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6 results on '"Papadopoulou, Adamantia"'

3. Decreased differentiation capacity and altered expression of extracellular matrix components in irradiation‐mediated senescent human breast adipose‐derived stem cells.

Author

Papadopoulou, Adamantia, Kalodimou, Vasiliki E., Mavrogonatou, Eleni, Karamanou, Konstantina, Yiacoumettis, Andreas M., Panagiotou, Petros N., Pratsinis, Harris, and Kletsas, Dimitris

Subjects
*EXTRACELLULAR matrix, *STEM cells, *BREAST, *IONIZING radiation, *TRANSCRIPTION factors, *ADIPOGENESIS, *TUMOR microenvironment
Abstract

Radiotherapy is widely used for the treatment of breast cancer. However, we have shown that ionizing radiation can provoke premature senescence in breast stromal cells. In particular, breast stromal fibroblasts can become senescent after irradiation both in vitro and in vivo and they express an inflammatory phenotype and an altered profile of extracellular matrix components, thus facilitating tumor progression. Adipose‐derived stem cells (ASCs) represent another major component of the breast tissue stroma. They are multipotent cells and due to their ability to differentiate in multiple cell lineages they play an important role in tissue maintenance and repair in normal and pathologic conditions. Here, we investigated the characteristics of human breast ASCs that became senescent prematurely after their exposure to ionizing radiation. We found decreased expression levels of the specific mesenchymal cell surface markers CD105, CD73, CD44, and CD90. In parallel, we demonstrated a significantly reduced expression of transcription factors regulating osteogenic (i.e., RUNX2), adipogenic (i.e., PPARγ), and chondrogenic (i.e., SOX9) differentiation; this was followed by an analogous reduction in their differentiation capacity. Furthermore, they overexpress inflammatory markers, that is, IL‐6, IL‐8, and ICAM‐1, and a catabolic phenotype, marked by the reduction of collagen type I and the increase of MMP‐1 and MMP‐13 expression. Finally, we detected changes in proteoglycan expression, for example, the upregulation of syndecan 1 and syndecan 4 and the downregulation of decorin. Notably, all these alterations, when observed in the breast stroma, represent poor prognostic factors for tumor development. In conclusion, we showed that ionizing radiation‐mediated prematurely senescent human breast ASCs have a decreased differentiation potential and express specific changes adding to the formation of a permissive environment for tumor growth. [ABSTRACT FROM AUTHOR]

Published
2022
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4. The role of cellular senescence on the cyclic stretching-mediated activation of MAPK and ALP expression and activity in human periodontal ligament fibroblasts.

Author

Konstantonis, Dimitrios, Papadopoulou, Adamantia, Makou, Margarita, Eliades, Theodore, Basdra, Efthimia, and Kletsas, Dimitris

Subjects
*CELLULAR aging, *MITOGEN-activated protein kinases, *ENZYME activation, *GENE expression, *PERIODONTAL ligament, *FIBROBLASTS, *TISSUE differentiation
Abstract

Mechanical loading is considered to be a major parameter of the periodontal ligament (PDL) remodeling and differentiation. However, the molecular mechanisms that translate these forces to cellular responses are not fully elucidated. Especially, although aging affects PDL homeostasis, the role of cellular senescence on the activation of signaling pathways in periodontal ligament fibroblasts (PDLF) in response to mechanical stimulation has not been studied yet. Here, we present evidence showing that cyclic mechanical stimulation activates ERK, JNK and p38 MAPK in young (early-passage) human PDLF, in a RhoK-dependent manner. This response was found to be independent of the substratum (i.e. fibronectin or collagen) on which these cells grow. Stretching up-regulates also c-fos , a classical cellular response to mechanical deformation. Inhibition of ERK and JNK reduces, while that of p38 enhances stress-mediated c-fos expression. In addition, cyclic stretching stimulates the expression and activity of alkaline phosphatase ( ALP ), an early marker of osteoblastic differentiation. We have recently shown that senescent human PDLF have a significantly decreased expression of ALP , linked to an inability towards osteoblastic differentiation. Here, we found that senescent PDLF are able to respond to cyclic mechanical stretching by activating ERK, JNK and p38 MAPK, with similar kinetics compared to young cells, and by up-regulating c-fos and ALP expression and activity. However, even after stimulation, ALP levels in senescent cells are still much lower compared to the basal levels of their young counterparts, suggesting that senescence impairs the differentiation of human PDLF when subjected to cyclic mechanical deformation. [ABSTRACT FROM AUTHOR]

Published
2014
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5. Down-Regulation of the Proteoglycan Decorin Fills in the Tumor-Promoting Phenotype of Ionizing Radiation-Induced Senescent Human Breast Stromal Fibroblasts.

