Your search keyword '"Ale-Agha, Niloofar"' showing total 23 results

1. Mitochondrial Telomerase Reverse Transcriptase Protects From Myocardial Ischemia/Reperfusion Injury by Improving Complex I Composition and Function.

Author

Ale-Agha, Niloofar, Jakobs, Philipp, Goy, Christine RT, Zurek, Mark, Rosen, Julia Cand med, Dyballa-Rukes, Nadine, Metzger, Sabine, Greulich, Jan, von Ameln, Florian RT, Eckermann, Olaf, Unfried, Klaus, Brack, Fedor, Grandoch, Maria, Thielmann, Matthias, Kamler, Markus, Gedik, Nilgun, Kleinbongard, Petra, Heinen, Andre, Heusch, Gerd, and Godecke, Axel

Subjects

*PROTEIN metabolism, *PROTEINS, *RESEARCH, *ANIMAL experimentation, *RESEARCH methodology, *EVALUATION research, *MYOCARDIAL reperfusion complications, *MITOCHONDRIA, *COMPARATIVE studies, *TRANSFERASES, *MICE

Abstract

Background: The catalytic subunit of telomerase, telomerase reverse transcriptase (TERT), has protective functions in the cardiovascular system. TERT is not only present in the nucleus but also in mitochondria. However, it is unclear whether nuclear or mitochondrial TERT is responsible for the observed protection, and the appropriate tools are missing to dissect this.Methods: We generated new mouse models containing TERT exclusively in the mitochondria (mitoTERT mice) or the nucleus (nucTERT mice) to finally distinguish between the functions of nuclear and mitochondrial TERT. Outcome after ischemia/reperfusion, mitochondrial respiration in the heart, and cellular functions of cardiomyocytes, fibroblasts, and endothelial cells, as well, were determined.Results: All mice were phenotypically normal. Although respiration was reduced in cardiac mitochondria from TERT-deficient and nucTERT mice, it was increased in mitoTERT animals. The latter also had smaller infarcts than wild-type mice, whereas nucTERT animals had larger infarcts. The decrease in ejection fraction after 1, 2, and 4 weeks of reperfusion was attenuated in mitoTERT mice. Scar size was also reduced and vascularization increased. Mitochondrial TERT protected a cardiomyocyte cell line from apoptosis. Myofibroblast differentiation, which depends on complex I activity, was abrogated in TERT-deficient and nucTERT cardiac fibroblasts and completely restored in mitoTERT cells. In endothelial cells, mitochondrial TERT enhanced migratory capacity and activation of endothelial nitric oxide synthase. Mechanistically, mitochondrial TERT improved the ratio between complex I matrix arm and membrane subunits, explaining the enhanced complex I activity. In human right atrial appendages, TERT was localized in mitochondria and there increased by remote ischemic preconditioning. The telomerase activator TA-65 evoked a similar effect in endothelial cells, thereby increasing their migratory capacity, and enhanced myofibroblast differentiation.Conclusions: Mitochondrial, but not nuclear TERT, is critical for mitochondrial respiration and during ischemia/reperfusion injury. Mitochondrial TERT improves complex I subunit composition. TERT is present in human heart mitochondria, and remote ischemic preconditioning increases its level in those organelles. TA-65 has comparable effects ex vivo and improves the migratory capacity of endothelial cells and myofibroblast differentiation. We conclude that mitochondrial TERT is responsible for cardioprotection, and its increase could serve as a therapeutic strategy. [ABSTRACT FROM AUTHOR]

Published

2021

2. Induction of a senescent like phenotype and loss of gap junctional intercellular communication by carbon nanoparticle exposure of lung epithelial cells.

Author

Spannbrucker, Tim, Ale-Agha, Niloofar, Goy, Christine, Dyballa-Rukes, Nadine, Jakobs, Philipp, Jander, Kirsten, Altschmied, Joachim, Unfried, Klaus, and Haendeler, Judith

Subjects

*OBSTRUCTIVE lung diseases, *IDIOPATHIC pulmonary fibrosis, *PHYSIOLOGICAL aspects of aging, *EPITHELIAL cells, *CONNEXIN 43, *CELL cycle, *HISTONE deacetylase, *CELL membranes

Abstract

Abstract Inhalation of combustion-derived particles is associated with the development of age-related diseases like chronic obstructive pulmonary disease and idiopathic pulmonary fibrosis. In both diseases senescence of lung epithelial cells has been observed. Employing an in vitro system of repetitive exposure to pure carbon nanoparticles we asked whether this kind of particles are able to induce a senescent like phenotype, which might be accompanied by a loss of functionality at the level of gap junctional intercellular communication. Non-cytotoxic doses of carbon nanoparticles but not of bigger carbon particles led to an irreversible reduction of the proliferative capacity accompanied by the accumulation of the cell cycle blocking proteins p21 and p16 as well as a loss of both redox sensitive histone deacetylase SIRT1 and connexin-43. Gap junction intercellular communication detected by microinjection of fluorescent lucifer yellow was dramatically decreased after exposure. This loss of functionality was associated with a reduction of Connexin 43 at the plasma membrane. As the experimental system was chosen to study the effects of pure carbon nanoparticles in the absence of inflammatory cells, the data indicate that cumulative long-term exposure of the lung epithelium to low doses of combustion-derived nanoparticles might contribute to epithelial senescence and age-associated diseases of the airways. Highlights • Carbon nanoparticles and not carbon particles induce a senescent like phenotype in lung epithelial cells. • Carbon nanoparticles and not carbon particles induce loss of cell-cell communication • Carbon nanoparticles may induce dysfunctional lung epithelial cells [ABSTRACT FROM AUTHOR]

Published

2019

3. CDKN1B/p27 is localized in mitochondria and improves respiration-dependent processes in the cardiovascular system—New mode of action for caffeine.

