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High-altitude hypoxia exposure can lead to phospholipase D-mediated lipid metabolism disorder in spleen tissues and induce ferroptosis. Nonetheless, the key genes underlying hypoxia-induced splenic phospholipase D and the ferroptosis pathway remain unclear. This study aimed to establish a hypoxia animal model. Combined transcriptomic and proteomic analyses showed that 95 predicted target genes (proteins) were significantly differentially expressed under hypoxic conditions. Key genes in phospholipase D and ferroptosis pathways under hypoxic exposure were identified by combining Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) enrichment analysis techniques. Gene set enrichment analysis (GSEA) showed that the differential gene sets of the phospholipase D and ferroptosis signaling pathways were upregulated in the high-altitude hypoxia group. The genes in the phospholipase D signalling pathway were verified, and the expression levels of KIT and DGKG were upregulated in spleen tissues under hypoxic exposure. Subsequently, the mRNA and protein expression levels of genes from the exogenous pathway such as TFRC, SLC40A1, SLC7A11, TRP53, and FTH1 and those from the endogenous pathway such as GPX4, HMOX1, and ALOX15 differentials in the ferroptosis signalling pathway were verified, and the results indicated significant differential expression. In summary, exposure to high-altitude hypoxia mediated phospholipid metabolism disturbance through the phospholipase D signalling pathway and further induced ferroptosis, leading to splenic injury.
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OBJECTIVE To investigate the effect of berberine on ferroptosis in MG63 osteosarcoma cells and its mechanism. METHODS Using cells without drug treatment as control, the cell viability, proliferation, the related indexes of ferroptosis [nuclear proliferation associated-antigen (Ki67), mitochondrial ultrastructure, ferric ion (Fe2+), reactive oxygen species (ROS), malondialdehyde (MDA), and glutathione (GSH)], the protein expression of signal transducer and activator of transcription 3 (STAT3), tumor protein 53 (p53), and solute carrier family 7 member 11 (SLC7A11) were detected after being treated with different concentrations of berberine. Cells were transfected with p53 siRNA and then assigned to the control group, p53 siRNA group, berberine group, and p53 siRNA+berberine group to explore the role of p53 in berberine-induced ferroptosis. After 24 h incubation with 10.0 μmol/L berberine, the protein expressions of p53 and SLC7A11, the levels of mitochondrial membrane potential, GSH, and MDA content were determined. Cells were transfected with STAT3 overexpressed plasmid and then assigned to the control group, berberine group, STAT3 group, and STAT3+berberine group to explore the effect of STAT3 on the regulation of the p53/SLC7A11 pathway. After 24 h incubation with 10 μmol/L berberine, the protein expressions of p-STAT3, STAT3, p53, and SLC7A11 were detected. RESULTS Compared with the control cell, the concentrations of 2.5, 5.0 and 10.0 μmol/L berberine could reduce the cell viability and expression of Ki67, and induce the morphological changes in ferroptosis-related mitochondria, increase the levels of Fe2+, ROS and MDA, and the protein expression of p53, reduce the level of GSH, the binding activity of STAT3 with DNA, and the protein expressions of p-STAT3 and SLC7A11; the above differences were statistically significant (P< 0.05 or P<0.01). Compared with the berberine group,significantly down-regulated p53 protein expression and MDA level, up-regulated SLC7A11 protein expression, and increased mitochondrial membrane potential and GSH level were observed in the p53 siRNA+berberine group (P<0.01). Compared with the berberine group, the protein expressions of p-STAT3, STAT3, and SLC7A11 in the STAT3+berberine group were significantly increased (P<0.01), while the protein expression of p53 was significantly decreased (P<0.01). CONCLUSIONS Berberine can induce the ferroptosis of MG63 cells by mediating STAT3/p53/SLC7A11 signaling pathway.
