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The senescence of bone marrow mesenchymal stem cells (BM-MSCs) will induce age-related bone tissue degeneration and chronic inflammation, and reduce its application effect for cell therapy. More and more active ingredients of traditional chinese medicine have been proved to intervene BM - MSCs senescence, playing an important role in bone diseases prevention and treatment, and improving the therapeutic effect of BM-MSCs. In this paper, the latest research progress on the molecular mechanism of traditional chinese medicine active ingredients interfering BM-MSCs senescence was summarized, in order to provide new direction and reference basis for senescence intervention research and clinical application improvement of BM-MSCs.
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As a widely used anti-tumor drug and anti-rheumatic drug in clinic, methotrexate (MTX) has many toxic and side effects, including gastrointestinal mucosa injury, central nervous system injury, liver and kidney function injury, etc. They often bring great trouble to the follow-up treatment of patients. The clarification of the mechanism of MTX toxicity to various organs has become the key to rescue the toxicity. The purpose of the article is to review the toxicity mechanism of MTX in various organs, so as to save the patients from the adverse reactions in clinical treatment.
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Both parasitic diseases and cancers are disorders that seriously threaten human health. A strong correlation has been recently found between parasitic infections and cancers, and multiple species of parasites and their derived products have shown effective to suppress cancer development, progression and metastasis. Therefore, deciphering the interaction among parasites, cancers and hosts not only provides new insights into the development of cancer therapy, but also provides the basis for screening of parasites-derived active anticancer molecules. This review summarizes the latest advances in the anticancer activity of parasites and underlying mechanisms.
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According to the World Health Organization's world report on hearing, nearly 2.5 billion people worldwide will suffer from hearing loss by 2050, which may contribute to a severe impact on individual life quality and national economies. Sensorineural hearing loss (SNHL) occurs commonly as a result of noise exposure, aging, and ototoxic drugs, and is pathologically characterized by the impairment of mechanosensory hair cells of the inner ear, which is mainly triggered by reactive oxygen species accumulation, inflammation, and mitochondrial dysfunction. Though recent advances have been made in understanding the ability of cochlear repair and regeneration, there are still no effective therapeutic drugs for SNHL. Chinese herbal medicine which is widely distributed and easily accessible in China has demonstrated a unique curative effect against SNHL with higher safety and lower cost compared with Western medicine. Herein we present trends in research for Chinese herbal medicine for the treatment of SNHL, and elucidate their molecular mechanisms of action, to pave the way for further research and development of novel effective drugs in this field.
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Fibrosis can occur in diverse tissue and organs and is the common outcome as multiple chronic diseases progress. It is characterized by over-activation of fibroblasts and excessive deposition of extracellular matrix. Targeting transforming growth factor-β (TGF-β), a classical signaling molecule in fibrosis, is currently a routine strategy for drug therapy of this disease. The use of traditional Chinese medicine (TCM) in the treatment of fibrotic diseases has been supported by mature theories. The theories emphasize that the internally-accumulated pathogens and mixed deficiency-excess underlie the shared pathology of fibrotic diseases. Qi stagnation, blood stasis, phlegm turbidity, and mass accumulation are key pathological factors. "Yin suppression by Yang" is the core thought for treatment with TCM of the disease. Pharmacological investigations reveal the scientific nature of TCM in treating fibrotic diseases, namely multilevelled and multitargeted. In other words, it refers to networked regulation of signaling activities of fibrosis-related molecules such as TGF-β/Drosophila protein homolog (Smad), phosphatidylinositol 3-kinase (PI3K)/protein kinase B (Akt), Hedgehog, Wnt/β-catenin, and inflammatory cytokines, so as to inhibit fibroblast function and provide a promising insight into novel anti-fibrotic drug. This paper summarized the conventional understanding of fibrotic disease treatment with TCM and its mechanism of action by reviewing ancient literature and modern research reports, which offers an idea for follow-up research in this field.