Author

Ale-Agha, Niloofar, Goy, Christine, Jakobs, Philipp, Spyridopoulos, Ioakim, Gonnissen, Stefanie, Dyballa-Rukes, Nadine, Aufenvenne, Karin, von Ameln, Florian, Zurek, Mark, Spannbrucker, Tim, Eckermann, Olaf, Jakob, Sascha, Gorressen, Simone, Abrams, Marcel, Grandoch, Maria, Fischer, Jens W., Köhrer, Karl, Deenen, René, Unfried, Klaus, and Altschmied, Joachim

Subjects

*CARDIOVASCULAR system, *CAFFEINE, *CYCLIN-dependent kinase inhibitors, *ENDOTHELIAL cells, *ADENOSINE triphosphate

Abstract

We show that the cyclin-dependent kinase inhibitor 1B (CDKN1B)/p27, previously known as a cell cycle inhibitor, is also localized within mitochondria. The migratory capacity of endothelial cells, which need intact mitochondria, is completely dependent on mitochondrial p27. Mitochondrial p27 improves mitochondrial membrane potential, increases adenosine triphosphate (ATP) content, and is required for the promigratory effect of caffeine. Domain mapping of p27 revealed that the N-terminus and C-terminus are required for those improvements. Further analysis of those regions revealed that the translocation of p27 into the mitochondria and its promigratory activity depend on serine 10 and threonine 187. In addition, mitochondrial p27 protects cardiomyocytes against apoptosis. Moreover, mitochondrial p27 is necessary and sufficient for cardiac myofibroblast differentiation. In addition, p27 deficiency and aging decrease respiration in heart mitochondria. Caffeine does not increase respiration in p27-deficient animals, whereas aged mice display improvement after 10 days of caffeine in drinking water. Moreover, caffeine induces transcriptome changes in a p27-dependent manner, affecting mostly genes relevant for mitochondrial processes. Caffeine also reduces infarct size after myocardial infarction in prediabetic mice and increases mitochondrial p27. Our data characterize mitochondrial p27 as a common denominator that improves mitochondria-dependent processes and define an increase in mitochondrial p27 as a new mode of action of caffeine. [ABSTRACT FROM AUTHOR]

Published

2018

4. Cellular functions of the dual-targeted catalytic subunit of telomerase, telomerase reverse transcriptase — Potential role in senescence and aging.

Author

Ale-Agha, Niloofar, Dyballa-Rukes, Nadine, Jakob, Sascha, Altschmied, Joachim, and Haendeler, Judith

Subjects

*TELOMERASE reverse transcriptase, *CHROMOSOMES, *CELLULAR signal transduction, *ORGANELLES, *CELL proliferation, *DNA damage

Abstract

Abstract: Over the last 40years it has become clear that telomeres, the end of the chromosomes, and the enzyme telomerase reverse transcriptase (TERT), which is required to counteract their shortening, play a pivotal role in senescence and aging. However, over the last years several studies demonstrated that TERT belongs to the group of dual-targeted proteins. It contains a bipartite nuclear localization signal as well as a mitochondrial targeting sequence and, under physiological conditions, is found in both organelles in several cell types including terminally differentiated, post-mitotic cells. The canonical function of TERT is to prevent telomere erosion and thereby the development of replicative senescence and genetic instability. Besides telomere extension, TERT exhibits other non-telomeric activities such as cell cycle regulation, modulation of cellular signaling and gene expression, augmentation of proliferative lifespan as well as DNA damage responses. Mitochondrial TERT is able to reduce reactive oxygen species, mitochondrial DNA damage and apoptosis. Because of the localization of TERT in the nucleus and in the mitochondria, it must have different functions in the two organelles as mitochondrial DNA does not contain telomeric structures. However, the organelle-specific functions are not completely understood. Strikingly, the regulation by phosphorylation of TERT seems to reveal multiple parallels. This review will summarize the current knowledge about the cellular functions and post-translational regulation of the dual-targeted protein TERT. [Copyright &y& Elsevier]

Published

2014

5. Unhealthy diet and ultrafine carbon black particles induce senescence and disease associated phenotypic changes

Author

Büchner, Nicole, Ale-Agha, Niloofar, Jakob, Sascha, Sydlik, Ulrich, Kunze, Kerstin, Unfried, Klaus, Altschmied, Joachim, and Haendeler, Judith

Subjects

*AGE factors in disease, *PHENOTYPES, *LOW density lipoproteins, *DIET in disease, *CELLULAR signal transduction, *CARBON-black, *ENVIRONMENTAL impact analysis

