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10. Suppression of tumor growth by intra-muscular transfer of naked DNA encoding adrenomedullin antagonist

Author

Miseki, T., Kawakami, H., Natsuizaka, M., Darmanin, S., Cui, H. Y., Chen, J., Fu, Q., Okada, F., Shindo, M., Higashino, F., Asaka, M., Hamuro, J., Kobayashi, M., Miseki, T., Kawakami, H., Natsuizaka, M., Darmanin, S., Cui, H. Y., Chen, J., Fu, Q., Okada, F., Shindo, M., Higashino, F., Asaka, M., Hamuro, J., and Kobayashi, M.

Abstract

We have recently reported that the intra-tumoral injection of adrenomedullin (AM) antagonist (AMA; AM (22-52)) peptides significantly reduced the in vivo growth of a pancreatic cancer cell line in severely combined immunodeficient (SCID) mice. In the present study, we examined the effects of intra-tumoral and intra-muscular transfers of naked DNA encoding AMA on the in vivo growth of cancer cell lines. We demonstrate that these treatments induce the regression of a pancreatic cancer cell line and a breast cancer cell line inoculated in SCID mice. Furthermore, CD31-positive cells disappear completely from tumor tissues, following treatment, indicating that neo-vascularization is entirely inhibited. These results suggest that the intra-tumoral or intra-muscular transfer of naked DNA encoding AMA might be a promising alternative modality for treating human cancers.

Published
2007

11. Meiotic chromosomal core consisting of cohesin complex proteins recruits DNA recombination proteins and promotes synapsis in the absence of an axial element in mammalian meiotic cells.

Author

Pelttari, J., Hoka, M.R., Yuan, L., Liu, J.G., Brundell, E., Moens, P., Santucci-Darmanin, S., Jessberger, R., Babero, J.L., Heyting, C., Höög, C., Pelttari, J., Hoka, M.R., Yuan, L., Liu, J.G., Brundell, E., Moens, P., Santucci-Darmanin, S., Jessberger, R., Babero, J.L., Heyting, C., and Höög, C.

Published
2001

19. 'New records of rare species in the Mediterranean Sea' (October 2021)

Author

Tamar Guy-Haim, Jakov Dulčić, Bruno Zava, Roberto Cacciamani, Francesco Tiralongo, Sara A. A. Al Mabruk, Konstantinos Tsiamis, Ernesto Azzurro, Adriana Vella, Fabio Crocetta, Rigers Bakiu, Maria Corsini-Foka, Yiannis Manitaras, Noel Vella, Nur Bikem Kesici, Polytimi Lardi, Stefano Piraino, Filippo Domenichetti, Cem Dalyan, Pietro Battaglia, Furkan Durucan, Sandra Agius Darmanin, Markos Digenis, Vasilis Gerovasileiou, Diego Borme, Nikolas Michailidis, Nicholas Badouvas, Michel Bariche, Alen Soldo, K. Tsagarakis, Federico Betti, Branko Dragičević, Maria Giulia Stipa, Rocco Auriemma, Alan Deidun, Jamila Rizgalla, Tuba Terbiyik Kurt, A. Siapatis, Federico Calì, Tsagarakis, K., Darmanin, S. A., Al Mabruk, S. A. A., Auriemma, R., Azzurro, E., Badouvas, N., Bakiu, R., Bariche, M., Battaglia, P., Betti, F., Borme, D., Cacciamani, R., Cali, F., Corsini-Foka, M., Crocetta, F., Dalyan, C., Deidun, A., Digenis, M., Domenichetti, F., Dragicevic, B., Dulcic, J., Durucan, F., Guy-Haim, T., Kesici, N. B., Lardi, P. -I., Manitaras, Y., Michailidis, N., Piraino, S., Rizgalla, J., Siapatis, A., Soldo, A., Stipa, M. G., Kurt, T. T., Tiralongo, F., Tsiamis, K., Vella, A., Vella, N., Zava, B., Gerovasileiou, V., Tsagarakis, K, Agius Darmanin, S, Al Mabruk, SAA, Auriemma, R, Azzurro, E, Badouvas, N, Bakiu, R, Bariche, M, Battaglia, P, Betti, F, Borme, D, Cacciamani, R, Cali, F, Corsini-Foka, M, Crocetta, F, Dalyan, C, Deidun, A, Digenis, M, Domenichetti, F, Dragicevic, B, Dulcic, J, Durucan, F, Guy-Haim, T, Kesici, NB, Lardi, PL, Manitaras, Y, Michailidis, N, Piraino, S, Rizgalla, J, Siapatis, A, Soldo, M, Stipa, MG, Terbiyik Kurt, T, Tiralongo, F, Tsiamis, K, Vella, A, Vella, N, Zava, B, and Gerovasileiou, V

Subjects
Environmental Engineering, Arthropoda -- Mediterranean Sea, Rare species, new records, Aquatic Science, Oceanography, Phyla (Genus) -- Mediterranean Sea, alien species, Mediterranean Sea, Ochrophyta -- Mediterranean Sea, Cnidaria -- Mediterranean Sea, Chordata -- Mediterranean Sea, Mediterranean sea, Geography, Introduced organisms -- Mediterranean Sea, Biodiversity -- Mediterranean Sea, Alien species - new records - rare species - Mediterranean Sea, 14. Life underwater, Ecology, Evolution, Behavior and Systematics, Sponges -- Mediterranean Sea, biodiversity, records, Mediterranean Sea, rare species
Abstract

This Collective Article presents information about 27 taxa belonging to five Phyla (one Ochrophyta, one Cnidaria, three Arthropoda, two Mollusca and twenty Chordata) and extending from the Western Mediterranean Sea to the Levantine Sea and the Black Sea (Sea of Marmara). The new records were reported from 11 countries as follows: Algeria: occurrence of the African striped grunt Parapristipoma octolineatum; Spain: new records of eight uncommon fish species (Gadella maraldi, Hypleurochilus bananensis, Lobotes surinamensis, Parapristipoma octolineatum, Selene dorsalis, Sphoeroides marmoratus, Tetragonurus cuvieri, and Trachyrincus scabrus) from the Spanish Mediterranean; Italy: new record of the football octopus Ocythoe tuberculata from the Southern Tyrrhenian Sea; a rare sighting of a juvenile phase of a moray eel of the genus Gymnothorax, tentatively identified as Gymnothorax cf. unicolor in the Ligurian Sea; first record of adult Facciola’s sorcerer Facciolella oxyrhynchus in the Adriatic Sea; occurrence of the tope shark Galeorhinus galeus in the Northern Adriatic Sea; Libya: first confirmed record of the pen shell Pinna rudis; first documented record of the palaemonid shrimp Brachycarpus biunguiculatus; first record of the fish Sudis hyalina; Malta: new records of Grant’s rockling, Gaidropsarus granti; multiple concomitant reports of the rare hydro-medusan species Aequorea forskalea; Croatia: a record of the skipjack tuna Katsuwonus pelamis in the Southern Adriatic Sea; Albania: new record of the bigeye thresher shark Alopias superciliosus; Greece: confirmation of the rare brown alga Sargassum flavifolium occurrence in the Eastern Mediterranean Sea; first record of the scaleless dragonfish Bathophilus nigerrimus; Turkey: first occurrence of the calanoid copepod Pteriacartia josephinae in the Aegean Sea; first documented record of the Cremona’s sea slug Placida cremoniana for the easternmost Mediterranean Sea; new record of the yellow-headed goby Gobius xanthocephalus in the Sea of Marmara; Cyprus: first record of the Liechtenstein’s goby Corcyrogobius liechtensteini; an individual of the Yellow-fin tuna Thunnus albacares captured with handline by an artisanal fisher; Lebanon: an individual of the Black marlin Istiompax indica captured in a gill net., peer-reviewed

Published
2021

20. A new in vitro uranium sequestration assay to analyze the effectiveness of 3,4,3-LI(1,2-HOPO) in reducing the harmful effects of this actinide on bone cells.

