Treatment with valproate downregulates the Agtr2 mRNA in rat lungs

AbstractGLP1 receptor agonist liraglutide has been shown to upregulate ACE2 expressions in several animal studies and thereby mediate strong positive stress response1. On the other hand, two in silico studies suggest that valproate downregulates ACE2 and AGTR2 gene expressions2,3. In this study, we have evaluated how these two widely used drugs, liraglutide and valproate, change the expression pattern of RAS system genes in the rat lungs. Our results indicate that eight-day treatment with valproate significantly downregulates the gene expression of Agtr2, Mas1 and Agrt1b in the rat lungs. These effects are reversed by co-administration of liraglutide.

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Only One of Five groEL Genes Is Required for Viability and Successful Symbiosis in Sinorhizobium meliloti

Journal of Bacteriology ◽

10.1128/jb.01542-06 ◽

2006 ◽

Vol 189 (5) ◽

pp. 1884-1889 ◽

Cited By ~ 43

Author(s):

Alycia N. Bittner ◽

Amanda Foltz ◽

Valerie Oke

Keyword(s):

Gene Expression ◽

Stress Response ◽

Double Mutant ◽

Sinorhizobium Meliloti ◽

Bacterial Species ◽

The Other ◽

Wild Type ◽

Fixed Nitrogen ◽

E Coli ◽

Multiple Copies

ABSTRACT Many bacterial species contain multiple copies of the genes that encode the chaperone GroEL and its cochaperone, GroES, including all of the fully sequenced root-nodulating bacteria that interact symbiotically with legumes to generate fixed nitrogen. In particular, in Sinorhizobium meliloti there are four groESL operons and one groEL gene. To uncover functional redundancies of these genes during growth and symbiosis, we attempted to construct strains containing all combinations of groEL mutations. Although a double groEL1 groEL2 mutant cannot be constructed, we demonstrate that the quadruple groEL1 groESL3 groEL4 groESL5 and groEL2 groESL3 groEL4 groESL5 mutants are viable. Therefore, like E. coli and other species, S. meliloti requires only one groEL gene for viability, and either groEL1 or groEL2 will suffice. The groEL1 groESL5 double mutant is more severely affected for growth at both 30°C and 40°C than the single mutants, suggesting overlapping functions in stress response. During symbiosis the quadruple groEL2 groESL3 groEL4 groESL5 mutant acts like the wild type, but the quadruple groEL1 groESL3 groEL4 groESL5 mutant acts like the groEL1 single mutant, which cannot fully induce nod gene expression and forms ineffective nodules. Therefore, the only groEL gene required for symbiosis is groEL1. However, we show that the other groE genes are expressed in the nodule at lower levels, suggesting minor roles during symbiosis. Combining our data with other data, we conclude that groESL1 encodes the housekeeping GroEL/GroES chaperone and that groESL5 is specialized for stress response.

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RT-PCR Analysis and Stress Response Capacity of Transgenic gshI-Poplar Clones (Populus × canescens) in Response to Paraquat Exposure

Zeitschrift für Naturforschung C ◽

10.1515/znc-2006-9-1015 ◽

2006 ◽

Vol 61 (9-10) ◽

pp. 699-703 ◽

Cited By ~ 6

Author(s):

András Bittsánszky ◽

Gábor Gyulai ◽

Mervyn Humphreys ◽

Gábor Gullner ◽

Zsolt Csintalan ◽

...

Keyword(s):