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OBJECTIVE To study the interventional effect and mechanism of 1,8-cineole on pancreatic β cell ferroptosis induced by type 2 diabetes. METHODS In vitro ferroptosis model was established in pancreatic β cells of mice by using high glucose. The effects of low-dose and high-dose 1,8-cineole (0.25, 0.5 μmol/L) on the level of Fe2+ in pancreatic β cells were investigated. The effects of 1,8-cineole (0.5 μmol/L) combined with ferroptosis inducer Erastin (20 μmol/L) and ferroptosis inhibitor Ferrostatin-1 (20 μmol/L) on the protein expressions of glutathione peroxidase-4 (GPX4) and cyclooxygenase-2 (COX2) were also detected. The type 2 diabetes model mice were established by feeding high-sugar and high-fat diet combined with intraperitoneal injection of streptozotocin. The effects of low-dose and high-dose 1,8-cineole (50, 200 mg/kg) on the pathological morphology of pancreatic tissue, the content of iron as well as the protein expressions of GPX4 and COX2 were investigated. RESULTS The results of the cell experiment showed that compared with the model group, pretreatment with 1,8-cineole significantly reduced intracellular Fe2+ levels and upregulated GPX4 protein expression, while downregulated COX2 protein expression in pancreatic β cells (P<0.05). After combining with Ferrostatin-1, the expression trends of the above two proteins were the same, while there was no statistically significant difference after combining with Erastin. The results of animal experiments showed that compared with the model group, after intervention with 1,8-cineole, the structure of the pancreatic islets in mice recovered intact and their morphology improved; the iron content of pancreatic tissue and protein expression of COX2 were decreased significantly (P<0.05), while protein expression of GPX4 was increased significantly (P<0.05). CONCLUSIONS 1,8-cineole could ameliorate pancreatic β cell injury induced by diabetes, the mechanism of which may be related to reducing intracellular iron deposition and regulating ferroptosis-related proteins.
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Diabetes mellitus is a metabolic disease characterized by chronic hyperglycemia caused by absolute or relative insufficiency of insulin secretion. As the disease progresses, patients begin to suffer from diabetic nephropathy, diabetic cardiomyopathy, non-alcoholic fatty liver disease or other complications, which increase the burden on the patients. Moreover, the number of patients is increasing, which brings a heavy burden to the society. Ferroptosis is a new type of programmed cell death which has attracted wide attention in recent years. It refers to the cell death caused by the excessive accumulation of lipid peroxide under the overload of iron ions. Studies have discovered that ferroptosis exists in diabetes mellitus and its complications. Inhibiting ferroptosis can greatly slow down the occurrence and progression of diabetes mellitus and its complications. Chinese medicine, the unique medical treasure in China, acts in a multi-pathway, multi-target manner and is praised for the cheap price, low toxicity, and mild side effects. It has been widely used in the treatment of diabetes mellitus and its complications and has demonstrated definite therapeutic effects, bringing the good news for the majority of patients. The regulation of ferroptosis by Chinese medicine may be a new direction for the treatment of diabetes mellitus and its complications in the future. This paper briefly describes the mechanism of ferroptosis, explores the relationship of ferroptosis with diabetes mellitus and its complications, summarizes the research status of Chinese medicine interventions, and puts forward suggestions, aiming to provide a reference for further research on the treatment of diabetes mellitus and its complications with Chinese medicine.
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ObjectiveTo observe the effect of Banxia Xiexintang (BXT) on the proliferation of human gastric cancer HGC-27, MKN-45, and AGS cells and its mechanism. MethodCell counting kit-8 (CCK-8) was used to detect the effects of different concentrations of BXT-containing serum (5%, 10%, and 20%) on the proliferation of HGC-27, MKN-45, and AGS cells. A mitochondrial membrane potential probe (TMRE) was used to detect the expression of mitochondrial membrane potential in cells. A kit was used to detect iron ion (Fe2+) content, lipid peroxide (LPO), and superoxide dismutase (SOD) activity. Western blot was used to detect the protein expression levels of glycogen synthase3β (GSK3β), phosphorylated GSK3β (p-GSK3β), nuclear factor E2 related factor 2 (Nrf2), and glutathione peroxidase 4 (GPX4). The real-time fluorescence quantitative polymerase chain reaction (Real-time PCR) was used to detect the mRNA expression of member 11 of the cystine/glutamic acid reverse transporter solute vector family 7 (SLC7A11), member 2 of the heavy chain solute vector family 3 (SLC3A2), transferrin receptor 3 (TFRC), and tumor protein (TP)53. ResultCCK-8 results showed that BXT and capecitabine could significantly reduce the survival rate of three kinds of gastric cancer cells after treatment with drug-containing serum for 24 h (P<0.01). After 48 h of intervention with drug-containing serum, the survival rate of three kinds of gastric cancer cells was significantly decreased in both the capecitabine group and the BXT group compared with the blank group. The BXT group was dose-dependent, with 20% BXT having the most significant effect (P<0.01). In terms of biochemical indicators of ferroptosis, compared with the blank group, BXT and capecitabine significantly decreased the expression of mitochondrial membrane potential (P<0.01) and SOD activity (P<0.01) and significantly increased the contents of LPO and Fe2+ (P<0.01), so as to improve the sensitivity of gastric cancer cells to ferroptosis. In terms of the Nrf2/GPX4 pathway, compared with the blank group, the BXT group could reduce the protein expressions of p-GSK3β, Nrf2, and GPX4 (P<0.01) in gastric cancer cells and increase mRNA expressions of SLC7A11 and SLC3A2 (P<0.05). It could also increase the protein expression of GSK3β (P<0.01) and mRNA expression of TP53 and TFRC (P<0.05, P<0.01) in gastric cancer cells. Inhibition of the Nrf2/GPX4 pathway induces ferroptosis in gastric cancer cells. Compared with the capecitabine group, the 20% BXT group showed a more obvious effect. ConclusionBanxia Xiexintang can induce ferroptosis in gastric cancer cells HGC-27, MKN-45, and AGS by inhibiting the Nrf2/GPX4 pathway.