Author

Simoneau B, Hurault L, Carle GF, Pierrefite-Carle V, and Santucci-Darmanin S

Subjects
Animals, Chelating Agents pharmacology, Mice, Cell Line, Humans, Cell Survival drug effects, Actinoid Series Elements toxicity, Uranium toxicity, Osteoclasts drug effects
Abstract

Environmental or occupational exposure to natural uranium can have adverse health effects, with its chemical toxicity being mainly directed towards the kidneys and skeleton. This has led to the development of chelating agents to remove uranium from the human body, including the ligand 3,4,3-LI(1,2-HOPO). We have developed a new in vitro assay to assess the efficacy of 3,4,3-LI(1,2-HOPO) in attenuating uranium-induced bone cell damage. This approach uses osteoclasts whose formation and function are altered by exposure to uranium. This assay is an interesting and effective alternative to animal methods for assessing the efficacy and safety of new uranium decorporants., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier B.V. All rights reserved.)

Published
2024
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21. Lysosomal exocytosis: From cell protection to protumoral functions.

Author

Trojani MC, Santucci-Darmanin S, Breuil V, Carle GF, and Pierrefite-Carle V

Subjects
Lysosomes metabolism, Autophagy, Humans, Animals, Exocytosis, Neoplasms, Tumor Microenvironment
Abstract

Lysosomes are single membrane bounded group of acidic organelles that can be involved in a process called lysosomal exocytosis which leads to the extracellular release of their content. Lysosomal exocytosis is required for plasma membrane repair or remodeling events such as bone resorption, antigen presentation or mitosis, and for protection against toxic agents such as heavy metals. Recently, it has been showed that to fulfill this protective role, lysosomal exocytosis needs some autophagic proteins, in an autophagy-independent manner. In addition to these crucial physiological roles, lysosomal exocytosis plays a major protumoral role in various cancers. This effect is exerted through tumor microenvironment modifications, including extracellular matrix remodeling, acidosis, oncogenic and profibrogenic signals. This review provides a comprehensive overview of the different elements released in the microenvironment during lysosomal exocytosis, i.e. proteases, exosomes, and protons, and their effects in the context of tumor development and treatment., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier B.V. All rights reserved.)

Published
2024
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22. Autophagy markers are decreased in bone of osteoporotic patients: a monocentric comparative study.

Author

Trojani MC, Clavé A, Bereder I, Camuzard O, Bernard De Dompsure R, Gonzalez JF, Trojani C, Santucci-Darmanin S, Carle GF, Breuil V, and Pierrefite-Carle V

Subjects
Humans, Female, Bone Density, Autophagy, Estrogens, Hip Fractures pathology, Osteoporosis metabolism
Abstract

Background: Osteoporosis (OP) is a pathology characterized by bone fragility affecting 30% of postmenopausal women, mainly due to estrogen deprivation and increased oxidative stress. An autophagy involvement is suspected in OP pathogenesis but a definitive proof in humans remains to be obtained., Methods: Postmenopausal women hospitalized for femoral neck fracture (OP group) or total hip replacement (Control group) were enrolled using very strict exclusion criteria. Western blot was used to analyze autophagy level., Results: The protein expression level of the autophagosome marker LC3-II was significantly decreased in bone of OP patients relative to the control group. In addition, the protein expression of the hormonally upregulated neu-associated kinase (HUNK), which is upregulated by female hormones and promotes autophagy, was also significantly reduced in bone of the OP group., Conclusions: These results demonstrate for the first time that postmenopausal OP patients have a deficit in bone autophagy level and suggest that HUNK could be the factor linking estrogen loss and autophagy decline., Clinical Trial Registration Number: ClinicalTrials.gov Identifier: NCT03175874, 2/6/2017., Competing Interests: Conflict of interest: None declared., (© The Author(s) 2024. Published by Oxford University Press on behalf of European Society of Endocrinology. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2024
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23. Autophagy and bone diseases.

Author

Trojani MC, Santucci-Darmanin S, Breuil V, Carle GF, and Pierrefite-Carle V

Subjects
Bone and Bones metabolism, Humans, Osteoblasts, Osteoclasts metabolism, Autophagy, Osteoporosis
Abstract

Autophagy is a ubiquitous cellular process, allowing the removal and recycling of damaged proteins and organelles. At the basal level, this process plays a role in quality control, thus participating in cellular homeostasis. Autophagy can also be induced by various stresses, such as nutrient deprivation or hypoxia, to allow the cell to survive until conditions improve. In recent years, the role of this process has been widely studied in many pathologies such as neurodegenerative diseases or cancers. In bone tissue, various studies have shown that autophagy is involved in the survival, differentiation and activity of osteoblasts, osteocytes and osteoclasts. The evolution of this knowledge has led to the identification of new molecular pathophysiological mechanisms in bone pathologies. This review reports the current state of knowledge on the role of autophagy in 4 bone diseases: osteoporosis, which seems to be associated with a decrease in autophagy, osteopetrosis and Paget's disease where the course of the autophagic process is disturbed, and finally osteosarcoma where autophagy seems to play a protumoral role. A better understanding of the involvement of autophagy in these pathologies should eventually lead to the identification of new potential therapeutic targets., (Copyright © 2021 Société française de rhumatologie. Published by Elsevier Masson SAS. All rights reserved.)

Published
2022
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24. Chelating Polymers for Targeted Decontamination of Actinides: Application of PEI-MP to Hydroxyapatite-Th(IV).

Author

Fèvre J, Leveille E, Jeanson A, Santucci-Darmanin S, Pierrefite-Carle V, Carle GF, Den Auwer C, and Di Giorgio C

Subjects
Chelating Agents chemistry, Decontamination methods, Durapatite, Humans, Polyethyleneimine, Polymers, Actinoid Series Elements, Plutonium chemistry
Abstract

In case of an incident in the nuclear industry or an act of war or terrorism, the dissemination of plutonium could contaminate the environment and, hence, humans. Human contamination mainly occurs via inhalation and/or wounding (and, less likely, ingestion). In such cases, plutonium, if soluble, reaches circulation, whereas the poorly soluble fraction (such as small colloids) is trapped in alveolar macrophages or remains at the site of wounding. Once in the blood, the plutonium is delivered to the liver and/or to the bone, particularly into its mineral part, mostly composed of hydroxyapatite. Countermeasures against plutonium exist and consist of intravenous injections or inhalation of diethylenetetraminepentaacetate salts. Their effectiveness is, however, mainly confined to the circulating soluble forms of plutonium. Furthermore, the short bioavailability of diethylenetetraminepentaacetate results in its rapid elimination. To overcome these limitations and to provide a complementary approach to this common therapy, we developed polymeric analogs to indirectly target the problematic retention sites. We present herein a first study regarding the decontamination abilities of polyethyleneimine methylcarboxylate (structural diethylenetetraminepentaacetate polymer analog) and polyethyleneimine methylphosphonate (phosphonate polymeric analog) directed against Th(IV), used here as a Pu(IV) surrogate, which was incorporated into hydroxyapatite used as a bone model. Our results suggest that polyethylenimine methylphosphonate could be a good candidate for powerful bone decontamination action.

Published
2022
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25. Low doses of uranium and osteoclastic bone resorption: key reciprocal effects evidenced using new in vitro biomimetic models of bone matrix.

Author

Gritsaenko T, Pierrefite-Carle V, Creff G, Simoneau B, Hagège A, Farlay D, Pagnotta S, Orange F, Jaurand X, Auwer CD, Carle GF, and Santucci-Darmanin S

Subjects
Animals, Biomimetics, Bone Matrix metabolism, Bone Resorption metabolism, Cell Line, Tumor, Humans, Mice, Osteoclasts metabolism, RAW 264.7 Cells, Tissue Distribution, Uranium administration & dosage, Bone Matrix drug effects, Models, Biological, Osteoclasts drug effects, Uranium metabolism
Abstract

Uranium is widely spread in the environment due to its natural and anthropogenic occurrences, hence the importance of understanding its impact on human health. The skeleton is the main site of long-term accumulation of this actinide. However, interactions of this metal with biological processes involving the mineralized extracellular matrix and bone cells are still poorly understood. To get a better insight into these interactions, we developed new biomimetic bone matrices containing low doses of natural uranium (up to 0.85 µg of uranium per cm 2 ). These models were characterized by spectroscopic and microscopic approaches before being used as a support for the culture and differentiation of pre-osteoclastic cells. In doing so, we demonstrate that uranium can exert opposite effects on osteoclast resorption depending on its concentration in the bone microenvironment. Our results also provide evidence for the first time that resorption contributes to the remobilization of bone matrix-bound uranium. In agreement with this, we identified, by HRTEM, uranium phosphate internalized in vesicles of resorbing osteoclasts. Thanks to the biomimetic matrices we developed, this study highlights the complex mutual effects between osteoclasts and uranium. This demonstrates the relevance of these 3D models to further study the cellular mechanisms at play in response to uranium storage in bone tissue, and thus better understand the impact of environmental exposure to uranium on human bone health.

