[Ginkgolide B: mechanisms of neurobiological effects, prospects for use in the therapy of Alzheimer's disease]. / Ginkgolid B: mekhanizmy neirobiologicheskikh effektov, perspektivy primeneniya v terapii bolezni Al'tsgeimera.

The review presents an analysis of experimental data on the study of neurobiological effects of ginkgolide B, which may find application in the therapy of Alzheimer's disease (AD). Ginkgolide B is a diterpene trilactone isolated from the leaves of the relict woody plant Ginkgo biloba L., which has been used for thousands of years in traditional Chinese medicine as a neuroprotective agent. In recent years, this compound has attracted attention because of its wide range of neurobiological effects. The neuroprotective effect of ginkgolide B on brain neurons when exposed to various neurotoxins has been established. This compound has also been shown to effectively protect neurons from the effects of beta-amyloid. Studies have revealed the ability of ginkgolide B to reduce microglia activity and regulate neurotransmitter release. In vivo experiments have shown that this substance significantly increases the expression of brain-derived neurotrophic factor (BDNF) and improves cognitive functions, including memory and learning. It is concluded that ginkgolide B, apparently, may find application in the future as a multi-targeted agent of complex therapy of AD.

The efficacy and safety of diterpene ginkgolides meglumine injection for cerebral infarction: A meta-analysis of randomized controlled trials.

OBJECTIVE: To systemically evaluate the efficacy and safety of diterpene ginkgolides meglumine injection (DGMI) on cerebral infarction (CI). METHODS: Comprehensively collect randomized controlled trials of DGMI in the treatment of CI in 7 databases including Embase, PubMed, the Cochrane Library, the China National Knowledge Infrastructure Database, the WanFang Database, the China Science and Technology Journal Database, and the China Biology Medicinedisc as of January 2023. The studies were screened according to the inclusion and exclusion criteria and evaluated according to the criteria recommended by the Cochrane Handbook, then RevMan 5.3, Stata 12.0 software were used for Meta-analysis. RESULTS: A total of 22 randomized controlled trials with 2194 patients were included. Meta analysis showed that: the total effective rate of treatment (relative risk = 1.29, 95% confidence interval (1.21, 1.38), P < .001), National Institute of Health stroke scale score, Barthel index and Modified Rankin Scale were better in DGMI group than in Conventional Western Medicine Treatment group. The included studies reported 42 adverse events, 25 of which belonged to DGMI groups. CONCLUSION: Available evidence suggested that DGMI can significantly improve the clinical efficiency in the treatment of CI. DGMI is an ideal treatment for CI, which has high clinical application value.

Brain-targeted ginkgolide B-modified carbonized polymer dots for alleviating cerebral ischemia reperfusion injury.

Ischemic stroke (IS) is a leading cause of death in the world, and there is still a lack of effective treatments. Ginkgolide B (GB) can antagonize the platelet activating factor receptor and has shown a significant curative effect on cerebral ischemia. However, GB and other drugs for IS have shown poor clinical efficacy due to their inability to cross the blood-brain barrier (BBB). Herein, red fluorescent carbonized polymer dots (CPDs) were developed as biocompatible nanocarriers to deliver GB to the brain tissue. Both in vivo and in vitro experiments verified the ability of GB-CPDs to penetrate the BBB, and GB-CPDs remained in the brain significantly longer than unmodified CPDs. In a rat model of middle cerebral artery occlusion (MCAO), circulatory administration of GB-CPDs effectively reduced cerebral infarct size and neuronal apoptosis, with a significantly better therapeutic effect compared to GB. This study provided a novel GB-based nanodrug that could target the brain with improved efficacy, showing great application potential in central nervous system diseases.

Ginkgolide C attenuates cerebral ischemia/reperfusion-induced inflammatory impairments by suppressing CD40/NF-κB pathway.

