A Review on Therapeutic Potential of Indian Herbal Plants to Counter Viral Infection and Disease Pathogenesis

Herbal plant extracts or purified phytocomponents have been extensively used to treat several diseases since ancient times. The Indian Ayurvedic system and Chinese traditional medicines have documented the medicinal properties of important herbs. In Ayurveda, the polyherbal formulation is known to exhibit better therapeutic efficacy compared to a single herb. This review focuses on six key ayurvedic herbal plants namely, Tinospora cordifolia, Withania somnifera, Glycyrrhiza glabra/Licorice, Zingiber officinale, Emblica officinalis and Ocimum sanctum. These plants possess specific phytocomponents that aid them in fighting infections and keeping body healthy and stress-free. Plants were selected due to their reported antimicrobial and anti-inflammatory effects in several diseases and effectiveness in controlling viral pathogenesis. An ad-vanced literature search was carried out using Pubmed and google scholar. Result(s): These medicinal plants are known to exhibit several protective features against various diseases or infections. Here we have particularly emphasized on antioxidant, anti-inflammatory, anti-microbial and immunomodulatory properties which are common in these six plants. Recent literature analysis has revealed Ashwagandha to be protective for Covid-19 too. The formulation from such herbs can exhibit synergism and hence better effectiveness against infection and related dis-eases. The importance of these medicinal herbs becomes highly prominent as it maintains the har-monious balance by way of boosting the immunity in a human body. Further, greater mechanistic analyses are required to prove their efficacy in fighting infectious diseases like Covid-19. It opens the arena for in-depth research of identifying and isolating the active components from these herbs and evaluating their potency to inhibit viral infections as polyherbal formulations.Copyright © 2023 Bentham Science Publishers.

Ayurvedic Herbs Advised for COVID-19 Management: Therapeutic Potential and Clinical Relevance

Coronavirus disease 2019 (COVID-19) caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has spread worldwide. There is no effective medication for COVID-19 as of now, so it would be good to take preventive measures that not only boost our immunity but also fight against infections. The use of traditional Chinese medicine in China to treat COVID-19 patients sets the prototype demonstrating that traditional medicines can contribute to prevention and treatment successfully. In India, the Ministry of AYUSH (Ayurveda, Yoga, Unani, Siddha, Homeop-athy) released a self-care advisory during the COVID-19 crisis as a preventive aspect. This review article discusses the therapeutic potential and clinical relevance of some herbs [(Tulsi (Ocimum sanctum), Haridra (Curcuma longa), Tvaka (Cinnamon), Maricha (Piper longum), Shunthi (Zingi-ber officinale), Munakka (Dried grapes), Lavang (Syzigiumaromaticum), Pudina (Mentha arvensis), and Ajwain (Trachyspermum ammi)] advised by AUYSH to take during COVID-19 infection. They are effective in COVID-19 management, therefore, authors have discussed their detailed traditional uses as therapeutics and spotted scientific insight and clinical significance of the herbs mentioned above along with their mechanistic viewpoint, adequately, on a single platform. Provided information could be a treasure to open up a new research arena on natural products to manage human health crises effectively, caused not only by COVID-19 but also by other infectious diseases.Copyright © 2023 Bentham Science Publishers.

The Potential of Ameliorating COVID-19 and Sequelae From Andrographis paniculata via Bioinformatics.

The current coronavirus disease 2019 (COVID-19) outbreak is alarmingly escalating and raises challenges in finding efficient compounds for treatment. Repurposing phytochemicals in herbs is an ideal and economical approach for screening potential herbal components against COVID-19. Andrographis paniculata, also known as Chuan Xin Lian, has traditionally been used as an anti-inflammatory and antibacterial herb for centuries and has recently been classified as a promising herbal remedy for adjuvant therapy in treating respiratory diseases. This study aimed to screen Chuan Xin Lian's bioactive components and elicit the potential pharmacological mechanisms and plausible pathways for treating COVID-19 using network pharmacology combined with molecular docking. The results found terpenoid (andrographolide) and flavonoid (luteolin, quercetin, kaempferol, and wogonin) derivatives had remarkable potential against COVID-19 and sequelae owing to their high degrees in the component-target-pathway network and strong binding capacities in docking scores. In addition, the Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway analysis showed that the PI3K-AKT signaling pathway might be the most vital molecular pathway in the pathophysiology of COVID-19 and long-term sequelae whereby therapeutic strategies can intervene.

