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SUMMARY: Aging is an inevitable biological process that affects the function of all organs, including the adrenal gland, which is essential for producing steroid hormones that regulate metabolism, stress response, and immune activation. Understanding how aging affects the morphology of this gland is crucial to developing interventions to mitigate its adverse effects. Thus, this study aimed to describe the morphoquantitative alterations of the adrenal gland in senescent Sprague Dawley rats compared to adult rats. Twelve male rats were divided into 6 adult rats aged 6 months (group A) and 6 senescent rats aged 36 months (group S). Histopathological studies, quantification of collagen fibers types I and III, and stereological analysis were performed to determine the volume density (Vv), surface area (Sv), and number (Nv) of the nuclei of the zona fasciculata cells. Adrenal gland tissue from group S presented dysplasia, metaplasia, intracellular fat accumulation, fibrosis, blood vessel dilation, and increased presence of apoptotic cells. Capsule thickening and increased collagen type I were also observed. There was a significant decrease in Vv, Sv, and Nv of zona fasciculata nuclei in group S compared to group A. The results indicate that aging induces significant morphoquantitative changes in the adrenal gland, which could contribute to the decrease in glucocorticoid production and alterations in aldosterone and cortisol secretion observed in senescence. Understanding these alterations is crucial to developing interventions that mitigate the adverse effects of aging on the endocrine system.
El envejecimiento es un proceso biológico inevitable que afecta la función de todos los órganos, incluida la glándula suprarrenal, fundamental para la producción de hormonas esteroides que regulan el metabolismo, la respuesta al estrés y la activación inmunológica. Comprender cómo el envejecimiento afecta la morfología de esta glándula es crucial para desarrollar intervenciones que mitiguen sus efectos adversos. Así, el objetivo de este estudio fue describir las alteraciones morfocuantitativas de la glándula suprarrenal en ratas Sprague Dawley senescentes comparadas con ratas adultas. Se utilizaron 12 ratas macho, divididas en dos grupos: 6 ratas adultas de 6 meses de edad (grupo A) y 6 ratas senescentes de 36 meses de edad (grupo S). Se realizaron estudios histopatológicos, cuantificación de fibras de colágeno tipos I y III y análisis estereológicos para determinar la densidad de volumen (Vv), de superficie (Sv) y de número (Nv) de los núcleos de las células de la zona fasciculada. El tejido de la glándula suprarrenal del grupo S presentó displasia, metaplasia, acumulación de grasa intracelular, fibrosis, dilatación de vasos sanguíneos y mayor presencia de células apoptósicas. También se observó un engrosamiento de la cápsula y un incremento del colágeno tipo I. Hubo una disminución significativa en Vv, Sv y Nv de los núcleos de la zona fasciculada en el grupo S en comparación con el grupo A. Los resultados indican que el envejecimiento induce cambios morfocuantitativos significativos en la glándula suprarrenal, lo que podría contribuir a la disminución en la producción de glucocorticoides y alteraciones en la secreción de aldosterona y cortisol observadas en la senescencia. Comprender estas alteraciones es crucial para desarrollar intervenciones que mitiguen los efectos adversos del envejecimiento en el sistema endocrino.
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Animals , Male , Rats , Aging , Adrenal Glands/pathology , Fibrosis , Rats, Sprague-Dawley , Fibrillar Collagens/analysis , MetaplasiaABSTRACT
Cardiovascular diseases (CVDs) are a major cause of mortality. Increased CVD in aging is associated with vascular endothelial dysfunction due to cell senescence, which is activated by oxidative stress. ?-Mangostin is a pure substance from mangosteen (Garcinia mangostana L.) and has been shown to have anti-oxidant properties. However, the effect of ?-mangostin on senescence in endothelial cells has not been widely studied. This study evaluated the effect of ?-mangostin on H2 O2 -induced endothelial senescence. The concentrations of H2 O2 -induced senescent signaling and ?-mangostin were determined by Western blot and 3-(4,5-dimethylthiazol-2-yl)-2,5- diphenyltetrazolium bromide (MTT) assays. Intracellular reactive oxygen species (ROS) production was determined by 2’, 7’ dichlorodihydrofluorescein diacetate assay, and senescent cells were detected by ?-galactosidase staining. Cell proliferation and nitric oxide (NO) production were determined by MTT and Griess assays. Senescent signaling was analyzed by Western blot. An H2 O2 concentration of 50 µM was used to stimulate cell senescence. ?-Mangostin doses of 0.1 and 1 µM were non-toxic and significantly reduced ROS formation and cell senescence, significantly increasing cell proliferation, mitochondrial membrane potential, and NO production. It significantly attenuated the phosphorylation of p38 MAPK and increased Sirt1 and MnSOD. This study found that ?-mangostin suppresses oxidative stress and prevents H2 O2 -induced endothelial senescence by inhibiting p38 mitogen -activated protein kinase (MAPK) and stimulating Sirt1 and MnSOD.