ETHNOPHARMACOLOGICAL RELEVANCE: Ginkgo biloba L. (Ginkgoaceae), a traditional Chinese medicine, has been applied for thousands of years for the treatment of cardio-cerebral vascular diseases in China. It is written in Compendium of Materia Medica that Ginkgo has the property of "dispersing poison", which is now referred to as anti-inflammatory and antioxidant. Ginkgolides are important active ingredients in Ginkgo biloba leaves and ginkgolide injection has been frequently applied in clinical practice for the treatment of ischemic stroke. However, few studies have explored the effect and mechanism of ginkgolide C (GC) with anti-inflammatory activity in cerebral ischemia/reperfusion injury (CI/RI). AIM OF THE STUDY: The present study aimed to demonstrate whether GC was capable of attenuating CI/RI. Furthermore, the anti-inflammatory effect of GC in CI/RI was explored around the CD40/NF-κB pathway. MATERIALS AND METHODS: In vivo, middle cerebral artery occlusion/reperfusion (MCAO/R) model was established in rats. The neuroprotective effect of GC was assessed by neurological scores, cerebral infarct rate, microvessel ultrastructure, blood-brain barrier (BBB) integrity, brain edema, neutrophil infiltration, and levels of TNF-α, IL-1ß, IL-6, ICAM-1, VCAM-1, and iNOS. In vitro, rat brain microvessel endothelial cells (rBMECs) were preincubated in GC before hypoxia/reoxygenation (H/R) culture. The cell viability, levels of CD40, ICAM-1, MMP-9, TNF-α, IL-1ß, and IL-6, and activation of NF-κB pathway were examined. In addition, the anti-inflammatory effect of GC was also investigated by silencing CD40 gene in rBMECs. RESULTS: GC attenuated CI/RI as demonstrated by decreasing neurological scores, reducing cerebral infarct rate, improving microvessel ultrastructural features, ameliorating BBB disruption, attenuating brain edema, inhibiting MPO activity, and downregulating levels of TNF-α, IL-1ß, IL-6, ICAM-1, VCAM-1, and iNOS. Coherently, in rBMECs exposed to H/R GC enhanced cell viability and downregulated levels of ICAM-1, MMP-9, TNF-α, IL-1ß, and IL-6. Furthermore, GC suppressed CD40 overexpression and hindered translocation of NF-κB p65 from the cytosol to the nucleus, phosphorylation of IκB-α, and activation of IKK-ß in H/R rBMECs. However, GC failed to protect rBMECs from H/R-induced inflammatory impairments and suppress activation of NF-κB pathway when CD40 gene was silenced. CONCLUSIONS: GC attenuates cerebral ischemia/reperfusion-induced inflammatory impairments by suppressing CD40/NF-κB pathway, which may provide an available therapeutic drug for CI/RI.

Efficacy of Diterpene Ginkgolides Meglumine injection in elderly patients with ischemic stroke: A post hoc analysis of a randomized controlled trial.

BACKGROUND: Elderly patients with ischemic stroke (IS) have worse functional outcomes and poorer quality of life after suffering a stroke than younger patients. The identification of effective agents is critical to optimizing the therapy of IS in elderly patients. PURPOSE: To examine the efficacy of diterpene ginkgolides meglumine injection (DGMI) vs. Ginaton in treating patients with IS, across different age subgroups. METHODS: Efficacy was determined through the post hoc analysis of a randomized controlled study, which had a cohort of 998 patients with IS. Participants were pooled and grouped by age (elderly [aged ≥ 65 yr] vs. non-elderly [aged < 65 yr]). The primary efficacy outcome was the proportion of patients with modified Rankin Scale (mRS) score ranging from 0 to 1 at 90 d. The secondary outcomes were neurological deficit (tested using the National Institutes of Health Stroke Scale [NIHSS] score) and quality of life (tested using the EuroQol-5 Dimension [EQ-5D] and EQ visual analog scale [EQ-VAS] questionnaires). RESULTS: There were 399 (40%) patients in the elderly group (average age = 69.8±3.3 yr) and 599 (60%) patients in the non-elderly group (average age = 55.8±6.8 yr). The randomized treatment groups had similar baseline characteristics. For the elderly group, 174 (94%) of the 185 participants in the DGMI group and 169 (79%) of the 214 participants in the Ginaton group achieved the main outcome of a mRS score of 0-1 after three months (odds ratio [OR] = 0.87 [95% confidence interval [CI] = 0.81-0.93], p<0.001). For the non-elderly group, 301 (96%) of the 314 participants in the DGMI group and 237 (83%) of the 214 participants in the Ginaton group achieved the main outcome of a mRS score of 0-1 after three months (OR = 0.88 [95% CI = 0.84-0.92], p<0.001). The overall mean EQ-5D index score and EQ-VAS of the DGMI group were higher than that of the Ginaton group for elderly patients. After controlling other covariates including treatments, gender, weight, height and medical history, the results of mRS score, NIHSS score, EQ-5D index score, and EQ-VAS based on generalized linear model were similar to those of the single covariate analysis. CONCLUSIONS: DGMI demonstrated a superior efficacy to Ginaton for patients with IS in both elderly and non-elderly ages.

