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4. Curcuma longa is able to induce apoptotic cell death of pterygium-derived human keratinocytes

Author

Sancilio, S, Di Staso, S, Sebastiani, S, Centurione, L, Di Girolamo, N, Ciancaglini, M, Di Pietro, R, Sancilio, S, Di Staso, S, Sebastiani, S, Centurione, L, Di Girolamo, N, Ciancaglini, M, and Di Pietro, R

Abstract

Copyright © 2017 Silvia Sancilio et al. Pterygium is a relatively common eye disease that can display an aggressive clinical behaviour. To evaluate the in vitro effects of Curcuma longa on human pterygium-derived keratinocytes, specimens of pterygium from 20 patients undergoing pterygium surgical excision were collected. Pterygium explants were put into culture and derived keratinocytes were treated with an alcoholic extract of 1.3% Curcuma longa in 0.001% Benzalkonium Chloride for 3, 6, and 24 h. Cultured cells were examined for CAM5.2 (anti-cytokeratin antibody) and CD140 (anti-fibroblast transmembrane glycoprotein antibody) expression between 3th and 16th passage to assess cell homogeneity. TUNEL technique and Annexin-V/PI staining in flow cytometry were used to detect keratinocyte apoptosis. We showed that Curcuma longa exerts a proapoptotic effect on pterygium-derived keratinocytes already after 3 h treatment. Moreover, after 24 h treatment, Curcuma longa induces a significant increase in TUNEL as well as Annexin-V/PI positive cells in comparison to untreated samples. Our study confirms previous observations highlighting the expression, in pterygium keratinocytes, of nuclear VEGF and gives evidence for the first time to the expression of nuclear and cytoplasmic VEGF-R1. All in all, these findings suggest that Curcuma longa could have some therapeutic potential in the treatment and prevention of human pterygium.

Published
2017

9. Ultrastructural Patterns of Cell Damage and Death Following Gamma Radiation Exposure of Murine Erythroleukemia Cells

Author

Di Pietro, R., Falcieri, E., Centurione, L., Centurione, M. A., Mazzotti, G., and Rana, R.

Subjects
cell death, Friend cells, electron microscopy, Gamma radiation, radiation damage, high-dose radiation exposure, murine erythroleukemia cells, apoptosis, freeze fracture, Biology, necrosis
Abstract

Radiation causes damage to cell surface membranes, cytoplasmic organelles, and the nuclear process of DNA synthesis and repair, and this eventually results in different modes of cell death. In this study we examined murine erythroleukemia (MEL) cells, exposed to 15 and 60 Gy of 10 MeV photonic energy, and left in culture for up to 96 hours. Electron microscopical analysis was performed on conventionally embedded samples and freeze-fracture replicas, in order to detect ultrastructural patterns of cell damage and death. Of interest was the observation of chromatin condensates, nuclear membrane associations and nuclear pore redistribution during early apoptosis. Pronounced rearrangements of transmembrane particles during late stages of cellular necrosis were also found. The morphological damage induced by both doses of radiation as a function of time after exposure was only quantitatively but not qualitatively different.

Published
1994

20. Engagement of PI-3-kinase mediated protein kinase C zeta activation in protecting Friend cells from ionizing radiation-induced apoptosis

Author

Cataldi, A., Roberta Di Pietro, Centurione, L., Rapino, M., Santavenere, E., Garaci, F., Cocco, L., Giuliani-Piccari, G., and Rana, R.

Subjects
tumor, diacylglycerol, PI-3-kinase, phosphatidylinositol 3-kinase activity, phosphoinositide 3-kinase, tyrosine kinase, translocation, Apoptosis, differentiation, DNA, inositol lipids, protein kinase C zeta, apoptosis, ionizing radiation, Friend murine leukemia virus, Enzyme Activation, delta, Phosphatidylinositol 3-Kinases, Settore MED/36 - Diagnostica per Immagini e Radioterapia, nuclei, Tumor Cells, Cultured, Humans, Leukemia, Erythroblastic, Acute, Protein Kinase C
Abstract

Murine erythroleukemia cells (Friend) respond to ionizing radiation with the activation and nuclear translocation of p85alpha subunit of phosphatidylinositol-3-kinase (PI-3-kinase) which mediates the downstream activation and nuclear translocation of atypical Protein kinase C zeta (PKC zeta). This event occurs mainly upon high dose of ionizing radiation (15 Gy) and is concomitant to an increase in BrdU incorporation, which probably accounts for a predominant repair DNA synthesis. Following treatment with wortmannin, a relatively specific inhibitor of PI-3-kinase, both an increased number of apoptotic cells and the inhibition of protein kinase C zeta translocation were detected. Altogether the evidence suggests a potential role of the PI-3-kinase/PKC zeta pathway in protecting Friend cells from ionizing radiation-induced apoptosis offering PKC zeta for consideration as possible target of pharmacological treatments.