Published
2021
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26. Autophagy in Osteosarcoma Cancer Stem Cells Is  Critical Process which Can Be Targeted by the Antipsychotic Drug Thioridazine.

Author

Camuzard O, Trojani MC, Santucci-Darmanin S, Pagnotta S, Breuil V, Carle GF, and Pierrefite-Carle V

Abstract

Cancer stem cells (CSCs) represent a minor population of cancer cells with stem cell-like properties which are able to fuel tumor growth and resist conventional treatments. Autophagy has been described to be upregulated in some CSCs and to play a crucial role by maintaining stem features and promoting resistance to both hostile microenvironments and treatments. Osteosarcoma (OS) is an aggressive bone cancer which mainly affects children and adolescents and autophagy in OS CSCs has been poorly studied. However, this is a very interesting case because autophagy is often deregulated in this cancer. In the present work, we used two OS cell lines showing different autophagy capacities to isolate CSC-enriched populations and to analyze the autophagy in basal and nutrient-deprived conditions. Our results indicate that autophagy is more efficient in CSCs populations compared to the parental cell lines, suggesting that autophagy is a critical process in OS CSCs. We also showed that the antipsychotic drug thioridazine is able to stimulate, and then impair autophagy in both CSC-enriched populations, leading to autosis, a cell death mediated by the Na+/K + ATPase pump and triggered by dysregulated accumulation of autophagosomes. Taken together, our results indicate that autophagy is very active in OS CSCs and that targeting this pathway to switch their fate from survival to death could provide a novel strategy to eradicate these cells in osteosarcoma.

Published
2020
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27. Autophagy in the crosstalk between tumor and microenvironment.

Author

Camuzard O, Santucci-Darmanin S, Carle GF, and Pierrefite-Carle V

Subjects
Animals, Humans, Receptor Cross-Talk physiology, Stromal Cells pathology, Autophagy physiology, Neoplasms pathology, Tumor Microenvironment physiology
Abstract

Autophagy is the major catabolic process in eukaryotic cells for the degradation and recycling of damaged macromolecules and organelles. It plays a crucial role in cell quality control and nutrient supply under stress conditions. Although autophagy is classically described as a degradative mechanism, it can also be involved in some secretion pathways, leading to the extracellular release of proteins, aggregates, or organelles. The role of autophagy in cancer is complex and depends on tumor development stage. While autophagy limits cancer development in the early stages of tumorigenesis, it can also have a protumoral role in more advanced cancers, promoting primary tumor growth and metastatic spread. In addition to its pro-survival role in established tumors, autophagy recently emerged as an active player in the crosstalk between tumor and stromal cells. The aim of this review is to analyze the impact of tumoral autophagy on the microenvironment and conversely the effect of stromal cell autophagy on tumor cells., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published
2020
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28. Uranium Effect on Osteocytic Cells In Vitro.

Author

Hurault L, Creff G, Hagège A, Santucci-Darmanin S, Pagnotta S, Farlay D, Den Auwer C, Pierrefite-Carle V, and Carle GF

Subjects
Animals, Calcification, Physiologic drug effects, Calcification, Physiologic genetics, Cell Culture Techniques, Cell Line, Cell Survival drug effects, Mice, Osteocytes metabolism, Osteocytes ultrastructure, Autophagy drug effects, Gene Expression drug effects, Organometallic Compounds toxicity, Osteocytes drug effects, Uranium toxicity
Abstract

Once absorbed in the body, natural uranium [U(VI)], a radionucleotide naturally present in the environment, is targeted to the skeleton which is the long-term storage organ. We and others have reported the U(VI) negative effects on osteoblasts (OB) and osteoclasts (OC), the main two cell types involved in bone remodeling. In the present work, we addressed the U(VI) effect on osteocytes (OST), the longest living bone cell type and the more numerous (> 90%). These cells, which are embedded in bone matrix and thus are the more prone to U(VI) long-term exposure, are now considered as the chief orchestrators of the bone remodeling process. Our results show that the cytotoxicity index of OST is close to 730 µM, which is about twice the one reported for OB and OC. However, despite this resistance potential, we observed that chronic U(VI) exposure as low as 5 µM led to a drastic decrease of the OST mineralization function. Gene expression analysis showed that this impairment could potentially be linked to an altered differentiation process of these cells. We also observed that U(VI) was able to trigger autophagy, a highly conserved survival mechanism. Extended X-ray absorption fine structure analysis at the U LIII edge of OST cells exposed to U(VI) unambiguously shows the formation of an uranyl phosphate phase in which the uranyl local structure is similar to the one present in Autunite. Thus, our results demonstrate for the first time that OST mineralization function can be affected by U(VI) exposure as low as 5 µM, suggesting that prolonged exposure could alter the central role of these cells in the bone environment., (© The Author(s) 2019. Published by Oxford University Press on behalf of the Society of Toxicology. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2019
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29. Role of autophagy in osteosarcoma.

Author

Camuzard O, Santucci-Darmanin S, Carle GF, and Pierrefite-Carle V

Abstract

Osteosarcoma (OS) is the most common primary bone tumour in children and adolescents. It is a highly aggressive tumor with a tendency to spread to the lungs, which are the most common site of metastasis. Advanced osteosarcoma patients with metastasis share a poor prognosis. Despite the use of chemotherapy to treat OS, the 5-year overall survival rate for patients has remained unchanged at 65-70% for the past 20 years. In addition, the 5-year survival of patients with a metastatic disease is around 20%, highlighting the need for novel therapeutic targets. Autophagy is an intracellular degradation process which eliminates and recycles damaged proteins and organelles to improve cell lifespan. In the context of cancer, numerous studies have demonstrated that autophagy is used by tumor cells to repress initial steps of carcinogenesis and/or support the survival and growth of established tumors. In osteosarcoma, autophagy appears to be deregulated and could also act both as a pro or anti-tumoral process. In this manuscript, we aim to review these major findings regarding the role of autophagy in osteosarcoma.

Published
2019
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30. Transformation of mouse T cells requires MYC and AKT activity in conjunction with inhibition of intrinsic apoptosis.

Author

Högstrand K, Darmanin S, Forshell TP, and Grandien A

Abstract

Peripheral T-cell lymphoma is an aggressive non-Hodgkin's lymphoma characterized by excessive proliferation of transformed mature T cells. The number and nature of genetic aberrations required and sufficient for transformation of normal T cells into lymphomas is unknown. Here, using a combinatorial in vitro -approach, we demonstrate that overexpression of MYC together with activated AKT in conditions of inhibition of intrinsic apoptosis rapidly resulted in transformation of mature mouse T cells with a frequency approaching 100%. Injection of transformed cells into mice resulted in rapid development of aggressive T cell lymphoma, characterized by spread to several organs, destruction of tissue architecture and rapid death of the animals. TcR-sequencing revealed a polyclonal repertoire of tumor cells indicating that co-expression of MYC, activated AKT and BCLXL is sufficient for tumor transformation and do not require acquisition of additional genetic events. When analyzing cells with inducible expression we found that proliferation of transformed T cells required sustained expression of both MYC and AKT. AKT exerted a dual function as it inhibited induction of, and promoted exit from, cellular quiescence and contributed to inhibion of apoptosis. Downregulation of AKT and/or MYC together with BCLXL resulted in rapid and complete elimination of cells through induction of apoptotic cell death., Competing Interests: CONFLICTS OF INTEREST The authors declare no competing financial interest.

