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2. The effect of foaming process with supercritical C[O.sub.2] on the morphology and properties of 3D porous polylactic acid scaffolds

Author

Athanasoulia, Ioanna-Georgia, Louli, Vasiliki, Sehinas, Petros, Rinotas, Vagelis, Douni, Eleni, Tarantili, Petroula, and Magoulas, Konstantinos

Subjects
Lactic acid -- Composition -- Mechanical properties, Porosity -- Analysis, Carbon dioxide -- Usage, Biopolymers -- Composition -- Mechanical properties, Engineering and manufacturing industries, Science and technology
Abstract

A systematic study was carried out in order to identify the optimum processing conditions for the preparation of PLA 3D porous structures applying foaming with supercritical C[O.sub.2] (sc-C[O.sub.2]). Both the depressurization rate and the C[O.sub.2] saturation pressure had a significant effect on the obtained sc-C[O.sub.2] PLA structures. When sc-C[O.sub.2] was instantaneously depressurized, a thin wall pore structure was formed, characterized by anisotropy with pores diameter ranging from 100 to 650 [micro]m, whereas the scaffold porosity varied between 85% and 95%. In this case, a decrease in the porosity percentage was observed with increasing saturation pressure. A trend of increase in the pores' size was recorded from 150 to 200 bar, followed by a decrease at 300 bar. Highly organized pore structures with thicker pore walls and pores with diameters within the range of 10-350 [micro]m and porosity and 74%-77% were fabricated when a slow depressurization rate was applied. An optimum porous structure, with average pore diameter 340 [micro]m and porosity 88% was prepared when [P.sub.sat] was maintained at 200 bar, followed by instantaneous depressurization. Although this scaffold included the biggest number of closed pores in its structure, it presented the highest degree of pore interconnectivity due to C[O.sub.2] bubbles' coalescence. KEYWORDS biodegradable scaffolds, foaming, micr[degrees]CT, poly(lactic acid), scanning electron microscopy, super critical C[O.sub.2], 1 | INTRODUCTION In many tissue-engineering applications, three-dimensional (3D), interconnected porous scaffolds, are broadly utilized as functional replacements for damaged tissues or organs. [1] Those scaffolds are required to be [...]

Published
2022
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3. Interplay between bone marrow adiposity and bone resorption in RANKL‐mediated modelled osteoporosis.

Author

Rinotas, Vagelis, Gkikopoulou, Evi, Tzortzis, Efthymiοs, Kritikos, Konstantinos, Siatra, Panagiota, Papadopoulos, Apostolos, Perivolidi, Vasiliki‐Iris, and Douni, Eleni

Subjects
*MESENCHYMAL stem cells, *BONE resorption, *BONE remodeling, *BONE marrow, *ADIPOGENESIS, *TRANSGENIC mice
Abstract

Bone marrow adipose tissue (BMAT) accrues in osteoporosis, whereas its contribution to the progression of bone resorption remains insufficiently understood. To understand the mechanisms that promote BMAT expansion in osteoporosis, in the present study, we performed extensive analysis of the spatiotemporal pattern of BMAT expansion during the progression of bone resorption in TgRANKL transgenic mouse models of osteoporosis expressing human RANKL (receptor activator of nuclear factor‐κB ligand). Our results showed that TgRANKL mice of both sexes developed dramatically increased BMAT expansion compared to wild‐type (WT) littermates, that was analogous to the levels of RANKL expression and the severity of the bone loss phenotype. BMAT was formed at close proximity to areas undergoing active bone remodelling and bone resorption, whereas bone resorption preceded BMAT development. Expression analysis in bone fractions demonstrated that BMAT constitutes a major source for RANKL production. Ex vivo analysis of isolated bone marrow stromal cells from TgRANKL mice showed an increased adipogenic differentiation capacity compared to WT, while osteoclast supernatants further exaggerated adipogenesis, supporting a critical role of the osteoclast‐derived secretome in the differentiation of bone marrow adipocytes. Furthermore, the effectiveness of an antiosteoporosis treatment in BMAT development was investigated upon treatment of TgRANKL models with the bisphosphonate alendronate. Notably, alendronate effectively improved bone mass and attenuated BMAT expansion, indicating a possible involvement of osteoclasts and bone resorption in BMAT development. On the contrary, inhibition of BMAT with PPARγ antagonists (GW9662 or BADGE) effectively ameliorated BMAT expansion but failed to reverse the osteoporotic phenotype of TgRANKL mice. Overall, our data demonstrate that TgRANKL mice constitute unique genetic mouse models for investigating the pathogenic mechanisms that regulate the development and expansion of BMAT in osteolytic diseases. [ABSTRACT FROM AUTHOR]