Abstract

Abstract: Diet and pollution are environmental factors known to compromise “healthy aging” of the cardiovascular and respiratory systems. The molecular consequences of this permanent burden in these cells are still unknown. Therefore, this study investigates the impact of unhealthy diet on aging-related signaling pathways of human, primary cardiovascular cells and of airborne particles on lung epithelial and human endothelial cells. Nutrition health reports have shown that the diet in industrialized countries contains more than 100mg/dl low density lipoprotein (LDL) and a high fraction of added sugars, especially fructose. Several studies demonstrated that ultrafine particles can enter the circulation and thus may interact with endothelial cells directly. Both, dietary compounds and pollution derived particles, have been shown to increase the risk for cardiovascular diseases. To simulate an unhealthy diet, we supplemented cell culture media of human primary endothelial cells, smooth muscle cells and cardiomyocytes with LDL and replaced 1/3 of glucose with fructose. We observed hypertrophy in cardiomyocytes, enhanced proliferation in smooth muscle cells and increased senescence, loss of endothelial nitric oxide synthase and increased nuclear FoxO3A in endothelial cells. With respect to pollution we have used ultrafine carbon black particles (ufCB), one of the major constituents of industrial and exhaust emissions, in concentrations our lungs and vessels are constantly exposed to. These concentrations of ufCB increased reactive oxygen species in lung epithelial and vascular endothelial cells and reduced the S–NO content, a marker for NO-bioavailability, in endothelial cells. NO increases activation of Telomerase Reverse Transcriptase (TERT), an enzyme essential for telomere maintenance. TERT is required for proper endothelial cell function and is inactivated by Src kinase under conditions of oxidative stress. ufCB significantly increased Src kinase activation and reduced Telomerase activity in endothelial and lung epithelial cells. As a consequence, ufCB increased senescence of endothelial cells. To investigate whether ufCB show also effects in vivo, we instilled ufCB in concentrations not inducing inflammation into mice. Indeed, eNOS expression was reduced in the abdominal aorta of animals treated with ufCB. Thus, a combination of fructose and LDL in the diet and ufCB, as a major constituent of air pollution, seem to accelerate respiratory and cardiovascular cellular changes, which may compromise “healthy aging” and can lead to cardiovascular and pulmonary diseases. [Copyright &y& Elsevier]

Published

2013

6. Loss of gap junctional intercellular communication in rat lung epithelial cells exposed to carbon or silica-based nanoparticles.

Author

Ale-Agha, Niloofar, Albrecht, Catrin, and Klotz, Lars-Oliver

Subjects

*CARBON-black, *NANOSILICON, *GAP junctions (Cell biology), *CELL communication, *NANOPARTICLES, *EPIDERMAL growth factor, *LABORATORY rats, *EPITHELIAL cells, *CONNEXINS

Abstract

The aim of this study was to investigate whether fine and ultrafine carbon black (fC and ufC), and fine and ultrafine silica (fS, ufS) particles affect gap junctional intercellular communication (GJIC) in rat lung epithelial cells. Exposure of cells to subcytotoxic doses of ufC, fS and ufS resulted in a 63%, 59% and 77% reduction of GJIC, respectively, as determined in a dye transfer assay. In contrast to ufC, fC did not significantly alter GJIC. Changes in subcellular localization of the major gap junction protein in RLE cells, connexin-43 (Cx43), and of β-catenin were observed in cells exposed to ufC, fS or ufS. The loss of GJIC was counteracted by N-acetyl cysteine and was largely prevented by specific inhibitors of epidermal growth factor receptor-dependent signaling, pointing to the crucial role of two known major mediators of nanoparticle action, namely reactive oxygen species and membrane-receptor signaling, in particle-induced modulation of GJIC. [ABSTRACT FROM AUTHOR]

Published

2010

7. Loss of gap junctional intercellular communication in rat lung epithelial cells exposed to carbon or silica-based nanoparticles.

Author

Ale-Agha, Niloofar, Albrecht, Catrin, and Klotz, Lars-Oliver

Subjects

*GAP junctions (Cell biology), *CELL communication, *CARBON-black, *NANOSILICON, *NANOPARTICLES, *CONNEXINS, *EPITHELIAL cells, *LABORATORY rats

Abstract

The aim of this study was to investigate whether fine and ultrafine carbon black (fC and ufC), and fine and ultrafine silica (fS, ufS) particles affect gap junctional intercellular communication (GJIC) in rat lung epithelial cells. Exposure of cells to subcytotoxic doses of ufC, fS and ufS resulted in a 63%, 59% and 77% reduction of GJIC, respectively, as determined in a dye transfer assay. In contrast to ufC, fC did not significantly alter GJIC. Changes in subcellular localization of the major gap junction protein in RLE cells, connexin-43 (Cx43), and of β-catenin were observed in cells exposed to ufC, fS or ufS. The loss of GJIC was counteracted by N-acetyl cysteine and was largely prevented by specific inhibitors of epidermal growth factor receptor-dependent signaling, pointing to the crucial role of two known major mediators of nanoparticle action, namely reactive oxygen species and membrane-receptor signaling, in particle-induced modulation of GJIC. [ABSTRACT FROM AUTHOR]