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Innate immune system activation is crucial in the inflammatory response, but uncontrolled activation can lead to autoimmune diseases. Cellular exhaustion and senescence are two processes that contribute to innate immune tolerance breakdown. Exhausted immune cells are unable to respond adequately to specific antigens or stimuli, while senescent cells have impaired DNA replication and metabolic changes. These processes can impair immune system function and disrupt homeostasis, leading to the emergence of autoimmunity. However, the influence of innate immune exhaustion and senescence on autoimmune disorders is not well understood. This review aims to describe the current findings on the role of innate immune exhaustion and senescence in autoimmunity, focusing on the cellular and molecular changes involved in each process. Specifically, the article explores the markers and pathways associated with immune exhaustion, such as PD-1 and TIM-3, and senescence, including Β-galactosidase (β-GAL), lamin B1, and p16ink4a, and their impact on autoimmune diseases, namely type 1 diabetes, rheumatoid arthritis, systemic lupus erythematosus, and immune-mediated myopathies. Understanding the mechanisms underlying innate immune exhaustion and senescence in autoimmunity may provide insights for the development of novel therapeutic strategies.
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Objective To investigate the mechanism of fractionated low-dose ionizing radiation (LDIR) in the induction of EA.hy926 cell senescence. Methods EA.hy926 cells were irradiated with X-ray at 0, 50, 100, and 200 mGy × 4, respectively, and cultured for 24, 48, and 72 h. Several indicators were measured, including the levels of cellular senescence-associated β-galactosidase (SA-β-gal) staining, mRNA levels of senescence-associated cell cycle protein-dependent kinase inhibitor genes CDKN1A and CDKN2A, reactive oxygen species (ROS), total antioxidant capacity (T-AOC), and phosphorylated H2A histone family member X (γ-H2AX). Results After 4 fractionated LDIR, compared with the control group, the treatment groups showed increased nucleus area, blurred cell edge, and increased SA-β-gal positive area (P < 0.05) at 24, 48 and 72 h. After 4 fractionated LDIR, the mRNA level of CDKN1A increased in the 100 and 200 mGy × 4 groups at 24 and 48 h (P < 0.05), and CDKN2A mRNA level increased in the 100 and 200 mGy × 4 groups at 48 and 72 h (P < 0.05). The fluorescence intensity of ROS increased in treatment groups at 24, 48, and 72 h after 4 fractionated LDIR (P < 0.05). After 4 fractionated LDIR, the T-AOC level increased in the 100 and 200 mGy × 4 groups at 24 h (P < 0.05), and T-AOC level increased in all treatment groups at 48 and 72 h (P < 0.05). After 4 fractionated LDIR, γ-H2AX fluorescence intensity increased in all treatment groups at 24 h (P < 0.05), and the fluorescence intensity increased in the 100 and 200 mGy × 4 groups at 48 and 72 h (P < 0.05). Conclusion Fractionated LDIR can induce cellular senescence in EA.hy926 cells by impacting the cellular oxidation-antioxidation and oxidative damage levels, and the effects were relatively evident at 100 and 200 mGy.
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Senile osteoporosis (SOP) is a systemic bone disease characterized by increased susceptibility to fractures. The pathogenesis of SOP is complex and not well understood. Currently, the rapid aging model mouse, senescence accelerated mouse prone 6 (SAMP6), is an ideal model for studying the mechanisms of SOP development and exploring its prevention and treatment. This model exhibits characteristics including increased bone fragility, degradation of bone microstructure, loss of bone matrix, and abnormal metabolism and dysfunction of bone cells, faithfully replicating the process of SOP occurrence and progression at both macroscopic and microscopic levels.
