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Pyroptosis is the programmed death of cells accompanied by an inflammatory response and is widely involved in the development of a variety of diseases, such as infectious diseases, cardiovascular diseases, and neurodegeneration. It has been shown that cellular scorching is involved in the pathogenesis of pulmonary arterial hypertension ( PAH) in cardiovascular diseases. Patients with PAH have perivascular inflammatory infiltrates in lungs, pulmonary vasculopathy exists in an extremely inflam-matory microenvironment, and pro-inflammatory factors in cellular scorching drive pulmonary vascular remodelling in PAH patients. This article reviews the role of cellular scorch in the pathogenesis of PAH and the related research on drugs for the treatment of PAH, with the aim of providing new ideas for clinical treatment of PAH.
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Parkinson's disease (PD) is a degenerative disease of the central nervous system due to the loss or death of dopaminergic neurons in the substantia nigra. Clinically, levodopa is the most effective and commonly used drug for PD treatment. However, long-term levodopa therapy is prone to motor complications and other side effects caused by excessive peripheral dopamine production, which has become an urgent problem to be solved in PD treatment. Dopamine receptor (DR) agonists are similar to dopamine. They can directly stimulate postsynaptic dopamine receptors, produce the same effect as dopamine, delay the application of levodopa as much as possible, and reduce complications caused by long-term use of levodopa. Therefore, screening effective dopamine receptor agonists has become a key issue in the study and treatment of PD. In order to establish a rapid, stable and reliable method for dopamine receptor agonist screening, this study used the human dopamine receptor 2 (DRD2) gene fused with a circular permuted EGFP (cpEGFP) to construct a recombinant gene, packaged with lentiviral vector, and the vector replaced the parted inner transmembrane domain of the third intracellular loop (ICL3) of genetically-encoded GPCR-activation based (GRAB) sensors. The fluorescence of GPCR-fused cpEGFP is regulated by conformational changes mediated by the interaction of dopamine receptor agonists with GPCRs without altering GPCR activity. The HEK293T cells were infected with viral vector, screened by puromycin to select highly expressed cells. Dopamine receptor agonists (including dopamine, bromocriptine mesylate, cabergoline, pramipexole) were used as positive drugs to explore the best screening and detection conditions, establishing a stable model to evaluate the dopamine receptor agonist. The results showed that the optimal filter for the dopamine receptor agonist in this study was the cell seeding count of 7×104, and the effective concentration of the positive drug was 1-100 µmol·L-1. In addition, pretreated with 10 µmol·L-1 dopamine receptor antagonists (including chlorprothixol hydrochloride, domperidone, and sulpiride), the positive fluorescence signal of overexpressed DRD2-cpEGFP HEK293T cells could not be detected when exposed to 10 µmol·L-1 dopamine receptor agonists, which proved that dopamine receptor antagonists could block the activity of dopamine receptor agonists, so they cannot activate dopamine receptor allosteric, indicating that the model has good specificity and can also be used for the screening and detection of new dopamine receptor antagonists. In summary, the study constructs a stable dopamine sensor detection system, which can effectively screen potential dopamine receptor agonists. The operation procedures are simple and rapid. And it can be used for a large-scale screening providing a fundamental methodology for drug development and PD treatment targeted on DRD2.
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Ginsenoside Rg1 is one of the most important saponins in ginseng. It has a wide range of pharmacological activities. It is considered to be a powerful neuroprotective agent. It has neuroprotective effects such as anti-neuroinflammation, anti-oxidative stress, anti-neuronal apoptosis, and enhancing memory. Rg1 shows a good application prospect in the prevention and treatment of neurodegenerative diseases such as Alzheimer's disease, Parkinson's disease, stroke, and mental diseases such as depression. This paper reviews the research on the neuroprotective mechanism of Rg1 at home and abroad in recent years, in order to provide new research ideas for the clinical treatment of nervous system diseases.