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ObjectiveThis study aimed at conducting retrospective analysis of the clinical symptoms and genetic mutations in 20 children with Gitelman syndrome treated at the Affiliated Children′s Hospital of Nanjing Medical University from August 2015 to November 2022 and also explored the molecular mechanism of the pathogenic high-frequency mutation D486N in the Chinese population.MethodsWe collected the clinical manifestations, growth and development status, laboratory examination results, and SLC12A3 gene variations of the patients. We distinguished the wild-type and mutant SLC12A3 genes overexpressed in human embryonic kidney 293T cells (HEK293T). We used protein immunoblotting to detect the expression level of NCC, and used immunofluorescence techniques to examine the subcellular localization of NCC. In addition, we investigated the impact of the high-frequency SLC12A3 gene mutation D486N on NCC protein expression and localization.ResultsIn the 20 patients with Gitelman syndrome, all of them had hypokalemia. We indemnified twenty-six SLC12A3 gene mutations, 13 of which are missense mutation, 1 of which synonymous mutation, 1 nonsense mutation, 4 frameshift mutation, and 7 splicing site mutation. Among them, four mutations (p.T235K, c.1096-1G > A, p.A464A, and c.2660+1_2660+2insT) were novel mutations.ConclusionsWe found the preliminary evidence that the high-frequency mutation D486N in the Chinese population affected the expression of total and membrane-bound NCC protein and influenced the membrane localization of NCC protein. The findings of this study provides experimental evidence for genetic counseling, diagnosis, and treatment of Gitelman syndrome.
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As a common clinical disease, fracture is often accompanied by pain, swelling, bleeding as well as other symptoms and has a high disability rate, even threatening life, seriously endangering patients' physical and psychological health and quality of life. Medical practitioners take many strategies for the treatment of fracture healing, including Traditional Chinese Medicine (TCM). In the early stage of fracture healing, the local fracture is often in a state of hypoxia, accompanied by the expression of hypoxia inducible factor-1α (HIF-1α), which is beneficial to wound healing. Through literature mining, we thought that hypoxia, HIF-1α and downstream factors affected the mechanism of fracture healing, as well as dominated this process. Therefore, we reviewed the local characteristics and related signaling pathways involved in the fracture healing process and summarized the intervention of TCM on these mechanisms, in order to inspirit the new strategy for fracture healing, as well as elaborate on the possible principles of TCM in treating fractures based on the HIF molecular mechanism.
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Diabetic retinopathy(DR) and coronary heart disease(CHD) are both major chronic vascular complications that seriously jeopardize the health of the population and often occur together in clinical practice, it is of great clinical value to actively explore the association between the two in the process of disease development and methods of prevention and treatment of modern medicine and traditional Chinese medicine(TCM). According to TCM, the heart and eyes physiologically communicate with each other by taking Qi, blood and veins as bridges, blood stasis obstructing collaterals is the common TCM etiology of DR and CHD, whose mechanism involves inflammation, oxidative stress and endothelial dysfunction. Promoting blood circulation and removing blood stasis plays an important role in the same treatment for different diseases and prevention and treatment of comorbidities, possibly by inhibiting the expression of interleukin-1β(IL-1β), endothelin-1(ET-1) and hypoxia inducible factor-1α/vascular endothelial growth factor(HIF-1α/VEGF), regulating phosphatidylinositol 3-kinases/protein kinase B/mammalian target of rapamycin(PI3K/Akt/mTOR) pathway, initiating adenosine monophosphate(AMP)-activated protein kinase/silent information regulator 1(AMPK/SIRT1) and nuclear transcription factor erythroid 2-related factor 2/heme oxygenase-1(Nrf2/HO-1) signaling pathways, inhibiting Hippo/Yes-associated protein(Hippo/YAP) signaling pathway, inhibiting mitochondrial permeability transition pore and anti-platelet agglutination for treating DR and CHD, which provides a multi-component, multi-pathway and multi-target selection strategies and ideas for the prevention and treatment of DR and CHD by TCM from a biological perspective. Based on this, subsequent studies should focus on constructing clinically relevant comorbidity models, conducting multicenter prospective studies, and fully utilizing artificial intelligence technology to gain a deeper understanding of the relationship between the two diseases, so as to elucidate the mechanism of promoting blood circulation and removing blood stasis in preventing and treating panvascular diseases.