Published
2024
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4. A20 controls RANK‐dependent osteoclast formation and bone physiology

Author

Martens, Arne, Hertens, Pieter, Priem, Dario, Rinotas, Vagelis, Meletakos, Theodore, Gennadi, Meropi, Van Hove, Lisette, Louagie, Els, Coudenys, Julie, De Muynck, Amélie, Gaublomme, Djoere, Sze, Mozes, van Hengel, Jolanda, Catrysse, Leen, Hoste, Esther, Zajac, Jeffrey D, Davey, Rachel A, Van Hoorebeke, Luc, Hochepied, Tino, Bertrand, Mathieu J M, Armaka, Marietta, Elewaut, Dirk, and van Loo, Geert

Published
2022
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5. Prenatal Exposure to a Human Relevant Mixture of Endocrine-Disrupting Chemicals Affects Mandibular Development in Mice.

Author

Rinotas, Vagelis, Stamatakis, Antonios, Stergiopoulos, Athanasios, Bornehag, Carl-Gustaf, Rüegg, Joëlle, Armaka, Marietta, and Kitraki, Efthymia

Subjects
*ENDOCRINE disruptors, *MANDIBLE, *MAMMAL growth, *ALVEOLAR process, *PRENATAL exposure
Abstract

Mandible is a bony structure of neuroectodermal origin with unique characteristics that support dentition and jaw movements. In the present study, we investigated the effects of gestational exposure to a mixture of endocrine-disrupting chemicals (EDCs) on mandibular growth in mice. The mixture under study (Mixture N1) has been associated with neurodevelopmental effects in both a human cohort and animal studies. Pregnant mice were exposed throughout gestation to 0.5× (times of pregnant women's exposure levels), 10×, 100× and 500× of Mixture N1, or the vehicle, and the mandibles of the male offspring were studied in adulthood. Micro-CT analysis showed non-monotonic effects of Mixture N1 in the distances between specific mandibular landmarks and in the crown width of M1 molar, as well as changes in the mandibular bone characteristics. The alveolar bone volume was reduced, and the trabecular separation was increased in the 500× exposed mice. Bone volume in the condyle head was increased in all treated groups. Τhe Safranin-O-stained area of mature hypertrophic chondrocytes and the width of their zones were reduced in 0.5×, 10× and 100× exposed groups. This is the first indication that prenatal exposure to an epidemiologically defined EDC mixture, associated with neurodevelopmental impacts, can also affect mandibular growth in mammals. [ABSTRACT FROM AUTHOR]

Published
2024
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11. Α Humanized RANKL Transgenic Mouse Model of Progestin-Induced Mammary Carcinogenesis for Evaluation of Novel Therapeutics.

Author

Kolokotroni, Anthi, Gkikopoulou, Evi, Rinotas, Vagelis, Ntari, Lydia, Zareifi, Danae, Rouchota, Maritina, Sarpaki, Sophia, Lymperopoulos, Ilias, Alexopoulos, Leonidas G., Loudos, George, Denis, Maria C., Karagianni, Niki, and Douni, Eleni

Subjects
BIOLOGICAL models, THERAPEUTICS, HOMEOSTASIS, DRUG efficacy, HORMONES, ANIMAL experimentation, CELL receptors, NF-kappa B, MONOCLONAL antibodies, GENE expression, DISEASE susceptibility, GENOTYPES, BREAST, PROGESTATIONAL hormones, LIGANDS (Biochemistry), BREAST tumors, MICE
Abstract