Multiple Mechanistic Models Reveal the Neuroprotective Effects of Diterpene Ginkgolides against Astrocyte-Mediated Demyelination via the PAF-PAFR Pathway.

Currently, therapies for ischemic stroke are limited. Ginkgolides, unique Folium Ginkgo components, have potential benefits for ischemic stroke patients, but there is little evidence that ginkgolides improve neurological function in these patients. Clinical studies have confirmed the neurological improvement efficacy of diterpene ginkgolides meglumine injection (DGMI), an extract of Ginkgo biloba containing ginkgolides A (GA), B (GB), and K (GK), in ischemic stroke patients. In the present study, we performed transcriptome analyses using RNA-seq and explored the potential mechanism of ginkgolides in seven in vitro cell models that mimic pathological stroke processes. Transcriptome analyses revealed that the ginkgolides had potential antiplatelet properties and neuroprotective activities in the nervous system. Specifically, human umbilical vein endothelial cells (HUVEC-T1 cells) showed the strongest response to DGMI and U251 human glioma cells ranked next. The results of pathway enrichment analysis via gene set enrichment analysis (GSEA) showed that the neuroprotective activities of DGMI and its monomers in the U251 cell model were related to their regulation of the sphingolipid and neurotrophin signaling pathways. We next verified these in vitro findings in an in vivo cuprizone (CPZ, bis(cyclohexanone)oxaldihydrazone)-induced model. GB and GK protected against demyelination in the corpus callosum (CC) and promoted oligodendrocyte regeneration in CPZ-fed mice. Moreover, GB and GK antagonized platelet-activating factor (PAF) receptor (PAFR) expression in astrocytes, inhibited PAF-induced inflammatory responses, and promoted brain-derived neurotrophic factor (BDNF) and ciliary neurotrophic factor (CNTF) secretion, supporting remyelination. These findings are critical for developing therapies that promote remyelination and prevent stroke progression.

Ginkgolide A alleviates cardiac remodeling in mice with myocardial infarction via binding to matrix metalloproteinase-9 to attenuate inflammation.

Ginkgolides are terpenoids peculiar to Ginkgo biloba, which have protective properties against cardiac diseases. This study aims to explore whether ginkgolide A (GA) could improve cardiac dysfunction of MI mice, and whether it could alleviate cardiac remodeling via binding to matrix metalloproteinase-9 (MMP9) to attenuate inflammation. Cardiac remodeling in mice induced by left coronary artery ligation were used in the in vivo model, and angiotensin (Ang) II-induced cardiac fibroblasts (NRCFs) and cardiomyocytes (NRCMs) isolated from neonatal rats were used in in vitro fibrosis and hypertrophy models, respectively. Cardiac dysfunction and fibrosis in MI mice were alleviated by GA treatment. Upregulations of collagen I (Col I), collagen III (Col III) and fibronectin in NRCFs, and enhanced levels of atrial natriuretic peptide (ANP), brain natriuretic peptide (BNP) and beta-myosin heavy chain (ß-MHC) in NRCMs were inhibited by GA treatment. A total of 100 potential targets were found in 5 databases (TCMSP, BATMAN-TCM, PharmMapper, ETCM and SWISS Target). According to Protein Data Bank database GA could form hydrogen bonds between LYS65, GLU157, ASN17, ARG109, ARG106 of MMP9 protein, a target of GA. The regulatory role of GA in downregulating Col I, Col III, fibronectin in NRCFs, and enhancing levels of ANP, BNP and ß-MHC in NRCMs were reversed by MMP9 overexpression, so as the downregulation of IL-1ß, IL-6 and TNF-α in Ang II-induced NRCFs and NRCMs. GA could alleviate cardiac dysfunction and remodeling via binding to MMP9 to attenuate inflammation. Therefore, GA is a potential drug for cardiac remodeling therapy.

Ginkgolides and Huperzine A for complementary treatment of Alzheimer's disease.