Published

2010

8. Loss of gap junctional intercellular communication in rat lung epithelial cells exposed to quartz particles

Author

Ale-Agha, Niloofar, Albrecht, Catrin, and Klotz, Lars-Oliver

Subjects

*GAP junctions (Cell biology), *CELL communication, *EPITHELIAL cells, *LABORATORY rats, *PARTICLES, *QUARTZ, *LUNG diseases, *CANCER

Abstract

Abstract: Chronic inhalation of quartz particles has been implicated in lung diseases including silicosis and cancer. The aim of this study was to investigate whether quartz particles affect gap junctional intercellular communication (GJIC) in rat lung epithelial cells (RLE-6TN). Here, we demonstrate that exposure of RLE-6TN cells to subtoxic doses of DQ12 standard quartz resulted in an up to 55% reduction of GJIC, as determined in a dye transfer assay. We show that connexin-43 (Cx43) is the major connexin responsible for intercellular communication in these lung epithelial cells and that exposure to quartz particles induces a significant internalization of Cx43. Downregulation of GJIC was attenuated by N-acetyl cysteine, suggesting the involvement of reactive oxygen species and/or cellular thiol homeostasis in the regulation of GJIC. Furthermore, an inhibitor of activation of extracellular signal-regulated kinases prevented the loss of GJIC in cells exposed to DQ12 quartz, although no direct phosphorylation of Cx43 upon exposure to DQ12 was detected. [Copyright &y& Elsevier]

Published

2009

9. (−)-Epicatechin effects in rat liver epithelial cells: stimulation of gap junctional communication and counteraction of its loss due to the tumor promoter 12-O-tetradecanoylphorbol-13-acetate

Author

Ale-Agha, Niloofar, Stahl, Wilhelm, and Sies, Helmut

Subjects

*GAP junctions (Cell biology), *ARRHYTHMIA

Abstract

Gap junctional intercellular communication (GJIC) is a direct signaling pathway for neighboring cells. Disturbances in GJIC are suggested to play a role in carcinogenesis and may be involved in cardiac arrhythmia. Tumor promoters like 12-O-tetradecanoylphorbol-13-acetate (TPA) are capable of inhibiting GJIC, whereas GJIC is stimulated by several micronutrients like genistein, retinoids or carotenoids. (−)-Epicatechin (4–40 μM), a major flavonoid in cocoa and green tea, exhibited stimulatory effects on GJIC in WB-F344 rat liver epithelial cells after 24–72 hr of incubation; no change was observed after 90 min. However, treatment of cells for 90 min with TPA (5 or 10 nM) led to complete loss of GJIC, whereas 40% loss was found with 1 nM. These inhibitory effects of TPA were largely suppressed when (−)-epicatechin or genistein (40 μM) were present during the incubation. In communicating WB-F344 cells, most of the major gap junction protein connexin43 (Cx43) was located in the plasma membrane. When the cells were exposed to TPA, considerably less protein was found in the membrane. Such a delocalization of Cx43 proteins was not observed when TPA was coincubated with the flavonoids, (−)-epicatechin or genistein. It is concluded that TPA affects Cx43 trafficking between cellular compartments, and that this effect is counteracted by (−)-epicatechin or genistein. [Copyright &y& Elsevier]

Published

2002

10. Molekularer Wirkmechanismus von Koffein entschlüsselt.

Author

Ale‐Agha, Niloofar, Goy, Christine, Altschmied, Joachim, and Haendeler, Judith

Abstract

Epidemiologische Studien zeigen, dass Kaffeekonsum einen positiven Einfluss auf das Herz‐Kreislaufsystem hat. In unseren Arbeiten konnten wir erstmals einen molekularen Wirkmechanismus für Koffein beschreiben, der diese Korrelation erklärt. Koffein induziert die Translokation des ehemals als Zellzyklus‐Inhibitor beschriebenen Proteins CDKN1B in die Mitochondrien, was zu einer verbesserten Funktion verschiedenster Zellen führt. [ABSTRACT FROM AUTHOR]

Published

2019

11. Ultrafine but not fine carbon particles cause loss of gap junctional intercellular communication in rat lung epithelial cells

Author

Ale-Agha, Niloofar, Fernau, Niklas S., and Klotz, Lars-Oliver

Published

2009

12. Epidermal growth factor- and stress-induced loss of gap junctional communication is mediated by ERK-1/ERK-2 but not ERK-5 in rat liver epithelial cells

Author

Abdelmohsen, Kotb, Sauerbier, Elisabeth, Ale-Agha, Niloofar, Beier, Juliane, Walter, Philippe, Galban, Stefanie, Stuhlmann, Dominik, Sies, Helmut, and Klotz, Lars-Oliver

Subjects

*EPIDERMAL growth factor, *GROWTH factors, *EPITHELIAL cells, *PHOSPHORYLATION

Abstract

Abstract: Extracellular signal-regulated kinases (ERK) 1 and 2 as well as ERK-5 were previously suggested to phosphorylate connexin-43 and to contribute to the modulation of gap junctional intercellular communication (GJC). Exposure of rat liver epithelial cells to epidermal growth factor (EGF) or the redox cycling and alkylating agent menadione resulted in phosphorylation of connexin-43 and loss in GJC, both of which were abrogated by pharmacological inhibitors of ERK-1/2 activation, if used in concentrations that selectively abrogate phosphorylation of ERK-1/2 but not of ERK-5. Thus, EGF- or menadione-induced loss of GJC is mediated by ERK-1/2 but not ERK-5 in rat liver epithelial cells. [Copyright &y& Elsevier]

