Study on active compounds from Maxingganshi decoction for treatment of novel coronavirus pneumonia (COVID-19) based on network pharmacology and molecular docking method

Aim To explore the active compound of Maxingganshi decoction in treatment of novel coronavirus pneumonia(COVID-19). Methods With the help of TCMSP database, the chemical components and action targets of ephedra, almond, licorice, and gypsum in Maxingganshi decoction were searched, and then a C-T network, protein interaction analysis, GO functional enrichment analysis, and KEGG pathway enrichment were constructed. Analysis was performed to predict its mechanism of action. Results A total of 120 compounds in Maxingganshi decoction corresponded to 222 targets. PTGS2, ESR1, PPARG, AR, NOS2, NCOA2 acted on PI3K-Akt signaling pathway, TNF signaling pathway, IL-17 signaling pathway, T cell receptor signaling pathways, etc. The results of molecular docking showed that the affinity of quercetin, kaempferol, glabridin and other core compounds was similar to recommended drugs in treatment of COVID-19. Conclusions The active compounds of Maxingganshi decoction can target multiple pathways to achieve the therapeutic effect of COVID-19.Copyright © 2020 Publication Centre of Anhui Medical University. All rights reserved.

The possibilities of using the effects of ozone therapy in neurology

OBJECTIVES: The beneficial effects of ozone therapy consist mainly of the promotion of blood circulation: peripheral and central ischemia, immunomodulatory effect, energy boost, regenerative and reparative properties, and correction of chronic oxidative stress. Ozone therapy increases interest in new neuroprotective strategies that may represent therapeutic targets for minimizing the effects of oxidative stress. METHOD(S): The overview examines the latest literature in neurological pathologies treated with ozone therapy as well as our own experience with ozone therapy. The effectiveness of treatments is connected to the ability of ozone therapy to reactivate the antioxidant system to address oxidative stress for chronic neurodegenerative diseases, strokes, and other pathologies. Application options include large and small autohemotherapy, intramuscular application, intra-articular, intradiscal, paravertebral and epidural, non-invasive rectal, transdermal, mucosal, or ozonated oils and ointments. The combination of different types of ozone therapy stimulates the benefits of the effects of ozone. RESULT(S): Clinical studies on O2-O3 therapy have been shown to be efficient in the treatment of neurological degenerative disorders, multiple sclerosis, cardiovascular, peripheral vascular, orthopedic, gastrointestinal and genitourinary pathologies, fibromyalgia, skin diseases/wound healing, diabetes/ulcers, infectious diseases, and lung diseases, including the pandemic disease caused by the COVID-19 coronavirus. CONCLUSION(S): Ozone therapy is a relatively fast administration of ozone gas. When the correct dose is administered, no side effects occur. Further clinical and experimental studies will be needed to determine the optimal administration schedule and to evaluate the combination of ozone therapy with other therapies to increase the effectiveness of treatment.Copyright © 2021 Neuroendocrinology Letters.

Jing Si Herbal Drink as a prospective adjunctive therapy for COVID-19 treatment: Molecular evidence and mechanisms

Background: SARS-CoV-2 has led to a sharp increase in the number of hospitalizations and deaths from pneumonia and multiorgan disease worldwide;therefore, SARS-CoV-2 has become a global health problem. Supportive therapies remain the mainstay treatments against COVID-19, such as oxygen inhalation, antiviral drugs, and antibiotics. Traditional Chinese medicine (TCM) has been shown clinically to relieve the symptoms of COVID-19 infection, and TCMs can affect the pathogenesis of SARS-CoV-2 infection in vitro. Jing Si Herbal Drink (JSHD), an eight herb formula jointly developed by Tzu Chi University and Tzu Chi Hospital, has shown potential as an adjuvant treatment for COVID-19 infection. A randomized controlled trial (RCT) of JSHD as an adjuvant treatment in patients with COVID-19 infection is underway Objectives: This article aims to explore the efficacy of the herbs in JSHD against COVID-19 infection from a mechanistic standpoint and provide a reference for the rational utilization of JSHD in the treatment of COVID-19. Method(s): We compiled evidence of the herbs in JSHD to treat COVID-19 in vivo and in vitro. Result(s): We described the efficacy and mechanism of action of the active ingredients in JSHD to treat COVID-19 based on experimental evidence. JSHD includes 5 antiviral herbs, 7 antioxidant herbs, and 7 anti-inflammatory herbs. In addition, 2 herbs inhibit the overactive immune system, 1 herb reduces cell apoptosis, and 1 herb possesses antithrombotic ability. Conclusion(s): Although experimental data have confirmed that the ingredients in JSHD are effective against COVID-19, more rigorously designed studies are required to confirm the efficacy and safety of JSHD as a COVID-19 treatment.Copyright © 2021