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Objective:To investigate the mechanism of dexmetomidine (DEX) in improving lung injury in septic mice.Methods:Male C57BL/6 mice were randomly assigned to the blank group (NC), sham operation group (sham), cecal ligation and puncture group (CLP), and Dex treatment group (CLP+DEX), 36 mice per group. Mice in the CLP group were intraperitoneally injected with 1 mL sterile saline 15 min before CLP, and mice in the CLP + DEX group were intraperitoneally injected with 50 μg/kg DEX 15 min before CLP. The survival rate was recorded within 24 h after CLP. The mice were sacrificed at 0, 3, 6, 12, and 24 h after CLP, and lung tissues were collected. The expression levels of cytokines (IL-6, IL-1β, TNF-α) and lncRNA-HOTAIR in the lung of mice were detected by qPCR. RAW264.7 cell were cultured in vitro, LPS (100 ng/mL) and DEX (1 μ mol/L) were used to establish a cell model for studying the mechanism of Dex, and the expression of cytokines (IL-6, IL-1β, TNF-α) and lncRNA-HOTAIR in RAW264.7 cell model were detected by qPCR. In addition, the effect of lncRNA-HOTAIR on sepsis was explored in vivo and in vitro by knockdown or overexpression of HOTAIR.Results:The survival rate of the CLP+DEX group was higher than that of the CLP group within 24 h after surgery, and the levels of IL-6, IL-1β, and TNF-α in the lungs were significantly lower than those in the CLP group at 6, 12, and 24 h after surgery ( P<0.05). In addition, the level of lncRNA HOTAIR showed that the expression level of lncRNA HOTAIR in the lungs of mice were decreased after Dex treatment, and were decreased 1.1 times ( P<0.05), 4.0 times ( P<0.01) and 3.8 times ( P<0.01) at 6, 12, and 24 h, respectively. Compared with the NC group, knockdown of HOTAIR significantly decreased the levels of IL-1β, IL-6, and TNF-α in septic mice ( P<0.05), and overexpression of HOTAIR significantly increased the levels of IL-1β, IL-6, and TNF-α in septic mice ( P<0.01). Conclusions:DEX can reduce the production of inflammatory factors in the lungs of septic mice and improve the survival rate of septic mice. The mechanism may be related to the inhibition of HOTAIR expression.
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Pyroptosis is a newly discovered programmed cell death in recent years.The researches show that pyroptosis plays an important role in many diseases.Leukemia is a malignant hematopoietic stem cell disease, which seriously threatens the health and life of children.Numerous studies have shown that pyroptosis is associated with the occurrence and development of leukemia, and elucidation the mechanism of pyroptosis in leukemia will provide a new method of clinical treatment.In this review, in order to enhance the understanding of the mechanism of pyroptosis and provide some ideas for the treatment of leukemia, the molecular mechanism of pyroptosis and its role in leukemia are reviewed.
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Liver fibrosis is a pathological condition characterized by replacement of normal liver tissue with scar tissue, and also the leading cause of liver-related death worldwide. During the treatment of liver fibrosis, in addition to antiviral therapy or removal of inducers, there remains a lack of specific and effective treatment strategies. For thousands of years, Chinese herbal medicines (CHMs) have been widely used to treat liver fibrosis in clinical setting. CHMs are effective for liver fibrosis, though its mechanisms of action are unclear. In recent years, many studies have attempted to determine the possible mechanisms of action of CHMs in treating liver fibrosis. There have been substantial improvements in the experimental investigation of CHMs which have greatly promoted the understanding of anti-liver fibrosis mechanisms. In this review, the role of CHMs in the treatment of liver fibrosis is described, based on studies over the past decade, which has addressed the various mechanisms and signaling pathways that mediate therapeutic efficacy. Among them, inhibition of stellate cell activation is identified as the most common mechanism. This article provides insights into the research direction of CHMs, in order to expand its clinical application range and improve its effectiveness.