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ObjectiveTo investigate whether menaquinone-4 (MK-4) can exert a protective effect against carbon tetrachloride (CCl4)-induced acute liver injury (ALI) in mice by alleviating ferroptosis. MethodsAfter adaptive feeding, adult male ICR mice, aged 8 weeks, were divided into Control group, MK-4 group, CCl4 model group (6-hour, 12-hour, and 24-hour), and MK-4+CCl4 group (6-hour, 12-hour, and 24-hour), with 6 mice in each group. The mice in the Control group were given intraperitoneal injection of an equal dose of corn oil; the mice in the MK-4 group were given intraperitoneal injection of 40 mg/kg MK-4 solution, followed by an equal dose of corn oil after 1 hour; the mice in the MK-4+CCl4 group (6-hour, 12-hour, and 24-hour) were given intraperitoneal injection of 40 mg/kg MK-4 solution, and after 1 hour, the mice in this group and the CCl4 model group (6-hour, 12-hour, and 24-hour) were given intraperitoneal injection of 0.3 mL/kg CCl4 solution, with samples collected at 6, 12, and 24 hours. HE staining was used to observe the pathological changes of mouse liver; Prussian blue staining was used to observe iron accumulation in liver tissue; a biochemical analyzer was used to measure the serum levels of aspartate aminotransferase (AST) and alanine aminotransferase (ALT); related kits were used to measure the levels of tissue iron content and the oxidative stress indices malondialdehyde (MDA) and glutathione (GSH) in liver homogenate; RT-PCR was used to measure the expression levels of ferroptosis marker genes (acyl-CoA synthetase long-chain family member 4 [ACSL4], prostaglandin-endoperoxide synthase 2 [PTGS2], and glutathione peroxidase 4 [GPX4]) and iron metabolism-related genes (hemojuvelin [HJV], transferrin receptor 1 [TFR1], and ferroportin [FPN]), and Western blot was used to measure the protein expression level of GPX4. A one-way analysis of variance was used for comparison of continuous data between multiple groups, and the least significant difference t-test was used for further comparison between two groups. ResultsIn the aging study, compared with the Control group, the CCl4 model group (6-hour, 12-hour, and 24-hour) had significant increases in liver weight coefficient and the serum levels of ALT and AST (all P<0.05), and HE staining also showed that liver injury gradually aggravated over time. Meanwhile, compared with the CCl4 model group (6-hour, 12-hour, and 24-hour), the MK-4+CCl4 (12-hour) group had significant reductions in liver weight coefficient and the serum levels of ALT and AST (all P<0.05), with a reduction in the necrotic area of liver tissue, and therefore, 12-hour mouse tissue samples were used for detection in the following study. Compared with the Control group, the CCl4 group had a significant increase in MDA and a significant reduction in GSH (both P<0.05), and compared with the CCl4 group, the MK-4+CCl4 group had a significant reduction in MDA and a significant increase in GSH (both P<0.05). Compared with the Control group, the CCl4 group had significant increases in the key ferroptosis indices ASCL4 and PTGS2 and a significant reduction in GPX4 (all P<0.05); compared with the CCl4 group, the MK-4+CCl4 group had significant reductions in the mRNA expression levels of ASCL4 and PTGS2 and a significant increase in the mRNA expression level of GPX4 (all P<0.05). Western blotting showed that compared with the Control group, the CCl4 group had a significant reduction in the protein expression level of GPX4 (P<0.05), and compared with the CCl4 group, the MK-4+CCl4 group had a significant increase in the protein expression level of GPX4 (P<0.05). Prussian blue staining showed that compared with the Control group, the CCl4 group had a significant increase in iron accumulation; after MK-4 intervention, compared with the CCl4 group, the MK-4+CCl4 group had a significant reduction in iron accumulation. As for the measurement of iron metabolism genes in mouse liver, compared with the Control group, the CCl4 group had a significant increase in iron content, significant reductions in the mRNA expression levels of FPN and HJV, and a significant increase in the mRNA expression level of TFR1 (all P<0.05); after protection with MK-4, there was a significant reduction in iron content, significant increases in the mRNA expression levels of FPN and HJV, and a significant reduction in the mRNA expression level of TFR1 (all P<0.05). ConclusionMK-4 intervention in advance can alleviate CCl4-induced ALI in mice, possibly by inhibiting ferroptosis and improving the expression of iron metabolism-related genes in mouse liver.