Identification of potential anti-pneumonia pharmacological components of Glycyrrhizae Radix et Rhizoma after the treatment with Gan An He Ji oral liquid.

Glycyrrhizae Radix et Rhizoma, a traditional Chinese medicine also known as Gan Cao (GC), is frequently included in clinical prescriptions for the treatment of pneumonia. However, the pharmacological components of GC for pneumonia treatment are rarely explored. Gan An He Ji oral liquid (GAHJ) has a simple composition and contains GC liquid extracts and paregoric, and has been used clinically for many years. Therefore, GAHJ was selected as a compound preparation for the study of GC in the treatment of pneumonia. We conducted an in vivo study of patients with pneumonia undergoing GAHJ treatments for three days. Using the intelligent mass spectrometry data-processing technologies to analyze the metabolism of GC in vivo, we obtained 168 related components of GC in humans, consisting of 24 prototype components and 144 metabolites, with 135 compounds screened in plasma and 82 in urine. After analysis of the metabolic transformation relationship and relative exposure, six components (liquiritin, liquiritigenin, glycyrrhizin, glycyrrhetinic acid, daidzin, and formononetin) were selected as potential effective components. The experimental results based on two animal pneumonia models and the inflammatory cell model showed that the mixture of these six components was effective in the treatment of pneumonia and lung injury and could effectively downregulate the level of inducible nitric oxide synthase (iNOS). Interestingly, glycyrrhetinic acid exhibited the strongest inhibition on iNOS and the highest exposure in vivo. The following molecular dynamic simulations indicated a strong bond between glycyrrhetinic acid and iNOS. Thus, the current study provides a pharmaceutical basis for GC and reveals the possible corresponding mechanisms in pneumonia treatment.

Donepezil Beyond Alzheimer’s Disease? A Narrative Review of Therapeutic Potentials of Donepezil in Different Diseases

Donepezil hydrochloride is an acetylcholine esterase inhibitor studied and approved to treat Alzheimer’s disease (AD). However, this drug can have positive therapeutic potential in treating different conditions, including various neurodegenerative disorders such as other types of dementia, multiple sclerosis, Parkinson’s disease, psychiatric and mood disorders, and even infectious diseases. Hence, this study reviewed the therapeutic potential of this drug in treating Alzheimer’s and other diseases by reviewing the articles from databases including Web of Science, Scopus, PubMed, Cochrane, and Science Direct. It was shown that donepezil could affect the pathophysiology of these diseases via mechanisms such as increasing the concentration of acetylcholine, modulating local and systemic inflammatory processes, affecting acetylcholine receptors like nicotinic and muscarinic receptors, and activating various cellular signaling via receptors like sigma-1 receptors. Despite many therapeutic potentials, this drug has not yet been approved for treating non-Alzheimer’s diseases, and more comprehensive studies are needed.

Study on active compounds from Maxingganshi decoction for treatment of novel coronavirus pneumonia (COVID-19) based on network pharmacology and molecular docking method

Aim To explore the active compound of Maxingganshi decoction in treatment of novel coronavirus pneumonia(COVID-19). Methods With the help of TCMSP database, the chemical components and action targets of ephedra, almond, licorice, and gypsum in Maxingganshi decoction were searched, and then a C-T network, protein interaction analysis, GO functional enrichment analysis, and KEGG pathway enrichment were constructed. Analysis was performed to predict its mechanism of action. Results A total of 120 compounds in Maxingganshi decoction corresponded to 222 targets. PTGS2, ESR1, PPARG, AR, NOS2, NCOA2 acted on PI3K-Akt signaling pathway, TNF signaling pathway, IL-17 signaling pathway, T cell receptor signaling pathways, etc. The results of molecular docking showed that the affinity of quercetin, kaempferol, glabridin and other core compounds was similar to recommended drugs in treatment of COVID-19. Conclusions The active compounds of Maxingganshi decoction can target multiple pathways to achieve the therapeutic effect of COVID-19.