الموضوعات
Humans , Drugs, Chinese Herbal/therapeutic use , Fibrosis , Liver Diseases/drug therapy , Treatment Outcome , Liver Cirrhosis/drug therapyالملخص
Panax notoginseng is an ancient Chinese medicinal plant that has great clinical value in regulating cardiovascular disease in China. As a single component of panax notoginosides, notoginsenoside R1 (NGR1) belongs to the panaxatriol group. Many reports have demonstrated that NGR1 exerts multiple pharmacological effects in ischemic stroke, myocardial infarction, acute renal injury, and intestinal injury. Here, we outline the available reports on the pharmacological effects of NGR1 in ischemia-reperfusion (I/R) injury. We also discuss the chemistry, composition and molecular mechanism underlying the anti-I/R injury effects of NGR1. NGR1 had significant effects on reducing cerebral infarct size and neurological deficits in cerebral I/R injury, ameliorating the impaired mitochondrial morphology in myocardial I/R injury, decreasing kidney injury molecule-1 and neutrophil gelatinase-associated lipocalin in renal I/R injury and attenuating jejunal mucosal epithelium injury in intestinal I/R injury. The various organ anti-I/R injury effects of NGR1 are mainly through the suppression of oxidative stress, apoptosis, inflammation, endoplasmic reticulum stress and promotion of angiogenesis and neurogenesis. These findings provide a reference basis for future research of NGR1 on I/R injury.
الموضوعات
Humans , Reperfusion Injury/prevention & control , Inflammation , China , Apoptosisالملخص
Aim To investigate the effects of HXL130 on the proliferation, invasion and migration of prostate cancer PC3 cells and its molecular mechanism. Methods MTT assay was used to detect the effect of HXL130 on the proliferation of prostate cancer PC3 cells. Hoechst 33258 staining and flow cytometry were used to detect the effects on apoptosis and cell cycle of cancer cells. Transwell was used to detect the effects of compounds on the invasion and migration of cancer cells. Proteomic sequencing was employed to detect differentially expressed proteins (DEPs) induced by compound treatment of cancer cells. Bioinformatics was used to analyze the functions of DEPs and the related signaling pathways regulated by DEPs, and Western blot was used to verify the result. Results The survival rate of PC3 cells decreased with the increase of HXL130 concentration and treatment time. HXL130 could significantly induce cell apoptosis and block G
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Myocardial fibrosis is a common pathological feature in various advanced cardiovascular diseases, and progressive fibrosis is the pathological basis for the development and progression of many cardiac arrhythmias and heart failure. There are no effective reversal drugs for myocardial fibrosis, which is related to the lack of understanding of the molecular mechanisms. Noncoding RNAs are a class of RNAs that do not function as coding proteins, and have been found to be intimately involved in the life cycle of cardiomyocyte differentiation, transcription and apoptosis, and are important regulators of cardiovascular diseases. An increasing number of studies have shown that noncoding RNAs regulate the proliferation and transformation of cardiac fibroblasts through related signaling pathways and can be used as potential biomarkers and novel therapeutic targets for cardiac fibrosis. This article reviews the relationship between noncoding RNAs and cardiac fibrosis.
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Aim To study the mechanism of the ethanol extract from Leucopaxillus giganteus (LGEE) in treating breast cancer based on network pharmacology and molecular experimental validation. Methods Some chromatographic methods were used to isolate the chemical constituents of LGEE, and their structures were elucidated based on spectral data. The antitumor activities of LGEE were determined by MTT assay. The predicted targets of LGEE were selected by TCMSP and Pharmmaper, and Genecards database was used to screen the targets. GO and KEGG analysis of target genes were performed. Molecular docking was used to test the binding of active components to core targets. Western blotting was used to validate the regulating function of chlorogenic acid on CHEK2 and CASP3 targets of MDA-MB-231 cells. Results Thirteen compounds were identified including clitocine, chlorogenic acid and so on. LGEE displayed anticancer activities against MDA-MB-231 with the inhibition percent (87. 35 ± 1. 55)%, at the concentration of 200 mg· L
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Myocardial infarction is one of the leading causes of death worldwide, appearing at the last point of atherosclerotic plaque progression and unstable rupture. Impaired cellular signals after myocardial infarction leads to maladaptive changes, leading to ventricular remodeling and heart failure. MicroRNAs (miRNAs/miRs) are a kind of non-coding small RNAs that negatively regulate gene expression and regulate protein synthesis rate by changing the stability of targeted mRNA. This article reviews the latest research progress on the involvement of miRNAs in the progression of atherosclerotic plaques, the molecular mechanism of cardiac injury and subsequent remodeling during infarction, as well as the results of clinical studies, and puts forward the problems and limitations of targeted miRNAs in the treatment of cardiovascular diseases such as myocardial infarction and ventricular remodeling.