Published
2018
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31. Methods for Analyzing the Impacts of Natural Uranium on In Vitro Osteoclastogenesis.

Author

Gritsaenko T, Pierrefite-Carle V, Creff G, Vidaud C, Carle G, and Santucci-Darmanin S

Subjects
Animals, Cell Differentiation radiation effects, Mice, Osteoclasts cytology, Osteoclasts metabolism, RAW 264.7 Cells, Osteoclasts radiation effects, Osteogenesis radiation effects, Uranium pharmacology
Abstract

Uranium has been shown to interfere with bone physiology and it is well established that this metal accumulates in bone. However, little is known about the effect of natural uranium on the behavior of bone cells. In particular, the impact of uranium on osteoclasts, the cells responsible for the resorption of the bone matrix, is not documented. To investigate this issue, we have established a new protocol using uranyl acetate as a source of natural uranium and the murine RAW 264.7 cell line as a model of osteoclast precursors. Herein, we detailed all the assays required to test uranium cytotoxicity on osteoclast precursors and to evaluate its impact on the osteoclastogenesis and on the resorbing function of mature osteoclasts. The conditions we have developed, in particular for the preparation of uranyl-containing culture media and for the seeding of RAW 264.7 cells allow to obtain reliable and highly reproductive results. Moreover, we have optimized the use of software tools to facilitate the analysis of various parameters such as the size of osteoclasts or the percentage of resorbed matrix.

Published
2018
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32. Effect of natural uranium on the UMR-106 osteoblastic cell line: impairment of the autophagic process as an underlying mechanism of uranium toxicity.

Author

Pierrefite-Carle V, Santucci-Darmanin S, Breuil V, Gritsaenko T, Vidaud C, Creff G, Solari PL, Pagnotta S, Al-Sahlanee R, Auwer CD, and Carle GF

Subjects
Animals, Cell Line, Cell Line, Tumor, Dose-Response Relationship, Drug, Osteoblasts metabolism, Osteoblasts pathology, Osteosarcoma metabolism, Rats, Thermodynamics, Uranium administration & dosage, Autophagy drug effects, Calcification, Physiologic drug effects, Osteoblasts drug effects, Uranium toxicity
Abstract

Natural uranium (U), which is present in our environment, exerts a chemical toxicity, particularly in bone where it accumulates. Generally, U is found at oxidation state +VI in its oxocationic form [Formula: see text] in aqueous media. Although U(VI) has been reported to induce cell death in osteoblasts, the cells in charge of bone formation, the molecular mechanism for U(VI) effects in these cells remains poorly understood. The objective of our study was to explore U(VI) effect at doses ranging from 5 to 600 µM, on mineralization and autophagy induction in the UMR-106 model osteoblastic cell line and to determine U(VI) speciation after cellular uptake. Our results indicate that U(VI) affects mineralization function, even at subtoxic concentrations (<100 µM). The combination of thermodynamic modeling of U with EXAFS data in the culture medium and in the cells clearly indicates the biotransformation of U(VI) carbonate species into a meta-autunite phase upon uptake by osteoblasts. We next assessed U(VI) effect at 100 and 300 µM on autophagy, a survival process triggered by various stresses such as metal exposure. We observed that U(VI) was able to rapidly activate autophagy but an inhibition of the autophagic flux was observed after 24 h. Thus, our results indicate that U(VI) perturbs osteoblastic functions by reducing mineralization capacity. Our study identifies for the first time U(VI) in the form of meta-autunite in mammalian cells. In addition, U(VI)-mediated inhibition of the autophagic flux may be one of the underlying mechanisms leading to the decreased mineralization and the toxicity observed in osteoblasts.

Published
2017
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33. Natural uranium impairs the differentiation and the resorbing function of osteoclasts.

Author

Gritsaenko T, Pierrefite-Carle V, Lorivel T, Breuil V, Carle GF, and Santucci-Darmanin S

Subjects
Animals, Bone Resorption genetics, Cell Differentiation genetics, Cell Line, Cell Survival drug effects, Cell Survival genetics, Genetic Markers genetics, Mice, Osteoclasts metabolism, Osteogenesis genetics, RAW 264.7 Cells, Cell Differentiation drug effects, Osteoclasts drug effects, Osteogenesis drug effects, Uranium adverse effects
Abstract

Background: Uranium is a naturally occurring radionuclide ubiquitously present in the environment. The skeleton is the main site of uranium long-term accumulation. While it has been shown that natural uranium is able to perturb bone metabolism through its chemical toxicity, its impact on bone resorption by osteoclasts has been poorly explored. Here, we examined for the first time in vitro effects of natural uranium on osteoclasts., Methods: The effects of uranium on the RAW 264.7 monocyte/macrophage mouse cell line and primary murine osteoclastic cells were characterized by biochemical, molecular and functional analyses., Results: We observed a cytotoxicity effect of uranium on osteoclast precursors. Uranium concentrations in the μM range are able to inhibit osteoclast formation, mature osteoclast survival and mineral resorption but don't affect the expression of the osteoclast gene markers Nfatc1, Dc-stamp, Ctsk, Acp5, Atp6v0a3 or Atp6v0d2 in RAW 274.7 cells. Instead, we observed that uranium induces a dose-dependent accumulation of SQSTM1/p62 during osteoclastogenesis., Conclusions: We show here that uranium impairs osteoclast formation and function in vitro. The decrease in available precursor cells, as well as the reduced viability of mature osteoclasts appears to account for these effects of uranium. The SQSTM1/p62 level increase observed in response to uranium exposure is of particular interest since this protein is a known regulator of osteoclast formation. A tempting hypothesis discussed herein is that SQSTM1/p62 dysregulation contributes to uranium effects on osteoclastogenesis., General Significance: We describe cellular and molecular effects of uranium that potentially affect bone homeostasis., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published
2017
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34. [Autophagy, a key process in bone homeostasis].

Author

Camuzard O, Santucci-Darmanin S, Carle GF, and Pierrefite-Carle V

Subjects
Animals, Bone Remodeling physiology, Humans, Mice, Osteoblasts physiology, Osteoclasts physiology, Osteocytes physiology, Autophagy physiology, Bone and Bones physiology, Homeostasis physiology
Published
2017
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35. Leukemogenic kinase FIP1L1-PDGFRA and a small ubiquitin-like modifier E3 ligase, PIAS1, form a positive cross-talk through their enzymatic activities.

Author

Ibata M, Iwasaki J, Fujioka Y, Nakagawa K, Darmanin S, Onozawa M, Hashimoto D, Ohba Y, Hatakeyama S, Teshima T, and Kondo T

Subjects
Apoptosis, HEK293 Cells, Humans, Hypereosinophilic Syndrome drug therapy, Hypereosinophilic Syndrome metabolism, Imatinib Mesylate therapeutic use, Immunoblotting, Immunoprecipitation, Oncogene Proteins, Fusion chemistry, Protein Inhibitors of Activated STAT chemistry, Protein Kinase Inhibitors therapeutic use, Protein-Tyrosine Kinases metabolism, Receptor, Platelet-Derived Growth Factor alpha chemistry, STAT1 Transcription Factor chemistry, Signal Transduction, Sumoylation, Transfection methods, mRNA Cleavage and Polyadenylation Factors chemistry, Cell Nucleus metabolism, Oncogene Proteins, Fusion metabolism, Protein Inhibitors of Activated STAT metabolism, Receptor, Platelet-Derived Growth Factor alpha metabolism, STAT1 Transcription Factor metabolism, mRNA Cleavage and Polyadenylation Factors metabolism
Abstract