Alzheimer's disease (AD) is a neurodegenerative disorder characterized by gradual deterioration of cognitive function, memory, and inability to perform daily, social, or occupational activities. Its etiology is associated with the accumulation of ß-amyloid peptides, phosphorylated tau protein, and neuroinflammatory and oxidative processes in the brain. Currently, there is no successful pharmacological treatment for AD. The few approved drugs are mainly aimed at treating the symptoms; however, due to the increasing discovery of etiopathological factors, there are great efforts to find new multifunctional molecules to slow down the course of this neurodegenerative disease. The commercial Ginkgo biloba formulation EGb 761® and Huperzine A, an alkaloid present in the plant Huperzia serrata, have shown in clinical trials to possess cholinergic and neuroprotective activities, including improvement in cognition, activities of daily living, and neuropsychiatric symptoms in AD patients. The purpose of this review is to expose the positive results of intervention with EGb 761® and Huperzine in patients with mild to moderate AD in the last 10 years, highlighting the pharmacological functions that justify their use in AD therapy.

Literature Review on the Use of Herbal Extracts in the Treatment of Non- Alcoholic Fatty Liver Disease.

BACKGROUND: Non-alcoholic fatty liver disease is a common chronic liver injury disease, and its incidence is rapidly increasing across the globe, thus becoming a serious threat to human health. So far, the clinical prevention and treatment of non-alcoholic fatty liver disease mainly include single-targeted drug therapy, surgical treatment and lifestyle changes. However, these treatments cannot completely address the complex pathogenesis of non-alcoholic fatty liver disease and have various side effects. Recent studies reveal that many herbal extracts are found to have potential anti-non-alcoholic fatty liver disease activities. OBJECTIVE: This paper presents a review on herbal extracts used for the treatment of non-alcoholic fatty liver disease in experimental studies to provide a theoretical basis for their clinical application in the treatment of non-alcoholic fatty liver disease and for new drug development. METHODS: Scientific papers were retrieved by searching the PubMed database up to Feb 2021 using the following keywords: 'non-alcoholic fatty liver disease', 'herbal extracts' ('flavonoids', 'saponins', 'quinones', 'phenolic compounds', 'alkaloids', 'polysaccharides', 'ginkgolide B', 'schizandrin B', 'ursolic acid') and 'mechanism'. RESULTS: The pharmacological effects and mechanisms of many herbal extracts can reverse the adverse health effects of non-alcoholic fatty liver disease. CONCLUSION: In vitro and in vivo experimental studies indicated that herbal extracts can improve the symptoms of non-alcoholic fatty liver disease by inhibiting inflammation, antioxidant stress, improvement of lipid metabolism and insulin sensitivity and regulating intestinal bacteria flora. However, there needs to be sufficient data from human clinical trials to prove their efficacy and safety.

[Clinical comprehensive evaluation of Ginkgolide Injection in treatment of cerebral infarction].