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Cannabinoid receptors are one of the most expressed G protein-coupled receptors in the central nervous system, which are potential drug targets for inflammation, pain and drug abuse. Cannabinoid receptors are composed of type 1 receptor (CB1R), type 2 receptor (CB2R) and other receptors, of which CB1R plays a vital role in regulating central memory, cognition, and motor function. Therefore, screening CB1R agonists has potential value in treating nervous system diseases. In this study, the intracellular loop 3 (ICL3) domain of CB1R was replaced with a circular-permutated enhanced green fluorescent protein (cpEGFP). After infecting HEK 293T cells with lentivirus particles, we obtained a stable cell line that was overexpressed human CB1R-cpEGFP after puromycin selection. The interaction between receptor agonists and CB1R led to the change of receptor conformation, resulting in de-protonation of the EGFP, and enhancing the fluorescence intensity. Therefore, active CB1R compounds could be verified by measuring the fluorescence intensity. Using CB1R agonist arachidonyl-2′-chloroethylamide (ACEA) as a positive control to evaluate the reliability of this model, studies have shown that ACEA could induce receptor activation and increase fluorescence intensity, while antagonist rimonabant inhibited receptor activation with unchanged fluorescence intensity. In conclusion, this study successfully constructed a fluorescent probe screening model for CB1R agonists.
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Neurovascular coupling is the function of regulating blood flow of the central nervous system at the level of neurovascular units. The central nervous system diseases related to neurovascular coupling mainly include cerebrovascular diseases such as chronic cerebral ischemia and neurodegenerative diseases such as Alzheimer's disease,Parkinson's disease and Lewy body dementia. The main mechanism of neurovascular coupling dysfunction leading to the above diseases is cerebrovascular dysfunction or loss,which leads to serious damage to neuronal ischemia and affects its function. Therefore,this paper reviews the research status of neurovascular coupling and its related central nervous system diseases,in order to guide the follow-up research. The purpose of this paper is to provide a basis for the prevention,relief and treatment of central nervous system diseases related to neurovascular coupling through the mechanism of neurovascular coupling.
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Dihydromyricetin is a dihydroflavone compound which widely exists in ampelopsis of grapevine family. It has many pharmacological effects, such as anti-inflammatory, antibacterial, anti-tumor, antioxidant, regulating blood glucose, reducing blood lipid, liver protection and so on. In recent years, it has been found that dihydromyricetin has a good neuroprotective effect and can play a certain pharmacological role in a variety of neurological diseases, including Alzheimer' s disease, depression, Parkinson's disease and stroke. The purpose of this paper is to review the research on the neuroprotective effect of dihydromyricetin in the past decade.
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Depression is one of the most common psychiatric disorders with high prevalence, disability and relapse rates, and its etiology and pathogenesis are complex and still not fully understood. Neurotransmitters play a key role in maintaining chemical homeostasis in brain, and many studies have shown a strong link between neurotransmitters and the development and treatment of depression in recent years. Therefore, studying the neurotransmitters associated with depression has the potential to provide research targets and ideas for the pathogenesis and treatment strategies of depression. This paper reviews the recent domestic and foreign research results on neurotransmitter function and the pathogenesis of depression, aiming to analyze the in-depth relationship between neurotransmitter function and the pathogenesis of depression, and provide research ideas for the follow-up ex-ploration of the pathogenesis and diagnosis and treatment strategies of depression.