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Aim To explore the effects of Lycium berry seed oil on Nrf2/ARE pathway and oxidative damage in testis of subacute aging rats. Methods Fifty out of 60 male SD rats, aged 8 weeks, were subcutaneously injected with 125 mg • kg"D-galactosidase in the neck for 8 weeks to establish a subacute senescent rat model. The presence of senescent cells was observed using P-galactosidase ((3-gal), while testicular morphology was examined using HE staining. Serum levels of testosterone (testosterone, T), follicle-stimulating hormone ( follicle stimulating hormone, FSH ) , luteinizing hormone ( luteinizing hormone, LH ) , superoxide dis-mutase ( superoxide dismutase, SOD ) , glutathione ( glutathione, GSH) and malondialdehyde ( malondial-dehyde, MDA) were measured through ELISA, and the expressions of factors related to aging, oxidative damage, and the Nrf2/ARE pathway were assessed via immunohistochemical analysis and Western blotting. Results After successfully identifying the model, the morphology of the testis was improved and the intervention of Lycium seed oil led to a down-regulation in the expression of [3-gal and -yH2AX. The serum levels of SOD, GSH, T, and FSH increased while MDA and LH decreased (P 0. 05) . Additionally, there was an up-regulated expression of Nrf2, GCLC, NQOl, and SOD2 proteins in testicular tissue ( P 0. 05 ) and nuclear expression of Nrf2 in sertoli cells. Conclusion Lycium barbarum seed oil may reduce oxidative damage in testes of subacute senescent rats by activating the Nrf2/ARE signaling pathway.
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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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Objective To investigate the role and mechanism of spliced X-box binding protein 1 (XBP1s) in the senescence of primary renal tubular epithelial cells induced by hypoxia/reoxygenation (H/R). Methods Primary renal tubular epithelial cells were divided into the normal control group (NC group), H/R group, empty adenovirus negative control group (Ad-shNC group), targeted silencing XBP1s adenovirus group (Ad-shXBP1s group), empty adenovirus+H/R treatment group (Ad-shNC+H/R group) and targeted silencing XBP1s adenovirus+H/R treatment group (Ad-shXBP1s +H/R group), respectively. The expression levels of XBP1s in the NC, H/R, Ad-shNC and Ad-shXBP1s groups were measured. The number of cells stained with β-galactosidase, the expression levels of cell aging markers including p53, p21 and γH2AX, and the levels of reactive oxygen species (ROS), malondialdehyde (MDA) and superoxide dismutase (SOD) were determined in the Ad-shNC, Ad-shNC+H/R and Ad-shXBP1s+H/R groups. Chromatin immunoprecipitation was employed to verify Sirtuin 3 (Sirt3) of XBP1s transcription regulation, and the expression levels of Sirt3 and downstream SOD2 after down-regulation of XBP1s were detected. Mitochondrial reactive oxygen species (mtROS) were detected by flow cytometry. Results Compared with the NC group, the expression level of XBP1s was up-regulated in the H/R group. Compared with the Ad-shNC group, the expression level of XBP1s was down-regulated in the Ad-shXBP1s group (both P<0.001). Compared with the Ad-shNC group, the number of cells stained with β-galactosidase was increased, the expression levels of p53, p21 and γH2AX were up-regulated, the levels of ROS, MDA and mtROS were increased, the SOD activity was decreased, the expression level of Sirt3 was down-regulated, and the ratio of Ac-SOD2/SOD2 was increased in the Ad-shNC+H/R group. Compared with the Ad-shNC+H/R group, the number of cells stained with β-galactosidase was decreased, the expression levels of p53, p21 and γH2AX were down-regulated, the levels of ROS, MDA and mtROS were decreased, the SOD activity was increased, the expression level of Sirt3 was up-regulated and the ratio of Ac-SOD2/SOD2 was decreased in the Ad-shXBP1s+H/R group (all P<0.05). Conclusions Down-regulation of XBP1s may ameliorate the senescence of primary renal tubular epithelial cells induced by H/R, which probably plays a role through the Sirt3/SOD2/mtROS signaling pathway.
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RNA methylation is a common epigenetic post-transcriptional modification with various patterns,such as N1-methyladenosine(m1A),5-methylcytidine(m5C)and N6-methyladenosine(m6A).RNA methylation can perform specific biological functions in corresponding targets,dynamical and reversible,thus bridging exogenous environmental factors and different disease outcomes.Exogenous chemicals can induce oxidative stress,inflammation,autophagy and cell cycle disorders,which are reg-ulated by specific RNA methylation modifications and bring about epigenetic toxic effects.These altera-tions act as new key molecular events during cellular senescence and the development of aging and age-related disorders.The correlation between RNA methylation and cell senescence will provide a new line of thought for prevention of and interventions in aging.