This clinical value-oriented comprehensive evaluation of drugs was carried out in accordance with Guidelines for Management of Comprehensive Clinical Evaluation of Drugs(trial version 2021), with the qualitative and quantitative evaluation methods adopted. Based on the evidence-based medicine, epidemiology, clinical medicine, pharmacoeconomics, mathematical statistics, and health technology evaluation(HTA), the clinical value of Ginkgolide Injection was evaluated from the "6+1" dimension by giving weight to the criterion level and index level and calculating with multi-criteria decision analysis(MCDA) model and CSC v2.0. After entering the market, Ginkgolide Injection has been subjected to phase Ⅳ clinical trial, spontaneous reporting system(SRS)-based data monitoring, systematic review and Meta-analysis, acute toxicity and long-term toxicity assays, active monitoring, and RCTs, and the evidence of safety was sufficient. The results of active monitoring showed that the incidence of adverse reactions was 0.09%(rare), mainly manifested as flushing, dizziness, rash, nausea, and vomiting. According to the nested case-control study, the adverse reactions of this drug had nothing to do with the product batch, implying that the drug quality was controllable. The adverse reactions mainly resulted from the pharmacodynamic reactions. Because the drug was effective in resisting platelet aggregation, the resulting adverse reactions such as flushing, dizziness, headache, and phlebitis were caused by vasodilation. Skin rash and gastrointestinal symptoms were mainly attributed to the patients' sensitivity to drugs and their own allergic constitution. According to the sufficiency of evidence and the incidence of adverse reactions in the safety research, the safety of Ginkgolide Injection was grade A. The results of Meta-analysis showed that Ginkgolide Injection combined with conventional western medicine was superior to conventional western medicine in improving the clinical effective rate, neurological function score, and activity of daily living score of patients with cerebral infarction. The validity evidence was evaluated according to the PICO principle to be high. According to the GREAD evaluation principle, the quality of such evidence as clinical effective rate, National Institute of Health stroke scale(NIHSS), and Barthel Index(BI) was evaluated, and the results demonstrated that the evidence quality of clinical effective rate and activity of daily living score was medium. The effectiveness of Ginkgolide Injection was grade A. According to the economic report of Ginkgolide Injection, it had short-term and long-term pharmacoeconomic advantages in the treatment of ischemic stroke, and the economic evidence value was good. According to the CASP economic evaluation checklist, the overall quality evaluation results of the economic report are basically clear. To be specific, the economic evidence quality was high. Based on the comprehensive economic evidence quality and economic value, the economy of this drug was grade A. The innovation of this product was evaluated from three aspects: clinical innovation, enterprise service system innovation, and industrial innovation. Ginkgolide Injection could be used 24 h after intravenous thrombolysis for improving patients' neurological function without increasing bleeding, indicating its important clinical innovation. There were many innovations in ensuring drug supply, especially at the grass roots, drug safety, effectiveness, and reasonable price, which has provided reference for establishing enterprise philosophy, managing drug resources, developing process and technology, and determining enterprise management and marketing. Therefore, its innovation was grade A. The drug had no special medication plan in use, exhibiting good suitability for doctors, nurses, and patients. The suitability was grade B. Compared with similar drugs, its price was at a medium level, meaning good affordability, sufficient production capacity, and easy accessibility. Its accessibility was therefore grade B. This drug belonged to Chinese medicinal injection. The large-sample real-world research revealed rich human use experience, so it was grade C for the traditional Chinese medicine characteristic. According to the comprehensive evaluation, the clinical value of Ginkgolide Injection in the treatment of cerebral infarction fell into class A. It is suggested that it can be transformed into the relevant policy results of basic clinical medication management according to the procedure.

Preparation of a new component group of Ginkgo biloba leaves and investigation of the antihypertensive effects in spontaneously hypertensive rats.

Ginkgo (Ginkgo biloba L.) is a traditional economic tree species in China. Ginkgo biloba extract (GBE) is widely used in combination to treat hypertension and complications in clinical practice. However, the antihypertensive effect of GBE alone is weak and it is also difficult to study the mechanism because of its complex composition. This study was to prepare a new component group of Ginkgo biloba leaves (GBLCG) with clear chemical structures, and to investigate its effect on reducing blood pressure and improving myocardial hypertrophy in spontaneously hypertensive rats with GBE and amlodipine as positive controls. The results showed that total flavonoid aglycones (TFAs) of GBLCG was mainly composed of quercetin (QCT), kaempferol (KMF) and isorhamnetin (ISR); Total terpenoid lactones (TTLs) of GBLCG might be a novel cocrystal composed of Ginkgolide A (GA), Ginkgolide B (GB) Ginkgolide C (GC), Ginkgolide J (GJ) and bilobalide (BB). The hypotensive activity of GBLCG (4.4 mg/kg) group was better than that of GBE group (p < 0.05), and the effect of improving myocardial hypertrophy was better than that of amlodipine besylate group (p < 0.01). GBLCG might reduce blood pressure and improve myocardial hypertrophy by promoting the synthesis and release of NO in endothelial cells, reducing oxidative stress, inhibiting platelet aggregation and promoting lesion circulation. Eventually, we hope to introduce GBLCG as a new drug for hypertension.

Ginkgolides and bilobalide for treatment of Alzheimer's disease and COVID-19: potential mechanisms of action.