Simple Summary: Targeting receptor activator of nuclear factor-κB ligand (RANKL) with the monoclonal antibody Denosumab decreases osteoclast-mediated bone resorption and is approved for the treatment of postmenopausal osteoporosis. Since RANKL is also implicated in mammary gland homeostasis and breast tumorigenesis, Denosumab is being currently pursued as a candidate for drug repurposing in oncology, including breast cancer, while its efficacy remains controversial. In this study, by developing a humanized transgenic mouse model of human RANKL overexpression, we demonstrated that RANKL mediated hormone-induced mammary carcinogenesis, while its prophylactic inhibition by Denosumab prevented tumorigenesis. Our humanized transgenic mice provide a unique genetic tool for investigating the involvement of human RANKL in breast cancer pathogenesis and can serve as a preclinical platform for anticancer therapies. Receptor activator of nuclear factor-κB ligand (RANKL) is critically involved in mammary gland pathophysiology, while its pharmaceutical inhibition is being currently investigated in breast cancer. Herein, we investigated whether the overexpression of human RANKL in transgenic mice affects hormone-induced mammary carcinogenesis, and evaluated the efficacy of anti-RANKL treatments, such as OPG-Fc targeting both human and mouse RANKL or Denosumab against human RANKL. We established novel MPA/DMBA-driven mammary carcinogenesis models in TgRANKL mice that express both human and mouse RANKL, as well as in humanized humTgRANKL mice expressing only human RANKL, and compared them to MPA/DMBA-treated wild-type (WT) mice. Our results show that TgRANKL and WT mice have similar levels of susceptibility to mammary carcinogenesis, while OPG-Fc treatment restored mammary ductal density, and prevented ductal branching and the formation of neoplastic foci in both genotypes. humTgRANKL mice also developed MPA/DMBA-induced tumors with similar incidence and burden to those of WT and TgRANKL mice. The prophylactic treatment of humTgRANKL mice with Denosumab significantly prevented the rate of appearance of mammary tumors from 86.7% to 15.4% and the early stages of carcinogenesis, whereas therapeutic treatment did not lead to any significant attenuation of tumor incidence or tumor burden compared to control mice, suggesting the importance of RANKL primarily in the initial stages of tumorigenesis. Overall, we provide unique genetic tools for investigating the involvement of RANKL in breast carcinogenesis, and allow the preclinical evaluation of novel therapeutics that target hormone-related breast cancers. [ABSTRACT FROM AUTHOR]

Published
2023
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12. Structure-Based Discovery of Receptor Activator of Nuclear Factor-κB Ligand (RANKL)-Induced Osteoclastogenesis Inhibitors.

Author

Rinotas, Vagelis, Liepouri, Fotini, Ouzouni, Maria-Dimitra, Chalkidi, Niki, Papaneophytou, Christos, Lampropoulou, Mariza, Vidali, Veroniki P., Kontopidis, George, Couladouros, Elias, Eliopoulos, Elias, Papakyriakou, Athanasios, and Douni, Eleni

Subjects
*OSTEOCLASTOGENESIS, *TRANCE protein, *BONE resorption, *STRUCTURE-activity relationships, *DRUG discovery
Abstract

Receptor activator of nuclear factor-κB ligand (RANKL) has been actively pursued as a therapeutic target for osteoporosis, given that RANKL is the master mediator of bone resorption as it promotes osteoclast differentiation, activity and survival. We employed a structure-based virtual screening approach comprising two stages of experimental evaluation and identified 11 commercially available compounds that displayed dose-dependent inhibition of osteoclastogenesis. Their inhibitory effects were quantified through TRAP activity at the low micromolar range (IC50 < 5 μΜ), but more importantly, 3 compounds displayed very low toxicity (LC50 > 100 μΜ). We also assessed the potential of an N-(1-aryl-1H-indol-5-yl)aryl-sulfonamide scaffold that was based on the structure of a hit compound, through synthesis of 30 derivatives. Their evaluation revealed 4 additional hits that inhibited osteoclastogenesis at low micromolar concentrations; however, cellular toxicity concerns preclude their further development. Taken together with the structure–activity relationships provided by the hit compounds, our study revealed potent inhibitors of RANKL-induced osteoclastogenesis of high therapeutic index, which bear diverse scaffolds that can be employed in hit-to-lead optimization for the development of therapeutics against osteolytic diseases. [ABSTRACT FROM AUTHOR]

Published
2023
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24. The effect of foaming process with supercritical CO2 on the morphology and properties of 3D porous polylactic acid scaffolds.