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ObjectiveTo investigate the effect and mechanism of Dendrobium mixture (DMix)-containing serum on high glucose-induced podocyte injury in mice. MethodThe MPC5 mouse glomerular podocytes were cultured in vitro, and the optimal glucose concentration for modeling, modeling time, and concentration of DMix-containing serum for administration were determined. The cells were classified into normal (5.5 mmol·L-1 glucose+10% blank serum), model (30 mmol·L-1 glucose+10% blank serum), DMix-containing serum (30 mmol·L-1 glucose+10% DMix-containing serum), ferroptosis inhibitor (Fer-1, 30 mmol·L-1 glucose+10% blank serum+1 μmol·L-1 Fer-1) groups. The corresponding kits were used to measure the levels of Fe2+ and lactate dehydrogenase (LDH) in cells. Enzyme-linked immunosorbent assay was employed to determine the content of glutathione (GSH) and lipid peroxide (LPO) in cells. Fluorescence probe was used to measure the reactive oxygen species (ROS) level. Real-time fluorescence quantitative polymerase chain reaction and Western blotting were employed to determine the mRNA and protein levels, respectively, of Wilms' tumor-1 (WT-1), desmin, long chain acyl-CoA synthase 4 (ACSL4), and glutathione peroxidase 4 (GPX4) in podocytes. ResultCompared with the blank group, the intervention with 30 mmol·L-1 glucose for 48 h reduced podocyte viability (P<0.01), and the 10% DMix-containing serum showed the most significant improvement in podocyte viability (P<0.01). Compared with the normal group, the model group presented elevated levels of Fe2+, LDH, LPO, and ROS, lowered GSH level, up-regulated mRNA and protein levels of desmin and ACSL4, and down-regulated mRNA and protein levels of WT-1 and GPX4 (P<0.01). Compared with the model group, the DMix-containing serum lowered the Fe2+, LDH, LPO, and ROS levels, elevated the GSH level, down-regulated the mRNA and protein levels of desmin and ACSL4, and up-regulated the mRNA and protein levels of WT-1 and GPX4 in podocytes (P<0.05, P<0.01). ConclusionDMix-containing serum exerts a protective effect on high glucose-induced podocyte injury by inhibiting ferroptosis.
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Aldehyde dehydrogenase 2 (ALDH2) is one of important factors against from the damage under oxidative stress in human body. A high proportion of East Asians carry ALDH2 inactive mutation gene. There are many diseases closely related to ALDH2, such as cardiovascular diseases, neurodegenerative diseases and liver diseases. Recent studies also have found that ALDH2 is associated with ferroptosis. Therefore, ALDH2 has becoming a potential target for the treatment of the above related diseases. Several types of small molecule activators with potential value of clinical application have been reported. The research progress on the structure and function of ALDH2 , the relationship with human diseases and its activators were summarized in this paper.