Alzheimer's disease (AD) is an irreversible degenerative illness of the central nervous system with characteristic histological alterations, known as amyloid plaques and neurofibrillary tangles (NFT). Aggregation of plaques and tangles in the brain induces neurotoxicity and synaptic dysfunction, eventually contributing to neuronal cell death and neurodegeneration. Recent studies have revealed that COVID-19 has a great impact on the development of AD, directly or indirectly, by facilitating the accumulation of amyloid plaques, causing altered functional brain integrity or increasing the phosphorylation rate of tau protein. As two important bioactive components of Ginkgo biloba extract (GbE), ginkgolides and bilobalide (BB) have been reported to show neuroprotective effects in AD via multiple mechanisms such as anti-excitotoxicity, anti-inflammatory and anti-oxidative activities. Intriguingly, ginkgolides and BB also seem to demonstrate antiviral properties against COVID-19 by inhibiting severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) main protease. Herein, we review studies on the neuroprotective and antiviral mechanisms of ginkgolides and bilobalide, as well as their therapeutic potential against AD and COVID-19.

Use of Diterpene Ginkgolides Meglumine Injection to Regulate Plasma Levels of PAI-1 and t-PA in Patients With Acute Atherosclerotic Cerebral Infarction.

BACKGROUND: To: (i) explore the effect of diterpene ginkgolides meglumine injection (DGMI) on neurological deficit symptoms in acute atherosclerotic cerebral infarction (AACI) patients; (ii) measure the level of plasma plasminogen activator inhibitor (PAI)-1 and tissue plasminogen activator (t-PA). METHODS: Eighty AACI patients were divided equally and randomly into the DGMI group and control group. In addition to basic treatment, the DGMI group was treated with DGMI (25 mg/d) for 14 days. The control group had basic treatment without DGMI. Before and after treatment, the degree of neurological deficit was assessed, thromboelastography undertaken, and plasma levels of PAI-1 and t-PA measured. RESULTS: The National Institutes of Health Stroke Scale score of patients in the DGMI group after treatment was lower than that in the control group, and the Barthel Index was higher than that in the control group ( P <0.05). Thromboelastography revealed that, in the DGMI group, the R value and K value after treatment were higher than before treatment, the angle and maximum amplitude value were lower than before treatment, and both were significant ( P <0.05). Compared with the control group, the plasma PAI-1 level of patients in the DGMI group was lower than that in the control group, and the t-PA level was higher than that in the control group ( P <0.05) after 14 days of treatment. CONCLUSIONS: DGMI may affect the activity of the blood coagulation and fibrinolysis system by regulating the plasma level of PAI-1 and t-PA, and improving neurological deficit symptoms. DGMI is important for improving the prognosis of patients with AACI.

Abrogation of STAT3 activation cascade by Ginkgolide C mitigates tumourigenesis in lung cancer preclinical model.

OBJECTIVES: Ginkgolide C (GGC) isolated from Ginkgo biloba (Ginkgoaceae) leaf can demonstrate pleiotropic pharmacological actions. However, its anti-oncogenic impact in non-small cell lung cancer (NSCLC) model has not been reconnoitered. As signal transducer and activator of transcription 3 (STAT3) cascade can promote tumour growth and survival, we contemplated that GGC may interrupt this signalling cascade to expend its anti-cancer actions in NSCLC. METHODS: The effect of GGC on STAT3 activation, associated protein kinases, STAT3-regulated gene products, cellular proliferation and apoptosis was examined. The in-vivo effect of GGC on the growth of human NSCLC xenograft tumours in athymic nu/nu female mice was also investigated. KEY FINDINGS: GGC attenuated the phosphorylation of STAT3 and STAT3 upstream kinases effectively. Exposure to pervanadate modulated GGC-induced down-regulation of STAT3 activation and promoted an elevation in the level of PTPε protein. Indeed, silencing of the PTPε gene reversed the GGC-promoted abrogation of STAT3 activation and apoptosis. Moreover, GGC exposure significantly reduced NSCLC tumour growth without demonstrating significant adverse effects via decreasing levels of p-STAT3 in mice tissues. CONCLUSIONS: Overall, the findings support that GGC may exhibit anti-neoplastic actions by mitigation of STAT3 signalling cascade in NSCLC.

Ginkgolide B inhibits NLRP3 inflammasome activation and promotes microglial M2 polarization in Aß1-42-induced microglia cells.

