2.Silencing of SMAD family member 3 promotes M2 polarization of macrophages and the expression of SMAD7 in rheumatoid arthritis.
Chenchen FEI ; Xi SHEN ; Lei WAN ; Haixia FAN ; Tianyang LIU ; Ming LI ; Lei LIU ; Yao GE ; Qingqing WANG ; Wenjie FAN ; Qian ZHOU
Chinese Journal of Cellular and Molecular Immunology 2023;39(10):904-909
Objective To investigate the effect of SMAD family member 3(SMAD3) silenced by small interfering RNA (siRNA) on macrophage polarization and transforming growth factor β1 (TGF-β1)/ SMAD family signaling pathway in rheumatoid arthritis (RA). Methods RA macrophages co-cultured with rheumatoid arthritis fibroblast-like synoviocytes (RA-FLS) were used as a cell model. TGF-β1 was used to stimulate macrophages, and SMAD3-specific siRNA (si-SMAD3) and negative control siRNA (si-NC) were transfected into human RA macrophages co-cultured in TranswellTM chamber. The expression of SMAD3 mRNA was detected by real-time fluorescence quantitative PCR, and the expression of TGF-β1, SMAD3 and SMAD7 protein was detected by Western blot analysis. The contents of TGF-β1 and IL-23 in cell culture supernatant were determined by ELISA. Cell proliferation was detected by CCK-8 assay. TranswellTM chamber was used to measure cell migration. Results Compared with the model group and the si-NC group, the expression of TGF-β1, SMAD3 mRNA and protein in RA macrophages decreased significantly after silencing SMAD3. In addition, the secretion of IL-23 decreased significantly, and the cell proliferation activity and cell migration were inhibited, with high expression of SMAD7. Conclusion Knockdown of SMAD3 can promote M2 polarization and SMAD7 expression in RA macrophages.
Humans
;
Arthritis, Rheumatoid/genetics*
;
Interleukin-23
;
Macrophages
;
RNA, Messenger
;
RNA, Small Interfering/genetics*
;
Smad7 Protein/genetics*
;
Transforming Growth Factor beta1/genetics*
;
Smad3 Protein/genetics*
;
Gene Silencing
3.EWSR1-SMAD3 positive fibroblastic tumor: a clinicopathological analysis.
Hai Yan SU ; Lu ZHAO ; Gang JI ; Qian Lan YAO ; Qian Ming BAI ; Xiao Yan ZHOU ; Jian WANG
Chinese Journal of Pathology 2023;52(1):19-24
Objective: To investigate the clinicopathological features, immunophenotypes and molecular genetics of EWSR1-SMAD3 positive fibroblastic tumor (ESFT) with an emphasis on differential diagnosis. Methods: The clinicopathological data, immunohistochemical profiles and molecular profiles of 3 ESFT cases diagnosed at the Department of Pathology, Fudan University Shanghai Cancer Center from 2018 to 2021were analyzed. The related literature was also reviewed. Results: There were two males and one female. The patients were 24, 12 and 36 years old, respectively. All three tumors occurred in the subcutis of the foot with the disease duration of 6 months to 2 years. The tumors were presented with a slowly growing mass or nodule, accompanied with pain in 1 patient. The tumors ranged in size from 0.1 to 1.6 cm (mean, 1.0 cm). Microscopically, the tumors were located in the subcutaneous tissue with a nodular or plexiform growth pattern. They were composed of cellular fascicles of bland spindle cells with elongated nuclei and fine chromatin. One of the tumors infiltrated into adjacent adipose tissue. There was no nuclear atypia or mitotic activities. All three tumors showed prominent stromal hyalinization with zonal pattern present in one case. Focal punctate calcification was noted in two cases. The immunohistochemical studies showed that tumor cells were diffusely positive for ERG and negative for CD31 and CD34, with Ki-67 index less than 2%. Fluorescence in situ hybridization on the two tested cases identified EWSR1 gene rearrangement. The next generation sequencing analysis demonstrated EWSR1-SMAD3 fusion in all three cases. During the follow up, one patient developed local recurrence 24 months after the surgery. Conclusions: ESFT is a benign fibroblastic neoplasm and has a predilection for the foot, characterized by ERG immunoreactivity and EWSR1-SMAD3 fusion. Local recurrence might occur when incompletely excised. Familiarity with its clinicopathological features is helpful in distinguishing it from other spindle cell neoplasms that tend to occur at acral sites.