Gene Expression ◽

Stress Response ◽

Hybrid Poplar ◽

Ribosomal Gene ◽

Pcr Analysis ◽

Rt Pcr ◽

Gene Expressions ◽

Response Capacity ◽

Glutamylcysteine Synthetase ◽

Transgenic Lines

Abstract Stress response capacity (Fv/Fm at 690 nm and F690/F735 at Fmax) of untransformed hybrid poplar, Populus × canescens (P. tremula × P. alba), and two transgenic lines overexpressing γ-ECS (γ-glutamylcysteine synthetase) either in the cytosol (cyt-ECS) or in the chloroplast (chl-ECS) was studied in response to the herbicide paraquat (4.0 × 10-9 to 4.0 × 10-6 m) for 21 days. Significant differences at sublethal (4.0 × 10-7 m) and bleaching (4.0 × 10-6 m) concentrations of paraquat were observed with about a two-fold and eight-fold decrease in the photosynthetic activity (Fv/Fm at 690 nm and F690/F735 at Fmax), respectively. None of the gshI transgenic lines (cyt-ECS, chl-ECS) with elevated GSH content exhibited significant tolerance to paraquat. Semiquantitative RT-PCR of the cyt-ECS clone was used for gene expression analysis of the nuclear encoded rbcS gene and the stress responsive gst gene. Expression of the constitutively expressed 26SrRNA ribosomal gene was probed as a control for all RT-PCR reactions. The relative intensities of gene expressions normalized to the level of 26SrRNA intensity showed a 50% decrease in the nuclear encoded rbcS expression and a 120% increase in the stress responsive gst gene expression of the paraquat treated (4.0 × 10-7 m) samples of the transgenic poplar line (cyt-ECS).

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Reparação óssea no implante dental

Full Dentistry in Science ◽

10.24077/2020;1245-6366 ◽

2020 ◽

Vol 12 (45) ◽

pp. 63-66

Author(s):

Halim Nagem Filho ◽

Reinaldo Francisco Maia ◽

Reinaldo Missaka ◽

Nasser Hussein Fares

Keyword(s):

Gene Expression ◽

Titanium Surface ◽

Close Contact ◽

The Other ◽

Main Function ◽

Indirect Interaction ◽

M2 Macrophages ◽

Activated Macrophages ◽

M1 Macrophages ◽

High Production

The osseointegration is the stable and functional union between the bone and a titanium surface. A new bone can be found on the surface of the implant about 1 week after its installation; the bone remodeling begins between 6 and 12 weeks and continues throughout life. After the implant insertion, depending on the energy of the surface, the plasma fluid immediately adheres, in close contact with the surface, promoting the adsorption of proteins and inducing the indirect interaction of the cells with the material. Macrophages are cells found in the tissues and originated from bone marrow monocytes. The M1 macrophages orchestrate the phagocytic phase in the inflammatory region and also produce inflammatory cytokines involved with the chronic inflammation and the cleaning of the wound and damaged tissues from bacteria. On the other hand, alternative-activated macrophages (M2) are activated by IL-10, the immune complex. Its main function consists on regulating negatively the inflammation through the secretion of the immunosuppressant IL-10. The M2 macrophages present involvement with the immunosuppression, besides having a low capacity for presenting antigens and high production of cytokines; these can be further divided into M2a, M2b, and M2c, based on the gene expression profile.

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Chemoprotective Effects of Propolis on Aflatoxin B1-Induced Hepatotoxicity in Rats: Oxidative Damage and Hepatotoxicity by Modulating TP53, Oxidative Stress

Current Proteomics ◽

10.2174/1570164617666190925121720 ◽

2020 ◽

Vol 17 (3) ◽

pp. 191-199

Author(s):

Seval Yilmaz ◽

Fatih Mehmet Kandemir ◽

Emre Kaya ◽

Mustafa Ozkaraca

Keyword(s):

Oxidative Stress ◽

Gene Expression ◽

Oxidative Damage ◽

Aflatoxin B1 ◽

Tp53 Gene ◽

Control Group ◽

Glutathione S Transferase ◽

Gene Expressions ◽

Cat Gene ◽

Gst Activity

Objective: This study aimed to detect hepatic oxidative damage caused by aflatoxin B1 (AFB1), as well as to examine how propolis protects against hepatotoxic effects of AFB1. Method: Rats were split into four groups as control group, AFB1 group, propolis group, AFB1+ propolis group. Results: There was significant increase in malondialdehyde (MDA) level and tumor suppressor protein (TP53) gene expression, Glutathione (GSH) level, Catalase (CAT) activity, CAT gene expression decreased in AFB1 group in blood. MDA level and Glutathione-S-Transferase (GST) activity, GST and TP53 gene expressions increased in AFB1 group, whereas GSH level and CAT activity alongside CAT gene expression decreased in liver. AFB1+propolis group showed significant decrease in MDA level, GST activity, TP53 and GST gene expressions, GSH level and CAT activity and CAT gene expression increased in liver compared to AFB1 group. Conclusion: These results suggest that propolis may potentially be natural agent that prevents AFB1- induced oxidative stress and hepatotoxicity.