Nucleotide-binding oligomerization domain (NOD)-like receptor protein 3 (NLRP3) inflammasome-mediated chronic neuroinflammation plays a crucial role in the progression of Alzheimer's disease (AD), which is related to microglial activation. Using quantitative proteomic analysis, we identified 25 up-regulated and 83 down-regulated proteins in amyloid beta (Aß)1-42-induced BV2 cells. Among the differentiallyexpressedproteins involved in inflammation, the NLRP3 protein level increased dramatically. Ginkgolide B (GB) prevents Aß-induced neuroinflammation and neurotoxic effects in multiple neurodegenerative disorders. However, its role in NLRP3 inflammasome-mediated neuroinflammation in AD remain unknown. We found that GB treatment ameliorated Aß1-42-induced pathological damages and inhibited NLRP3 inflammasome activation. Furthermore, GB enhanced the expression of M2 microglial markers and suppressed the expression of M1 microglial markers. Our findings suggest that GB treatment prevents the pathological processes of AD and suppresses neuroinflammation by inhibiting NLRP3 inflammasome activation and promoting microglial M2 polarization.

Neuroregulatory role of ginkgolides.

The application of ginkgolides as a herbal remedy reaches ancient China. Over time many studies confirmed the neuroprotective effect of standard Ginkgo biloba tree extract-the only available ginkgolide source. Ginkgolides present a wide variety of neuroregulatory properties, commonly used in the therapy process of common diseases, such as Alzheimer's, Parkinson's, and many other CNS-related diseases and disorders. The neuroregulative properties of ginkgolides include the conditioning of neurotransmitters action, e.g., glutamate or dopamine. Besides, natural compounds induce the inhibition of platelet-activating factors (PAF). Furthermore, ginkgolides influence the inflammatory process. This review focuses on the role of ginkgolides as neurotransmitters or neuromodulators and overviews their impact on the organism at the molecular, cellular, and physiological levels. The clinical application of ginkgolides is discussed as well.

The therapeutic effects of ginkgolides in Guillain-Barré syndrome and experimental autoimmune neuritis.

BACKGROUND: Guillain-Barré syndrome (GBS) is an acquired immune-mediated inflammatory peripheral neuropathy. The immune regulation of ginkgolides have been revealed in recent years. We herein investigate the potential therapeutic effects of ginkgolides both on GBS and its animal model, experimental autoimmune neuritis (EAN). METHODS: EAN in C57BL/6 mice induced by subcutaneous injection with peripheral nerve myelin P0 protein peptide 180-199 (P0 peptide) were treated with ginkgolides at three different doses. GBS patients were randomly divided into two groups, the experimental group and the control group. The experimental group were treated with ginkgolides as soon as diagnosed. RESULTS: Our data indicated that ginkgolides administration daily ameliorated the score of EAN and delayed the peak of disease in EAN mice. Ginkgolides also down-regulated the proportions of T helper (Th) 17 cells in EAN spleens. Furthermore, we also found that administration of ginkgolides significantly decreased the levels of interferon (IFN)-γ and interleukin-12 (IL)-12 in GBS patients. CONCLUSIONS: Our results suggested that ginkgolides ameliorated the clinical score of EAN through down-regulating the proportions of Th 17 cells. Ginkgolides also suppressed inflammation response by decreasing pro-inflammatory cytokines IFN-γ and IL-12, suggesting ginkgolides had potential therapeutic effects on GBS patients and EAN in the future.

Ginkgolide A attenuates sepsis-associated kidney damage via upregulating microRNA-25 with NADPH oxidase 4 as the target.

The aim of the present study was to explore the effects of Ginkgolide A (GA) on renal function of mice with sepsis and whether GA could attenuate sepsis-associated inflammation and apoptosis in kidney via upregulating microRNA (miR)-25 with NADPH oxidase 4 (Nox4) as the target. Experiments were carried out on lipopolysaccharide (LPS)-treated mice and kidney tubular (NRK-52E) cells. GA significantly inhibited the increases of creatinine (Cr), blood urea nitrogen (BUN) and cystatin C (CysC) in the serum of LPS-treated mice. The increases of inflammatory factors including tumor necrosis factor (TNF)-α, interleukin (IL)-1ß and IL-6 in the kidneys of LPS-treated mice or NRK-52E cells were inhibited by GA administration. The changes of cleaved-caspase 3, cleaved-caspase 8, Bax, Bcl2 in mouse kidney and NRK-52E cells treated by LPS were reversed by GA administration. The sepsis-induced decrease of miR-25 was enhanced by GA treatment. The LPS-induced increases of inflammatory factors and apoptosis in mouse kidney or NRK-52E cells were attenuated after miR-25 agomiR administration. The bioinformatics analysis and luciferase reporter assays showed that Nox4 was a direct target gene of miR-25. Treatment with miR-25 inhibited Nox4 expression, while Nox4 over-expression reversed the inhibiting effects of miR-25 agomiR on LPS-induced increases of inflammatory factors and apoptosis in NRK-52E cells. These results indicated that GA could improve sepsis-induced renal damage by attenuating renal inflammation and apoptosis via upregulating miR-25 with Nox4 as the target.