Adult
;
Child
;
Female
;
Humans
;
Male
;
Biomarkers, Tumor/analysis*
;
China
;
In Situ Hybridization, Fluorescence
;
Neoplasms, Fibrous Tissue/pathology*
;
RNA-Binding Protein EWS/genetics*
;
Smad3 Protein/genetics*
;
Soft Tissue Neoplasms/surgery*
4.Role of TGF-β/Smad signaling pathway in diabetic kidney disease and research progress of traditional Chinese medicine intervention.
Yan-Xu CHEN ; Xiao-Xue JIANG ; Qin-Yuan ZHANG ; Chang-Qing XU ; Yao-Mu HU ; Cai-Yun JIN ; Bo-Ling ZHANG ; Yao-Qin FU ; Zhi-Sheng JIN
China Journal of Chinese Materia Medica 2023;48(10):2630-2638
Diabetic kidney disease is an important microvascular complication of diabetes and the leading cause of end-stage renal disease. Its pathological characteristics mainly include epithelial mesenchymal transition(EMT) in glomerulus, podocyte apoptosis and autophagy, and damage of glomerular filtration barrier. Transforming growth factor-β(TGF-β)/Smad signaling pathway is specifically regulated by a variety of mechanisms, and is a classic pathway involved in physiological activities such as apoptosis, proliferation and differentiation. At present, many studies have found that TGF-β/Smad signaling pathway plays a key role in the pathogenesis of diabetic kidney disease. Traditional Chinese medicine has significant advantages in the treatment of diabetic kidney disease for its multi-component, multi-target and multi-pathway characteristics, and some traditional Chinese medicine extracts, traditional Chinese medicines and traditional Chinese medicine compound prescription improve the renal injury of diabetic kidney disease by regulating TGF-β/Smad signaling pathway. This study clarified the mechanism of TGF-β/Smad signaling pathway in diabetic kidney disease by expounding the relationship between the key targets of the pathway and diabetic kidney disease, and summarized the research progress of traditional Chinese medicine in the treatment of diabetic kidney disease by interfering with TGF-β/Smad signaling pathway in recent years, to provide reference for drug research and clinical treatment of diabetic kidney disease in the future.
Humans
;
Diabetic Nephropathies/genetics*
;
Medicine, Chinese Traditional
;
Kidney/pathology*
;
Transforming Growth Factor beta/metabolism*
;
Signal Transduction
;
Epithelial-Mesenchymal Transition
;
Smad Proteins/metabolism*
;
Transforming Growth Factor beta1/metabolism*
;
Diabetes Mellitus/genetics*
5.Amygdalin Ameliorates Liver Fibrosis through Inhibiting Activation of TGF-β/Smad Signaling.
Zhun XIAO ; Qiang JI ; Ya-Dong FU ; Si-Qi GAO ; Yong-Hong HU ; Wei LIU ; Gao-Feng CHEN ; Yong-Ping MU ; Jia-Mei CHEN ; Ping LIU
Chinese journal of integrative medicine 2023;29(4):316-324
OBJECTIVE:
To observe the effect of amygdalin on liver fibrosis in a liver fibrosis mouse model, and the underlying mechanisms were partly dissected in vivo and in vitro.
METHODS:
Thirty-two male mice were randomly divided into 4 groups, including control, model, low- and high-dose amygdalin-treated groups, 8 mice in each group. Except the control group, mice in the other groups were injected intraperitoneally with 10% carbon tetrachloride (CCl4)-olive oil solution 3 times a week for 6 weeks to induce liver fibrosis. At the first 3 weeks, amygdalin (1.35 and 2.7 mg/kg body weight) were administered by gavage once a day. Mice in the control group received equal quantities of subcutaneous olive oil and intragastric water from the fourth week. At the end of 6 weeks, liver tissue samples were harvested to detect the content of hydroxyproline (Hyp). Hematoxylin and eosin and Sirius red staining were used to observe the inflammation and fibrosis of liver tissue. The expressions of collagen I (Col-I), alpha-smooth muscle actin (α-SMA), CD31 and transforming growth factor β (TGF-β)/Smad signaling pathway were observed by immunohistochemistry, quantitative real-time polymerase chain reaction and Western blot, respectively. The activation models of hepatic stellate cells, JS-1 and LX-2 cells induced by TGF-β1 were used in vitro with or without different concentrations of amygdalin (0.1, 1, 10 µmol/L). LSECs. The effect of different concentrations of amygdalin on the expressions of liver sinusoidal endothelial cells (LSECs) dedifferentiation markers CD31 and CD44 were observed.