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Radiation-induced damage to vascular endothelium is a major complication of radiotherapy and a primary cause of morbidity and mortality in the population exposed to radiation. Ionizing radiation-induced cellular senescence serves as a critical factor in damage to vascular endothelial cells. Therefore, understanding the mechanisms of cellular senescence caused by senescence-associated secretory phenotype (SASP), as well as its role in ionizing radiation-induced damage to vascular endothelial cells, is significant for preventing and treating ionizing radiation-induced damage to vascular endothelial cells. In this study, the relationship between SASP-related premature senescence and this ionizing radiation-induced damage was explored from the following aspects: the mechanisms behind ionizing radiation-induced damage to vascular endothelial cells, ionizing radiation-induced cellular senescence, and the role of SASP-related premature senescence in the ionizing radiation-induced damage to vascular endothelial cells, as well as potential targets.
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Cancer cells refer to a group of malignant cells with strong division and proliferation abilities. Cancer cells rely on the unstable plunder of human nutrition to sustain the large amount of energy that they need for their own division and proliferation. The division and proliferation of cancer cells are linked to the synthesis and replication of genetic material in the nucleus. Blockage or destruction of the synthesis of genetic material in cancer cells is one of the mechanisms underlying the action of most antitumor drugs. As the key material that dominates cell division, proliferation, and death, nuclear genetic material which mainly refers to the deoxyribonucleic acid located on the chromatin in the nucleus, plays a decisive role in the final fate of cells. The final fate of cancer cells after the damage of the genetic material is worthy of investigation and analysis. In this paper, we discuss and analyze the fate of cancer cells after genetic material damage from the aspect of cellular cycle arrest, apoptosis, autophagy, and senescence to provide ideas for the mechanism research on antitumor drugs.
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Background The senescence of alveolar type II epithelial cells is an important driving factor for the progression of silicotic fibrosis, and the regulatory effects of oxamate on the senescence of alveolar type II epithelial cells is still unclear. Objective To explore whether lactate dehydrogenase inhibitor oxamate can alleviate silicotic fibrosis in mice by inhibiting senescence of alveolar type II epithelial cellsMethods This study was divided into two parts: in vivo experiments and in vitro experiments. In the first part, forty SPF C57BL/6J male mice were randomly divided into four groups with 10 in each group: control group, silicosis model group, low-dose oxamate treatment group, and high-dose oxamate treatment group. The silicotic mouse model was established by intratracheal instillation of 50 μL SiO2 suspension (100 mg·mL−1). The treatment models were prepared by intraperitoneal injection of 100 μL oxamate (225 mmol·L−1 and 1125 mmol·L−1). In the second part, induction of MLE-12 mouse alveolar type II epithelial cells was conducted with SiO2. The in vitro experimental groups were ① SiO2 induction groups: control group, 50 μg·mL−1 SiO2 group, 100 μg·mL−1 SiO2 group, and 200 μg·mL−1 SiO2 group, and ② oxamate treatment groups: control group, SiO2 group (100 μg·mL−1), low-dose oxamate (25 mmol·L−1) treatment group, and high-dose oxamate (50 mmol·L−1) treatment group. Pathological morphology of lung tissues was evaluated after hematoxylin-eosin (HE) staining; deposition of collagen in lung tissues was evaluated after sirius red staining; positive co-expression of prosurfactant protein C (Pro-SPC) and β-galactosidase was detected by immunofluorescence staining; positive expression of β-galactosidase in MLE-12 cells was detected by immunofluorescence staining. The protein expression levels of collagen type I (CoL I), fibronectin1 (FN1), hexokinase 2 (HK2), pyruvate kinase isozyme type M2 (PKM2), lactate dehydrogenase A (LDHA), p-ataxia telangiectasia and Rad3-related kinase (ATR), and cyclin-dependent kinase inhibitors p21, and p16 were detected by Western blotting. Results Compared with the control group, the protein expression levels of HK2, PKM2, LDHA, p-ATR, p21, and p16 were significantly upregulated in the silicosis model group and the SiO2-induced MLE-12 cells (P<0.05). The in vivo studies showed that, compared with the control group, the silicon nodule area, the collagen deposition area, the proportion of β-galactosidase positive cells, and the protein expression levels of CoL I, FN1, LDHA, p-ATR, p21, and p16 were significantly upregulated in the silicosis model group (P<0.05). Compared with the silicosis model group, the oxamate treatment groups showed significant downregulation of the silicon nodule area, the collagen deposition area, the proportion of β-galactosidase positive cells, and the the CoL I, FN1, LDHA, p-ATR, p21, and p16 protein expression levels, and the high-dose oxamate treatment group showed a higher efficacy on these indicators than the low-dose oxamate treatment group (P<0.05). The in vitro studies showed that, compared with the control group, the proportion of β-galactosidase positive cells and the protein expression levels of p-ATR, p21, and p16 were significantly upregulated in the SiO2-induced group (P<0.05). Compared with the SiO2 group, the proportion of β-galactosidase positive cells and the LDHA, p-ATR, p21 and p16 protein expression levels were significantly downregulated in the oxamate treatment groups, and the high-dose oxamate treatment group showed a higher efficacy on these indicators than the low-dose oxamate treatment group (P<0.05). Conclusion Lactate dehydrogenase inhibitor oxamate can alleviate silicotic fibrosis in mice by inhibiting the senescence of alveolar type II epithelial cells.