Published

2007

13. Endothelial hyaluronan synthase 3 aggravates acute colitis in an experimental model of inflammatory bowel disease.

Author

Hundhausen, Christian, Schneckmann, Rebekka, Ostendorf, Yanina, Rimpler, Jacqueline, von Glinski, Anette, Kohlmorgen, Christina, Pasch, Nina, Rolauer, Luca, von Ameln, Florian, Eckermann, Olaf, Altschmied, Joachim, Ale-Agha, Niloofar, Haendeler, Judith, Flögel, Ulrich, Fischer, Jens W., and Grandoch, Maria

Subjects

*INFLAMMATORY bowel diseases, *COLITIS, *HYALURONIC acid, *DEXTRAN sulfate, *SODIUM sulfate, *SMOOTH muscle

Abstract

• Systemic pharmacological blockade of hyaluronan synthesis by 4-Methylumbelliferone exacerbates acute colitis in the DSS model. • Mice with selective deletion of hyaluronan synthase 3 (Has3) in endothelial cells are protected against DSS-induced colitis. • Cell-type specific interference with HAS3-mediated HA synthesis may be further explored as potential treatment for human inflammatory bowel disease. The association between hyaluronan (HA) accumulation and increased inflammation in the colon suggests that HA is a potential therapeutic target in inflammatory bowel disease (IBD). However, whether patients with IBD would benefit from interference with HA synthesis is unknown. Here, we used pharmacological and genetic approaches to investigate the impact of systemic and partial blockade of HA synthesis in the Dextran Sodium Sulfate (DSS)-induced colitis model. To systemically inhibit HA production, we used 4-Methylumbelliferone (4-MU), whereas genetic approaches included the generation of mice with global or inducible cell-type specific deficiency in the Hyaluronan synthase 3 (Has3). We found that 4-MU treatment did not ameliorate but exacerbated disease severity characterized by increased body weight loss and enhanced colon tissue destruction compared to control mice without colitis. In contrast, global Has3 deficiency had a profound protective effect as reflected by a low colitis score and reduced infiltration of immune cells into the colon. To get further mechanistic insight into the proinflammatory role of HAS3, we deleted Has3 in a cell-type specific manner. Interestingly, while lack of Has3 expression in intestinal epithelial and smooth muscle cells had no effect or was rather proinflammatory, mice with Has3 deficiency in the endothelium were strongly protected against acute colitis. We conclude that endothelium-derived HAS3 plays a critical role in driving experimental colitis, warranting future studies on cell type-specific therapeutic interference with HA production in human IBD. [ABSTRACT FROM AUTHOR]

Published

2021

14. Non-Canonical Activation of the Epidermal Growth Factor Receptor by Carbon Nanoparticles.

Author

Stöckmann, Daniel, Spannbrucker, Tim, Ale-Agha, Niloofar, Jakobs, Philipp, Goy, Christine, Dyballa-Rukes, Nadine, Hornstein, Tamara, Unfried, Klaus, Haendeler, Judith, Kümper, Alexander, and Kraegeloh, Annette

Subjects

*EPIDERMAL growth factor receptors, *CARBON nanofibers, *PROTEIN kinase B

Abstract

The epidermal growth factor receptor (EGFR) is an abundant membrane protein, which is essential for regulating many cellular processes including cell proliferation. In our earlier studies, we observed an activation of the EGFR and subsequent signaling events after the exposure of epithelial cells to carbon nanoparticles. In the current study, we describe molecular mechanisms that allow for discriminating carbon nanoparticle-specific from ligand-dependent receptor activation. Caveolin-1 is a key player that co-localizes with the EGFR upon receptor activation by carbon nanoparticles. This specific process mediated by nanoparticle-induced reactive oxygen species and the accumulation of ceramides in the plasma membrane is not triggered when cells are exposed to non-nano carbon particles or the physiological ligand EGF. The role of caveolae formation was demonstrated by the induction of higher order structures of caveolin-1 and by the inhibition of caveolae formation. Using an in vivo model with genetically modified mice lacking caveolin-1, it was possible to demonstrate that carbon nanoparticles in vivo trigger EGFR downstream signaling cascades via caveolin-1. The identified molecular mechanisms are, therefore, of toxicological relevance for inhaled nanoparticles. However, nanoparticles that are intentionally applied to humans might cause side effects depending on this phenomenon. [ABSTRACT FROM AUTHOR]

Published

2018

15. The Anti-Apoptotic Properties of APEX1 in the Endothelium Require the First 20 Amino Acids and Converge on Thioredoxin-1.