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Ferroptosis is a new type of programmed cell death, characterized by iron overload and lipid peroxidation. Cardiovascular disease (CVD) is an ischemic or hemorrhagic disease of the heart caused by various factors, mainly including myocardial infarction, heart failure, etc. Ferroptosis is involved in the process of myocardial cell damage and plays a driving role in the progression of various CVDs. Its main mechanisms include the destruction of iron homeostasis, the production of reactive oxygen species, the disorder of the antioxidant system, mitochondrial membrane damage, endoplasmic reticulum stress, tumor suppressor gene p53, transcription factor Nrf2 pathway, etc. Myocardial injury is one of the causes of death in many patients with heart disease. Monomers or compounds of traditional Chinese medicine have shown good effects in the treatment of myocardial cell injury caused by ferroptosis, including baicalin protecting cardiac microvascular endothelial cells of myocardial ischemia-reperfusion (I/R) rats through intracellular phosphatidylinositol kinase/phosphokinase B/endothelial nitric oxide synthase (PI3K/Akt/eNOS) pathway, Aralia elata saponin inhibiting myocardial cell ferroptosis through glucocorticoid receptor/p53/solute carrier family 7 members 11 (NR3C1/p53/SLC7A11) pathway, Xinyang tablets improving oxidative stress by regulating phosphorylated serine/threonine protein kinase/stress-activated protein kinase/p53 (MLK3/JNK/p53) signaling pathway. It is of great significance to explore the mechanism of ferroptosis and the protective effect of related traditional Chinese medicine after myocardial cell injury. This article reviews the mechanism of ferroptosis and its relationship with myocardial cells, as well as traditional Chinese medicine monomers and formulas for treating CVDs through the ferroptosis pathway. The article focuses on the pathways and effects of traditional Chinese medicine treatment, so as to provide a reference for the treatment of CVDs with traditional Chinese medicine.
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Osteoporosis (OP) is a systemic metabolic bone disease characterized by bone microstructure degeneration and bone mass loss, which has a high prevalence and disability rate. Effective prevention and treatment of OP is a major difficulty in the medical community. The nature of OP is that multiple pathological factors lead to the imbalance of human bone homeostasis maintained by osteoblasts and osteoclasts. Ferroptosis is a non-apoptotic cell death pathway, and its fundamental cause is cell damage caused by iron accumulation and lipid peroxidation. Studies have shown that ferroptosis is involved in and affects the occurrence and development of OP, which leads to OP by mediating the imbalance of bone homeostasis. Ferroptosis is an adjustable form of programmed cell death. The intervention of ferroptosis can regulate the damage degree and death process of osteoblasts and osteoclasts, which is beneficial to maintain bone homeostasis, slow down the development process of OP, improve the clinical symptoms of patients, reduce the risk of disability, and improve their quality of life. However, there are few studies on ferroptosis in OP. Traditional Chinese medicine (TCM) is a medical treasure with unique characteristics and great application value in China. It has been widely used in China and has a long history. It has the multi-target and multi-pathway advantages in the treatment of OP, with high safety, few toxic and side effects, and low treatment cost, and has a significant effect in clinical application. The intervention of TCM in ferroptosis to regulate bone homeostasis may be a new direction for the prevention and treatment of OP in the future. This article summarized the regulatory mechanisms related to ferroptosis, discussed the role of ferroptosis in bone homeostasis, and reviewed the current status and progress of active ingredients in TCM compounds and monomers in the regulation of OP through ferroptosis, so as to provide a theoretical basis for the participation of TCM in the prevention and treatment of OP in the future.
