-2 inhibitors through interactions on helicase, RdRp, Mpro, and RBD-Spike, both compounds had more negative binding affinity than control drug and can produce stable chemical bond interactions in the ligand-protein complexes. However, the results were merely computational, so they must be validated through an in vivo and in vitro research approach. Conclusion(s): Sonchus arvensis L. leaves were predicted to have SARS-CoV-2 antiviral through inhibitor activity by alpha-amyrin and beta-amyrin. Copyright © 2022 Journal of Pharmacy & Pharmacognosy Research.
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The COVID-19 pandemic, caused by the SARS-CoV-2, has prompted international concern. This research aims to find bioactive phytocompounds from the traditional herb Icacina trichantha (Oliv) that could be used as a possible SARS-CoV-2 nonstructural protein inhibitor. GC-MS analysis identified fifteen (15) phytocompounds. In silico molecular docking, drug-likeness, toxicity and prediction of these compounds’ substance activity spectra (PASS) were evaluated. The phytocompounds all have good binding energies, according to molecular docking. The phytocompound, 9,12-octadecanoic acid gave the best binding affinity of-24.98 kcal/mole. All of the identified compounds conformed to Lipinski’s Rule of Five (RO5). This showed that the identified I. trichantha (Oliv) compounds would have lower attrition rates during clinical trials and thus have a better chance of being marketed. The current findings suggest that the discovered phytocompounds of I. trichantha (Oliv) could be developed as a novel COVID-19 medication.
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Eucalyptus essential oils are well-known and used especially in upper respiratory tract pathologies or diseases as herbal drug preparations. In the present study, the in vitro angiotensin-converting enzyme 2 (ACE2) and lipoxygenase (LOX) enzyme inhibitory potentials of commercial Eucalyptus globulus Labill. and Eucalyptus citriodora Hook. essential oils were evaluated for their potential anti-coronavirus disease 2019 (COVID-19), and anti-inflammatory effects. In addition, the major components, 1,8-cineole and citronellal, were evaluated for their ability to bind at the active site of either human ACE2 or human 5-LOX using an in silico setting. Before activity evaluation, Eucalyptus globulus and E citriodora essential oils were analysed by GC/FID and GC/MS, where 1,8-cineole (30%), and citronellal (80%) were identified as the major components, respectively. The in vitro ACE2 inhibition was calculated as 94.9% for E globulus, and that of E citriodora essential oil as 83.4%. In vitro LOX inhibition experiments for essential oils in the same order showed inhibitions of 71.3 and 91.4%, respectively, at 20 µg/mL test concentrations in microplate-based fluorometric assays. In addition, protein–ligand docking, and interaction profiling was used to gain structural and mechanistic insights into the in silico ACE2 and LOX inhibitory potentials of the major Eucalyptus essential oil constituents, 1,8-cineole as well as citronellal. The resulting data supported the in vitro findings;however, further in vivo studies are needed to confirm the activity.
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Introduction: Berberis tinctoria an evergreen shrub, endemic and predominantly found at a higher altitude of the Nilgiri Biosphere Reserve, India. This leaf and fruit are edible, which are also used in homeopathic remedies for countless illnesses. Objectives: B. tinctoria with diverse ethnomedicinal uses was focused in the prevailing study to detailed the phytochemical and pharmacological properties for further imminent research in this species. Materials and methods: Published data in this review were all gathered from the online bibliographical databases: PubMed, Elsevier, Scopus, Google Scholar, Web of Science, and local ethnic community peoples of Kurumba and Toda. Results: B. tinctoria was used as a Ayurvedic and homeopathy medicine by the tribal communities. The previous findings of B. tinctoria were used for skin diseases, wound healing, inflammatory, menorrhagia, diarrhea, jaundice, and a snakebites. The phytochemical studies revealed that secondary metabolites, antioxidants, and antimicrobial activity as a result of major alkaloid isoforms of berberine, berbamine, jatrorrhizine, etc. Conclusion: B. tinctoria is an important plant due to the presence of bioactive phytochemicals, especially berberine protoberberine group of benzylisoquinoline. As a result of its diverse ethnopharmacological importance, as well as numerous commercial products and novel bioactive compounds yet to be discovered for future drug discovery and development.
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Context: COVID-19 is a pandemic that has affected the entire population, characterized by multisystemic involvement. With around 130 million cases of infection and more than 2.5 million deaths globally. However, the development of a low-efficacy treatment has led to the study of natural products as possible therapeutic alternatives against SARS-CoV-2. Aims: To identify volatile compounds present in two plants in the Colombian Pacific and carry out in-silico studies to search for promising inhibitory molecules against SARS-CoV-2 proteases. Methods: This research carried out the identification of metabolites of two plants identified in the Colombian Pacific, called P. scaberrima (Juss. ex Pers.) Moldenke y D. ambrosioides (L.) Mosyakin & Clemants. Ethanolic extracts were obtained by rotary-evaporation and determinated by GC-MS. Subsequently, in-silico studies were carried out by molecular docking against Mpro and PLpro using Autodock-vina 1.1. Also, a prediction of ADMET properties using SwissADME and GUSAR-Online server was performed. Results: Thus, 15 volatile compounds with similarities greater than 85% were identified from both extracts, mostly sesquiterpenic and monoterpenic compounds. The compounds that showed the highest affinity against Mpro were α-amorphene and phytol for PLpro. Likewise, these were contrasted with co-crystallized molecules such as boceprevir and VIR2-251 as control structures. Finally, the predictions of ADMET properties showed values consistent with the literature. Conclusions: Therefore, the follow-up of in-silico studies with these plants from Colombian pacific are considered as possible tools in the search for active molecules against proteases linked to virus.