Author

Athanasoulia, Ioanna‐Georgia, Louli, Vasiliki, Schinas, Petros, Rinotas, Vagelis, Douni, Eleni, Tarantili, Petroula, and Magoulas, Konstantinos

Subjects
POLYLACTIC acid, POROSITY, STRUCTURAL optimization, FOAM, SUPERCRITICAL fluid extraction
Abstract

A systematic study was carried out in order to identify the optimum processing conditions for the preparation of PLA 3D porous structures applying foaming with supercritical CO2 (sc‐CO2). Both the depressurization rate and the CO2 saturation pressure had a significant effect on the obtained sc‐CO2 PLA structures. When sc‐CO2 was instantaneously depressurized, a thin wall pore structure was formed, characterized by anisotropy with pores diameter ranging from 100 to 650 μm, whereas the scaffold porosity varied between 85% and 95%. In this case, a decrease in the porosity percentage was observed with increasing saturation pressure. A trend of increase in the pores' size was recorded from 150 to 200 bar, followed by a decrease at 300 bar. Highly organized pore structures with thicker pore walls and pores with diameters within the range of 10–350 μm and porosity and 74%–77% were fabricated when a slow depressurization rate was applied. An optimum porous structure, with average pore diameter 340 μm and porosity 88% was prepared when Psat was maintained at 200 bar, followed by instantaneous depressurization. Although this scaffold included the biggest number of closed pores in its structure, it presented the highest degree of pore interconnectivity due to CO2 bubbles' coalescence. [ABSTRACT FROM AUTHOR]

Published
2022
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29. Novel models of osteoporosis in transgenic mice overexpressing human rankl

Author

Douni, Eleni, Dacquin, Romain, Bonnet, Nicolas, Jurdic, Pierre, Ferrari, Serge, Rinotas, Vagelis, Agricultural University of Athens, Institut de Génomique Fonctionnelle de Lyon (IGFL), École normale supérieure de Lyon (ENS de Lyon)-Institut National de la Recherche Agronomique (INRA)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Centre National de la Recherche Scientifique (CNRS), Hôpitaux Universitaires de Genève (HUG), Université de Genève = University of Geneva (UNIGE), ProdInra, Migration, École normale supérieure - Lyon (ENS Lyon)-Institut National de la Recherche Agronomique (INRA)-Université Claude Bernard Lyon 1 (UCBL), Université de Genève (UNIGE), Université Claude Bernard Lyon 1 (UCBL), and Université de Lyon-Université de Lyon-Centre National de la Recherche Scientifique (CNRS)-Institut National de la Recherche Agronomique (INRA)-École normale supérieure - Lyon (ENS Lyon)

Subjects
[SDV.MHEP.EM] Life Sciences [q-bio]/Human health and pathology/Endocrinology and metabolism, [SDV.MHEP.EM]Life Sciences [q-bio]/Human health and pathology/Endocrinology and metabolism, ComputingMilieux_MISCELLANEOUS
Abstract

Osteoporosis International, 25, Supplement 2; International audience

Published
2014

30. New Insights for RANKL as a Proinflammatory Modulator in Modeled Inflammatory Arthritis.

Author

Papadaki, Maria, Rinotas, Vagelis, Violitzi, Foteini, Thireou, Trias, Panayotou, George, Samiotaki, Martina, and Douni, Eleni

Subjects
TRANCE protein, TUMOR necrosis factors, INFLAMMATION, ARTHRITIS, PROTEOMICS
Abstract

Receptor activator of nuclear factor-κB ligand (RANKL), a member of the Tumor Necrosis Factor (TNF) superfamily, constitutes the master regulator of osteoclast formation and bone resorption, whereas its involvement in inflammatory diseases remains unclear. Here, we used the human TNF transgenic mouse model of erosive inflammatory arthritis to determine if the progression of inflammation is affected by either genetic inactivation or overexpression of RANKL in transgenic mouse models. TNF-mediated inflammatory arthritis was significantly attenuated in the absence of functional RANKL. Notably, TNF overexpression could not compensate for RANKL-mediated osteopetrosis, but promoted osteoclastogenesis between the pannus and bone interface, suggesting RANKL-independent mechanisms of osteoclastogenesis in inflamed joints. On the other hand, simultaneous overexpression of RANKL and TNF in double transgenic mice accelerated disease onset and led to severe arthritis characterized by significantly elevated clinical and histological scores as shown by aggressive pannus formation, extended bone resorption, and massive accumulation of inflammatory cells, mainly of myeloid origin. RANKL and TNF cooperated not only in local bone loss identified in the inflamed calcaneous bone, but also systemically in distal femurs as shown by microCT analysis. Proteomic analysis in inflamed ankles from double transgenic mice overexpressing human TNF and RANKL showed an abundance of proteins involved in osteoclastogenesis, pro-inflammatory processes, gene expression regulation, and cell proliferation, while proteins participating in basic metabolic processes were downregulated compared to TNF and RANKL single transgenic mice. Collectively, these results suggest that RANKL modulates modeled inflammatory arthritis not only as a mediator of osteoclastogenesis and bone resorption but also as a disease modifier affecting inflammation and immune activation. [ABSTRACT FROM AUTHOR]

Published
2019
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31. In Silico Discovery of Plant-Origin Natural Product Inhibitors of Tumor Necrosis Factor (TNF) and Receptor Activator of NF-κB Ligand (RANKL).