Author

Mavrogonatou, Eleni, Papadopoulou, Adamantia, Fotopoulou, Asimina, Tsimelis, Stathis, Bassiony, Heba, Yiacoumettis, Andreas M., Panagiotou, Petros N., Pratsinis, Harris, Kletsas, Dimitris, and Banerjee, Debabrata

Subjects
*VASCULAR endothelial growth factor antagonists, *BREAST tumor risk factors, *CANCER risk factors, *IN vitro studies, *FIBROBLASTS, *GROWTH factors, *AUTOPHAGY, *RADIATION, *GLYCOPROTEINS, *MESSENGER RNA, *EXTRACELLULAR space, *CHLOROQUINE, *CELL lines, *PHENOTYPES
Abstract

Simple Summary: Ionizing radiation (a typical remedy for breast cancer) results in the premature senescence of the adjacent to the neoplastic cells stromal fibroblasts. Here, we showed that these senescent fibroblasts are characterized by the down-regulation of the small leucine-rich proteoglycan decorin, a poor prognostic factor for the progression of the disease. Decorin down-regulation is mediated by secreted growth factors in an autocrine and paracrine (due to the interaction with breast cancer cells) manner, with bFGF and VEGF being the key players of this regulation in young and senescent breast stromal fibroblasts. Autophagy activation increases decorin mRNA levels, indicating that impaired autophagy is implicated in the reduction in decorin in this cell model. Decorin down-regulation acts additively to the already tumor-promoting phenotype of ionizing radiation-induced prematurely senescent human stromal fibroblasts, confirming that stromal senescence is a side-effect of radiotherapy that should be taken into account in the design of anticancer treatments. Down-regulation of the small leucine-rich proteoglycan decorin in the stroma is considered a poor prognostic factor for breast cancer progression. Ionizing radiation, an established treatment for breast cancer, provokes the premature senescence of the adjacent to the tumor stromal fibroblasts. Here, we showed that senescent human breast stromal fibroblasts are characterized by the down-regulation of decorin at the mRNA and protein level, as well as by its decreased deposition in the pericellular extracellular matrix in vitro. Senescence-associated decorin down-regulation is a long-lasting process rather than an immediate response to γ-irradiation. Growth factors were demonstrated to participate in an autocrine manner in decorin down-regulation, with bFGF and VEGF being the critical mediators of the phenomenon. Autophagy inhibition by chloroquine reduced decorin mRNA levels, while autophagy activation using the mTOR inhibitor rapamycin enhanced decorin transcription. Interestingly, the secretome from a series of both untreated and irradiated human breast cancer cell lines with different molecular profiles inhibited decorin expression in young and senescent stromal fibroblasts, which was annulled by SU5402, a bFGF and VEGF inhibitor. The novel phenotypic trait of senescent human breast stromal fibroblasts revealed here is added to their already described cancer-promoting role via the formation of a tumor-permissive environment. [ABSTRACT FROM AUTHOR]

Published
2021
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6. Extracellular matrix alterations in senescent cells and their significance in tissue homeostasis.

Author

Mavrogonatou, Eleni, Pratsinis, Harris, Papadopoulou, Adamantia, Karamanos, Nikos K., and Kletsas, Dimitris

Subjects
*CELLULAR aging, *GENETIC toxicology, *HOMEOSTASIS, *EXTRACELLULAR matrix, *TISSUES
Abstract

Abstract Normal cells after a defined number of successive divisions or after exposure to genotoxic stresses are becoming senescent, characterized by a permanent growth arrest. In addition, they secrete increased levels of pro-inflammatory and catabolic mediators, collectively termed "senescence-associated secretory phenotype". Furthermore, senescent cells exhibit an altered expression and organization of many extracellular matrix components, leading to specific remodeling of their microenvironment. In this review we present the current knowledge on extracellular matrix alterations associated with cellular senescence and critically discuss certain characteristic examples, highlighting the ambiguous role of senescent cells in the homeostasis of various tissues under both normal and pathologic conditions. Highlights • Cellular senescence is a major homeostatic mechanism, preventing malignant transformation. • Senescent cells through ECM catabolism and inflammatory traits locally modify the tissue facilitating age-related pathologies. • Senescent cells participate in tissue remodeling, hence their transient presence may support resolution of fibrosis. • The timely clearance of senescent cells may represent a promising therapeutic target for detrimental age-related diseases. [ABSTRACT FROM AUTHOR]

Published
2019
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