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Analysis of the Mechanism by Which Glucose Inhibits Maltose Induction of MAL Gene Expression in Saccharomyces

Genetics ◽

10.1093/genetics/154.1.121 ◽

2000 ◽

Vol 154 (1) ◽

pp. 121-132

Author(s):

Zhen Hu ◽

Yingzi Yue ◽

Hua Jiang ◽

Bin Zhang ◽

Peter W Sherwood ◽

...

Keyword(s):

Gene Expression ◽

Glucose Repression ◽

Protein A ◽

The Other ◽

Maltose Permease ◽

Inducer Exclusion ◽

Glucose Inhibition ◽

Independent Mechanism ◽

Mal Genes

Abstract Expression of the MAL genes required for maltose fermentation in Saccharomyces cerevisiae is induced by maltose and repressed by glucose. Maltose-inducible regulation requires maltose permease and the MAL-activator protein, a DNA-binding transcription factor encoded by MAL63 and its homologues at the other MAL loci. Previously, we showed that the Mig1 repressor mediates glucose repression of MAL gene expression. Glucose also blocks MAL-activator-mediated maltose induction through a Mig1p-independent mechanism that we refer to as glucose inhibition. Here we report the characterization of this process. Our results indicate that glucose inhibition is also Mig2p independent. Moreover, we show that neither overexpression of the MAL-activator nor elimination of inducer exclusion is sufficient to relieve glucose inhibition, suggesting that glucose acts to inhibit induction by affecting maltose sensing and/or signaling. The glucose inhibition pathway requires HXK2, REG1, and GSF1 and appears to overlap upstream with the glucose repression pathway. The likely target of glucose inhibition is Snf1 protein kinase. Evidence is presented indicating that, in addition to its role in the inactivation of Mig1p, Snf1p is required post-transcriptionally for the synthesis of maltose permease whose function is essential for maltose induction.

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Stress-induced differential gene expression in cardiac tissue

Scientific Reports ◽

10.1038/s41598-021-88267-8 ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Ana Elisa T. S. de Carvalho ◽

Marco A. Cordeiro ◽

Luana S. Rodrigues ◽

Daniela Ortolani ◽

Regina C. Spadari

Keyword(s):

Gene Expression ◽

Stress Response ◽

Left Ventricle ◽

Differential Gene Expression ◽

Cardiac Tissue ◽

Stressful Situation ◽

Adaptive Mechanism ◽

Number Of Genes ◽

Differential Gene ◽

Shock Stress

AbstractThe stress response is adaptive and aims to guarantee survival. However, the persistence of a stressor can culminate in pathology. Catecholamines released as part of the stress response over activate beta adrenoceptors (β-AR) in the heart. Whether and how stress affects the expression of components of the intracellular environment in the heart is still, however, unknown. This paper used microarray to analyze the gene expression in the left ventricle wall of rats submitted to foot shock stress, treated or not treated with the selective β2-AR antagonist ICI118,551 (ICI), compared to those of non-stressed rats also treated or not with ICI, respectively. The main findings were that stress induces changes in gene expression in the heart and that β2-AR plays a role in this process. The vast majority of genes disregulated by stress were exclusive for only one of the comparisons, indicating that, in the same stressful situation, the profile of gene expression in the heart is substantially different when the β2-AR is active or when it is blocked. Stress induced alterations in the expression of such a large number of genes seems to be part of stress-induced adaptive mechanism.

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Deuterium Oxide (D2O) Induces Early Stress Response Gene Expression and Impairs Growth and Metastasis of Experimental Malignant Melanoma

Cancers ◽

10.3390/cancers13040605 ◽

2021 ◽

Vol 13 (4) ◽

pp. 605

Author(s):

Jana Jandova ◽

Anh B. Hua ◽

Jocelyn Fimbres ◽

Georg T. Wondrak

Keyword(s):