Author

Melagraki, Georgia, Ntougkos, Evangelos, Papadopoulou, Dimitra, Rinotas, Vagelis, Leonis, Georgios, Douni, Eleni, Afantitis, Antreas, and Kollias, George

Subjects
TUMOR necrosis factors, LIGAND analysis, NATURAL products
Abstract

An in silico drug discovery pipeline for the virtual screening of plant-origin natural products (NPs) was developed to explore new direct inhibitors of TNF and its close relative receptor activator of nuclear factor kappa-B ligand (RANKL), both representing attractive therapeutic targets for many chronic inflammatory conditions. Direct TNF inhibition through identification of potent small molecules is a highly desired goal; however, it is often hampered by severe limitations. Our approach yielded a priority list of 15 NPs as potential direct TNF inhibitors that were subsequently tested in vitro against TNF and RANKL. We thus identified two potent direct inhibitors of TNF function with low micromolar IC50 values and minimal toxicity even at high concentrations. Most importantly, one of them (A11) was proved to be a dual inhibitor of both TNF and RANKL. Extended molecular dynamics simulations with the fully automated EnalosMD suite rationalized the mode of action of the compounds at the molecular level. To our knowledge, these compounds constitute the first NP TNF inhibitors, one of which being the first NP small-molecule dual inhibitor of TNF and RANKL, and could serve as lead compounds for the development of novel treatments for inflammatory and autoimmune diseases. [ABSTRACT FROM AUTHOR]

Published
2018
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32. Cheminformatics-aided discovery of small-molecule Protein-Protein Interaction (PPI) dual inhibitors of Tumor Necrosis Factor (TNF) and Receptor Activator of NF-κB Ligand (RANKL).

Author

Melagraki, Georgia, Ntougkos, Evangelos, Rinotas, Vagelis, Papaneophytou, Christos, Leonis, Georgios, Mavromoustakos, Thomas, Kontopidis, George, Douni, Eleni, Afantitis, Antreas, and Kollias, George

Subjects
TRANCE protein, PROTEIN-protein interactions, TUMOR necrosis factors, CHEMINFORMATICS, MOLECULES, LIGANDS (Biochemistry), AUTOIMMUNE diseases
Abstract

We present an in silico drug discovery pipeline developed and applied for the identification and virtual screening of small-molecule Protein-Protein Interaction (PPI) compounds that act as dual inhibitors of TNF and RANKL through the trimerization interface. The cheminformatics part of the pipeline was developed by combining structure–based with ligand–based modeling using the largest available set of known TNF inhibitors in the literature (2481 small molecules). To facilitate virtual screening, the consensus predictive model was made freely available at: . We thus generated a priority list of nine small molecules as candidates for direct TNF function inhibition. In vitro evaluation of these compounds led to the selection of two small molecules that act as potent direct inhibitors of TNF function, with IC50 values comparable to those of a previously-described direct inhibitor (SPD304), but with significantly reduced toxicity. These molecules were also identified as RANKL inhibitors and validated in vitro with respect to this second functionality. Direct binding of the two compounds was confirmed both for TNF and RANKL, as well as their ability to inhibit the biologically-active trimer forms. Molecular dynamics calculations were also carried out for the two small molecules in each protein to offer additional insight into the interactions that govern TNF and RANKL complex formation. To our knowledge, these compounds, namely T8 and T23, constitute the second and third published examples of dual small-molecule direct function inhibitors of TNF and RANKL, and could serve as lead compounds for the development of novel treatments for inflammatory and autoimmune diseases. [ABSTRACT FROM AUTHOR]

Published
2017
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34. A Splicing Mutation in the Novel Mitochondrial Protein DNAJC11 Causes Motor Neuron Pathology Associated with Cristae Disorganization, and Lymphoid Abnormalities in Mice.