PÚRPURA TROMBOCITOPÊNICA IMUNE SECUNDÁRIA A COVID-19: RELATO DE CASO

Introdução: A Púrpura Trombocitopênica Imune (PTI) é um distúrbio hemorrágico, de caráter autoimune, caracterizado por uma contagem plaquetária inferior a 100.000/mm³. Recentemente, diversos casos secundários à infecção por COVID-19 foram descritos na literatura. Relato de caso: Homem de 61 anos, apresentou-se com quadro de hematúria macroscópica há 12 horas e petéquias em membros inferiores há 1 dia. Referiu ter utilizado no dia anterior 1 comprimido de Xarelto prescrito no serviço de origem. Encontrava-se no 16°dia após início de sintomas gripais leves (cefaleia, tosse, mialgia e febre), com diagnóstico de SARS-CoV-2 por RT-PCR. Exames admissionais: Hb: 15 g/dL;leucócitos: 7860/mm3(diferencial normal);plaquetas: 4000/mm3;creatinina: 0,8 mg/dL;urina 1: hematúria sem dismorfismo eritrocitário;coagulograma dentro dos padrões de normalidade. Ultrassonografia de rins e vias urinárias sem alterações. Após exclusão de outras causas autoimunes e infecciosas iniciou-se 1 mg/kg/dia de prednisona oral. No 3°de internação os exames laboratoriais mostravam anemia (Hb: 11,2 g/dL) e plaquetopenia (3000/mm3). Reticulócitos, bilirrubina indireta, coombs direto, haptoglobina, análise do sangue periférico e desidrogenase lática dentro dos padrões de normalidade. Foi internado em unidade de terapia intensiva, sendo iniciado pulsoterapia com metilprednisolona (1 g/dia). Nos 2 dias subsequentes, em decorrência da persistente redução dos índices hematimétricos (Hb: 7,7 g/dL), optou-se por transfundir um total de 14 unidades de concentrado de plaquetas, com melhora parcial da hematúria e da plaquetopenia (12.000/mm3). No 7°dia de internação, encontrava-se sem sangramentos (Hb: 7,3 g/dL;plaquetas: 17.000/mm3). Recebeu alta da unidade de terapia intensiva com 1 mg/kg/dia de prednisona. No 10°dia de internação foi optado por aumentar a dose de prednisona para 1,5 mg/kg/dia pela manutenção de níveis baixos de plaquetas (15.000/mm3). No 17°dia de internação, paciente recebeu alta hospitalar com 1,5 mg/kg/dia de prednisona, após parcial melhora da plaquetopenia (22.000/mm3) e da anemia (9,1 g/dL). No 12°dia pós-alta (Hb:12,4 g/dL;plaquetas: 112.000/mm3), foi iniciado desmame lento do corticoide, sendo posteriormente suspensa a medicação com manutenção de níveis plaquetários. Discussão: A PTI secundária representa cerca de 14% de todos os casos de doença em adultos. Dentre as principais etiologias, pode-se citar inúmeras infecções virais como hepatite C, citomegalovírus e vírus da imunodeficiência humana. O mecanismo exato da PTI secundária a COVID-19 ainda não está completamente elucidado. Entretanto, assim como em outras infecções virais, a indução de autoimunidade pode ser explicada via mimetismo molecular com a produção de autoanticorpos reativos a certas glicoproteínas na superfície plaquetária. A temporalidade do caso descrito está em consonância com a literatura. Em uma revisão sistemática com 45 casos de PTI secundária à COVID-19 o diagnóstico, em cerca de 80% dos casos, foi realizado dentro das primeiras 3 semanas do início dos sintomas virais. Conclusão: A sequência temporal e a plausabilidade biológica do caso sugerem uma relação causal entre a infecção por COVID-19 e a PTI, ilustrando a importância de atentar-se a possíveis complicações atípicas da doença.