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ObjectiveTo observe the effect of earthworm protein on the expression of phosphatidylinositol 3-kinase/protein kinase B/nuclear factor E2-related factor 2 (PI3K/Akt/Nrf2) pathway in the aorta of spontaneously hypertensive rats (SHR) and explore mechanism of earthworm protein in treating hypertensive vascular endothelial dysfunction (VED). MethodTen 10-week-old Wistar Kyoto (WKY) rats and fifty SHR rats were selected for a week of adaptive feeding. WKY rats were selected as the normal group, and fifty SHR rats were randomized according to body weight into model, valsartan (8×10-3 g·kg-1·d-1), and high-, medium-, and low-dose (0.2, 0.1, 0.05 g·kg-1·d-1, respectively) earthworm protein groups. The normal and model groups were administrated with equal volume of double distilled water by gavage. During the drug intervention period, the general situations of rats in each group were observed and their blood pressure was monitored at specific time points every other week before and after administration. After 8 weeks of drug intervention, enzyme-linked immunosorbent assay was employed to measure the levels of angiotensin-Ⅱ (Ang-Ⅱ) and endothelin-1 (ET-1) in the serum of rats in each group. The corresponding kits were used to determine the levels of nitric oxide (NO), malondialdehyde (MDA), glutathione peroxidase (GPX), superoxide dismutase (SOD), and ferrous ion (Fe2+). Hematoxylin-eosin (HE) staining was employed to observe the changes in the intima of the aorta. Fluorescence quantitative polymerase chain reaction (Real-time PCR) was employed to measure the mRNA levels of PI3K, Akt, Nrf2, heme oxygenase-1 (HO-1), and glutathione peroxidase 4 (GPX4) in the aortic tissue. Western blotting was used to determine the protein levels of p-PI3K (Tyr467/199), PI3K, p-Akt (Ser473), Akt, Nrf2, HO-1, and GPX4 in the thoracic aorta. ResultCompared with the normal group, the model group had decreased body mass, increased irritability, severe endothelial damage, elevated blood pressure and serum levels of Ang-Ⅱ, ET1, MDA, and Fe2+ (P<0.01), lowered NO level (P<0.01), and down-regulated mRNA and protein levels of p-PI3K (Tyr467/199), PI3K, p-Akt (Ser473), Akt, Nrf2, HO-1, and GPX4 in the aortic tissue (P<0.01). Compared with the model group, drug intervention caused no significant change in the body mass, calmed the rats, alleviated the endothelial damage, lowered blood pressure and serum levels of Ang-Ⅱ, ET1, MDA, and Fe2+ (P<0.01), elevated the NO level (P<0.05), and up-regulated the mRNA and protein levels of p-PI3K (Tyr467/199), PI3K, p-Akt (Ser473), Akt, Nrf2, HO-1, and GPX4 (P<0.05). ConclusionThe earthworm protein can exert antihypertensive effects by ameliorating VED in SHR. Specifically, it may regulate the PI3K/Akt/Nrf2 signaling pathway to inhibit oxidative stress and ferroptosis.
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Ferroptosis is a unique and new mode of cell death, which is driven by iron-dependent lipid peroxidation and mainly characterized by the accumulation of reactive oxygen species in cytoplasm and lipids. Ferroptosis plays an important role in the pathogenesis of many ocular fundus diseases, such as retinitis pigmentosa, age-related macular degeneration, diabetic retinopathy, retinal detachment, retinoblastoma and so on. The use of ferroptosis-related inhibitors or activators can regulate the course of the disease and provide new ideas for the research, prevention and treatment of ophthalmic diseases.
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Alzheimer's disease is a common central neurodegenerative disease, mainly manifested by cognitive impairment and non-cognitive neuropsychiatric symptoms that severely affect patients' daily life and behavioral functioning. The pathogenesis of Alzheimer's disease is still unclear, and the western medicine currently used to treat Alzheimer's disease is only symptomatic, with a single pathway, limited efficacy, and many side effects. In recent years, with the deepening of research on Alzheimer's disease, the study and application of traditional Chinese medicine (TCM) in the treatment of Alzheimer's disease have gradually increased. Several studies have shown that TCM and its effective components can exert anti-Alzheimer's disease effects by regulating molecular mechanisms such as pathological protein production and aggregation, oxidative stress, neuroinflammation, ferroptosis, mitochondrial dysfunction, neurogenesis and neurotransmission, and brain-gut axis. This paper summarized the research progress of TCM in the treatment of Alzheimer's disease in recent years, so as to provide a reference for further study of the specific mechanism of TCM in the prevention and treatment of Alzheimer's disease and the discovery of effective components of TCM.