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In recent years, the incidence and mortality rates of cancer have been increasing, posing a serious threat to human health. Western medicine mainly uses treatments such as surgical resection, chemotherapy, immunotherapy and targeted therapy, but they are prone to complications, drug resistance and adverse reactions. A growing number of studies have shown that traditional Chinese medicine has obvious advantages in the treatment of cancer, reducing the recurrence rate of cancer and improving the quality of survival of patients. Cellular senescence refers to a state of irreversible cell cycle growth arrest when cells cease to proliferate after a limited number of divisions, resulting in a decline in cell proliferation and differentiation capacities and physiological functions, accompanied by morphological changes such as flattening and multinuclear morphology. At the molecular level, it shows increased expression of DNA damage-related genes, reduced expression of cell cycle-related factors and significant secretory activity. The malignant development of cancer is closely related to cellular senescence. With the increasing number of cancer cell proliferation, cancer-related genes undergo continuous mutations, freeing them from cellular senescence and thus achieving unlimited proliferation. Through recent studies, it has been found that induction of tumor cell senescence, possibly through modulation of cellular DNA damage, cell cycle arrest and senescence-associated secretory phenotype (SASP), which converts the suppressive immune tumor microenvironment to an activated immune tumor microenvironment and thus reverses the escape of tumor cell senescence, is a promising strategy for cancer therapy. However, the mechanism of cellular senescence in cancer progression is not fully understood, especially the anti-cancer role played by traditional Chinese medicine in regulating cellular senescence. This article summarized and concluded the specific molecular mechanisms of cellular senescence, the role of cellular senescence in cancer progression, and the mechanism of anti-cancer effects of traditional Chinese medicine based on cellular senescence from the perspective of regulating cellular senescence, with a view to providing ideas and methods for the anti-cancer effects of traditional Chinese medicine and the development of new drugs.
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<b>Objective</b> To evaluate the effect of glycogen synthase kinase 3β (GSK3β) on hypoxia/reoxygenation (H/R)-induced injury of senescent renal tubular epithelial cell (RTEC) in aged mice and its regulatory mechanism. <b>Methods</b> RTEC were divided into the Young group (young RTEC with normal growth), Old group (aged RTEC induced by Etoposide), Old+Ad-shNC+H/R group [aged RTEC induced by Etoposide and then transfected with adenovirus negative control (Ad-shNC) for H/R treatment], and Old+Ad-shGSK3β+H/R group (aged RTEC induced by Etoposide and then transfected with short-hairpin RNA-expressing adenovirus with targeted silencing GSK3β for H/R treatment), respectively. Apoptosis level and mitochondrial reactive oxygen species level were detected by flow cytometry. Calcium ion level was determined by immunofluorescence staining. The expression and phosphorylation levels of GSK3β, mitochondria-associated endoplasmic reticulum membrane (MAM)-related proteins of inositol 1,4,5-trisphosphate receptor1 (ITPR1), voltage dependent anion-selective channel 1(VDAC1) and glucose-regulated protein 75 (GRP75) were detected by Western blot. The interaction between GSK3β and MAM-related proteins was analyzed by immunoprecipitation. <b>Results</b> Compared with the Young group, the apoptosis, mitochondrial reactive oxygen species and mitochondrial calcium ion levels were higher in the Old group. Compared with the Old group, the apoptosis, mitochondrial reactive oxygen species and mitochondrial calcium ion levels were higher in the Old+Ad-shNC+H/R group. Compared with the Old+Ad-shNC+H/R group, the apoptosis, mitochondrial reactive oxygen species and mitochondrial calcium ion levels were lower in the Old+Ad-shGSK3β+H/R group, and the differences were statistically significant (all <i>P</i><0.05). Compared with the Young group, the expression levels of ITPR1, GRP75 and GSK3β proteins were up-regulated, the phosphorylation levels of ITPR1 and GRP75 were increased, whereas the total protein and phosphorylation levels of VDAC1 were decreased in the Old group. Compared with the Old group, the expression level of GSK3β protein was unchanged, the total protein and phosphorylation levels of ITPR1 and GRP75 were increased, the expression level of total VDAC1 protein remained unchanged and the phosphorylation level was increased in the Old+Ad-shNC+H/R group. Compared with the Old+Ad-shNC+H/R group, the expression level of GSK3β protein was decreased, the expression levels of total ITPR1, GRP75 and VDAC1 proteins were unchanged, whereas the phosphorylation levels were decreased in the Old+Ad-shGSK3β+H/R group. Immunoprecipitation showed that GSK3β could interact with ITPR1, GRP75 and VDAC1 proteins. <b>Conclusions</b> The expression level of GSK3β is up-regulated in senescent RTEC. Down-regulating GSK3β expression may reduce the phosphorylation level of ITPR1-GRP75-VDAC1 complex, constrain the overload of mitochondrial calcium ion, protect mitochondrial function and mitigate cell damage during reperfusion.