Author

Dyballa-Rukes, Nadine, Jakobs, Philipp, Eckers, Anna, Ale-Agha, Niloofar, Serbulea, Vlad, Aufenvenne, Karin, Zschauer, Tim-Christian, Rabanter, Lothar L., Jakob, Sascha, von Ameln, Florian, Eckermann, Olaf, Leitinger, Norbert, Goy, Christine, Altschmied, Joachim, and Haendeler, Judith

Subjects

*THIOREDOXIN, *ENDOTHELIUM, *AMINO acids, *APOPTOSIS, *ENDOTHELIAL cells, *CATHEPSIN D

Abstract

The APEX nuclease (multifunctional DNA repair enzyme) 1 (APEX1) has a disordered N-terminus, a redox, and a DNA repair domain. APEX1 has anti-apoptotic properties, which have been linked to both domains depending on cell type and experimental conditions. Aims: As protection against apoptosis is a hallmark of vessel integrity, we wanted to elucidate whether APEX1 acts anti-apoptotic in primary human endothelial cells and, if so, what the underlying mechanisms are. Results: APEX1 inhibits apoptosis in endothelial cells by reducing Cathepsin D (CatD) cleavage, potentially by binding to the unprocessed form. Diminished CatD activation results in increased Thioredoxin-1 protein levels leading to reduced Caspase 3 activation. Consequently, apoptosis rates are decreased. This depends on the first twenty amino acids in APEX1, because APEX1 (21-318) induces CatD activity, decreases Thioredoxin-1 protein levels, and, thus, increases Caspase 3 activity and apoptosis. Along the same lines, APEX1 (1-20) inhibits Caspase 3 cleavage and apoptosis. Furthermore, re-expression of Thioredoxin-1 via lentiviral transduction rescues endothelial cells from APEX1 (21-318)-induced apoptosis. In an in vivo model of restenosis, which is characterized by oxidative stress, endothelial activation, and smooth muscle cell proliferation, Thioredoxin-1 protein levels are reduced in the endothelium of the carotids. Innovation: APEX1 acts anti-apoptotic in endothelial cells. This anti-apoptotic effect depends on the first 20 amino acids of APEX1. Conclusion: As proper function of the endothelium during life span is a hallmark for individual health span, a detailed characterization of the functions of the APEX1N-terminus is required to understand all its cellular properties. [ABSTRACT FROM AUTHOR]

Published

2017

16. Role of Telomerase in the Cardiovascular System.

Author

Zurek, Mark, Altschmied, Joachim, Kohlgrüber, Stefanie, Ale-Agha, Niloofar, and Haendeler, Judith

Subjects

*TELOMERASE, *CARDIOVASCULAR diseases, *ATHEROSCLEROSIS, *TELOMERASE reverse transcriptase, *CANCER cells, *MUSCLE cells, *FIBROBLASTS

Abstract

Aging is one major risk factor for the incidence of cardiovascular diseases and the development of atherosclerosis. One important enzyme known to be involved in aging processes is Telomerase Reverse Transcriptase (TERT). After the discovery of the enzyme in humans, TERT had initially only been attributed to germ line cells, stem cells and cancer cells. However, over the last few years it has become clear that TERT is also active in cells of the cardiovascular system including cardiac myocytes, endothelial cells, smooth muscle cells and fibroblasts. Interference with the activity of this enzyme greatly contributes to cardiovascular diseases. This review will summarize the findings on the role of TERT in cardiovascular cells. Moreover, recent findings concerning TERT in different mouse models with respect to cardiovascular diseases will be described. Finally, the extranuclear functions of TERT will be covered within this review. [ABSTRACT FROM AUTHOR]

Published

2016

17. Signalling-Dependent Adverse Health Effects of Carbon Nanoparticles Are Prevented by the Compatible Solute Mannosylglycerate (Firoin) In Vitro and In Vivo.

Author

Autengruber, Andrea, Sydlik, Ulrich, Kroker, Matthias, Hornstein, Tamara, Ale-Agha, Niloofar, Stöckmann, Daniel, Bilstein, Andreas, Albrecht, Catrin, Paunel-Görgülü, Adnana, Suschek, Christoph V., Krutmann, Jean, and Unfried, Klaus

Subjects

*CELLULAR signal transduction, *ADVERSE health care events, *CARBON nanotubes, *NANOPARTICLES, *SOLUTION (Chemistry), *MANNOSYLGLYCERATE, *IN vitro studies, *AIRWAY (Anatomy)

Abstract

The inhalation of combustion-derived nanoparticles leads to adverse health effects in the airways. In this context the induction of membrane-coupled signalling is considered as causative for changes in tissue homeostasis and pro-inflammatory reactions. The identification of these molecular cell reactions allowed to seek for strategies which interfere with these adverse effects. In the current study, we investigated the structurally different compatible solutes mannosylglycerate (firoin) from thermophilic bacteria and ectoine from halophilic bacteria for their capability to reduce signalling pathways triggered by carbon nanoparticles in target cells in the lung. The pre-treatment of lung epithelial cells with both substances decreased the particle-specific activation of mitogen-activated protein kinases and also the endpoints proliferation and apoptosis. Firoin applied into the lungs of animals, like ectoine, led to a significant reduction of the neutrophilic lung inflammation induced by particle exposure. The pro-inflammatory effect of carbon nanoparticles on human neutrophil granulocytes ex vivo was significantly reduced by both substances via the reduction of the anti-apoptotic membrane-dependent signalling. The data of this study together with earlier studies demonstrate that two structurally non-related compatible solutes are able to prevent pathogenic reactions of the airways to carbon nanoparticles by interfering with signalling events. The findings highlight the preventive or therapeutic potential of compatible solutes for adverse health effects caused by particle exposure of the airways. [ABSTRACT FROM AUTHOR]