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ObjectiveTo investigate the attenuating effect of Dioscoreae Bulbiferae Rhizoma(DBR) processed with Phaseoli Radiati Semen(PRS) juice, and explore the attenuating mechanism based on ferroptosis of the main toxic target organ. MethodSixty male ICR mice were randomly divided into blank group, DBR group, water roasted DBR group(hereinafter referred to as water group), PRS juice-roasted DBR group 1(DBR-PRS 10∶1, stuffy moistening for 40 min, stir-fried at 130 ℃ for 18 min, hereinafter referred to as group 1), PRS juice-roasted DBR group 2(DBR-PRS 10∶1, stuffy moistening for 80 min, stir-fried at 100 ℃ for 14 min, hereinafter referred to as group 2), PRS juice-roasted DBR group 3(DBR-PRS=20∶3, stuffy moistening for 40 min, stir-fried at 160 ℃ for 14 min, hereinafter referred to as group 3). The raw and processed groups of DBR were gavaged with their corresponding 95% ethanol extract at a dose of 3 g·kg-1·d-1, while the blank group was gavaged with an equal volume of 0.5% sodium carboxymethyl cellulose, once a day for 14 consecutive days. Hematoxylin-eosin(HE) staining was used to observe the histopathological changes of mouse liver. Alanine aminotransferase(ALT) and aspartate aminotransferase(AST) levels in serum, as well as malondialdehyde(MDA), ferrous ions(Fe2+), reduced glutathione(GSH) and superoxide dismutase(SOD) levels in liver tissue were detected by the biochemical detection. Western blot was used to detect the expression of iron key proteins such as ferritin heavy chain 1(FTH1) and glutathione peroxidase 4(GPX4). ResultHE staining results showed that the liver tissue structure of the blank group was clear, the morphology of hepatocytes was normal, the cytoplasms of hepatocytes in the DBR group and water group were loose and vacuolar, with obvious pathological damages, and the pathologic damages of mice in the group 1-3 were significantly improved. Compared with the blank group, the levels of ALT, AST, MDA and Fe2+ in mice from the DBR group were significantly increased(P<0.01), while GSH and SOD levels were significantly reduced(P<0.01), and the protein expression levels of FTH1 and GPX4 were significantly decreased(P<0.01). Compared with the DBR group, the ALT, AST,MDA and Fe2+ levels of mice in the group 1-3 were significantly reduced(P<0.05, P<0.01), the GSH and SOD levels and the protein expression levels of FTH1 and GPX4 were significantly increased(P<0.01). Compared with the water group, the AST and MDA levels of mice in the group 1-3 were significantly reduced(P<0.05, P<0.01), the SOD level significantly increased(P<0.05, P<0.01), the FTH1 protein expression significantly increased(P<0.01), and the serum ALT level of mice in the group 2-3 significantly reduce(P<0.01), Fe2+ level significantly reduced(P<0.01), GSH level significantly increased(P<0.05, P<0.01), and GPX4 protein expression significantly increased(P<0.05, P<0.01). Among the group 1-3, the group 3 had the best detoxification effect. ConclutionProcessing with PRS juice can reduce the liver injury induced by DBR, and the mechanism may be related to the inhibition of ferroptosis in the liver.
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Dihydroorotate dehydrogenase (DHODH) is a flavin-dependent metabolic enzyme that oxidizes dihydroorotate acid to orotic acid in the de novo synthesis pathway of pyrimidine metabolism. DHODH is located in mitochondria, closely related to cellular oxidative phosphorylation, and an important suppressor of the ferroptosis pathway. This study investigates the influence of DHODH on the progression of malignant tumors, including its important role in the de novo synthesis of pyrimidine, oxidative phosphorylation, and ferroptosis. The objective is to present evidence that DHODH is a potential target for the clinical treatment of tumors.
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Objective To assess the role of the ferroptosis-associated gene GLS2 in the prognosis of pan-cancer and immunity using bioinformatics methods. Methods GLS2 expression levels in pan-cancer were profiled using publicly available databases: The Cancer Genome Atlas, GTEx, Cancer Cell Line Encyclopedia and the International Cancer Genome Consortium. The aim was to explore the role of GLS2 gene expression, gene variation survival analysis, immune infiltration, immune checkpoint related genes, TMB, and MSI in different tumors. Results Difference in GLS2 expression levels between cancer and paraneoplastic tissues was statistically significant in most cancer types, and the expression level was correlated with survival in these cancer types. A positive correlation was found between GLS2 expression and immune cell infiltration in multiple cancer types, and GLS2 expression level was positively correlated with TMB, MSI, and methylation, and its expression is an indicator for potential therapeutic response. Conclusion Pan-cancer analysis shows that the ferroptosis-related gene GLS2 can be used as a diagnostic and prognostic marker of clear cell carcinoma of kidney, adrenocortical carcinoma, lung adenocarcinoma, and pancreatic cancer.