Gene Expression ◽

Stress Response ◽

Malignant Melanoma ◽

Tumor Growth ◽

Deuterium Oxide ◽

Human Melanoma ◽

Pharmacological Intervention ◽

Melanoma Metastasis ◽

Response Gene ◽

Stress Response Gene

There are two stable isotopes of hydrogen, protium (1H) and deuterium (2H; D). Cellular stress response dysregulation in cancer represents both a major pathological driving force and a promising therapeutic target, but the molecular consequences and potential therapeutic impact of deuterium (2H)-stress on cancer cells remain largely unexplored. We have examined the anti-proliferative and apoptogenic effects of deuterium oxide (D2O; ‘heavy water’) together with stress response gene expression profiling in panels of malignant melanoma (A375V600E, A375NRAS, G361, LOX-IMVI), and pancreatic ductal adenocarcinoma (PANC-1, Capan-2, or MIA PaCa-2) cells with inclusion of human diploid Hs27 skin fibroblasts. Moreover, we have examined the efficacy of D2O-based pharmacological intervention in murine models of human melanoma tumor growth and metastasis. D2O-induction of apoptosis was substantiated by AV-PI flow cytometry, immunodetection of PARP-1, and pro-caspase 3 cleavage, and rescue by pan-caspase inhibition. Differential array analysis revealed early modulation of stress response gene expression in both A375 melanoma and PANC-1 adenocarcinoma cells elicited by D2O (90%; ≤6 h) (upregulated: CDKN1A, DDIT3, EGR1, GADD45A, HMOX1, NFKBIA, or SOD2 (up to 9-fold; p < 0.01)) confirmed by independent RT-qPCR analysis. Immunoblot analysis revealed rapid onset of D2O-induced stress response phospho-protein activation (p-ERK, p-JNK, p-eIF2α, or p-H2AX) or attenuation (p-AKT). Feasibility of D2O-based chemotherapeutic intervention (drinking water (30% w/w)) was demonstrated in a severe combined immunodeficiency (SCID) mouse melanoma metastasis model using luciferase-expressing A375-Luc2 cells. Lung tumor burden (visualized by bioluminescence imaging) was attenuated by D2O, and inhibition of invasiveness was also confirmed in an in vitro Matrigel transwell invasion assay. D2O supplementation also suppressed tumor growth in a murine xenograft model of human melanoma, and median survival was significantly increased without causing adverse effects. These data demonstrate for the first time that systemic D2O administration impairs growth and metastasis of malignant melanoma through the pharmacological induction of deuterium (2H)-stress.

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Mining The Cancer Genome Atlas gene expression data for lineage markers in distinguishing bladder urothelial carcinoma and prostate adenocarcinoma

Scientific Reports ◽

10.1038/s41598-021-85993-x ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Ewe Seng Ch’ng

Keyword(s):

Gene Expression ◽

Gene Expression Data ◽

The Cancer Genome Atlas ◽

Relative Importance ◽

Expression Data ◽

Gene Expressions ◽

Urothelial Carcinomas ◽

Cancer Genome Atlas ◽

Lineage Markers ◽

Genome Atlas

AbstractDistinguishing bladder urothelial carcinomas from prostate adenocarcinomas for poorly differentiated carcinomas derived from the bladder neck entails the use of a panel of lineage markers to help make this distinction. Publicly available The Cancer Genome Atlas (TCGA) gene expression data provides an avenue to examine utilities of these markers. This study aimed to verify expressions of urothelial and prostate lineage markers in the respective carcinomas and to seek the relative importance of these markers in making this distinction. Gene expressions of these markers were downloaded from TCGA Pan-Cancer database for bladder and prostate carcinomas. Differential gene expressions of these markers were analyzed. Standard linear discriminant analyses were applied to establish the relative importance of these markers in lineage determination and to construct the model best in making the distinction. This study shows that all urothelial lineage genes except for the gene for uroplakin III were significantly expressed in bladder urothelial carcinomas (p < 0.001). In descending order of importance to distinguish from prostate adenocarcinomas, genes for uroplakin II, S100P, GATA3 and thrombomodulin had high discriminant loadings (> 0.3). All prostate lineage genes were significantly expressed in prostate adenocarcinomas(p < 0.001). In descending order of importance to distinguish from bladder urothelial carcinomas, genes for NKX3.1, prostate specific antigen (PSA), prostate-specific acid phosphatase, prostein, and prostate-specific membrane antigen had high discriminant loadings (> 0.3). Combination of gene expressions for uroplakin II, S100P, NKX3.1 and PSA approached 100% accuracy in tumor classification both in the training and validation sets. Mining gene expression data, a combination of four lineage markers helps distinguish between bladder urothelial carcinomas and prostate adenocarcinomas.