Drought Stress Stimulates the Terpenoid Backbone and Triterpenoid Biosynthesis Pathway to Promote the Synthesis of Saikosaponin in Bupleurum chinense DC. Roots.

Bupleurum chinense is an important medicinal plant in China; however, little is known regarding how this plant transcribes and synthesizes saikosaponins under drought stress. Herein, we investigated how drought stress stimulates the transcriptional changes of B. chinense to synthesize saikosaponins. Short-term drought stress induced the accumulation of saikosaponins, especially from the first re-watering stage (RD_1 stage) to the second re-watering stage (RD_2 stage). Saikosaponin-a and saikosaponin-d increased by 84.60% and 75.13%, respectively, from the RD_1 stage to the RD_2 stage. Drought stress also stimulated a rapid increase in the levels of the hormones abscisic acid, salicylic acid, and jasmonic acid. We screened 49 Unigenes regarding the terpenoid backbone and triterpenoid biosynthesis, of which 33 differential genes were significantly up-regulated during drought stress. Moreover, one P450 and two UGTs are possibly involved in the synthesis of saikosaponins, while some transcription factors may be involved in regulating the expression of key enzyme genes. Our study provides a reference for the cultivation of B. chinense and a practical means to ensure the quality (safety and effectiveness) of B. chinense for medicinal use, as well as insights into the modernization of the China Agriculture Research System.

Phytochemical Contents, Biological Activities and Therapeutic Applications of Hedera Helix (Ivy Leaf) Extracts: A Review

Background: Herbs have long been used as natural therapeutics, and recent controlled clinical studies have confirmed some of the presumed benefits. Hedera helix(ivy leaves) is a valuable common form related to the family Araliaceae. Many herbal preparations include extracts from their leaves as the principle active ingredient. Objective: The objective of this article is to summarize the pharmacological activities and phyto-chemical screening of H. helix. Methods: To prepare this article, the data was collected from different sources, including books, th-esis, research and etc. Results: The all-published studies depend on isolation, identification, and characterization of different active constituents of H. helix leaves, followed by the determination of biological activities in vivo and in vivo. Chemical screening has shown that H. helix leaves are a rich source of phytochem-icals demonstrating therapeutic activities, such as sterols, tannins, terpenoids, glycosides, phenols, emetine alkaloids, flavonoids, saponins, volatile and fixed oils, vitamins, carbohydrates, reducing sugars, and minerals. Further, studies of disease models and clinical trials have demonstrated an-ti-inflammatory, analgesic, cough suppressant, expectorant, anticancer, antimicrobial, anticoagu-lant, and smooth muscle relaxant activities. Conclusion: This review summarizes the bioactive constituents of H. helix leaves and their under-lying pharmacological mechanisms, clinical efficacies, and safety profiles. We also suggest potential therapeutic uses for COVID-19.

A review on ethnomedicinal and phytopharmacological potential of traditionally wild and endemic plant Berberis tinctoria Lesch

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.

Therapeutic potential of plant secondary metabolites in treatment of respiratory viral diseases: A review

Respiratory viral infections are a major public health concern because of their global occurrence, ease of spread and considerable morbidity and mortality. Medical treatments for viral respiratory diseases primarily involve providing relief from symptoms like pain and discomfort rather than treating the infection. Very few antiviral medications have been approved with restrictive usage, high cost, unwanted side effects and limited availability. Plants with their unique metabolite composition and high remedial values offer unique preventive and therapeutic efficacy in treatment of viral infections. The present review is focused on the types and mode of action of plant secondary metabolites that have been used successfully ί in the treatment of infections caused by respiratory viruses like Influenza, SARS, MERS, RSV etc. Plant metabolites such as phenolics, alkaloids, terpenoids and oligosaccharides inhibit attachment and entry of the virus. Others such as flavonoids, viz quercetin and baicalein, alkaloids viz sanguinarine, berberine and emetine, specific lipids and fatty acids prevent viral replication and protein synthesis. These metabolites have the potential to be used as lead molecules that can be optimized to develop potent drugs for effectively combating pandemics caused by respiratory viruses.