23. Rat bone healing induced by natural nanocrystalline carbonated hydroxyapatite in combination with human amniotic fluid stem cells (AFSCs)

Author

Roberta Di Pietro, Liborio Stuppia, Francesco Marchegiani, Lucia Centurione, Andrea Pantalone, Vincenzo Salini, Ivana Antonucci, Mariangela Basile, Centurione, L., Pantalone, A., Marchegiani, F., Antonucci, I., Basile, M., Salini, V., Stuppia, L., and Di Pietro, R.

Subjects
0301 basic medicine, Scaffold, Pathology, medicine.medical_specialty, Amniotic fluid, Physiology, Clinical Biochemistry, Rat model, bone defects, Bone healing, scaffold, 03 medical and health sciences, 0302 clinical medicine, In vivo, AFSCs, medicine, Chemistry, rat model, Cell Biology, In vitro, PKH26, 030104 developmental biology, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Bone marrow, bone healing, Stem cell
Abstract

The present study was aimed at identifying a new scaffold/stem cell combination useful to treat large bone defects. Human amniotic fluid stem cells (AFSCs) were expanded in vitro, labeled with a fluorescent cell-permeable dye (PKH26) and transplanted in vivo in a femoral injured rat model. The femoral defect was left untreated (control rats) or filled with hydroxyapatite (HA; natural nanocrystalline carbonated hydroxyapatite-Orthoss®) scaffold alone or loaded with PKH26-labeled AFSCs. All animals were killed 3 weeks after implantation. Both gross anatomy and histological observations revealed a major bone regenerative response in rat specimens treated with HA scaffold, alone or supplemented with AFSCs. Samples injected with HA plus AFSCs displayed the presence of abundant fibrotic tissue, the formation of periosteal woven bone, and an increased presence of blood vessels in the bone marrow, with still fluorescent AFSCs in close proximity. These observations provide evidence that natural HA plus AFSCs represents a promising alternative therapeutic strategy to autologous bone grafting procedures.

Published
2020
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24. Mapping of the Human Amniotic Membrane: In Situ Detection of Microvesicles Secreted by Amniotic Epithelial Cells.

Author

Basile M, Centurione L, Passaretta F, Stati G, Soritau O, Susman S, Gindraux F, Silini A, Parolini O, and Di Pietro R

Subjects
Regenerative Medicine, Humans, Female, Amnion, Epithelial Cells, Microscopy, Electron, Transmission
Abstract

The potential clinical applications of human amniotic membrane (hAM) and human amniotic epithelial cells (hAECs) in the field of regenerative medicine have been known in literature since long. However, it has yet to be elucidated whether hAM contains different anatomical regions with different plasticity and differentiation potential. Recently, for the first time, we highlighted many differences in terms of morphology, marker expression, and differentiation capabilities among four distinct anatomical regions of hAM, demonstrating peculiar functional features in hAEC populations. The aim of this study was to investigate in situ the ultrastructure of the four different regions of hAM by means of transmission electron microscopy (TEM) to deeply understand their peculiar characteristics and to investigate the presence and localization of secretory products because to our knowledge, there are no similar studies in the literature. The results of this study confirm our previous observations of hAM heterogeneity and highlight for the first time that hAM can produce extracellular vesicles (EVs) in a heterogeneous manner. These findings should be considered to increase efficiency of hAM applications within a therapeutic context.

Published
2023
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25. Effects of H 2 O 2 Treatment Combined With PI3K Inhibitor and MEK Inhibitor in AGS Cells: Oxidative Stress Outcomes in a Model of Gastric Cancer.