Author

Ioakeimidis, Fotis, Ott, Christine, Kozjak-Pavlovic, Vera, Violitzi, Foteini, Rinotas, Vagelis, Makrinou, Eleni, Eliopoulos, Elias, Fasseas, Costas, Kollias, George, and Douni, Eleni

Subjects
MITOCHONDRIAL proteins, MOTOR neuron diseases, NEUROMUSCULAR diseases, PATHOLOGICAL physiology, MUTAGENESIS, ETHYLNITROSOUREA, MUSCLE weakness
Abstract

Mitochondrial structure and function is emerging as a major contributor to neuromuscular disease, highlighting the need for the complete elucidation of the underlying molecular and pathophysiological mechanisms. Following a forward genetics approach with N-ethyl-N-nitrosourea (ENU)-mediated random mutagenesis, we identified a novel mouse model of autosomal recessive neuromuscular disease caused by a splice-site hypomorphic mutation in a novel gene of unknown function, DnaJC11. Recent findings have demonstrated that DNAJC11 protein co-immunoprecipitates with proteins of the mitochondrial contact site (MICOS) complex involved in the formation of mitochondrial cristae and cristae junctions. Homozygous mutant mice developed locomotion defects, muscle weakness, spasticity, limb tremor, leucopenia, thymic and splenic hypoplasia, general wasting and early lethality. Neuropathological analysis showed severe vacuolation of the motor neurons in the spinal cord, originating from dilatations of the endoplasmic reticulum and notably from mitochondria that had lost their proper inner membrane organization. The causal role of the identified mutation in DnaJC11 was verified in rescue experiments by overexpressing the human ortholog. The full length 63 kDa isoform of human DNAJC11 was shown to localize in the periphery of the mitochondrial outer membrane whereas putative additional isoforms displayed differential submitochondrial localization. Moreover, we showed that DNAJC11 is assembled in a high molecular weight complex, similarly to mitofilin and that downregulation of mitofilin or SAM50 affected the levels of DNAJC11 in HeLa cells. Our findings provide the first mouse mutant for a putative MICOS protein and establish a link between DNAJC11 and neuromuscular diseases. [ABSTRACT FROM AUTHOR]

Published
2014
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35. Novel Genetic Models of Osteoporosis by Overexpression of Human RANKL in Transgenic Mice.

Author

Rinotas, Vagelis, Niti, Alexandra, Dacquin, Romain, Bonnet, Nicolas, Stolina, Marina, Han, Chun-Ya, Kostenuik, Paul, Jurdic, Pierre, Ferrari, Serge, and Douni, Eleni

Abstract

ABSTRACT Receptor activator of NF-κB ligand (RANKL) plays a key role in osteoclast-induced bone resorption across a range of degenerative bone diseases, and its specific inhibition has been recently approved as a treatment for women with postmenopausal osteoporosis at high or increased risk of fracture in the United States and globally. In the present study, we generated transgenic mice (TghuRANKL) carrying the human RANKL (huRANKL) genomic region and achieved a physiologically relevant pattern of RANKL overexpression in order to establish novel genetic models for assessing skeletal and extraskeletal pathologies associated with excessive RANKL and for testing clinical therapeutic candidates that inhibit human RANKL. TghuRANKL mice of both sexes developed early-onset bone loss, and the levels of huRANKL expression were correlated with bone resorption and disease severity. Low copy Tg5516 mice expressing huRANKL at low levels displayed a mild osteoporotic phenotype as shown by trabecular bone loss and reduced biomechanical properties. Notably, overexpression of huRANKL, in the medium copy Tg5519 line, resulted in severe early-onset osteoporosis characterized by lack of trabecular bone, destruction of the growth plate, increased osteoclastogenesis, bone marrow adiposity, increased bone remodeling, and severe cortical bone porosity accompanied by decreased bone strength. An even more severe skeletal phenotype developed in the high copy Tg5520 founder with extensive soft tissue calcification. Model validation was further established by evidence that denosumab, an antibody that inhibits human but not murine RANKL, fully corrected the hyper-resorptive and osteoporotic phenotypes of Tg5519 mice. Furthermore, overexpression of huRANKL rescued osteopetrotic phenotypes of RANKL-defective mice. These novel huRANKL transgenic models of osteoporosis represent an important advance for understanding the pathogenesis and treatment of high-turnover bone diseases and other disease states caused by excessive RANKL. © 2014 American Society for Bone and Mineral Research. [ABSTRACT FROM AUTHOR]

Published
2014
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36. Dexamethasone Administration in Mice Leads to Less Body Weight Gain over Time, Lower Serum Glucose, and Higher Insulin Levels Independently of NRF2.