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Background: COVID-19 infection-associated cognitive and olfaction impairments have an unclear pathogenesis, possibly related to systemic disease severity, hypoxia, or illness-associated anxiety and depression. A biomarker for these neurocognitive changes is lacking. The kynurenine pathway (KP) is an interferon stimulated myeloid cell mediated tryptophan degradation pathway important in immune tolerance, neurotoxicity and vascular injury, that is dysregulated in COVID-19. We hypothesized that neurocognitive impairments were associated with an activated KP. Methods: The current analysis includes COVID-19 patients as part of the ADAPT study, a prospective cohort (St Vincent's Hospital Sydney, Australia). Disease severity was assessed with 18 acute symptoms and hospitalization status. Blood samples were taken 2 months (N=136) and 4 months (N=121) post diagnosis along with cognitive (Cogstate Computerized Battery, CBB;NIH toolbox Odor Identification Test, OIT) and mental health screenings (DMI-10;IESR, SPHERE-34 Psychological subscale grouped into a composite score). KP metabolites (PIC, QUIN, 3HK, 3HAA, AA, KYN, TRP, log for analyses except for TRP) were measured by GC-MS and uHPLC. The CBB and OIT data were demographically-corrected. CBB follow-up data was also corrected for practice effect. Linear mixed effect regression models with time effect (days post diagnosis) tested whether cognition, and olfaction were associated the KP (main and time interaction);while correcting for disease severity, mental health and comorbidities. Results: 136 patients: mean age=46±15;40% females;90% English speaking background;disease severity: 40% mild, 50% moderate, 10% severe/hospitalised;34% treated comorbidities. At 2 months post diagnosis, 16% had cognitive impairment, and 25% had impaired olfaction. Cognitive impairment was more common in those with anosmia (p=.05). At 4 months, 23% had cognition impairment and 20% had impaired olfaction. QUIN (p=.001), 3HAA (p<.0001) increased over the study period, while TRP decreased (p=.02). QUIN level associated with poorer cognitive scores (p=.0007;QUIN (nM) between 800-1000 was most predictive). There was no time∗QUIN interaction. QUIN association to cognition persisted when severe cases were excluded (p<.005). Conclusion: COVID-19 is associated with KP activation, and the latter with cognitive impairment. QUIN was the only biomarker associated with cognitive impairment, and may be useful in monitoring and elucidating COVID-19 neuropathogenesis and treatment.
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In this present study, commertially available Salvia triloba L., S.officinalis L., and S. sclarea L. essential oils were evaluated for their in vitro angiotensin converting enzyme 2 (ACE2) inhibitory activity. The Salvia essential oils compositions were confirmed both by GC-FID and GC/MS. Main components of the S. triloba essential oil was characterized as 1,8-cineole (22.8%), camphor (17.2%), α-thujone (15.2 %), β-caryophyllene (11.4 %), and α-humulene (3%). Major constiutents were identified as α-thujone (28.5 %), camphor (20.6 %), 1,8-cineole (10.9%), α-humulene (5%), and camphene (4.9 %) in S. officinalis essential oil. Whereas, linalylacetate (56.8 %), linalool (21.1%), α-terpineol (6.1%), geraniol (5%), and β-caryophyllene (3.4%) were the major components of S. sclarea essential oil. The essential oils were evaluated using a fluorometric multiplate based enzyme inhibition kit, where the ACE2 inhi-bitions of S. triloba, S. officinalis, and S. sclarea essential oils were 50.1%, 60.5%, and 72.1% at a concentration of 20 µg/mL, respectively. As a result, further tests of Salvia essential oils supported by in vivo studies may have antiviral potential ap-plications against coronaviruses due to ACE2 enzyme inhibitions.
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The diversity in Jordan’s flora due to its geographical areas make is well noted in the scientific literature. The challenge of disease and death caused by infectious diseases like viruses and bacteria, and as infectious diseases evolve and pathogens develop resistance to existing pharmaceuticals, the search for new novel leads, possibly with different modes of action, against bacterial and viral diseases has intensified in recent years. The intent of this review is to provide prevalent information on the antibacterial and antiviral potential in medicinal plants in Jordan, mode of action, type of viruses and bacteria, and phytochemical contents. It has been demonstrated by several studies presented in this review that medicinal plants in Jordan are rich in phytochemicals and possess antiviral and antibacterial properties.
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This work explored the compositions of a crude extract of peels of Citrus x aurantium using a gas chromatography-mass spectrometry (GC-MS) technique. The crude extract of peels of C. × aurantium was analyzed by GC-MS revealing the presence of limonene as the major compound, accounting for 93.7% of the total. Virucidal activity of the oil of C. x aurantium peels against influenza A virus H1N1 was evaluated by the ASTM E1053-20 method. Moreover, the virucidal activity was also investigated of D-limonene, the major terpene in essential oils of C. x aurantium, and its enantiomer L-limonene. The essential oil of the C. x aurantium peels produced a log reduction of 1.9 to 2.0, accounting for 99% reduction of the virus, while D- and L-limonene exhibited virucidal activity with a log reduction of 3.70 to 4.32 at concentrations of 125 and 250.0 µg/mL, thus reducing the virus by 99.99%. Previous work found that D-limonene exhibited antiviral activity against herpes simplex virus, but L-limonene, an enantiomer of D-limonene, has never been reported for antiviral activity. This work demonstrates the antiviral activity of L-limonene for the first time. Moreover, this work suggests that concentrations of 0.0125% to 0.025% of either D- or L-limonene can possibly be used as a disinfectant against viruses, probably in the form of essential oil sprays, which may be useful disinfectants against the airborne transmission of viruses, such as influenza and COVID-19.