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Objective To explore the differentially expressed mRNAs and related biological processes and pathways in fractional low-dose ionizing radiation (LDIR)-induced senescence of normal human bronchial epithelial (HBE) cells by high-throughput mRNA sequencing and bioinformatics techniques. Methods Senescence-associated β-galactosidase staining and senescence-associated secretion phenotype gene mRNA and protein expression levels were measured at 24 and 48 h after irradiating HBE cells 7 times at doses of 0, 50, 100, and 200 mGy, respectively. The differentially expressed genes were screened by high-throughput sequencing for Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) analyses. Results The senescence-positive area of fractional low-dose irradiated HBE cells increased in a dose-dependent manner (P < 0.05). The mRNA levels and protein expression of transforming growth factor-β1(TGF-β1) and matrix metalloproteinase-9(MMP-9) genes were increased in the 100 mGy × 7 and 200 mGy × 7 groups at 24 and 48 h after the end of irradiation compared with the control group. High-throughput sequencing showed that there were 882, 475, and 1205 differentially expressed mRNAs in each dose group compared with the control group. GO analysis showed that the differentially expressed mRNAs in each dose group were mainly enriched in biological processes such as cell cycle regulation, regulation of nitrogen compound metabolic process, regulation of cell division and response to stimulus. KEGG analysis showed that the differentially expressed mRNAs were mainly enriched in the pathways of cell cycle, cell senescence, and ferroptosis. Conclusion Fractional LDIR induced senescence in HBE cells, and differentially expressed mRNA-associated biological processes and pathways in senescent cells are related to cell cycle and cell senescence.
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ObjectiveTo observe the effect of Shengxiantang (SXT) on cell senescence mediated by wingless/integrated (Wnt)3a/β-catenin pathway in rats with idiopathic pulmonary fibrosis (IPF) and reveal the possible mechanism in improving lung function of IPF rats. MethodA total of 32 SPF level SD rats were randomly divided into sham group, model group, pirfenidone group, and SXT group. The IPF rat model was established by intratracheal instillation of bleomycin (0.005 g·kg-1). The following day after surgery, rats in the SXT group were given the aqueous solution of SXT granules (0.78 g·kg-1), and the pirfenidone group was given pirfenidone suspension (0.05 g·kg-1). The other groups were given deionized water (10 mL·kg-1) for 28 consecutive days. Lung tissue was collected after the lung function was measured. The pathological changes of the lung tissue were observed by hematoxylin-eosin (HE) and Masson staining, and then the Szapiel score and Ashcroft score were performed. Real-time fluorescence quantitative polymerase chain reaction (Real-time PCR) was used to detect telomere length. Western blot was applied to detect the expressions of epithelial-mesenchymal transformation (EMT) markers [α-smooth muscle actin (α-SMA) and E-cadherin], telomere reverse transcriptase (TRET), aging-related proteins (p53 and p21), senescence-associated secretory phenotype [interleukin-6 (IL-6) and matrix metalloproteinase-1 (MMP-1)], and key proteins of Wnt signaling pathway [Wnt3a, glycogen synthase kinase-3β (GSK-3β), β-catenin, Cyclin D1, and c-Myc]. ResultCompared with those in the Sham group, peak expiratory flow (PEF) and minute ventilation volume (MV) in the model group were significantly decreased (P<0.01), and the frequency of respiratory (f) was significantly increased (P<0.01). The Szapiel score, Ashcroft score, and protein expression of α-SMA, p53, p21, IL-6, MMP-1, Wnt3a, GSK3β, β-catenin, Cyclin D1, and c-Myc were increased (P<0.01). The expressions of E-cadherin and TERT, as well as telomere length were significantly decreased (P<0.01). Compared with those in the model group, PEF and MV in the SXT group were significantly increased (P<0.01), while f was significantly decreased (P<0.01). The Szapiel score, Ashcroft score, and protein expression of α-SMA, p53, p21, IL-6, MMP-1, Wnt3a, GSK3β, β-catenin, Cyclin D1, and c-Myc were significantly decreased (P<0.05, P<0.01). Nevertheless, the expression of E-cadherin and TERT, as well as telomere length were significantly increased (P<0.01). ConclusionSXT presents a significant protective effect on lung function in IPF rats, and the prescription may act on the Wnt3a/β-catenin signaling pathway to regulate cell senescence induced by TERT to inhibit EMT.