RESULTS:
High-dose of amygdalin significantly reduced the Hyp content and percentage of collagen positive area, and decreased the mRNA and protein expressions of Col-I, α-SMA, CD31 and p-Smad2/3 in liver tissues of mice compared to the model group (P<0.01). Amygdalin down-regulated the expressions of Col-I and α-SMA in JS-1 and LX-2 cells, and TGFβ R1, TGFβ R2 and p-Smad2/3 in LX-2 cells compared to the model group (P<0.05 or P<0.01). Moreover, 1 and 10 µmol/L amygdalin inhibited the mRNA and protein expressions of CD31 in LSECs and increased CD44 expression compared to the model group (P<0.05 or P<0.01).
CONCLUSIONS
Amygdalin can dramatically alleviate liver fibrosis induced by CCl4 in mice and inhibit TGF-β/Smad signaling pathway, consequently suppressing HSCs activation and LSECs dedifferentiation to improve angiogenesis.
Rats
;
Male
;
Mice
;
Animals
;
Transforming Growth Factor beta/metabolism*
;
Amygdalin/therapeutic use*
;
Endothelial Cells/metabolism*
;
Olive Oil/therapeutic use*
;
Rats, Wistar
;
Smad Proteins/metabolism*
;
Liver Cirrhosis/metabolism*
;
Liver
;
Transforming Growth Factor beta1/metabolism*
;
Signal Transduction
;
Collagen Type I/metabolism*
;
Carbon Tetrachloride
;
Hepatic Stellate Cells
6.Geniposide inhibits hepatic fibrosis and hepatic stellate cell activation through blocking the TGF-β1/Smad signaling pathway.
Acta Physiologica Sinica 2022;74(2):217-224
The purpose of this study was to investigate the effect of Geniposide on hepatic fibrosis and activation of hepatic stellate cells (HSCs) and to explore possible underlying mechanism. Human HSCs (LX-2) were treated with 5 ng/mL transforming growth factor-β1 (TGF-β1), followed by co-culture with Geniposide at various concentrations (0, 1, 2.5, 5, 10, 20, 40, 60, 80, 100 μmol/L). Cell viability was determined by MTT assay. Then, LX-2 cells were divided into control, TGF-β1 (5 ng/mL) and TGF-β1 + Geniposide (20 μmol/L) groups, and the gene and protein expression of collagen I, fibronectin, α-smooth muscle actin (α-SMA), p-Smad2 and p-Smad3 was detected by qPCR and Western blot, respectively. BALB/c mice were treated with CCl4 (25%, 1 mL/kg) to generate a model of hepatic fibrosis (CCl4 group), and the control group and CCl4 + Geniposide group were administered with olive oil and CCl4 + 40 mg/kg Geniposide, respectively. After 4 weeks of treatment, the liver function and serum hepatic fibrosis indexes of mice were detected, histological observation was performed by HE and Masson staining, and α-SMA expression in the tissue was analyzed by immunohistochemistry. Western blot was utilized for the determination of the protein expression of α-SMA, TGF-β1, p-Smad2 and p-Smad3. The results showed that Geniposide inhibited LX-2 cell proliferation. In addition, Geniposide significantly downregulated the gene and protein expression of collagen I, fibronectin and α-SMA and the expression of TGF-β1/Smad signaling-related proteins induced by TGF-β1 in vitro. Histological observations showed that Geniposide significantly inhibited CCl4-induced hepatic fibrosis, HSC activation and expression of TGF-β1/Smad signaling-related proteins in mice. In summary, Geniposide prevents the hepatic fibrosis and HSC activation possibly through the inhibition of the TGF-β1/Smad signaling pathway.
Animals
;
Collagen Type I/metabolism*
;
Fibronectins
;
Hepatic Stellate Cells/pathology*
;
Iridoids
;
Liver Cirrhosis/pathology*
;
Mice
;
Signal Transduction
;
Smad Proteins/pharmacology*
;
Transforming Growth Factor beta1/metabolism*
7.Acupuncture and Moxibustion Inhibited Intestinal Epithelial-Mesenchymal Transition in Patients with Crohn's Disease Induced by TGF- β 1/Smad3/Snail Pathway: A Clinical Trial Study.