Author

Savino L, Di Marcantonio MC, Moscatello C, Cotellese R, Centurione L, Muraro R, Aceto GM, and Mincione G

Abstract

Gastric cancer is worldwide the fifth and third cancer for incidence and mortality, respectively. Stomach wall is daily exposed to oxidative stress and BER system has a key role in the defense from oxidation-induced DNA damage, whilst ErbB receptors have important roles in the pathogenesis of cancer. We used AGS cells as an aggressive gastric carcinoma cell model, treated with H 2 O 2 alone or combined with ErbB signaling pathway inhibitors, to evaluate the effects of oxidative stress in gastric cancer, focusing on the modulation of ErbB signaling pathways and their eventual cross-talk with BER system. We showed that treatment with H 2 O 2 combined with PI3K/AKT and MEK inhibitors influenced cell morphology and resulted in a reduction of cancer cell viability. Migration ability was reduced after H 2 O 2 treatment alone or combined with MEK inhibitor and after PI3K/AKT inhibitor alone. Western blotting analysis showed that oxidative stress stimulated EGFR pathway favoring the MAPKs activation at the expense of PI3K/AKT pathway. Gene expression analysis by RT-qPCR showed ErbB2 and OGG1 increase under oxidative stress conditions. Therefore, we suggest that in AGS cells a pro-oxidant treatment can reduce gastric cancer cell growth and migration via a different modulation of PI3K and MAPKs pathways. Moreover, the observed ErbB2 and OGG1 induction is a cellular response to protect the cells from H 2 O 2 -induced cell death. In conclusion, to tailor specific combinations of therapies and to decide which strategy to use, administration of a chemotherapy that increases intracellular ROS to toxic levels, might not only be dependent on the tumor type, but also on the molecular targeting therapy used., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The reviewer ID’A declared a shared affiliation, with no collaboration, with the authors, to the handling editor at the time of review., (Copyright © 2022 Savino, Di Marcantonio, Moscatello, Cotellese, Centurione, Muraro, Aceto and Mincione.)

Published
2022
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26. The Role of the CREB Protein Family Members and the Related Transcription Factors in Radioresistance Mechanisms.

Author

Stati G, Passaretta F, Gindraux F, Centurione L, and Di Pietro R

Abstract

In the framework of space flight, the risk of radiation carcinogenesis is considered a "red" risk due to the high likelihood of occurrence as well as the high potential impact on the quality of life in terms of disease-free survival after space missions. The cyclic AMP response element-binding protein (CREB) is overexpressed both in haematological malignancies and solid tumours and its expression and function are modulated following irradiation. The CREB protein is a transcription factor and member of the CREB/activating transcription factor (ATF) family. As such, it has an essential role in a wide range of cell processes, including cell survival, proliferation, and differentiation. Among the CREB-related nuclear transcription factors, NF-κB and p53 have a relevant role in cell response to ionising radiation. Their expression and function can decide the fate of the cell by choosing between death or survival. The aim of this review was to define the role of the CREB/ATF family members and the related transcription factors in the response to ionising radiation of human haematological malignancies and solid tumours.

Published
2021
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27. Human amniotic fluid stem cells are able to form embryoid body-like aggregates which performs specific functions: morphological evidences.

Author

Centurione L, Centurione MA, Antonucci I, Sancilio S, Stati G, Stuppia L, and Di Pietro R

Subjects
Amniotic Fluid cytology, Cell Culture Techniques, Cells, Cultured, Embryoid Bodies cytology, Embryonic Stem Cells cytology, Humans, Amniotic Fluid metabolism, Embryoid Bodies metabolism, Embryonic Stem Cells metabolism
Abstract

Human second trimester Amniotic Fluid Stem Cells (hAFSCs) harbour the potential to differentiate into cells of each of the three germ layers and to form Embryoid Body (EB)-like aggregates, without inducing teratoma formation and with no ethical concerns. However, in spite of the number of reports on hAFSCs-EBs and their characterization, a thorough evaluation in light and electron microscopy of morphological and morphometric features of hAFSCs-EBs development in vitro has not been reported yet. Apart from a superficial layer of epithelial-like flat cells, displaying rare microvilli on the free surface, hAFSCs-EBs enclose inner material, abundant in vesicles and secretory granules, showing early characteristics of connective extracellular matrix dispersed among different types of inner cells. The observation of a number of microvesicles mainly represented by microparticles and, to a lower extent, by exosomes indicates the presence of a complex cellular communication system within this structure. According to morphological analysis, after 7 days of in vitro culture hAFSCs-EB appears as a well-organized corpuscle, sufficiently young to be a carrier of stemness and at the same time, when appropriately stimulated, able to differentiate. In fact, 7-day hAFSCs-EB represents itself an initial cellular transformation towards a specialized structure both in recording and in providing different stimuli from the surrounding environment, organizing structures and cells towards a differentiation fate.