Methylene blue and hydroxocobalamin in a severely vasoplegic lung transplant recipient

INTRODUCTION: Vasoplegia is defined as a refractory shock state with profound hypotension in the setting of reduced systemic vascular resistance and high cardiac output. Lung transplantation is an arduous surgery often requiring cardiopulmonary bypass, which ultimately predisposes to vasoplegia. We detail the treatment of a patient with end-stage lung disease secondary to COVID-19 pneumonia undergoing lung transplant who developed vasoplegia. DESCRIPTION: The patient is a 36-year-old female who was admitted with profound hypoxemic respiratory failure secondary to COVID-19 pneumonia. Despite initial therapy, she remained ventilator-dependent with need for extracorporeal membrane oxygenation (ECMO) support. Given her single organ failure status - lungs being solely affected - she was promptly considered for lung transplant evaluation upon resolution of her active SARS-CoV-2 infection. She was ultimately deemed appropriate for listing and underwent subsequent transplant. The surgery required the use of cardiopulmonary bypass, given the extensive adhesions of the native COVID-19-infected lungs. The lungs were, unfortunately, quite necrotic, with multiple purulent pockets. She was profoundly hypotensive throughout the surgery and required massive fluid resuscitation, as well as multiple vasopressors. In the setting of this vasoplegia, she received multiple doses of methylene blue at 2 mg/kg, with only marginal improvement in blood pressure. Decision was made to add high-dose (5 g) hydroxocobalamin in an attempt to synergistically stabilize blood pressure. Intraoperatively, her blood pressure stabilized within hours;she remained on ECMO support and was transferred to the ICU postoperatively. Eventually, she was slowly weaned from her vasopressors, with stable blood pressure. DISCUSSION: Methylene blue mechanistically inhibits inducible nitric oxide synthase and guanylyl cyclase, while hydroxycobalamin acts as a nitric oxide scavenger. Both agents have been used independently to treat vasoplegia during cardiopulmonary bypass. Together, they may be used as a salvage therapy to improve blood pressure in refractory cases of shock seemingly exacerbated by the cytokine milieu promoted by recent SARS-CoV-2 infection.

Circulating Microvesicle-Associated Inducible Nitric Oxide Synthase Is a Novel Therapeutic Target to Treat Sepsis: Current Status and Future Considerations.

To determine whether mitigating the harmful effects of circulating microvesicle-associated inducible nitric oxide (MV-A iNOS) in vivo increases the survival of challenged mice in three different mouse models of sepsis, the ability of anti-MV-A iNOS monoclonal antibodies (mAbs) to rescue challenged mice was assessed using three different mouse models of sepsis. The vivarium of a research laboratory Balb/c mice were challenged with an LD80 dose of either lipopolysaccharide (LPS/endotoxin), TNFα, or MV-A iNOS and then treated at various times after the challenge with saline as control or with an anti-MV-A iNOS mAb as a potential immunotherapeutic to treat sepsis. Each group of mice was checked daily for survivors, and Kaplan-Meier survival curves were constructed. Five different murine anti-MV-A iNOS mAbs from our panel of 24 murine anti-MV-A iNOS mAbs were found to rescue some of the challenged mice. All five murine mAbs were used to genetically engineer humanized anti-MV-A iNOS mAbs by inserting the murine complementarity-determining regions (CDRs) into a human IgG1,kappa scaffold and expressing the humanized mAbs in CHO cells. Three humanized anti-MV-A iNOS mAbs were effective at rescuing mice from sepsis in three different animal models of sepsis. The effectiveness of the treatment was both time- and dose-dependent. Humanized anti-MV-A iNOS rHJ mAb could rescue up to 80% of the challenged animals if administered early and at a high dose. Our conclusions are that MV-A iNOS is a novel therapeutic target to treat sepsis; anti-MV-A iNOS mAbs can mitigate the harmful effects of MV-A iNOS; the neutralizing mAb's efficacy is both time- and dose-dependent; and a specifically targeted immunotherapeutic for MV-A iNOS could potentially save tens of thousands of lives annually and could result in improved antibiotic stewardship.

The potential of BEN815 as an anti-inflammatory, antiviral and antioxidant agent for the treatment of COVID-19.