Informative Review on Pharmacognostic, Phytochemistry, Ethnopharmacological, and Phytopharmacological Actions of Tinospora cordifolia

Herbal drugs are medicinally and therapeutically active. From ancient times, Tinospora cordifolia belongs to Menispermaceae. This plant generally contains tinosporine, hydroxy ecdysone, furanoid diterpene, tinosponone, terpenoids, sinapic acid, and aliphatic compounds. Major phytopharmacological actions are significantly reported are against Diabetes Mellitus (DM), SARS-CoV-2 syndrome, boost immunity, treat influenza, viral infection, lymphoma, anticancer, antipyretic, effective against several bacteria such as Mycobacterium leprae, Mycobacterium tuberculosis, Neisseria gonorrhoeae and having diverse variety beneficial properties. This review is an endeavor on many isolated chemical components from T. cordifolia, medicinal utilization of this plant against several disorders, ethnopharmacology, phytopharmacological actions.

Anti-Obesity Siddha Medicinal Plants-A Preclinical Review

Obesity is a complex multi factorial preventable disease affecting all age groups of both the sexes. Now one third of world’s population is overweight or obese. From 1980 the world-wide prevalence of obesity has become doubled. Overweight and obesity were the 5th foremost causes of death globally. Obesity is associated with many co morbid diseases. Prevalence of obesity with co morbidities is on big alarm throughout the world. Recently in COVID-19 pandemic most of the obese people get affected due to the co morbidities and reduced immunity. The anti-obesity properties of medicinal plants were known from ancient times in traditional Siddha medicine some thousand years ago. Many Siddha medicinal plants showed anti-obesity activities that can be utilized in the management of obesity, through which the complications of obesity can be prevented. Most researches explored the anti-obesity potentials of medicinal plants. Terminalia chebula, Phyllanthus niruri, zingiber officinale, Piper longum, Curcuma longa, Elettaria cardamomum, Cuminum cyminum, Picrorhiza kurroa, Ipomea turpethum, Tinospora cordifolia, Michelia champaka are some medicinal plants possess anti-obesity properties that had been indicated in Siddha classical text. The objective of this review is to validate the anti-obesity potentials of Siddha medicinal plants scientifically through various research reports. Due to the presence of Phyto compounds like phenols, flavonoids, terpenoids, alkaloids, anti-oxidants these medicinal plants revealed anti-obesity activities and its anti-obesity mechanism had been proven scientifically through various animal experimental studies collected from many research articles. Modern anti-obesity drugs produce numerous side effects. Regular consumption of Siddha anti-obesity medicinal plants, in the prescribed dose and duration, can induce gradual and sustainable weight loss effectively. Furthermore, in future, there is a need for the development of standardized, safe and effective anti-obesity drugs from medicinal plants and highly economical too. Hence eventually exploration of anti-obesity Siddha medicinal plants will lead to safe and effective treatment for obesity.

Antiviral Potential of Indian Medicinal Plants Against Influenza and SARS-CoV: A Systematic Review

The COVID-19 pandemic has posed a significant threat to human health due to the lack of drugs that can potentially act against SARS-CoV-2. Also, even after the emergency approval of WHO, the vaccines’ efficacy is still a question, and people are getting reinfections. Previous studies have demonstrated the efficacy of traditional medicinal plants against influenza and SARS coronavirus. The present article aims to review potential phytochemicals from Indian medicinal plants that may be used against SARS-CoV-2. Articles published in the English language between 1992 and 2021 were retrieved from Embase, PubMed, and Google scholar using relevant keywords, and the scientific literature on efficacies of Indian medicinal plants against SARS-CoV and influenza virus were analyzed. The initial search revealed 1304 studies, but, on subsequent screening, 115 eligible studies were reported. Twenty research articles investigating traditional medicinal plant extracts and metabolites against SARS-CoV and influenza A virus in in vitro and in vivo systems satisfied the search criteria. The studies reported that plant extracts and active compounds such as glycyrrhizin, 14-α-lipoyl andrographolide, and curcumin from medicinal plants such as Yashtimadhu (Glycyrrhiza glabra), Bhunimba (Andrographis paniculata), and Haridra (Curcuma longa) are effective against the various phases of the virus life cycle, viz., virus-host cell attachment, viral replication, 3CL protease activity, neuraminidase activity, adsorption and penetration of the virus. As per ancient Indian literature, plants in Ayurveda possess Rasayana (revitalizing) and Jwara hara (antipyretic, anti-inflammatory) properties. This evidence may be used to conduct experimental and clinical trials to study the underlying mechanisms and efficacy of antiviral properties of Indian medicinal plants against SARS-CoV-2.