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ObjectiveThe lung mesenchymal stem cells (LMSCs) induced by D-galactose (D-gal) were intervened by Wenfei Huaxian decoction-containing serum to explore the mechanism of Wenfei Huaxian decoction in delaying the senescence of LMSCs through the nicotinamide phosphoribosyltransferase/silent information regulator 1 (NAMPT/SIRT1) signaling pathway. MethodWenfei Huaxian decoction-containing serum was prepared. LMSCs were isolated by gradient density centrifugation, and they were cultured and identified in vitro. The senescence model in vitro was established by stimulating cells via D-gal for 24 h. LMSCs cells were modeled after being treated with different volume fractions (5%, 10%, 20%, 40%, and 80%) of Wenfei Huaxian decoction-containing serum for 24 h, and the cell proliferation level was detected by methyl thiazolyl tetrazolium (MTT) method. The cells were randomly divided into blank serum group, model group, and high, medium, and low dose groups of Wenfei Huaxian decoction-containing serum. Senescence-associated β-galactosidase (SA-β-gal) staining was used to detect the senescence of LMSCs in each group. The content of NAD + was detected by colorimetry. The levels of senescence-associated factors (p16 and p53), interleukin-6 (IL-6), and tumor necrosis factor-α (TNF-α) in cell culture supernatant were detected by enzyme-linked immunosorbent assay (ELISA). Western blot was used to detect the relative expression of senescence-associated proteins and NAMPT/SIRT1 signaling pathway-related proteins. ResultCompared with the blank serum group, the proliferation of LMSCs was significantly inhibited after D-gal stimulation for 24 h (P<0.01). Compared with the model group, the proliferation of LMSCs could be promoted after intervention with the corresponding Wenfei Huaxian decoction-containing serum (P<0.05, P<0.01). Compared with the blank serum group, the SA-β-gal staining of LMSCs in the model group after D-gal stimulation was enhanced, and the content of NAD+ was increased (P<0.01). The expression levels of senescence factors p16 and p53, as well as SASP pro-inflammatory factors IL-6 and TNF-α in the cell culture supernatant, were significantly increased (P<0.01). The expression of senescence-associated proteins p16, p21, and p53 increased (P<0.01), and the protein expression of NAMPT, SIRT1, peroxisome proliferator-activated receptor γ coactivator 1α (PGC-1α), and forkhead box family transcription factor O1 (FoxO1) decreased (P<0.01). Compared with the model group, the SA-β-gal staining of LMSCs in each group of Wenfei Huaxian decoction-containing serum was significantly reduced, and the content of NAD+ was decreased (P<0.01). The senescence factors (p16 and p53) and inflammatory factors (IL-6 and TNF-α) in the cell culture supernatant were significantly decreased (P<0.01). The expression of senescence-associated proteins (P16, P21, and P53) decreased (P<0.05, P<0.01). The protein expressions of NAMPT, SIRT1, PGC-1α, and FoxO1 were significantly up-regulated (P<0.05, P<0.01). ConclusionWenfei Huaxian decoction can alleviate senescence and inflammatory response damage of D-gal-induced LMSCs, and its mechanism may be related to the regulation of the NAMPT/SIRT1 signaling pathway.