Author

Filippopoulou, Fotini, Habeos, George I., Rinotas, Vagelis, Sophocleous, Antonia, Sykiotis, Gerasimos P., Douni, Eleni, and Chartoumpekis, Dionysios V.

Subjects
WEIGHT gain, BODY weight, NUCLEAR factor E2 related factor, DEXAMETHASONE, INSULIN, HYPERGLYCEMIA, FOOD consumption, CYTOPROTECTION
Abstract

Glucocorticoids are used widely on a long-term basis in autoimmune and inflammatory diseases. Their adverse effects include the development of hyperglycemia and osteoporosis, whose molecular mechanisms have been only partially studied in preclinical models. Both these glucocorticoid-induced pathologies have been shown to be mediated at least in part by oxidative stress. The transcription factor nuclear erythroid factor 2-like 2 (NRF2) is a central regulator of antioxidant and cytoprotective responses. Thus, we hypothesized that NRF2 may play a role in glucocorticoid-induced metabolic disease and osteoporosis. To this end, WT and Nrf2 knockout (Nrf2KO) mice of both genders were treated with 2 mg/kg dexamethasone or vehicle 3 times per week for 13 weeks. Dexamethasone treatment led to less weight gain during the treatment period without affecting food consumption, as well as to lower glucose levels and high insulin levels compared to vehicle-treated mice. Dexamethasone also reduced cortical bone volume and density. All these effects of dexamethasone were similar between male and female mice, as well as between WT and Nrf2KO mice. Hepatic NRF2 signaling and gluconeogenic gene expression were not affected by dexamethasone. A 2-day dexamethasone treatment was also sufficient to increase insulin levels without affecting body weight and glucose levels. Hence, dexamethasone induces hyperinsulinemia, which potentially leads to decreased glucose levels, as well as osteoporosis, both independently of NRF2. [ABSTRACT FROM AUTHOR]

Published
2022
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37. Phosphotungstic acid-enhanced microcomputed tomography for quantitative visualization of mouse mammary gland morphology.

Author

Kolokotroni A, Gkikopoulou E, Rinotas V, and Douni E

Abstract

Purpose: Even though current techniques provide two-dimensional (2D) imaging of the mouse mammary gland, they fail to achieve high-resolution three-dimensional (3D) reconstruction and quantification. The objective of this study is to establish and evaluate quantitative visualization of the mouse mammary epithelium through microcomputed tomography (microCT) using phosphotungstic acid (PTA) as a contrast agent., Approach: Ex vivo microCT scan images of the mouse mammary glands were obtained following staining by PTA, whereas for quantification we adapted volumetric parameters that are used for assessing trabecular bone morphometry and can be structurally applicable in the mammary ductal system. The proposed method was validated in distinct developmental stages and upon short-term treatment with synthetic progesterone, using the carmine alum staining for comparison., Results: We demonstrate a simple PTA staining procedure that allows high contrast 3D imaging of mammary glands and quantitation of mammary duct structures using microCT. We validated the proposed method in distinct developmental stages, such as at puberty, adult mice, pregnancy as well as upon progesterone treatment. Compared with carmine alum staining, the microCT analysis provided higher resolution 2D and 3D images of the mammary gland morphology, with lower background that enabled the detection of subtle changes., Conclusions: This work is the first study that employs PTA-enhanced microCT for 3D imaging and volumetric analysis of mouse mammary glands. Our results establish PTA-enhanced microCT as a useful tool for comparative studies of the mouse mammary gland morphology that can apply in mutant mice and for the preclinical evaluation of pharmaceuticals in breast cancer models., (© 2023 Society of Photo-Optical Instrumentation Engineers (SPIE).)

Published
2023
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38. Dexamethasone Administration in Mice Leads to Less Body Weight Gain over Time, Lower Serum Glucose, and Higher Insulin Levels Independently of NRF2.