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Histochemical Characterisation and Gene Expression Analysis of Skeletal Muscles from Maremmana and Aubrac Steers Reared on Grazing and Feedlot Systems

Animals ◽

10.3390/ani11030656 ◽

2021 ◽

Vol 11 (3) ◽

pp. 656

Author(s):

Giulia Foggi ◽

Francesca Ciucci ◽

Maria Conte ◽

Laura Casarosa ◽

Andrea Serra ◽

...

Keyword(s):

Gene Expression ◽

Physical Activity ◽

Muscle Fibre ◽

Skeletal Muscles ◽

Gene Expression Analysis ◽

Type I ◽

Triceps Brachii ◽

Gene Expressions ◽

Muscle Properties ◽

Voluntary Physical Activity

This study aimed to characterise the fibre composition of Triceps brachii (TB) and Semimembranosus (SM) muscles from 20 Maremmana (MA) and 20 Aubrac (AU) steers, and the effect of grazing activity in comparison with feedlot system. The histochemical method was performed with the m-ATPase method with an acid pre-incubation, thus allowing to distinguish type I, IIA, and IIB fibres. Additionally, on total RNA extracted from SM muscle, the expressions of atp1a1, mt-atp6, and capn1 genes were evaluated, in order to find potential associations with muscle fibre histochemical characteristics. In SM muscle, the MA steers had the greater frequency of oxidative fibres (type I and IIA) and the higher atp1a1 expression, in comparison to AU steers. Conversely, AU steers had a greater frequency of type IIB fibres, and the higher capn1 expression. A similar histochemical pattern was observed in TB muscle. The grazing activity was probably insufficient to determine differences both for fibre proportion and size, and gene expressions, except for mt-atp6 expression that was surprisingly highest in feedlot MA in comparison to other steers. These findings further the knowledge of muscle properties belonging to these breeds, and the effect of voluntary physical activity since few studies were available in this regard.

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Microarray analysis identification of key pathways and interaction network of differential gene expressions during osteogenic differentiation

Human Genomics ◽

10.1186/s40246-020-00293-1 ◽

2020 ◽

Vol 14 (1) ◽

Author(s):

Fatemeh Khodabandehloo ◽

Sara Taleahmad ◽

Reza Aflatoonian ◽

Farzad Rajaei ◽

Zahra Zandieh ◽

...

Keyword(s):

Gene Expression ◽

Stem Cells ◽

Signaling Pathway ◽

Expression Profiles ◽

Wnt Signaling Pathway ◽

Hub Genes ◽

Gene Expressions ◽

Cell Based Therapy ◽

Wnt Pathways ◽

Key Pathways

Abstract Background Adult bone marrow-derived mesenchymal stem cells (BM-MSCs) are multipotent stem cells that can differentiate into three lineages. They are suitable sources for cell-based therapy and regenerative medicine applications. This study aims to evaluate the hub genes and key pathways of differentially expressed genes (DEGs) related to osteogenesis by bioinformatics analysis in three different days. The DEGs were derived from the three different days compared with day 0. Results Gene expression profiles of GSE37558 were obtained from the Gene Expression Omnibus (GEO) database. A total of 4076 DEGs were acquired on days 8, 12, and 25. Gene ontology (GO) enrichment analysis showed that the non-canonical Wnt signaling pathway and lipopolysaccharide (LPS)-mediated signaling pathway were commonly upregulated DEGs for all 3 days. KEGG pathway analysis indicated that the PI3K-Akt and focal adhesion were also commonly upregulated DEGs for all 3 days. Ten hub genes were identified by CytoHubba on days 8, 12, and 25. Then, we focused on the association of these hub genes with the Wnt pathways that had been enriched from the protein-protein interaction (PPI) by the Cytoscape plugin MCODE. Conclusions These findings suggested further insights into the roles of the PI3K/AKT and Wnt pathways and their association with osteogenesis. In addition, the stem cell microenvironment via growth factors, extracellular matrix (ECM), IGF1, IGF2, LPS, and Wnt most likely affect osteogenesis by PI3K/AKT.

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