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Diabetic nephropathy (DN) is one of the most common and serious microvascular complications in patients with diabetes mellitus. Diabetic renal fibrosis ( DRF) is a major pathological change in the development of DN. In recent years the incidence of renal fibrosis (RF) has remained high. For diabetic patients, RF may expose them to kidney transplantation or even death, which brings a great burden to themselves and their families. Therefore, learning the pathogenesis and the current treat ment status of DRF is crucial for the treatment of the disease and the development of new drugs. Here we review the general situa¬tion of DN, the general situation, molecular mechanism, and the treatment of DRF,looking forward to providing a reference for the research and treatment of DRF.
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Aim To investigate the effeots of empagliflozin on kidney tissue and autophagy-lysosome pathway in diabetio kidney disease (DKD) mice. Methods The db/m group as the control group, the db/db mice were randomly divided into the model group and empagliflozin group. After 8 weeks of administration, the levels of 24 h urine protein (24 h-UTP), fasting blood glucose (FBG), glycosylated hemoglobin (HBAlc), total cholestérol (TC), triglycéride (TG), blood urea nitrogen (BUN), serum creatinine (Scr), tumor necrosis factor-α (TNF-α), interleukin-1β (IL-1β, and monocyte chemoattractant protein-1 (MCP-1) were detected. The expression of p62, LC3B, Beclinl, Agt7, LAMP1, Bcl-2, caspase-3 and Bax in kidney tissue was measured by Western blot. The pathological changes of kidney were observed under light microscope. Results Compared with the control group, the model group showed thickening of basement membrane, increased extracellular matrix, interstitial inflammatory cell infiltration and interstitial fibrosis (P < 0. 01). Moreover, the model group had higher content of FBG, HBAlc, 24h-UTP, TC, TG, BUN, Scr, TNF-α, IL-1β, and MCP-1 (P < 0. 01), higher expression of LC3B-/LC3B- I, Beclinl, LAMP1, Agt7 and Bcl-2 (P<0. 01), and lower expression of p62, caspase-3 and Bax in rénal tissue (P < 0. 01) than those in the control group. Compared with the model group, empagliflozin alleviated the pathological injury in kidney (P < 0. 01), and the changes in the above indicators were reversed. Conclusion By irepairing autophagy-lysosomal pathway in renal tissue, empagliflozin can promote the degradation of autophagy substrates, inhibit the production of inflammatory factors and apoptosis, thereby protecting the kidney.
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Keloid is a fibrous proliferative disease of the skin, and its pathological essence is excessive wound healing caused by excessive fibrosis. Its pathological mechanism is complex and unclear. At present, it is believed that the cellular mechanism of keloids mainly involves inflammatory cells and fibrosis-related cells, as well as cytokines such as growth factors, interleukins, tumor necrosis factor, and matrix metalloproteinase; the molecular mechanism mainly involves TGF-p/Smad pathway, NF-Mo- lecular mechanisms such as kB pathway, STAT3 signaling pathway, MAPK signaling pathway, and focal adhesion kinase. This article reviews the latest research progress on the pathological mechanism of keloids from the perspectives of cells, cytokines, and molecular signaling pathways.
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Delayed wound healing in diabetes is a global challenge, and the development of related drugs is a clinical problem to be solved. In this study, purpurolide C (PC), a small-molecule secondary metabolite of the endophytic fungus Penicillium purpurogenum, was found to promote diabetic wound healing. To investigate the key regulation targets of PC, in vitro RNA-seq, molecular docking calculations, TLR4-MD2 dimerization SDS-PAGE detection, and surface plasmon resonance (SPR) were performed, indicating that PC inhibited inflammatory macrophage activation by inhibiting both TLR4-MD2 dimerization and MYD88 phosphorylation. Tlr4 knockout in vivo attenuated the promotion effect of PC on wound healing. Furthermore, a delivery system consisting of macrophage liposome and GelMA-based microneedle patches combined with PC (PC@MLIP MN) was developed, which overcame the poor water solubility and weak skin permeability of PC, so that successfully punctured the skin and delivered PC to local tissues, and accurately regulated macrophage polarization in diabetic wound management. Overall, PC is an anti-inflammatory small molecule compound with a well-defined structure and dual-target regulation, and the PC@MLIP MN is a promising novel biomaterial for the management of diabetic wound.