Author

Filippopoulou F, Habeos GI, Rinotas V, Sophocleous A, Sykiotis GP, Douni E, and Chartoumpekis DV

Abstract

Glucocorticoids are used widely on a long-term basis in autoimmune and inflammatory diseases. Their adverse effects include the development of hyperglycemia and osteoporosis, whose molecular mechanisms have been only partially studied in preclinical models. Both these glucocorticoid-induced pathologies have been shown to be mediated at least in part by oxidative stress. The transcription factor nuclear erythroid factor 2-like 2 (NRF2) is a central regulator of antioxidant and cytoprotective responses. Thus, we hypothesized that NRF2 may play a role in glucocorticoid-induced metabolic disease and osteoporosis. To this end, WT and Nrf2 knockout ( Nrf2 KO) mice of both genders were treated with 2 mg/kg dexamethasone or vehicle 3 times per week for 13 weeks. Dexamethasone treatment led to less weight gain during the treatment period without affecting food consumption, as well as to lower glucose levels and high insulin levels compared to vehicle-treated mice. Dexamethasone also reduced cortical bone volume and density. All these effects of dexamethasone were similar between male and female mice, as well as between WT and Nrf2 KO mice. Hepatic NRF2 signaling and gluconeogenic gene expression were not affected by dexamethasone. A 2-day dexamethasone treatment was also sufficient to increase insulin levels without affecting body weight and glucose levels. Hence, dexamethasone induces hyperinsulinemia, which potentially leads to decreased glucose levels, as well as osteoporosis, both independently of NRF2.

Published
2021
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39. Current Status and Future Prospects of Small-molecule Protein-protein Interaction (PPI) Inhibitors of Tumor Necrosis Factor (TNF) and Receptor Activator of NF-κB Ligand (RANKL).

Author

Melagraki G, Leonis G, Ntougkos E, Rinotas V, Papaneophytou C, Mavromoustakos T, Kontopidis G, Douni E, Kollias G, and Afantitis A

Subjects
Animals, Humans, Ligands, Models, Molecular, Molecular Weight, Protein Binding drug effects, Receptor Activator of Nuclear Factor-kappa B chemistry, Small Molecule Libraries chemical synthesis, Small Molecule Libraries chemistry, Tumor Necrosis Factors chemistry, Receptor Activator of Nuclear Factor-kappa B antagonists & inhibitors, Small Molecule Libraries pharmacology, Tumor Necrosis Factor Inhibitors
Abstract

The overexpression of Tumor Necrosis Factor (TNF) is directly related to the development of several autoimmune diseases, such as rheumatoid and psoriatic arthritis, inflammatory bowel disease, Crohn's disease, refractory asthma, and multiple sclerosis. Receptor Activator of Nuclear Factor Kappa- B Ligand (RANKL) belongs to the TNF family and is the primary mediator of osteoclast-induced bone resorption through interaction with its receptor RANK. The function of RANKL is physiologically inhibited by the action of osteoprotegerin (OPG), which is a decoy receptor that binds to RANKL and prevents the process of osteoclastogenesis. Malfunction among RANK/RANKL/OPG can also result in bone loss diseases, including postmenopausal osteoporosis, rheumatoid arthritis, bone metastasis and multiple myeloma. To disrupt the unwanted functions of TNF and RANKL, current attempts focus on blocking TNF and RANKL binding to their receptors. In this review, we present the research efforts toward the development of low-molecular-weight pharmaceuticals that directly block the detrimental actions of TNF and RANKL., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.org.)

Published
2018
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40. Solvent Selection for Insoluble Ligands, a Challenge for Biological Assay Development: A TNF-α/SPD304 Study.

Author

Papaneophytou CP, Mettou AK, Rinotas V, Douni E, and Kontopidis GA

Abstract

Many active compounds may be excluded from biological assays due to their low aqueous solubility. In this study, a simple method for the determination of the solubility of compounds containing aromatic rings is proposed. In addition to DMSO, five organic solvents for screening experiments of TNF-α inhibitors were explored. DMSO and PEG3350 were the most suitable for both protein stability and ligand-binding experiments. In addition, glycerol is a promising solvent for the screening of other compounds for which it might provide acceptable solubilization, due to its strong tendency to preserve the protein. Moreover, a fluorescence binding assay was developed using the TNF-α/SPD304 system, and a K d of 5.36 ± 0.21 μM was determined. The results of this study could be used for the future screening of potential TNF-α inhibitors, while the protocols developed in this work could be applied to other proteins.

Published
2012
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