Cost-Effectiveness Analysis of Ginkgolide Injection in the Treatment of Ischemic Stroke Based on a Randomized Clinical Trial.

Objective: To evaluate the long-term cost-effectiveness of ginkgolide plus aspirin compared with placebo plus aspirin treatment of ischemic stroke. Background: Stroke is the leading cause of death and long-term disability in China, with high incidence, high mortality, and heavy disease burden. In addition to Western medicines, Chinese clinical guidelines for diagnosis and treatment of acute ischemic stroke recommend application of Chinese patent medicines. Ginkgolide injection is commonly used in the clinical treatment of stroke in China to promote blood circulation and remove blood stasis. The economy of ginkgolide injection needs to be evaluated. Methods: A Markov model was constructed consisting of four disease states: no significant disability, disability, stroke recurrence, and death. Therapeutic data were taken from the Ginkgolide in Ischemic Stroke Patients with Large Artery Atherosclerosis (GISAA) study. Utilities and transition probabilities were extracted from the literature. Cost data were obtained from the China Health Statistics Yearbook and hospital record survey. Expected costs and quality-adjusted life-years (QALYs) of 13 years of cycles (calculated by average age of subjects and Chinese life expectancy) were calculated through TreeAge Pro11 software. The willingness-to-pay (WTP) threshold was set as the Chinese per capita Gross Domestic Product (GDP) in 2019, CN¥70,892/QALY. The results were analyzed by single factor and probability sensitivity analyses. Results: Ginkgolide plus aspirin had a higher expected per-patient cost than placebo plus aspirin but a higher QALYs. Compared with placebo plus aspirin, ginkgolide plus aspirin produced an incremental cost-effectiveness ratio of CN¥14,866.06/QALY, which is below the WTP threshold. Probabilistic sensitivity analysis suggested the acceptability of ginkgolide plus aspirin was higher than that of placebo plus aspirin. Conclusions: The present cost-effectiveness analysis showed that addition of ginkgolides to conventional treatment is cost-effective at a threshold the Chinese per capita GDP.

Eomesodermin in CD4+T cells is essential for Ginkgolide K ameliorating disease progression in experimental autoimmune encephalomyelitis.

Eomesodermin (Eomes), a transcription factor, could suppress the Th17 cell differentiation and proliferation through directly binding to the promoter zone of the Rorc and Il17a gene, meanwhile the expression of Eomes is suppressed when c-Jun directly binds to its promoter zone. Ginkgolide K (1,10-dihydroxy-3,14-didehydroginkgolide, GK) is a diterpene lactone isolated from the leaves of Ginkgo biloba. A previous study indicated that GK could decrease the level of phospho JNK (c-Jun N-terminal kinase). Here, we reported the therapeutic potential of Ginkgolide K (GK) treatment to ameliorate experimental autoimmune encephalomyelitis (EAE) disease progression. Methods: EAE was induced in both wildtype and CD4-Eomes conditional knockout mice. GK was injected intraperitoneally. Disease severity, inflammation, and tissue damage were assessed by clinical evaluation, flow cytometry of mononuclear cells (MNCs), and histopathological evaluation. Dual-luciferase reporter assays were performed to measure Eomes transcription activity in vitro. The potency of GK (IC50) was determined using JNK1 Kinase Enzyme System. Results: We revealed that GK could ameliorate EAE disease progression by the inhibition of the Th17 cells. Further mechanism studies demonstrated that the level of phospho JNK was decreased and the level of Eomes in CD4+T cells was dramatically increased. This therapeutic effect of GK was almost completely interrupted in CD4-Eomes conditional knockout mice. Conclusions: These results provided the therapeutic potential of GK treatment in EAE, and further suggested that Eomes expression in CD4+T cells might be essential in this process.