Fusion tyrosine kinases play a crucial role in the development of hematological malignancies. FIP1L1-PDGFRA is a leukemogenic fusion kinase that causes chronic eosinophilic leukemia. As a constitutively active kinase, FIP1L1-PDGFRA stimulates downstream signaling molecules, leading to cellular proliferation and the generation of an anti-apoptotic state. Contribution of the N-terminal FIP1L1 portion is necessary for FIP1L1-PDGFRA to exert its full transforming activity, but the underlying mechanisms have not been fully characterized. We identified PIAS1 as a FIP1L1-PDGFRA association molecule by yeast two-hybrid screening. Our analyses indicate that the FIP1L1 portion of FIP1L1-PDGFRA is required for efficient association with PIAS1. As a consequence of the association, FIP1L1-PDGFRA phosphorylates PIAS1. Moreover, the kinase activity of FIP1L1-PDGFRA stabilizes PIAS1. Therefore, PIAS1 is one of the downstream targets of FIP1L1-PDGFRA. Moreover, we found that PIAS1, as a SUMO E3 ligase, sumoylates and stabilizes FIP1L1-PDGFRA. In addition, suppression of PIAS1 activity by a knockdown experiment resulted in destabilization of FIP1L1-PDGFRA. Therefore, FIP1L1-PDGFRA and PIAS1 form a positive cross-talk through their enzymatic activities. Suppression of sumoylation by ginkgolic acid, a small molecule compound inhibiting a SUMO E1-activating enzyme, also destabilizes FIP1L1-PDGFRA, and while the tyrosine kinase inhibitor imatinib suppresses FIP1L1-PDGFRA-dependent cell growth, ginkgolic acid or siRNA of PIAS1 has a synergistic effect with imatinib. In conclusion, our results suggest that sumoylation by PIAS1 is a potential target in the treatment of FIP1L1-PDGFRA-positive chronic eosinophilic leukemia., (© 2016 The Authors. Cancer Science published by John Wiley & Sons Australia, Ltd on behalf of Japanese Cancer Association.)

Published
2017
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36. Sex-specific autophagy modulation in osteoblastic lineage: a critical function to counteract bone loss in female.

Author

Camuzard O, Santucci-Darmanin S, Breuil V, Cros C, Gritsaenko T, Pagnotta S, Cailleteau L, Battaglia S, Panaïa-Ferrari P, Heymann D, Carle GF, and Pierrefite-Carle V

Subjects
Animals, Female, Male, Mice, Osteocytes pathology, Autophagy physiology, Osteoblasts pathology, Osteoporosis pathology, Sex Characteristics
Abstract

Age-related bone loss is associated with an increased oxidative stress which is worsened by estrogen fall during menauposis. This observation has drawn attention to autophagy, a major cellular catabolic process, able to alleviate oxidative stress in osteoblasts (OB) and osteocytes (OST), two key bone cell types. Moreover, an autophagy decline can be associated with aging, suggesting that an age-related autophagy deficiency in OB and/or OST could contribute to skeletal aging and osteoporosis onset.In the present work, autophagy activity was analyzed in OST and OB in male and female mice according to their age and hormonal status. In OST, autophagy decreases with aging in both sexes. In OB, although a 95% decrease in autophagy is observed in OB derived from old females, this activity remains unchanged in males. In addition, while ovariectomy has no effect on OB autophagy levels, orchidectomy appears to stimulate this process. An inverse correlation between autophagy and the oxidative stress level was observed in OB derived from males or females. Finally, using OB-specific autophagy-deficient mice, we showed that autophagy deficiency aggravates the bone loss associated with aging and estrogen deprivation.Taken together, our data indicate that autophagic modulation in bone cells differs according to sex and cell type. The lowering of autophagy in female OB, which is associated with an increased oxidative stress, could play a role in osteoporosis pathophysiology and suggests that autophagy could be a new therapeutic target for osteoporosis in women.

Published
2016
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37. Autophagy in bone: Self-eating to stay in balance.

Author

Pierrefite-Carle V, Santucci-Darmanin S, Breuil V, Camuzard O, and Carle GF

Subjects
Animals, Bone Remodeling physiology, Disease Models, Animal, Humans, Mice, Aging psychology, Autophagy physiology, Bone and Bones pathology, Bone and Bones physiology, Bone and Bones physiopathology
Abstract

Autophagy, a major catabolic pathway responsible of the elimination of damaged proteins and organelles, is now recognized as an anti-aging process. In addition to its basal role in cell homeostasis, autophagy is also a stress-responsive mechanism for survival purposes. Here, we review recent literature to highlight the autophagy role in the different bone cell types, i.e., osteoblasts, osteoclasts and osteocytes. We also discuss the effects of autophagy modulators in bone physiology and of bone anabolic compounds in autophagy. Finally, we analyzed studies regarding bone cell autophagy-deficient mouse models to obtain a more general view on how autophagy modulates bone physiology and pathophysiology, particularly during aging., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published
2015
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38. FIP1L1 presence in FIP1L1-RARA or FIP1L1-PDGFRA differentially contributes to the pathogenesis of distinct types of leukemia.

Author

Iwasaki J, Kondo T, Darmanin S, Ibata M, Onozawa M, Hashimoto D, Sakamoto N, and Teshima T

Subjects
Cell Proliferation drug effects, Cell Transformation, Neoplastic drug effects, Cell Transformation, Neoplastic genetics, Cell Transformation, Neoplastic metabolism, HEK293 Cells, HeLa Cells, Humans, Interleukin-3 pharmacology, Oncogene Proteins, Fusion chemistry, Protein Interaction Domains and Motifs genetics, Protein Multimerization genetics, Receptor, Platelet-Derived Growth Factor alpha chemistry, mRNA Cleavage and Polyadenylation Factors chemistry, Leukemia classification, Leukemia genetics, Oncogene Proteins, Fusion physiology, Receptor, Platelet-Derived Growth Factor alpha physiology, mRNA Cleavage and Polyadenylation Factors physiology
Abstract

FIP1-like 1 (FIP1L1) is associated with two leukemogenic fusion genes: FIP1L1-retinoic acid receptor alpha (RARA) and FIP1L1-platelet-derived growth factor receptor alpha (PDGFRA). Analyses of a series of deletion mutants revealed that the FIP1 motif in FIP1L1-RARA plays a pivotal role in its homodimerization and transcriptional repressor activity. However, in FIP1L1-PDGFRA, the C-terminal PDGFRA portion possesses the ability of forming a homodimer by itself, making FIP1L1 dispensable for constitutive activation of this kinase. Both the full-length and the C-terminal PDGFRA portion of FIP1L1-PDGFRA could transform the IL-3-dependent hematopoietic cell line, BAF-B03. Moreover, when either the full-length or the C-terminal PDGFRA portion of FIP1L1-PDGFRA was introduced in these cells, they grew in the absence of IL-3. The cells having the C-terminal PDGFRA portion of FIP1L1-PDGFRA, however, were partially IL-3 dependent, whereas the cells having the full-length FIP1L1-PDGFRA became completely IL-3 independent for their growth. Taken together, these results show that FIP1L1 differentially contributes to the pathogenesis of distinct types of leukemia.

Published
2014
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39. Autophagy in osteoblasts is involved in mineralization and bone homeostasis.

Author

Nollet M, Santucci-Darmanin S, Breuil V, Al-Sahlanee R, Cros C, Topi M, Momier D, Samson M, Pagnotta S, Cailleteau L, Battaglia S, Farlay D, Dacquin R, Barois N, Jurdic P, Boivin G, Heymann D, Lafont F, Lu SS, Dempster DW, Carle GF, and Pierrefite-Carle V

Subjects
Animals, Bone Remodeling, Bone Resorption, Cell Line, Tumor, Female, Green Fluorescent Proteins metabolism, Homeostasis, Mice, Mice, Transgenic, Microscopy, Confocal, NF-kappa B p50 Subunit metabolism, Osteoclasts metabolism, Oxidative Stress, RANK Ligand metabolism, Rats, X-Ray Microtomography, Autophagy, Bone and Bones metabolism, Osteoblasts cytology
Abstract

Bone remodeling is a tightly controlled mechanism in which osteoblasts (OB), the cells responsible for bone formation, osteoclasts (OC), the cells specialized for bone resorption, and osteocytes, the multifunctional mechanosensing cells embedded in the bone matrix, are the main actors. Increased oxidative stress in OB, the cells producing and mineralizing bone matrix, has been associated with osteoporosis development but the role of autophagy in OB has not yet been addressed. This is the goal of the present study. We first show that the autophagic process is induced in OB during mineralization. Then, using knockdown of autophagy-essential genes and OB-specific autophagy-deficient mice, we demonstrate that autophagy deficiency reduces mineralization capacity. Moreover, our data suggest that autophagic vacuoles could be used as vehicles in OB to secrete apatite crystals. In addition, autophagy-deficient OB exhibit increased oxidative stress and secretion of the receptor activator of NFKB1 (TNFSF11/RANKL), favoring generation of OC, the cells specialized in bone resorption. In vivo, we observed a 50% reduction in trabecular bone mass in OB-specific autophagy-deficient mice. Taken together, our results show for the first time that autophagy in OB is involved both in the mineralization process and in bone homeostasis. These findings are of importance for mineralized tissues which extend from corals to vertebrates and uncover new therapeutic targets for calcified tissue-related metabolic pathologies.