Identification of phytochemical inhibitors of SARS-CoV-2 protease 3CLpro from selected medicinal plants as per molecular docking, bond energies and amino acid binding energies.

Recent worldwide outbreak of SARS-COV-2 pandemic has increased the thirst to discover and introduce antiviral drugs to combat it. The bioactive compounds from plant sources, especially terpenoid have protease inhibition activities so these may be much effective for the control of viral epidemics and may reduce the burden on health care system worldwide. Present study aims the use of terpenoid from selected plant source through bioinformatics tools for the inhibition of SARS-COV-2. This study is based on descriptive analysis. The Protein Data Bank and PubChem database were used for the analysis of SARS-COV-2 protease and plant source terpenoids. Molecular docking by using molegro virtual docker (MVD) software was carried out. The findings of study are based on the inhibitory actions of different plant sourced terpenoid against SARS-COV-2. As per the available resources and complementary analysis these phytochemicals have capacity to inhibit 3CLpro protease. The study reports that (3,3-dimethylally) isoflavone (Glycine max), licoleafol (Glycyrrhiza uralensis), myricitrin (Myrica cerifera), thymoquinone (Nigella sativa), bilobalide, ginkgolide A (Ginkgo biloba), Salvinorin A (Salvia divinorum), citral (Backhousia citriodora) and prephenazine (drug) showed high activity against SARS-COV-2 protease 3CLpro. The drug like and ADMET properties revealed that these compounds can safely be used as drugs. Cross structural analysis by using bioinformatics study concludes that these plant source terpenoid compounds can be effectively used as antiprotease drugs for SARS-COV-2 in future.

Investigating the Anti-Viral and Anti-Bacterial activities of Jordanian Medicinal plants: A narrative review

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.

Antiviral activity of Matricaria chamomilla in the treatment of COVID-19: Molecular Docking study

Introduction: SARS-CoV-2 infection is a lethal disease caused by a Novel strain of coronaviruses. Although vaccinations of healthy people and meticulous treatment of infected people are the main global health concerns, some plant species have therapeutic effects against viral infections. Matricaria chamomilla is one of the most famous medicinal plants used to manage flu or flu-like symptoms due to its antiviral bioactivity. M. chamomilla belongs to a large group of medicinal herbs used by Persian scholars such as Avicenna and Rhazes to treat respiratory diseases. It has more than 120 chemical constituents, including terpenoids, flavonoids, and some components with potential medicinal activity. In this study, the inhibitory effect of 2 major flavonoid components of M. chamomilla, apigenin and luteolin, was studies for the main protease protein of SARS-CoV-2. Methods: Molecular docking studies were performed using an in-house batch script (DOCKFACE) of Auto Dock 4.2. The 3D structures of the selected flavonoids were retrieved from PubChem, and each ligand was optimized with MM+ then AM1 minimization method using HyperChem 8. The 3D crystal structure of the main protease protein of SARS-CoV-2 (PDB ID: 6LU7) was obtained from the Protein Data Bank (http://www.rcsb.org./pdb). Results: Apigenin and luteolin exhibited good docking scores against 6LU7 receptor, -7.86 and -7.24, respectively, with a combination of hydrogen bonding, van der Waals, and other hydrophobic interactions in the docked complexes. Besides, the estimated inhibition constants, Ki, showed that luteolin exhibited a better inhibitory effect than apigenin. Conclusions: Based on these results, the authors proposed that M. chamomilla can be considered as a valuable resource recommended for preventing SARS-CoV-2 invasion into the human body. Keywords: COVID-19, M. chamomilla, Persian medicine, Molecular Docking, Herbal medicine

Carvacrol, a Plant Metabolite Targeting Viral Protease (Mpro) and ACE2 in Host Cells Can Be a Possible Candidate for COVID-19.