Published

2014

18. The imbalanced redox status in senescent endothelial cells is due to dysregulated Thioredoxin-1 and NADPH oxidase 4.

Author

Goy, Christine, Czypiorski, Philip, Altschmied, Joachim, Jakob, Sascha, Rabanter, Lothar L., Brewer, Alison C., Ale-Agha, Niloofar, Dyballa-Rukes, Nadine, Shah, Ajay M., and Haendeler, Judith

Subjects

*OXIDATION-reduction reaction, *ENDOTHELIAL cells, *THIOREDOXIN, *NADPH oxidase, *ENVIRONMENTAL engineering, *OXIDATIVE stress, *MITOCHONDRIAL pathology

Abstract

Abstract: Environmental stressors as well as genetic modifications are known to enhance oxidative stress and aging processes. Mitochondrial and nuclear dysfunctions contribute to the onset of aging. One of the most important redox regulators in primary human endothelial cells is Thioredoxin-1 (Trx-1), a 12kD protein with additional anti-apoptotic properties. Cellular generators of reactive oxygen species are NADPH oxidases (NOXs), of which NOX4 shows highest expression levels in endothelial cells. Therefore, the aim of the study was to investigate how Trx-1 and NOX4 are regulated during stress-induced premature senescence in endothelial cells. We treated primary human endothelial cells for two weeks with H2O2 to generate stress-induced premature senescence in these cells. In this model senescence-associated β-Galactosidase and nuclear p21 as senescence markers are increased. Moreover, total and mitochondrial reactive oxygen species formation is enhanced. An imbalanced redox homeostasis is detected by elevated NOX4 and decreased Trx-1 levels. This can be rescued by lentiviral expression of Trx-1. Moreover, the lysosomal protease Cathepsin D is over-activated, which results in reduced Trx-1 protein levels. Inhibition of “over-active” Cathepsin D by the specific, cell-permeable inhibitor pepstatin A abolishes the increase in nuclear p21 protein, ROS formation and degradation of Trx-1 protein, thus leading to blockade of stress-induced premature senescence by stabilizing the cellular redox homeostasis. Aortic Trx-1 levels are decreased and Cathepsin D activity is increased in NOX4 transgenic mice exclusively expressing NOX4 in the endothelium when compared to their wildtype littermates. Thus, loss of Trx-1 and upregulation of NOX4 importantly contribute to the imbalance in the redox-status of senescent endothelial cells ex vivo and in vivo. [Copyright &y& Elsevier]

Published

2014

19. Protective Effects of Curcumin in Cardiovascular Diseases—Impact on Oxidative Stress and Mitochondria.

Author

Cox, Fiona Frederike, Misiou, Angelina, Vierkant, Annika, Ale-Agha, Niloofar, Grandoch, Maria, Haendeler, Judith, and Altschmied, Joachim

Subjects

*CARDIOVASCULAR diseases, *LIPID metabolism, *OXIDATIVE stress, *CURCUMIN, *TYPE 2 diabetes, *DISEASE risk factors, *AGING

Abstract

Cardiovascular diseases (CVDs) contribute to a large part of worldwide mortality. Similarly, two of the major risk factors for these diseases, aging and obesity, are also global problems. Aging, the gradual decline of body functions, is non-modifiable. Obesity, a modifiable risk factor for CVDs, also predisposes to type 2 diabetes mellitus (T2DM). Moreover, it affects not only the vasculature and the heart but also specific fat depots, which themselves have a major impact on the development and progression of CVDs. Common denominators of aging, obesity, and T2DM include oxidative stress, mitochondrial dysfunction, metabolic abnormalities such as altered lipid profiles and glucose metabolism, and inflammation. Several plant substances such as curcumin, the major active compound in turmeric root, have been used for a long time in traditional medicine and for the treatment of CVDs. Newer mechanistic, animal, and human studies provide evidence that curcumin has pleiotropic effects and attenuates numerous parameters which contribute to an increased risk for CVDs in aging as well as in obesity. Thus, curcumin as a nutraceutical could hold promise in the prevention of CVDs, but more standardized clinical trials are required to fully unravel its potential. [ABSTRACT FROM AUTHOR]

Published

2022

20. Role of HuR and p38MAPK in Ultraviolet B-induced Post-transcriptional Regulation of COX-2 Expression in the Human Keratinocyte Cell Line HaCaT.