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AIM: To investigate the relationship between vascular smooth muscle cell (VSMC) injury, organelle stress response and autophagic cell death (autophagy) and ferroptosis induced by the chemical hypoxia inducer cobalt chloride (CoCl2) through the bioinformatics analysis and in vitro cell experimentation. METHODS: The dataset GSE119226 of VSMC treated with cobalt chloride was acquired from the gene expression database (GEO). The R language was used to investigate the relationship between CoCl2 treatment and organelle stress response (Golgi stress, endoplasmic reticulum stress) and two forms of cell death (ferroptosis and autophagic cell death). With primary cultured rat VSMC (rVSMC) and CoCl2-induced anoxia model, the changes in cell viability were detected by CCK-8 method, and reactive oxygen species (ROS) levels were measured using DCFH-DA method. The expression levels of HIF-1α (a key molecule in hypoxia), Golgi stress markers GM130 and p115, endoplasmic reticulum stress markers GRP78 and CHOP, autophagy markers LC3-II / LC3-I and Beclin1, and ferroptosis markers GPx4 and xCT were detected by Western blot. The effect of inducing or inhibiting organelle stress and cell death on the CoCl2-induced cell damage was also observed. RESULTS: Differentially expressed genes analysis of GSE119226 dataset showed that CoCl2 treatment of VSMCs had significant effects on organelle function and stress response, autophagy and ferroptosis-related genes, in which endoplasmic reticulum stress, protein processing in endoplasmic reticulum, regulation of Golgi to plasma membrane protein transport, autophagy / autophagic cell death, and ferroptosis pathways were remarkably enriched. The results of in vitro experiment showed that compared with normal rVSMC, cell viability was significantly decreased after CoCl2 treatment, as well as HIF-1α protein expression and ROS levels in rVSMCs were increased. In rVSMC treated with Co-Cl2, the expression levels of Golgi structural proteins GM130 and p115 (reflecting the occurrence of Golgi stress) were decreased, while the markers GRP78 and CHOP (reflecting the occurrence of endoplasmic reticulum stress) were increased. At the same time, CoCl2 treatment also reduced the expression of autophagy markers LC3-II/LC3-I and Beclin1 (indicating the decrease levels of autophagy), while the expression of ferroptosis markers GPx4 and xCT were decreased (indicating the occurrence of ferroptosis). Compared with CoCl2 treatment group, induced Golgi stress, endoplasmic reticulum stress, or ferroptosis could further reduce cell viability, while inhibition of these processes could improve cell viability. On the other hand, increasing the level of autophagy can improve the cell viability. CONCLUSION: Hypoxia induced by cobalt chloride can lead to VSMC injury. Golgi stress, endoplasmic reticulum stress, ferroptosis, and the reduction of autophagy level play an important role in it. Inhibition of organelle stress response and ferroptosis, or increase of autophagy level can improve VSMC injury caused by cobalt chloride.
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Emerging evidences suggest that ferroptosis plays a vital role in the pathophysiological process of brain injury after Ischemic stroke. Accumulating evidence supports pharmacological inhibition of ferroptosis as a therapeutic target for brain injury after Ischemic stroke through activating nuclear factor erythroid 2-related factor 2 (Nrf2), which transcriptionally controls many key components of the ferroptosis pathway. In this review, briefly describe ferroptosis processes and the roles they play in contributing to brain injury after ischemic stroke in the brain. We then provide a critical overview of the relationship between Nrf2 signalling and ferroptosis. With a focus on discuss how therapeutic modulation of the Nrf2 pathway is a viable strategy to explore in the treatment of ferroptosis-driven brain injury after Ischemic stroke.
ABSTRACT
Aim To investigate the mechanism of ligu aged 2 months of the same strain were used as the constilide (LIG) in delaying the senescence of auditory trol (Ctrl) group. Auditory brainstem response test was cortex and treating central presbycusis. Methods used to detect the auditory threshold of mice before and Forty C57BL/6J mice aged 13 months were randomly di after treatment. Levels of serum MDA and activity of vided into ligustilide low-dose(L-LIG) group, ligustil serum SOD were detected to display the level of oxidative ide medium-dose (M-LIG) group, ligustilide high-dose stress. The pathological changes of auditory cortex were (H-LIG) group and aging (Age) group, and 10 mice observed by HE staining. Ferroptosis was observed by
ABSTRACT
Alzheimer' s disease (AD) is a progressive neurodegenerative disorder histologically characterized by the presence of senile plaques and neurofibrillary tangles (NFTs) found in and around pyramidal neurons in cortical tissue. Mounting evidence suggests regional increased iron load and dyshomeostasis have been associated with oxidative stress, oxidation of proteins and lipids, and cell death, and appears to be a risk factor for more rapid cognitive decline, thereby involved in multiple aspects of the pathophysiology of AD. Ferroptosis is a newly identified iron-dependent lipid peroxidation-driven cell death and emerging evidences have demonstrated the involvement of ferroptosis in the pathological process of AD. Notably, some novel compounds targeting ferroptosis can relieve AD-related pathological symptoms in AD cells and animal model and exhibit potential clinical benefits in AD patients. This review systematically summarizes the growing molecular and clinical evidence implicating ferroptosis in the pathogenesis of AD, and then reviews the application of ferroptosis inhibitors in mouse/cell models to provide valuable information for future treatment and prevention of AD.