Published
2021
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28. Differential response to hepatic differentiation stimuli of amniotic epithelial cells isolated from four regions of the amniotic membrane.

Author

Passaretta F, Bosco D, Centurione L, Centurione MA, Marongiu F, and Di Pietro R

Subjects
Amnion metabolism, Epithelial Cells cytology, Female, Gene Expression Regulation, Developmental genetics, Humans, Liver metabolism, Placenta metabolism, Pregnancy, Amnion cytology, Cell Differentiation genetics, Liver cytology, Placenta cytology
Abstract

Human Amniotic Epithelial Cells (hAEC) isolated from term placenta are a promising source for regenerative medicine. However, it has long been debated whether the hAEC population consists of heterogeneous or homogeneous cells. In a previous study, we investigated the characteristics of hAEC isolated from four different regions of the amniotic membrane finding significant heterogeneity. The aim of this study was to evaluate the hepatic differentiation capability of hAEC isolated from these four regions. Human term placentae were collected after caesarean section and hAEC were isolated from four regions of the amniotic membrane (R1-R4, according to their relative distance from the umbilical cord) and treated in hepatic differentiation conditions for 14 days. hAEC-derived hepatocyte-like cells showed marked differences in the expression of hepatic markers: R4 showed higher levels of Albumin and Hepatocyte Nuclear Factor (HNF) 4α whereas R1 expressed higher Cytochrome P450 enzymes, both at the gene and protein level. These preliminary results suggest that hAEC isolated from R1 and R4 of the amniotic membrane are more prone to hepatic differentiation. Therefore, the use of hAEC from a specific region of the amniotic membrane should be taken into consideration as it could have an impact on the outcome of therapeutic applications., (© 2020 The Authors. Journal of Cellular and Molecular Medicine published by Foundation for Cellular and Molecular Medicine and John Wiley & Sons Ltd.)

Published
2020
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29. Allopurinol, furosemide and a phytotherapeutic agent (Bazoton uno) reverse P-glycoprotein-mediated doxorubicin resistance in human uterine sarcoma MES-SA/Dx5 cells: a novel therapeutic perspective.

Author

Angelini A, Centurione MA, Di Pietro R, and Centurione L

Subjects
ATP Binding Cassette Transporter, Subfamily B, Member 1, Cell Line, Tumor, Doxorubicin, Female, Humans, Sarcoma drug therapy, Uterine Neoplasms drug therapy, Allopurinol pharmacology, Drug Resistance, Neoplasm, Furosemide pharmacology, Plant Extracts pharmacology, Sarcoma pathology, Uterine Neoplasms pathology
Published
2019

30. Mapping of the Human Placenta: Experimental Evidence of Amniotic Epithelial Cell Heterogeneity.

Author

Centurione L, Passaretta F, Centurione MA, Munari S, Vertua E, Silini A, Liberati M, Parolini O, and Di Pietro R

Subjects
Amnion metabolism, Epithelial Cells metabolism, Female, Humans, Pregnancy, Stem Cells cytology, Stem Cells metabolism, Amnion cytology, Epithelial Cells cytology, Placenta cytology
Abstract

The human placenta is an important source of stem cells that can be easily collected without ethical concerns since it is usually discarded after childbirth. In this study, we analyzed the amniotic membrane (AM) from the human placenta with the aim of mapping different regions with respect to their morpho-functional features and regenerative potential. AMs were obtained from 24 healthy women, undergoing a caesarean section, and mapped into 4 different regions according to their position in relation to the umbilical cord: the central, intermediate, peripheral, and reflected areas. We carried out a multiparametric analysis focusing our attention on amniotic epithelial cells (AECs). Our results revealed that AECs, isolated from the different areas, are a heterogeneous cell population with different pluripotency and proliferation marker expression (octamer-binding transcription factor 4 [OCT-4], tyrosine-protein kinase KIT [c-KIT], sex determining region Y-box 2 [SOX-2], α-fetoprotein, cyclic AMP response element binding [CREB] protein, and phosphorylated active form of CREB [p-CREB]), proliferative ability, and osteogenic potential. Our investigation discloses interesting findings that could be useful for increasing the efficiency of AM isolation and application for therapeutic purposes.