Published
2014
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40. The nuclear protein Artemis promotes AMPK activation by stabilizing the LKB1-AMPK complex.

Author

Nakagawa K, Uehata Y, Natsuizaka M, Kohara T, Darmanin S, Asaka M, Takeda H, and Kobayashi M

Subjects
AMP-Activated Protein Kinase Kinases, AMP-Activated Protein Kinases metabolism, Cell Line, Tumor, DNA-Binding Proteins, Endonucleases, Enzyme Stability, Humans, Immunoprecipitation, Nuclear Proteins genetics, AMP-Activated Protein Kinases biosynthesis, Nuclear Proteins metabolism, Protein Serine-Threonine Kinases metabolism
Abstract

AMP-activated protein kinase (AMPK) is a hetero-trimeric Ser/Thr kinase composed of a catalytic α subunit and regulatory β and γ subunits; it functions as an energy sensor that controls cellular energy homeostasis. In response to an increased cellular AMP/ATP ratio, AMPK is activated by phosphorylation at Thr172 in the α-subunit by upstream AMPK kinases (AMPKKs), including tumor suppressor liver kinase B1 (LKB1). To elucidate more precise molecular mechanisms of AMPK activation, we performed yeast two-hybrid screening and isolated the complementary DNA (cDNA) encoding the nuclear protein Artemis/DNA cross-link repair 1C (DCLRE1C) as an AMPKα2-binding protein. Artemis was found to co-immunoprecipitate with AMPKα2, and the co-localization of Artemis with AMPKα2 in the nucleus was confirmed by immunofluorescence staining in U2OS cells. Moreover, over-expression of Artemis enhanced the phosphorylation of AMPKα2 and the AMPK substrate acetyl-CoA carboxylase (ACC). Conversely, RNAi-mediated knockdown of Artemis reduced AMPK and ACC phosphorylation. In addition, Artemis markedly increased the physical association between AMPKα2 and LKB1. Taken together, these results suggest that Artemis functions as a positive regulator of AMPK signaling by stabilizing the LKB1-AMPK complex., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published
2012
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41. Gelsolin induces promonocytic leukemia differentiation accompanied by upregulation of p21CIP1.

Author

Shirkoohi R, Fujita H, Darmanin S, and Takimoto M

Subjects
CD11b Antigen metabolism, Cell Proliferation, Cyclin-Dependent Kinase Inhibitor p21 metabolism, Esterases metabolism, Gelsolin genetics, Genetic Vectors, Humans, Monocytes pathology, NADP metabolism, Phenotype, RNA Interference, RNA, Messenger metabolism, Receptors, Cell Surface metabolism, Transcription Factors metabolism, Transfection, U937 Cells, Up-Regulation, Cell Differentiation, Cyclin-Dependent Kinase Inhibitor p21 genetics, Gelsolin metabolism, Gene Expression Regulation, Neoplastic, Monocytes metabolism
Abstract

Tumor suppressor genes have received much attention for their roles in the development of human malignancies. Gelsolin has been found to be down-regulated in several types of human cancers, including leukemias. It is, however, expressed in macrophages, which are the final differentiation derivatives for the monocytic myeloid lineage, implicating this protein in the differentiation process of such cells. In order to investigate the role of gelsolin in leukaemic cell differentiation, stable clones over-expressing ectopic gelsolin, and a control clone were established from U937 leukaemia cells. Unlike the control cells, both gelsolin-overexpressing clones displayed retarded growth, improved monocytic morphology, increased NADPH and NSE activities, and enhanced surface expression of the β-integrin receptor, CD11b, when compared with the parental U937 cells. Interestingly, RT- PCR and western blot analysis also revealed that gelsolin enhanced p21CIP1 mRNA and protein expression in the overexpressing clones. Moreover, transient transfection with siRNA silencing P21CIP1, but not the control siRNA, resulted in a reduction in monocytic differentiation, accompanied by an increase in proliferation. In conclusion, our work demonstrates that gelsolin, by itself, is capable of inducing monocytic differentiation in U937 leukaemia cells, most probably through p21CIP1 activation.

Published
2012
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42. Molecular mechanisms of natural killer cell activation.

Author

Bryceson YT, Chiang SC, Darmanin S, Fauriat C, Schlums H, Theorell J, and Wood SM

Subjects
Animals, Cell Communication, Cytokines immunology, Humans, Immunity, Innate, Killer Cells, Natural immunology, Lymphocyte Activation, Receptors, Natural Killer Cell immunology, Signal Transduction
Abstract

With an array of activating and inhibitory receptors, natural killer (NK) cells can specifically eradicate infected and transformed cells. Target cell killing is achieved through directed release of lytic granules. Recognition of target cells also induces production of chemokines and cytokines that can coordinate immune responses. Upon contact with susceptible cells, a multiplicity of activating receptors can induce signals for adhesion. Engagement of the integrin leukocyte functional antigen-1 mediates firm adhesion, provides signals for granule polarization and orchestrates the structure of an immunological synapse that facilitates efficient target cell killing. Other activating receptors apart from leukocyte functional antigen-1 signal for lytic granule exocytosis, a process that requires overcoming a threshold for activation of phospholipase C-γ, which in turn induces STIM1- and ORAI1-dependent store-operated Ca²+ entry as well as exocytosis mediated by the SNARE-containing protein syntaxin-11 and regulators thereof. Cytokine and chemokine release follows a different secretory pathway which also requires phospholipase C-γ activation and store-operated Ca²+ entry. Recent studies of human NK cells have provided insights into a hierarchy of effector functions that result in graded responses by NK cell populations. Responses display cellular heterogeneity and are influenced by environmental cues. This review highlights recent knowledge gained on the molecular pathways for and regulation of NK cell activation., (Copyright © 2011 S. Karger AG, Basel.)

Published
2011
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43. A novel FRET-based biosensor for the measurement of BCR-ABL activity and its response to drugs in living cells.

Author

Mizutani T, Kondo T, Darmanin S, Tsuda M, Tanaka S, Tobiume M, Asaka M, and Ohba Y

Subjects
Adaptor Proteins, Signal Transducing metabolism, Antineoplastic Agents therapeutic use, Benzamides, Blotting, Western, Cell Separation, Drug Resistance, Neoplasm drug effects, Flow Cytometry, Fusion Proteins, bcr-abl metabolism, Humans, Imatinib Mesylate, Leukemia, Myelogenous, Chronic, BCR-ABL Positive drug therapy, Leukemia, Myelogenous, Chronic, BCR-ABL Positive metabolism, Luminescent Agents, Nuclear Proteins metabolism, Phosphorylation, Piperazines therapeutic use, Pyrimidines therapeutic use, Sensitivity and Specificity, Biosensing Techniques methods, Fluorescence Resonance Energy Transfer methods, Fusion Proteins, bcr-abl analysis, Leukemia, Myelogenous, Chronic, BCR-ABL Positive diagnosis
Abstract

Purpose: To develop a novel diagnostic method for the assessment of drug efficacy in chronic myeloid leukemia (CML) patients individually, we generated a biosensor that enables the evaluation of BCR-ABL kinase activity in living cells using the principle of fluorescence resonance energy transfer (FRET)., Experimental Design: To develop FRET-based biosensors, we used CrkL, the most characteristic substrate of BCR-ABL, and designed a protein in which CrkL is sandwiched between Venus, a variant of YFP, and enhanced cyan fluorescent protein, so that CrkL intramolecular binding of the SH2 domain to phosphorylated tyrosine (Y207) increases FRET efficiency. After evaluation of the properties of this biosensor by comparison with established methods including Western blotting and flow cytometry, BCR-ABL activity and its response to drugs were examined in CML patient cells., Results: After optimization, we obtained a biosensor that possesses higher sensitivity than that of established techniques with respect to measuring BCR-ABL activity and its suppression by imatinib. Thanks to its high sensitivity, this biosensor accurately gauges BCR-ABL activity in relatively small cell numbers and can also detect <1% minor drug-resistant populations within heterogeneous ones. We also noticed that this method enabled us to predict future onset of drug resistance as well as to monitor the disease status during imatinib therapy, using patient cells., Conclusion: In consideration of its quick and practical nature, this method is potentially a promising tool for the prediction of both current and future therapeutic responses in individual CML patients, which will be surely beneficial for both patients and clinicians.