Sen GUO ; Jing ZHOU ; Liang ZHANG ; Chun-Hui BAO ; Ji-Meng ZHAO ; Yan-Ling GAO ; Pin WU ; Zhi-Jun WENG ; Yin SHI
Chinese journal of integrative medicine 2022;28(9):823-832
OBJECTIVE:
To explore whether acupuncture combined with moxibustion could inhibit epithelialmesenchymal transition in Crohn's disease by affecting the transforming growth factor β 1 (TGF- β 1)/Smad3/Snail pathway.
METHODS:
Sixty-three patients with Crohn's disease were randomly divided into an observation group (31 cases) receiving moxibustion at 43 °C combined with acupuncture, and a control group (32 cases) receiving moxibustion at 37 °C combined with sham acupuncture using a random number table. Patients were treated for 12 weeks. Crohn's Disease Activity Index (CDAI) was used to evaluate disease activity. Hematoxylin-eosin staining and transmission electron microscopy were utilized to observe the morphological and ultrastructural changes. Immunohistochemistry was used to detect the expression of transforming growth factor β 1 (TGF-β 1), T β R1, T β R2, Smad3, Snail, E-cadherin and fibronectin in intestinal mucosal tissues.
RESULTS:
The decrease of the CDAI score, morphological and ultrastructural changes were more significant in observation group. The expression levels of TGF- β 1, Tβ R2, Smad3, and Snail in the observation group were significantly lower than those before the treatment (P<0.05 or P<0.01). After treatment, the expression levels of TGF-β 1, TβR2, and Snail in the observation group were significantly lower than those in the control group (all P<0.05); compared with the control group, the expression of fibronectin in the observation group was significantly decreased, and the expression of E-cadherin was significantly increased (all P<0.05).
CONCLUSIONS
Moxibustion at 43 °C combined with acupuncture may suppress TGF-β 1/Smad3/Snail pathway-mediated epithelial-mesenchymal transition of intestinal epithelial cells in Crohn's disease patients by inhibiting the expression levels of TGF-β 1, Tβ R2, Smad3, and Snail. (Registration No. ChiCTR-IIR-16007751).
Acupuncture Therapy
;
Cadherins/metabolism*
;
Crohn Disease/therapy*
;
Epithelial-Mesenchymal Transition
;
Fibronectins/metabolism*
;
Humans
;
Moxibustion
;
Smad3 Protein/metabolism*
;
Snail Family Transcription Factors/metabolism*
;
Transforming Growth Factor beta1/metabolism*
8.Hydroxynitone suppresses hepatic stellate cell activation by inhibiting TGF-β1 phosphorylation to alleviate CCl4-induced liver fibrosis in rats.
Zhi Bin ZHAO ; Hui DONG ; Bing Hang LI ; Bo SHEN ; Yue Cheng GUO ; Tian Yu GU ; Ying QU ; Xiao Bo CAI ; Lun Gen LU
Journal of Southern Medical University 2022;42(10):1511-1516
OBJECTIVE:
To investigate the effect of hydronidone on CCl4-induced liver fibrosis in rats and explore the possible mechanism.
METHODS:
Sixty-six male SD rats were randomized into 5 groups, including a control group (n=10), a liver fibrosis model group (n=20), 2 hydronidone dose groups (100 and 250 mg/kg; n=12), and a pirfenidone (250 mg/kg) treatment group (n= 12). Rat models of liver fibrosis were established by subcutaneous injection of CCl4 in all but the control group. Hydronidone and pirfenidone were given daily at the indicated doses by intragastric administration for 6 weeks. After the treatments, serum samples were collected from the rats for detecting liver function parameters, and hydroxyproline content in the liver tissue was determined. Inflammation and fibrosis in the liver tissue were observed using HE staining and Sirius Red staining. In the cell experiment, human hepatic stellate cell line LX-2 was stimulated with TGF-β1 and treated with hydronidone or pirfenidone, and the expression levels of α-SMA, collagen type I and phosphorylated Smad3, phosphorylated p38, phosphorylated ERK1/2 and phosphorylated Akt were detected with Western blotting.
RESULTS:
In the rat models of liver fibrosis, treatment with hydronidone obviously improved the liver functions, reduced the content of hydroxyproline in the liver tissue, and significantly alleviated liver fibrosis (P < 0.05). In LX-2 cells, hydronidone dose-dependently decreased the expression levels of α-SMA and collagen type I. In TGF- β1-stimulated cells, the phosphorylation levels of Smad3, P38, ERK, and Akt increased progressively with the extension of the treatment time, but this effect was significantly attenuated by treatment with hydronidone (P < 0.05).