Background: The corona virus disease 2019 (COVID-19) pandemic has highlighted the fact that there are few effective antiviral agents for treating severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infections. Although the very recent development of vaccines is an extremely important breakthrough, it remains unclear how long-lived such vaccines will be. The development of new agents therefore remains an important goal. Purpose: Given the multifaceted pathology of COVID-19, a combinatorial formulation may provide an effective treatment. BEN815, a natural nutraceutical composed of extracts from guava leaves (Psidium guajava), green tea leaves (Camellia sinensis), and rose petals (Rosa hybrida), had previously shown to have a therapeutic effect on allergic rhinitis. We investigated whether BEN815 possesses anti-inflammatory, antiviral and antioxidant activities, since the combination of these effects could be useful for the treatment of COVID-19. Study design: We examined the anti-inflammatory effects of BEN815 and its principal active components quercetin and epigallocatechin gallate (EGCG) in lipopolysaccharide (LPS)-induced RAW264.7 cells and in an LPS-challenged mouse model of endotoxemia. We also assessed the antioxidant activity, and antiviral effect of BEN815, quercetin, and EGCG in SARS-CoV-2-infected Vero cells. Methods: The principal active ingredients in BEN815 were determined and quantified using HPLC. Changes in the levels of LPS-induced pro-inflammatory cytokines interleukin (IL)-6 and tumor necrosis factor (TNF)-α were measured by ELISA. Changes in the expression levels of cyclooxygenase (COX)-2 and inducible nitric oxide synthase (iNOS) were analyzed using western blotting. Antioxidant assay was performed using DPPH and ABTS assay. SARS-CoV-2 replication was measured by immunofluorescence staining. Results: BEN815 significantly suppressed the induction of IL-6 and TNF-α as well as COX-2 and iNOS in LPS-induced RAW264.7 cells. In addition, BEN815 protected against LPS-challenged endotoxic shock in mice. Two major constituents of BEN815, quercetin and EGCG, reduced the induction of IL-6 and TNF-α as well as COX-2 and iNOS synthase in LPS-induced RAW264.7 cells. BEN815, quercetin, and EGCG were also found to have antioxidant effects. Importantly, BEN815 and EGCG could inhibit SARS-CoV-2 replications in Vero cells. Conclusion: BEN815 is an anti-inflammatory, antiviral, and antioxidant natural agent that can be used to prevent and improve inflammation-related diseases, COVID-19.

The potential of glycyrrhizin and licorice extract in combating COVID-19 and associated conditions.

Background: Several recent studies have stated that glycyrrhizin and licorice extract are present in most traditional Chinese medicine formulas used against SARS-CoV-2 in China. Significant data are showing that glycyrrhizin and licorice extract have multiple beneficial activities in combating most features of SARS-CoV-2. Purpose: The aim of current review was to highlight recent progresses in research that showed the evidence of the potential use of glycyrrhizin and licorice extract against COVID-19. Methodology: We have reviewed the information published from 1979 to October 2020. These studies demonstrated the effects , use and safety of glycyrrhizin and icorice extract against viral infections,bacterial infections, inflammatory disorders of lung ( in vitro and in vivo).  These studies were collated through online electronic databases research (Academic libraries as PubMed, Scopus, Web of Science and Egyptian Knowledge Bank). Results: Pooled effect size of articles provides information about the rationale for using glycyrrhizin and licorice extract to treat COVID-19. Fifty studies demonstrate antiviral activity of glycyrrhizin and licorice extract. The most frequent mechanism of the antiviral activity is due to disrupting viral uptake into the host cells and disrupting the interaction between receptor- binding domain (RBD) of SARS-COV2 and ACE2 in recent articles. Fifty studies indicate that glycyrrhizin and licorice extract have significant antioxidant, anti-inflammatory and immunomodulatory effects. Twenty five studies provide evidence for the protective effect of glycyrrhizin and licorice extract against inflammation-induced acute lung injury and cardiovascular disorders. Conclusion: The current study showed several evidence regarding the beneficial effects of glycyrrhizin and licorice extract in combating COVID-19. More randomized clinical trials are needed to obtain a precise conclusion.