Published
2018
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31. Regulation of Cancer Cell Responsiveness to Ionizing Radiation Treatment by Cyclic AMP Response Element Binding Nuclear Transcription Factor.

Author

D'Auria F, Centurione L, Centurione MA, Angelini A, and Di Pietro R

Abstract

Cyclic AMP response element binding (CREB) protein is a member of the CREB/activating transcription factor (ATF) family of transcription factors that play an important role in the cell response to different environmental stimuli leading to proliferation, differentiation, apoptosis, and survival. A number of studies highlight the involvement of CREB in the resistance to ionizing radiation (IR) therapy, demonstrating a relationship between IR-induced CREB family members' activation and cell survival. Consistent with these observations, we have recently demonstrated that CREB and ATF-1 are expressed in leukemia cell lines and that low-dose radiation treatment can trigger CREB activation, leading to survival of erythro-leukemia cells (K562). On the other hand, a number of evidences highlight a proapoptotic role of CREB following IR treatment of cancer cells. Since the development of multiple mechanisms of resistance is one key problem of most malignancies, including those of hematological origin, it is highly desirable to identify biological markers of responsiveness/unresponsiveness useful to follow-up the individual response and to adjust anticancer treatments. Taking into account all these considerations, this mini-review will be focused on the involvement of CREB/ATF family members in response to IR therapy, to deepen our knowledge of this topic, and to pave the way to translation into a therapeutic context.

Published
2017
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32. Curcuma longa Is Able to Induce Apoptotic Cell Death of Pterygium-Derived Human Keratinocytes.

Author

Sancilio S, Di Staso S, Sebastiani S, Centurione L, Di Girolamo N, Ciancaglini M, and Di Pietro R

Subjects
Apoptosis drug effects, Biomarkers, Cells, Cultured, Gene Expression Regulation drug effects, Humans, Keratinocytes pathology, Keratins genetics, Plant Extracts chemistry, Pterygium pathology, Receptor, Platelet-Derived Growth Factor alpha genetics, Vascular Endothelial Growth Factor A genetics, Vascular Endothelial Growth Factor Receptor-1 genetics, Curcuma chemistry, Keratinocytes drug effects, Plant Extracts administration & dosage, Pterygium drug therapy
Abstract

Pterygium is a relatively common eye disease that can display an aggressive clinical behaviour. To evaluate the in vitro effects of Curcuma longa on human pterygium-derived keratinocytes, specimens of pterygium from 20 patients undergoing pterygium surgical excision were collected. Pterygium explants were put into culture and derived keratinocytes were treated with an alcoholic extract of 1.3% Curcuma longa in 0.001% Benzalkonium Chloride for 3, 6, and 24 h. Cultured cells were examined for CAM5.2 (anti-cytokeratin antibody) and CD140 (anti-fibroblast transmembrane glycoprotein antibody) expression between 3th and 16th passage to assess cell homogeneity. TUNEL technique and Annexin-V/PI staining in flow cytometry were used to detect keratinocyte apoptosis. We showed that Curcuma longa exerts a proapoptotic effect on pterygium-derived keratinocytes already after 3 h treatment. Moreover, after 24 h treatment, Curcuma longa induces a significant increase in TUNEL as well as Annexin-V/PI positive cells in comparison to untreated samples. Our study confirms previous observations highlighting the expression, in pterygium keratinocytes, of nuclear VEGF and gives evidence for the first time to the expression of nuclear and cytoplasmic VEGF-R1. All in all, these findings suggest that Curcuma longa could have some therapeutic potential in the treatment and prevention of human pterygium.

Published
2017
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33. Predictive value of microparticle-associated tissue factor activity for permeability glycoprotein-mediated multidrug resistance in cancer.