Published
2010
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44. hMSH5 is a nucleocytoplasmic shuttling protein whose stability depends on its subcellular localization.

Author

Lahaye F, Lespinasse F, Staccini P, Palin L, Paquis-Flucklinger V, and Santucci-Darmanin S

Subjects
Active Transport, Cell Nucleus, Amino Acid Sequence, Base Sequence, Cell Cycle Proteins analysis, Conserved Sequence, Fatty Acids, Unsaturated pharmacology, HeLa Cells, Humans, Molecular Sequence Data, Nuclear Export Signals, Nuclear Localization Signals, Proteasome Endopeptidase Complex metabolism, Protein Transport, Cell Cycle Proteins chemistry, Cell Cycle Proteins metabolism, Cell Nucleus metabolism
Abstract

MSH5 is a MutS-homologous protein required for meiotic DNA recombination. In addition, recent studies suggest that the human MSH5 protein (hMSH5) participates to mitotic recombination and to the cellular response to DNA damage and thus raise the possibility that a tight control of hMSH5 function(s) may be important for genomic stability. With the aim to characterize mechanisms potentially involved in the regulation of hMSH5 activity, we investigated its intracellular trafficking properties. We demonstrate that hMSH5 possesses a CRM1-dependent nuclear export signal (NES) and a nuclear localization signal that participates to its nuclear targeting. Localization analysis of various mutated forms of hMSH5 by confocal microscopy indicates that hMSH5 shuttles between the nucleus and the cytoplasm. We also provide evidence suggesting that hMSH5 stability depends on its subcellular compartmentalization, hMSH5 being much less stable in the nucleus than in the cytoplasm. Together, these data suggest that hMSH5 activity may be regulated by nucleocytoplasmic shuttling and nuclear proteasomal degradation, both of these mechanisms contributing to the control of nuclear hMSH5 content. Moreover, data herein also support that in tissues where both hMSH5 and hMSH4 proteins are expressed, hMSH5 might be retained in the nucleus through masking of its NES by binding of hMSH4.

Published
2010
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45. Hypoxia-mediated up-regulation of Pim-1 contributes to solid tumor formation.

Author

Chen J, Kobayashi M, Darmanin S, Qiao Y, Gully C, Zhao R, Kondo S, Wang H, Wang H, Yeung SC, and Lee MH

Subjects
Animals, Blotting, Western, Cell Transformation, Neoplastic genetics, Flow Cytometry, Fluorescent Antibody Technique, HeLa Cells, Humans, Immunohistochemistry, Mice, Mice, SCID, NIH 3T3 Cells, Neoplasms genetics, Proto-Oncogene Mas, Proto-Oncogene Proteins c-pim-1 genetics, Transplantation, Heterologous, Ubiquitination, Up-Regulation, Cell Hypoxia physiology, Cell Transformation, Neoplastic metabolism, Gene Expression Regulation, Neoplastic, Neoplasms metabolism, Proto-Oncogene Proteins c-pim-1 metabolism
Abstract

Tumor hypoxia directly promotes genomic instability and facilitates cell survival, resulting in tumors with a more aggressive phenotype. The proto-oncogene pim-1 regulates apoptosis and the cell cycle by phosphorylating target proteins. Overexpression of Pim-1 can cause genomic instability and contribute to lymphomagenesis. It is not clear whether Pim-1 is involved in hypoxia-mediated tumor survival in solid tumors. Here, we show that hypoxia can stabilize Pim-1 by preventing its ubiquitin-mediated proteasomal degradation and can cause Pim-1 translocation from the cytoplasm to the nucleus. Importantly, overexpression of Pim-1 increases NIH3T3 cell transformation exclusively under hypoxic conditions, suggesting that Pim-1 expression under hypoxia may be implicated in the transformation process of solid tumors. Also, blocking Pim-1 function by introduction of dominant negative Pim-1 resensitizes pancreatic cancer cells to apoptosis induced by glucose-deprivation under hypoxia. Introduction of short interfering RNAs for Pim-1 also resensitizes cancer cells to glucose deprivation under hypoxic conditions, while forced overexpression of Pim-1 causes solid tumor cells to become resistant to glucose deprivation. Moreover, dominant negative Pim-1 reduces tumorigenicity in pancreatic cancer cells and HeLa xenograft mouse models. Together, our studies indicate that Pim-1 plays a distinct role in solid tumor formation in vivo, implying that Pim-1 may be a novel target for cancer therapy.

Published
2009
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46. An extract from Ricinus communis L. leaves possesses cytotoxic properties and induces apoptosis in SK-MEL-28 human melanoma cells.

Author

Darmanin S, Wismayer PS, Camilleri Podesta MT, Micallef MJ, and Buhagiar JA

Subjects
Apoptosis drug effects, Cell Line, Tumor, Cytotoxins pharmacology, Dose-Response Relationship, Drug, Flow Cytometry, Gas Chromatography-Mass Spectrometry, Humans, Inhibitory Concentration 50, Microscopy, Phase-Contrast, Monoterpenes pharmacology, Plant Extracts pharmacology, Cytotoxins isolation & purification, Monoterpenes isolation & purification, Plant Extracts isolation & purification, Plant Leaves chemistry, Ricinus chemistry
Abstract

Plants are an important source of several clinically useful anti-cancer agents. A volatile extract was obtained from Ricinus communis L. (Euphorbiaceae) leaves by standard hydrodistillation and subsequent extraction of the cohobated water in chloroform. GC-MS identified three monoterpenoids: 1,8-cineole, camphor and alpha-pinene, and a sesquiterpenoid: beta-caryophyllene, as the main constituents. The leaf extract is cytotoxic to several human tumour cell lines in a dose-dependent fashion, with IC(50) values ranging between 10-40 microg mL(-1). Apoptosis was shown to be induced in SK-MEL-28 human melanoma cells at a concentration of 20 microg mL(-1), as identified by means of morphological examination, nuclear staining and flow cytometric analysis of DNA content. Translocation of phosphatidyl serine to the cell membrane's external surface and loss of mitochondrial membrane potential were also detected. This study provides further insight into the potential use of mixtures of terpenoids as they occur in nature, as inducers of apoptosis in cancer cells.

Published
2009
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47. HB vaccination in the prevention of viral reactivation in allogeneic hematopoietic stem cell transplantation recipients with previous HBV infection.

Author

Onozawa M, Hashino S, Darmanin S, Okada K, Morita R, Takahata M, Shigematsu A, Kahata K, Kondo T, Tanaka J, Imamura M, and Asaka M

Subjects
Adult, Aged, Female, Hematologic Neoplasms complications, Hematologic Neoplasms therapy, Hepatitis B complications, Hepatitis B Vaccines, Hepatitis B virus, Humans, Male, Middle Aged, Retrospective Studies, Risk Factors, Time Factors, Transplantation, Homologous, Hematopoietic Stem Cell Transplantation, Hepatitis B prevention & control, Vaccination, Virus Activation
Abstract

Hepatitis B virus (HBV)-reverse seroconversion (RS) following allogeneic hematopoietic stem cell transplantation (allo-HSCT) is a frequent late-onset complication in recipients with previous HBV infection. We followed 38 allo-HSCT recipients with previous HBV infection, and conducted posttransplant HB vaccine intervention in 13 recipients. First, we followed the recipients without any intervention (historic control) until 2003; hence, we commenced HB vaccination. Out of the patients who underwent transplantation after 2003, 13 recipients were immunized by a standard three-dose regimen after immunosuppressant cessation (vaccine group), whereas 12 recipients were observed without any intervention (nonvaccine group). Eight of the 13 historic control group recipients and 3 of the 12 nonvaccine group recipients, but none of the 13 vaccine group recipients, suffered HBV-RS. Cumulative risks of HBV-RS at 3 years post-HSCT in the historic control, nonvaccine and vaccine groups were 41%, 39%, and 0% respectively (P=.022). We therefore conclude that intervention with HB vaccines is significantly effective in preventing post-HSCT HBV-RS.