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Aim To study the inhibitory effect of ginsenoside Rgl on neuronal ferroptosis after ischemic stroke and its mechanism. Methods A model of oxygen glucose deprivation/reoxygenation (OGD/R) was established in HT22 cells, and the effect of Rgl on the viability of HT22 cells after OGD/R injury was detected by CCK-8. The effect of Rgl on ferroptosis in HT22 cells after OGD/R injury was detected by the test of ferroptosis markers GSH/GSSG, SOD, MDA, and Fe
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Aim To study whether ginsenoside Rg1 could improve white matter injury caused by chronic cerebral ischemia.Methods C57BL/6 mice were randomly divided into Sham group,Model group,Donepezil group,and ginsenoside Rg1(10,5 mg·kg-1)group.BCAS was established by using bilateral common carotid artery stenosis.Drug treatment was started one day after the operation,and the stomach was given continuously for 30 days.During this period,the body weight and CBF changes were observed,and observed by climbing rods,new object recognition and Y maze experiments.The movement coordination and cognitive abilities of each group of animals were improved.The improvement of the myelin sheath of the corpus callosum was detected by LFB staining,the damage of corpus callosum neurons was observed by Nissl staining,and the expression level of MBP in the corpus callosum was detected by immunofluorescence and Western blot.Results The test results of body weight and CBF showed that compared with model group,ginsenoside Rg1 group did not significantly improve the animal's body weight and CBF values; the results of climbing rod,new object recognition,and Y maze experiment showed that ginsenoside Rg1 group significantly shortened the time it took animals to climb rods,and improved the animal's new object recognition index and the number of autonomous alternations; LFB and Nissl staining results showed that ginsenoside Rg1 group significantly improved the myelin and neuron damage of the animal corpus callosum.The results of immunofluorescence and Western blot showed that ginsenoside Rg1 group significantly increased the expression level of animal myelin basic protein MBP.Conclusion Ginsenoside Rg1 can significantly improve white matter injury caused by chronic cerebral ischemia.
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Akkermansia muciniphila, abbreviated as AKK and found in 2004, is an oval-shaped gram-negative bacterium isolated from a human feal. A. muciniphila is widely present in the intestinal tract of human. Its specialization in mucin degradation makes it a key organism at the mucosal interface between the lumen and host cells. More and more studies have shown that it can play the role of probiotics. Notably, declined levels of A. muciniphila have been observed in patients with diabetes, liver disease, cardiovascular disease, inflammatory bowel disease, neurodegenerative diseases, etc. In addition, A. muciniphila combined with traditional Chinese medicine, exhibited higher effect on regulating host functions, but the underlying mechanism was still unclear, requiring further in-depth research. Therefore, the aims of this review are to summarize the main effects of A. muciniphila on host health and its relationship with traditional Chinese medicine, summarize the main problems, and provide a reference for the further research of A. muciniphila and traditional Chinese medicine.
Subject(s)
Humans , Akkermansia , Inflammatory Bowel Diseases , Intestines , Probiotics , Verrucomicrobia/geneticsABSTRACT
This study investigates the protective role of IMM-H004, a novel coumarin derivative, on hepatic ischemia-reperfusion injury (HIRI) in mice. All animal experiments in this paper have been approved by the Ethics Committee of Institute of Materia Medica, Chinese Academy of Medical Sciences. The experimental animals were divided into three groups, including sham group, model group, and IMM-H004 treatment group. Serum biochemical indicators were detected and H&E staining was used to assess liver damage. Real-time quantitative PCR (qPCR) was performed to analysis the mRNA content of inflammatory factors. Immunohistochemistry and immunofluorescence were used to observe neutrophil infiltration. Western blot was used to examine the protein levels of NOD-like receptor protein 3 (NLRP3), apoptosis-associated speck-like protein (ASC), cysteinyl aspartate specific proteinase-1 (caspase-1), and interleukin-1β (IL-1β). The results showed that IMM-H004 could significantly reduce the serum levels of alanine transaminase (ALT), aspartate transaminase (AST), lactate dehydrogenase (LDH). H&E results showed IMM-H004 could alleviate liver damage caused by HIRI. The mRNA expression of tumor necrosis factor-α (TNF-α), IL-1β, and interleukin-6 (IL-6) were decreased by IMM-H004 administration. Meanwhile, IMM-H004 could markedly inhibit neutrophil infiltration. Furthermore, IMM-H004 could significantly down-regulate the protein expression of NLRP3, ASC, caspase-1, and IL-1β, inhibiting the activation of NLRP3 inflammasome pathway. Our results confirmed that IMM-H004 could protect mice from HIRI and provide a theoretical foundation for IMM-H004 application for treating HIRI.