Author

Fernau, Nikias S., Fugmann, Dominik, Leyendecker, Martin, Reimann, Kerstin, Grether-Beck, Susanne, Galban, Stefanie, Ale-Agha, Niloofar, Krutmann, Jean, and KIotz, Lars-Oliver

Subjects

*ULTRAVIOLET radiation, *KERATINOCYTES, *CELL lines, *TRANSCRIPTION factors, *WESTERN immunoblotting, *MESSENGER RNA, *PROSTAGLANDINS E

Abstract

COX-2 (cyclooxygenase-2) is a pivotal player in inflamma- tory processes, and ultraviolet radiation is a known stimulus for COX-2 expression in skin cells. Here, an induction of COX-2 expression in HaCaT human keratinocytes was ob- served only upon exposure of cells to UVB (280 -320 nm) but not to UVA radiation (320-400 nm), as demonstrated by reverse transcription-PCR and Western blotting. Prostag- landin E2 levels were elevated in cell culture supernatants of HaCaT cells exposed to UVB. COX-2 mRNA stability was dra- matically increased by UVB irradiation. Both the stabilization of COX-2 mRNA and the enhancement of COX-2 steady-state mRNA and protein levels caused by UVB were prevented both by inhibition and small interfering RNA-induced depletion of p38MAPK, a kinase strongly activated upon exposure to UVB, suggesting p38MAPK-dependent mRNA stabilization as a mech- anism of UVB-induced COX-2 expression. A dramatic decrease in COX-2 expression induced by UVB was elicited by small interfering RNA-based depletion of a stress-responsive mRNA stabilizing protein regulated by p38MAPK, i.e. HuR; UVB-induced elevation of COX-2 mRNA and protein levels coincided with an accumulation of HuR in the cytoplasm and was attenuated in cells depleted of HuR. Moreover, UVB-induced generation of prostaglandin E2 by HaCaT cells was blunted by HuR depletion, suggesting that stress kinases (such as p38MAPK) as well as HuR are excellent targets for approaches aiming at interfering with induction of COX-2 expression by UVB. [ABSTRACT FROM AUTHOR]

Published

2010

21. Ultraviolet A induced modulation of gap junctional intercellular communication by P38 MAPK activation in human keratinocytes.

Author

Bellei, Barbara, Mastrofrancesco, Arianna, Briganti, Stefania, Aspite, Nicaela, Ale-Agha, Niloofar, Sies, Helmut, and Picardo, Mauro

Subjects

*ULTRAVIOLET radiation, *CELL communication, *TUMORS, *KERATINOCYTES, *PROTEIN kinases

Abstract

Aberrant gap junctional intercellular communication (GJIC) has been implicated in tumor development and progression. UltravioletA (UVA)-induced oxidative stress has been associated with skin carcinogenesis. We report a potential link between GJIC and the cellular stress response induced by UVA in normal human keratinocytes (NHK). In this study, UVA irradiation (10 J/cm2) compromised GJIC integrity in absence of cytotoxic effects as demonstrated by the absence of cell death and by the reversibility of GJIC down-regulation. Inhibition of communication by UVA was associated with hyperphosphorylation and decreased expression of connexin43 (Cx43), the most abundant gap junction protein expressed by keratinocytes. Cx43 hyperphosphorylation induced by UVA is, at least in part, mediated through mitogen-activated protein kinase (MAPK) activation as Ser279 and Ser282 sites, two downstream direct targets of p38 MAPK were found to be phosphorylated after UVA treatment. However, inhibition of p38 MAPK activity did not significantly protect from cell–cell communication inhibition because of a strong cellular cytotoxicity observed with SB202190 and SB203580, two selective inhibitors of p38 MAPK, in combination with UVA that compromises the outcome of dye transfer assay. By contrast, in Hacat cell line, inhibition of p38 activity reduced both phosphorylation and degradation of Cx43, demonstrating that these events are correlated. [ABSTRACT FROM AUTHOR]

Published

2008

22. CD133+ hepatic stellate cells are progenitor cells

Author

Kordes, Claus, Sawitza, Iris, Müller-Marbach, Alexis, Ale-Agha, Niloofar, Keitel, Verena, Klonowski-Stumpe, Hanne, and Häussinger, Dieter

Subjects

*FIBROSIS, *IMMUNOREGULATION, *NITROGEN compounds, *CULTURES (Biology)

Abstract

Abstract: Hepatic stellate cells (HSC) play an important role in the development of liver fibrosis. Here, we report that HSC express the stem/progenitor cell marker CD133 and exhibit properties of progenitor cells. CD133+ HSC of rats were selected by specific antibodies and magnetic cell sorting. Selected cells displayed typical markers of HSC, endothelial progenitor cells (EPC), and monocytes. In cell culture, CD133+ HSC transformed into α-smooth muscle actin positive myofibroblast-like cells, whereas application of cytokines known to facilitate EPC differentiation into endothelial cells led to the formation of branched tube-like structures and induced expression of the endothelial cell markers endothelial nitric oxide synthase and vascular-endothelial cadherin. Moreover, cytokines that guide stem cells to develop hepatocytes led to the appearance of rotund cells and expression of the hepatocyte markers α-fetoprotein and albumin. It is concluded that CD133+ HSC are a not yet recognized progenitor cell compartment with characteristics of early EPC. Their potential to differentiate into endothelial or hepatocyte lineages suggests important functions of CD133+ HSC during liver regeneration. [Copyright &y& Elsevier]

Published

2007

23. The aryl hydrocarbon receptor promotes aging phenotypes across species.

Author

Eckers, Anna, Jakob, Sascha, Heiss, Christian, Haarmann-Stemmann, Thomas, Goy, Christine, Brinkmann, Vanessa, Cortese-Krott, Miriam M., Sansone, Roberto, Esser, Charlotte, Ale-Agha, Niloofar, Altschmied, Joachim, Ventura, Natascia, and Haendeler, Judith

Published

2016