Published
2008
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48. CRM1-dependent nuclear export and dimerization with hMSH5 contribute to the regulation of hMSH4 subcellular localization.

Author

Neyton S, Lespinasse F, Lahaye F, Staccini P, Paquis-Flucklinger V, and Santucci-Darmanin S

Subjects
Active Transport, Cell Nucleus drug effects, Amino Acid Sequence, Animals, Cell Cycle Proteins analysis, Cell Cycle Proteins genetics, Cell Nucleus chemistry, Cell Nucleus metabolism, Cytoplasm chemistry, Cytoplasm metabolism, Dimerization, Fatty Acids, Unsaturated pharmacology, Humans, Karyopherins genetics, Male, Mice, Mice, Inbred Strains, Mice, Mutant Strains, Molecular Sequence Data, Protein Structure, Tertiary, Receptors, Cytoplasmic and Nuclear genetics, Testis chemistry, Exportin 1 Protein, Cell Cycle Proteins metabolism, Karyopherins metabolism, Nuclear Export Signals genetics, Receptors, Cytoplasmic and Nuclear metabolism, Testis metabolism
Abstract

MSH4 and MSH5 are members of the MutS homolog family, a conserved group of proteins involved in DNA mismatch correction and homologous recombination. Although several studies have provided compelling evidences suggesting that MSH4 and MSH5 could act together in early and late stages of meiotic recombination, their precise roles are poorly understood and recent findings suggest that the human MSH4 protein may also exert a cytoplasmic function. Here we show that MSH4 is present in the cytoplasm and the nucleus of both testicular cells and transfected somatic cells. Confocal studies on transfected cells provide the first evidence that the subcellular localization of MSH4 is regulated, at least in part, by an active nuclear export pathway dependent on the exportin CRM1. We used deletion mapping and mutagenesis to define two functional nuclear export sequences within the C-terminal part of hMSH4 that mediate nuclear export through the CRM1 pathway. Our results suggest that CRM1 is also involved in MSH5 nuclear export. In addition, we demonstrate that dimerization of MSH4 and MSH5 facilitates their nuclear localization suggesting that dimerization may regulate the intracellular trafficking of these proteins. Our findings suggest that nucleocytoplasmic traffic may constitute a regulatory mechanism for MSH4 and MSH5 functions.

Published
2007
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49. All-trans retinoic acid enhances murine dendritic cell migration to draining lymph nodes via the balance of matrix metalloproteinases and their inhibitors.

Author

Darmanin S, Chen J, Zhao S, Cui H, Shirkoohi R, Kubo N, Kuge Y, Tamaki N, Nakagawa K, Hamada J, Moriuchi T, and Kobayashi M

Subjects
Animals, Cell Differentiation, Cell Movement drug effects, Cells, Cultured, Dendritic Cells cytology, Female, Gene Expression Regulation, Lymph Nodes cytology, Matrix Metalloproteinases genetics, Mice, Mice, Inbred C57BL, RNA, Messenger genetics, Receptors, CCR7, Receptors, Chemokine genetics, Tissue Inhibitor of Metalloproteinases genetics, Dendritic Cells drug effects, Dendritic Cells enzymology, Lymph Nodes drug effects, Lymph Nodes enzymology, Matrix Metalloproteinases metabolism, Tissue Inhibitor of Metalloproteinases metabolism, Tretinoin pharmacology
Abstract

Cancers escape immune surveillance through the manipulation of the host's immune system. Sequestration of dendritic cells (DCs) within tumor tissues and the subsequent inhibition of their migration is one of the several mechanisms by which tumors induce immunosuppression. In view of recent findings depicting the improvement of tumor immune responses in cancer patients following all-trans retinoic acid (ATRA) treatment, we sought to identify the effects of ATRA on DC mobility in the context of tumor immunotherapy. Our results demonstrate that ATRA, added to differentiating murine bone marrow progenitor cells, enhances the invasive capacity of the resulting DCs. Immature DCs injected intratumorally in mice show increased accumulation in draining lymph nodes, but not in nondraining lymph nodes and spleens, when differentiated in the presence of ATRA. The in vitro migration of mature DCs through the basement membrane matrix toward the lymphoid chemokines CCL19 and CCL21 is enhanced in these cells, albeit not in the presence of a matrix metalloproteinase (MMP) inhibitor. An increase in MMP production with a simultaneous decrease in the production of their inhibitors (tissue inhibitors of matrix metalloproteinase or TIMPs) is provoked by ATRA. This affects the MMP/TIMP balance in DCs, in particular that of MMP-9 and TIMP-1, favoring protease activity and thus allowing for enhanced DC mobilization. In conclusion, this study demonstrates that ATRA is capable of improving DC trafficking in a tumor milieu and, in view of the encouraging results obtained in the clinic, further supports the notion that ATRA might be a valuable chemical adjuvant to current immunotherapeutic strategies for cancer.

Published
2007
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50. Synergistic up-regulation of Hexokinase-2, glucose transporters and angiogenic factors in pancreatic cancer cells by glucose deprivation and hypoxia.

Author

Natsuizaka M, Ozasa M, Darmanin S, Miyamoto M, Kondo S, Kamada S, Shindoh M, Higashino F, Suhara W, Koide H, Aita K, Nakagawa K, Kondo T, Asaka M, Okada F, and Kobayashi M

Subjects
AMP-Activated Protein Kinase Kinases, Animals, Biomarkers, Tumor biosynthesis, Cell Hypoxia, Cell Line, Tumor, Gene Expression Regulation, Humans, Hypoxia, Mice, Mice, SCID, Neoplasm Transplantation, Oligonucleotide Array Sequence Analysis, Pancreatic Neoplasms blood supply, Phosphorylation, Protein Kinases genetics, RNA, Small Interfering genetics, Up-Regulation, Glucose physiology, Glucose Transport Proteins, Facilitative biosynthesis, Hexokinase biosynthesis, Hypoxia-Inducible Factor 1 biosynthesis, Neovascularization, Pathologic metabolism, Pancreatic Neoplasms metabolism, Protein Kinases biosynthesis
Abstract

There is accumulating evidence demonstrating that HIF-1 functions as a key regulator of the adaptation responses to hypoxia in cancer tissues. To this evidence, we add that adaptation responses to glucose deprivation plus hypoxia are also necessary for the survival of tumor cells in the tumor microenvironment as cancer tissues are exposed to glucose deprivation as well as hypoxia. We found that adrenomedullin (AM), VEGF, Glut-1, Glut-3, and Hexokinase-2 among 45 hypoxia-inducible genes investigated were expressed at higher levels under glucose-deprived hypoxic conditions than under hypoxic conditions. Glucose deprivation activated the AMPK under normoxia and hypoxia. Compound C, an inhibitor of AMPK, suppressed the expressions of AM and VEGF which had already been enhanced under glucose-deprived hypoxic conditions. siRNAs for both AMPKalpha1 and AMPKalpha2 suppressed the expressions of AM and VEGF. HIF-1alpha protein level and the transcriptional activity of HIF-1 under glucose-deprived hypoxic conditions were thus found to be similar to those under hypoxic conditions. Furthermore, tumor cells in 15 out of 20 human pancreatic cancer tissue specimens were stained by anti-phospho-AMPKalpha antibody. Our results thus suggest that the enhanced expressions of those genes mediated by the activation of AMPK and HIF-1 therefore play a pivotal role in the tumor formation of pancreatic cancers.

Published
2007
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