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Ginsenoside Rg1 is one of the most important active components of the "king of herbs" Panax ginseng, which is an important angiogenic protective agent. The research results have shown that Rg1 has a wide range of cardiovascular pharmacological effects in vivo and in vitro, mainly through promoting the proliferation of smooth muscle cells, inhibiting endothelial cell aging, antioxidant stress, inhibiting inflammatory response, activating key factors of angiogenesis, improving vasodilation and other ways. Many miRNAs participate in the process of Rg1 promoting angiogenesis, mediate the regulation of the specific expression of downstream related targets to promote angiogenesis and vascular remodeling, and have the potential to become new clinical biomarkers and therapeutic targets. New preparation technologies and materials are used to make up for the weakness of Rg1's blood-brain barrier permeability, and further promote and enrich the clinical application of Rg1.
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Depression is one of the diseases with the highest disability rate in the world. A large number of studies have shown that the intake of unsaturated fatty acids can deal with depression while chronic overconsumption of saturated fatty acids is a risk factor for depression. It was suggested that the mechanism of saturated fatty acids inducing depression is related to the following four aspects: regulating the function which links to depression in whole brain and specific brain regions, including the hippocampus, the hypothalamic-pituitary-adrenal axis, the striatum, and the prefrontal cortex; stimulating the secretion of inflammatory factors; affecting the balance and function of metabolic regulatory hormones, including leptin, adiponectin, glucocorticoid, and insulin; inducing the disturbance of intestinal flora. This article reviews the relationship between dietary fatty acids and depression, and the possible mechanisms by which saturated fatty acids induce depression from the four aspects mentioned above.
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Alzheimer's disease (AD) has become one of the major diseases that plague human health and seriously affect the quality of life of patients. Up to present there is no specific treatment drug for Alzheimer' s disease, which still needs research and development. Ginseng is an important traditional Chinese medicine in the prescription for treating of Alzheimer's disease, which contains saponins, polysaccharides, volatile components, proteins, vitamins, amino acids and other compounds. Saponins are the main active components, which have a good effect on improving learning and memory ability and preventing AD. In this paper, the effect and the mechanism of ginsenosides for treating AD are reviewed in order to provide ideas for developing ginsenosides into drugs with better clinical compliance and more effective treatment of AD.
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At present, many new discoveries on the pathogenesis of nervous system diseases provide more targets for the research of drugs that treat nervous system diseases. CCR5 is the receptor of CCL3, CCL4 and CCL5, members of the chemokine CC family, and has become an important therapeutic target for nervous system diseases. CCR5 Δ32, as a natural mutation of CCR5, has shown protective effect on a variety of nervous system diseases and has important medical value. The biological role of CCR5 in stroke, Alzheimer' s disease, multiple sclerosis and other neurological diseases has been increasingly studied. Several CCR5 inhibitors have been tested in clinical trials as neuroprotective agents. Therefore, this paper mainly reviews the research progress of CCR5 in the treatment of neurological diseases, in order to provide evidence for the use of CCR5 inhibitors in the treatment of neurological diseases.
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Neuropathic pain (NP), as a kind of chronic pain syndrome, seriously endangers the quality of life of patients, and the pathogenesis is complex, clinical treatment is limited, and it is easy to relapse. More and more reports have found that Wnt signaling pathway is closely related to the occurrence and development of neuropathic pain. Therefore, further study of the Wnt signaling pathway may provide useful ideas for exploring the pathogenesis of NP and discovering effective treatment methods. This article reviews the role and mechanism of Wnt signaling pathway in neuropathic pain.
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Depression, a chronic syndrome with low mood, pessimism, cognitive and sleep disorders, is characterized by high incidence, high suicide rate, low consultation and treatment rate. 40%-50% of the risk of depression comes from genes, so studying on gene abnormalities serves as an important part of the research in the internal causes of depression, among which the receptor gene abnormalities are crucial factors. The study of potential receptor gene loci is expected to be new target for the treatment of depression in the future, which can provide theoretical basis for the early diagnosis, prevention and treatment of depression.