The recent outbreak of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) started in December 2019, resulting in the coronavirus disease-19 (COVID-19) pandemic. Coronaviruses are solely accountable for rising mortality and socioeconomic saddles. Presently, there are few repurposed drugs such as remdesivir or favipiravir approved for the treatment of COVID-19, although vaccines and plasma therapy is also subject to emergency approval. However, some potential natural treatments and cures have also been proposed. Molecules of natural origin showed therapeutic importance such as antiviral, anti-inflammatory, and antioxidant activity, and could be useful drug candidates for treating COVID-19. In recent years, essential oils have shown promising therapeutic effects against many viral diseases. Carvacrol is one of the monoterpene phenol with abundant presence in essential oils of many aromatic plants, including thyme and oregano. It is being used as food flavoring, additive, and preservatives. Carvacrol is also used as a fragrance in cosmetic products. A number of research studies have shown biological actions of carvacrol with its therapeutic potential is of clinical significance. The in vitro and in vivo studies have shown multiple pharmacological properties such as anticancer, anti-fungal, anti-bacterial, anti-oxidant, anti-inflammatory, vasorelaxant, hepatoprotective, and spasmolytic. This review highlights the various biological and pharmacological properties of carvacrol within the scope of COVID-19.

Endophytes: the novel sources for plant terpenoid biosynthesis.

Terpenoids are natural compounds predominantly present in plants. They have many pharmaceutical and/or nutritional functions, and have been widely applied in medical, food, and cosmetics industries. Recently, terpenoids have been used in the clinical treatment of COVID-19 due to the good antiviral activities. The increasing demand for terpenoids in international markets poses a serious threat to many plant species. For environmentally sustainable development, microbial cell factories have been utilized as the promising platform to produce terpenoids. Nevertheless, the bioproduction of most terpenoids cannot meet commercial requirements due to the low cost-benefit ratio until now. The biosynthetic potential of endophytes has gained attention in recent decades owing to the continual discovery of endophytes capable of synthesizing plant bioactive compounds. Accordingly, endophytes could be alternative sources of terpenoid-producing strains or terpenoid synthetic genes. In this review, we summarized the research progress describing the main and supporting roles of endophytes in terpenoid biosynthesis and biotransformation, and discussed the current problems and challenges which may prevent the further exploitation. This review will improve our understanding of endophyte resources for terpenoid production in industry in the future. The four main research interests on endophytes for terpenoid production. A: Isolation of terpenoid-producing endophytes; B: The heterologous expression of endophyte-derived terpenoid synthetic genes; C: Endophytes promoting their hosts' terpenoid production. The blue dashed arrows indicate signal transduction; D: Biotransformation of terpenoids by endophytes or their enzymes. Key points• The mechanisms employed by endophytes in terpenoid synthesis in vivo and in vitro.• Endophytes have the commercial potentials in terpenoid bioproduction and biotransformation.• Synthetic biology and multiomics will improve terpenoid bioproduction in engineered cell factories.

Bioactive Terpenes and Their Derivatives as Potential SARS-CoV-2 Proteases Inhibitors from Molecular Modeling Studies.

The coronavirus disease 2019 (COVID-19) pandemic is caused by a novel coronavirus; the Severe Acute Respiratory Syndrome Coronavirus-2 (SARS-CoV-2). Millions of cases and deaths to date have resulted in a global challenge for healthcare systems. COVID-19 has a high mortality rate, especially in elderly individuals with pre-existing chronic comorbidities. There are currently no effective therapeutic approaches for the prevention and treatment of COVID-19. Therefore, the identification of effective therapeutics is a necessity. Terpenes are the largest class of natural products that could serve as a source of new drugs or as prototypes for the development of effective pharmacotherapeutic agents. In the present study, we discuss the antiviral activity of these natural products and we perform simulations against the Mpro and PLpro enzymes of SARS-CoV-2. Our results strongly suggest the potential of these compounds against human coronaviruses, including SARS-CoV-2.