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Objective To investigate the role of KAT7 in cartilage cell and tissue ageing by establishing an over-replicating-induced primary mouse cartilage cell ageing model and a mouse natural ageing model.Methods Chon-drocytes of the mouse knee joint were obtained by type Ⅱ collagenase digestion and identified by toluidine blue stai-ning and Col Ⅱ staining.The age-related proteins and KAT7 expression levels in cartilage cells from different gener-ations of mice were discovered using Western blot and cellular immunofluorescence techniques,and the aging of the cells was assessed by SA-β-Gal coloring.The pathological alterations were examined in the joints of 22-month-old mice compared to 2-month-old mice using HE staining and safranin O-solid green staining.Additionally,immuno-histochemical analysis was done to observe the expression of KAT7 and p53 in mouse joint tissue.Results Com-pared with the control group,the expression levels of KAT7 protein and p21 and p53 in aged mouse chondrocytes significantly increased.WM-3835,a commonly inhibitor of KAT7 that possess the capacity on halting the protein expression procedure of gene KAT7 as well as p21 in ageing chondrocytes.SA-β-Gal staining showed a significant increase in positive staining of chondrocytes in the eighth generation(P8)compared to the first generation(P1).Compared with the cartilage tissue of young mice,the cartilage tissue of elderly mice presents a near-bone distribu-tion,with a decrease in cartilage surface integrity,a significant increase in the number of hypertrophic chondro-cytes,and more KAT7 and p53 cells that were positive.Conclusion The expression of KAT7 increases in the ageing chondrocytes and the cartilage tissue of ageing mice,reveales the potential significance of KAT7 correlated to cellular aging process in cartilage.
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Age-related macular degeneration(AMD)is a serious threat to the visual health of the elderly,and the dysfunction of retinal pigment epithelial cells(RPE)is a significant etiology risk.Aging process leads to RPE repli-cation senescence,and some environment factors like light exposure and cigarette exposure may lead to RPE stress premature aging,and the decreased lysosomal digestion ability of senescent RPE cells may lead to the accumulation of lipofuscin,triggering the occurrence of early AMD.A series of homeostatic imbalances in aging retina,such as cell senescence-renewal imbalance,oxidative stress-antioxidant imbalance,chronic inflammatory-anti-inflammatory imbalance,intestinal barrier and intestinal microbiota imbalance and pro-angiogenesis-antiangiogenic imbalance all contribute to the development of AMD.
ABSTRACT
Objective To study the effective fraction and mechanism of Lycium barbarum leaves on improving learning and memory ability of subacute aging mice induced by D-galactose injection.Methods The model of subacute aging mice was developed by injection of D-galactose subcutaneously,and different extracts of Lycium barbarum leaves were prepared.The effects of the extracts of Lycium barbarum leaves on the learning and memory ability of model mice were evaluated by Y maze experiment and new object recognition experiment.The pathomorphological changes of hippocampus in mice were observed by hematoxylin-eosin and Nissl staining.The levels of brain-derived neurotrophic factor(BDNF),nerve growth factor(NGF),glial cell line-derived neurotrophic factor(GDNF),tumor necrosis factor-α(TNF-α),interleukin-1β(IL-1β),interferon-γ(IFN-γ)and interleukin-10(IL-10)in hippocampus of mice were detected by enzyme-linked immunosorbent assay.The activities of superoxide dismutase(SOD)and the contents of glutathione(GSH)and malondialdehyde(MDA)in hippocampus of mice were detected by related assay kits.Detection of apoptosis in the hippocampal region of mouse brain tissue using the TUNEL method.Western blotting analysis was used to detect the expressions of antioxidant proteins Nrf2,HO-1 and apoptotic proteins Caspase-3,Caspase-9 in hippocampus of mice.Results The water extraction part and 80%alcohol precipitation supernatant part of Lycium barbarum leaves significantly improved the learning and memory ability of model mice,improved the pathological damage of hippocampus in mice,increased the number of Nissl bodies in hippocampus of mice,and promoted the expression of neurotrophic factors BDNF,NGF and GDNF,and promoted the expression of neurotrophic factors BDNF,NGF and GDNF.Pro-inflammatory factors TNF-α,IL-1β and IFN-γ expression declines while anti-inflammatory factor IL-10 expression rises.The activity of SOD and the expression of GSH were increased,and the expression of MDA was decreased.Increase the expression of Nrf2 and HO-1 antioxidant proteins;reduce the expression of Caspase-3 and Caspase-9 apoptosis pathway proteins.Inhibition of apoptosis in the hippocampal region of mouse brain tissue using a model.Conclusion The water extracts and 80%alcohol precipitation supernatant extracts of Lycium barbarum leaves are the effective fractions of Lycium barbarum leaves to improve the learning and memory ability of D-galactose-induced subacute aging mice,and its mechanism might be related to the inhibition of neuronal apoptosis caused by oxidative stress and inflammation.