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Objective:Stems,petioles,stem sections with axillary and leaves of Scrophularia ningpoensis were taken as the material in vitro to screen out the suitable plantlet regeneration system and optimal exercising seedling conditions. Method:Different explants,hormones and concentrations on the induction and proliferation of cluster bud were studied by L16(45) orthogonal test. One factor analysis of variance (ANOVA) was made on the induction of adventitious buds rooted with different concentrations of hormones. At the same time,different substrates,watering cycles and transition modes were selected to optimize key technologies of exercising seedlings of S. ningpoensis. Result:Stem sections with axillary was the best explant,which was followed by stems,leaves and petioles. The suitable media for the induction of adventitious buds was MS+6-BA 0.5 mg·L-1+NAA 0.2 mg·L-1,with the induction rate of 100.0% and the proliferation multiple of 9.84.The suitable media for root induction was 1/2 MS+IBA 0.2 mg·L-1,with the rooting rate of 100.0% and the number of roots of 39.45.For matrix,they were transplanted with nutrient soil,vermiculite and perlite (5:2:1) as the media,to keep proper matching of fertility,permeability and water retention. The container seedlings can grow well,and the survival rate was more than 95% when they were watered every 2 days,the acclimatization of plantlets took 20 days indoor and 10 days in shaded greenhouses. Conclusion:The clonal propagation system of S. ningpoensis was established to provide an effective way for the efficient,rapid and steady plantlet regeneration,the breeding of high-quality seedlings and the suitable exercising seedling conditions of S. ningpoensis.
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Ginseng is a traditional Chinese medicine known as the "king of herbs" since ancient time in China. It was found in animal experiments that total saponins, ginsenoside monomers or glycosides from ginseng extraction all showed antidepressant effects in chronic unpredictable stress, corticosterone or lipopolysaccharide induced depression models. Taking ginsenosides as the focus, we reviewed the antidepressive mechanisms from the perspectives of various hypotheses, such as regulations of hypothalamic-pituitary-adrenal axis, monoamine neurotransmitter and neuroplasticity related to the pathogenesis of depression. The mechanism, target and pharmacodynamic targets of ginsenosides for anti-depression were summarized, in order to provide references for multi-targets and multi-level development of new anti-depression drugs, and improvement of diagnosis and treatment of depression from the perspective of traditional Chinese medicine and natural products.
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A mouse model of cholestatic liver fibrosis was established by bile duct ligation (BDL) method. The effect of ginsenoside Rg1 in the disease progress and the mechanism of cholestatic liver fibrosis are investigated in this mouse model. All animal experiments in this paper have been approved by the Unit Ethics Committee. Analysis of serum biochemical indicators and pathological sections assessed liver function, liver damage and fibrosis in mice. Immunohistochemistry and Western blot assays were used to detect vascular cell adhesion molecule-1 (VCAM-1) in BDL-induced mice. Nuclear factor-κB (NF-κB) and inflammatory factors were detected to investigate related mechanism of Rg1. The results showed that expression of VCAM-1 was up-regulated and peaked at 7 days, followed by decreased expression, but still efficiently expressed compared to the sham-operated group. Compared with the model group, 40 mg·kg-1·d-1 Rg1 treatment reduced serum aspartate transaminase (AST), alanine transaminase (ALT) and total bilirubin (T.Bili) levels (P<0.05 or P<0.01) and liver function damage,alleviated BDL-induced liver fibrosis, significantly down-regulated the expression of VCAM-1 (P<0.05), and inhibited the inflammatory response. In addition, Rg1 significantly reduced NF-κB p65 level in the cellular nucleus (P<0.05). This study demonstrates that VCAM-1 is dynamically altered during BDL-induced liver fibrosis. Rg1 could dampen inflammation and alleviate cholestatic liver fibrosis via regulation of the NF-κB/VCAM-1 pathway. The results provide an experimental basis for Rg1 application for treating liver fibrosis.