CONCLUSION
Hydronidone can inhibit the phosphorylation of the proteins in the TGF-β signaling pathway, thereby preventing TGF-β1-mediated activation of hepatic stellate cells, which may be a possible mechanism by which hydronidone alleviates CCl4-induced liver fibrosis in rats.
Animals
;
Male
;
Rats
;
Carbon Tetrachloride/metabolism*
;
Collagen Type I
;
Hepatic Stellate Cells/pathology*
;
Hydroxyproline/therapeutic use*
;
Liver Cirrhosis
;
Phosphorylation
;
Proto-Oncogene Proteins c-akt/metabolism*
;
Rats, Sprague-Dawley
;
Signal Transduction
;
Smad Proteins/metabolism*
;
Transforming Growth Factor beta1/metabolism*
10.Linggui Zhugan Decoction () Inhibits Ventricular Remodeling after Acute Myocardial Infarction in Mice by Suppressing TGF-β/Smad Signaling Pathway.
Liang WANG ; Hui SHI ; Jin-Ling HUANG ; Shan XU ; Pei-Pei LIU
Chinese journal of integrative medicine 2020;26(5):345-352
OBJECTIVE:
To investigate the inhibitory effect of Linggui Zhugan Decoction (LZD, ) on the ventricular remodeling (VR) after acute myocardial infarction (AMI) and related mRNA and proteins expression in transforming growth factor-beta 1 (TGF-β)/Smad signaling pathway, and explain its putative mechanism.
METHODS:
A VR model was generated by ligation of coronary artery in mice. Two weeks after surgery, 60 mice were randomly divided into the model group, the sham-operation group (distilled water), the positive control group (2.4 mg/kg simvastatin), and the low-, medium- and high-dose LZD groups (2.1, 4.2, 8.4 g crude drug/kg, respectively) by a random number table, 10 mice in each group. Mice in each group was treated for 4 weeks. Changes of hemodynamics indices and cardiac weight index were detected by the PowerLab data acquisition and analysis recording instrument. Morphology changes of myocardial tissue were observed by hematoxylin-eosin and Masson staining. The expressions of TGF-β, Smad2, Smad3, p-Smad2 and p-Smad3 in myocardial tissue were detected by Western blotting. The mRNA expressions of TGF-β, Smad2 and Smad3 were detected by reverse transcription-quantitative polymerase chain reaction (RT-qPCR). The expressions of matrix metalloprotein 2 (MMP2), MMP9, collagen I and collagen III were observed by immunohistochemical methods.
RESULTS:
VR mice showed significant dysfunction in hemodynamic indices and cardiac structure and function. Compared with the shamoperation group, myocardial tissue damage, interstitial fibrosis occurred in the model mice, left ventricular systolic pressure (LVSP), left ventricular pressure maximum contraction rate (+dp/dt) and left ventricular pressure maximum relaxation rate (-dp/dt) decreased significantly (all P<0.01), while left ventricular end-diastolic pressure (LVEDP), cardiac weight index and left ventricular weight index elevated significantly, meanwhile TGF-β, p-Smad2, p-Smad3, Smad2, Smad3, MMP2, MMP9, collagen I, collagen III protein expressions in myocardial tissue and TGF-β, Smad2 and Smad3 mRNA expressions increased significantly (all P<0.01). Compared with the model group, LZD could significantly improve the pathological changes of myocardial tissue, increase LVSP, +dp/dtmax and -dp/dtmax, lower LVEDP, reduce the whole heart weight index and left ventricular weight index and inhibit the over-expressions of TGF-β, p-Smad2, p-Smad3, Smad2, Smad3, MMP2, MMP9, collagen I and collagen III proteins in myocardial tissue and mRNA expressions of TGF-β, Smad2 and Smad3 (P<0.05 or P<0.01).
CONCLUSION
LZD can significantly suppress VR induced by AMI, and its underlying mechanism may be associated with its inhibitory effect on the TGF-β1/Smad signaling pathway.
Animals
;
Disease Models, Animal
;
Male
;
Myocardial Infarction
;
complications
;
Plant Extracts
;
pharmacology
;
Rats, Sprague-Dawley
;
Smad Proteins
;
metabolism
;
Transforming Growth Factor beta1
;
metabolism
;
Ventricular Remodeling
;
drug effects

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