Author

Angelini A, Miscia S, Centurione MA, Di Pietro R, and Centurione L

Abstract

Multidrug resistance (MDR) protein 1, which is also known as permeability glycoprotein (Pgp), and tissue factor (TF) are recurrently overexpressed on the surface of cancer cells, likely in response to stimuli such as chemotherapy. Microparticles (MPs) released from cancer cells into the bloodstream express tumour markers on their surface that may be useful as predictive biomarkers for evaluating disease progression. The present study measured the level of TF/factor VII (FVII)-dependent coagulation of MPs isolated from the plasma of cancer patients with various tumours, who were undergoing chemotherapy. Furthermore, Pgp expression on the surface of MPs was evaluated by immunohistochemistry. A total of 50 cancer patients, as well as 10 healthy volunteers, were enrolled in the present study. MP-associated TF/FVII-dependent coagulation pathways were evaluated as the effect of an anti-FVII antibody on the time to thrombin generation, as compared with controls treated with saline. The significantly lengthened times of coagulation [obtained in 20/50 samples (36.5 ± 16%) after treatment with anti-FVIIa when compared with controls] suggest the presence of TF activity is associated with circulating MPs. Furthermore, the 20 MP/TF-positive samples were associated with Pgp overexpression on their surface. Conversely, in the remaining samples (n=30), treatment with the anti-FVIIa antibody did not significantly lengthen the time to clotting (<10%), and Pgp overexpression was not detected. In addition, in the control samples from healthy individuals, Pgp expression at the plasma membrane and clotting in the presence of the anti-FVII antibody were not observed, indicating the absence of MPs. The present study demonstrated that MPs in the blood of cancer patients promoted fibrin generation via TF/FVII-dependent pathways, thus suggesting that the evaluation of MP-TF activity may have a predictive value for Pgp-mediated MDR in various cancer types. Although further studies are required, the measurement of plasma MP-associated TF activity as a predictive biomarker may provide novel therapeutic perspectives to improve the prognosis and effectiveness of anti-cancer drugs in patients who are at a high-risk of Pgp-mediated MDR.

Published
2016
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34. DNA Repair and Cytokines: TGF-β, IL-6, and Thrombopoietin as Different Biomarkers of Radioresistance.

Author

Centurione L and Aiello FB

Abstract

Double strand breaks (DSBs) induced by radiotherapy are highly cytotoxic lesions, leading to chromosomal aberrations and cell death. Ataxia-telangiectasia-mutated (ATM)-dependent DNA-damage response, non-homologous end joining, and homologous recombination pathways coordinately contribute to repairing DSBs in higher eukaryotes. It is known that the expression of DSB repair genes is increased in tumors, which is one of the main reasons for radioresistance. The inhibition of DSB repair pathways may be useful to increase tumor cell radiosensitivity and may target stem cell-like cancer cells, known to be the most radioresistant tumor components. Commonly overexpressed in neoplastic cells, cytokines confer radioresistance by promoting proliferation, survival, invasion, and angiogenesis. Unfortunately, tumor irradiation increases the expression of various cytokines displaying these effects, including transforming growth factor-beta and interleukin-6. Recently, the capabilities of these cytokines to support DNA repair pathways and the ATM-dependent DNA response have been demonstrated. Thrombopoietin, essential for megakaryopoiesis and very important for hematopoietic stem cell (HSC) homeostasis, has also been found to promote DNA repair in a highly selective manner. These findings reveal a novel mechanism underlying cytokine-related radioresistance, which may be clinically relevant. Therapies targeting specific cytokines may be used to improve radiosensitivity. Specific inhibitors may be chosen in consideration of different tumor microenvironments. Thrombopoietin may be useful in fending off irradiation-induced loss of HSCs.

Published
2016
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35. Ultrastructural regenerating features of nasal mucosa following microdebrider-assisted turbinoplasty are related to clinical recovery.

Author

Neri G, Cazzato F, Mastronardi V, Pugliese M, Centurione MA, Di Pietro R, and Centurione L

Subjects
Adolescent, Adult, Aged, Female, Humans, Male, Middle Aged, Nasal Mucosa surgery, Postoperative Care, Preoperative Care, Young Adult, Nasal Mucosa ultrastructure, Nasal Surgical Procedures instrumentation, Nasal Surgical Procedures methods, Regeneration, Turbinates surgery
Abstract

Background: The nasal mucosa plays a key role in conditioning the inhaled air and in regulating the immune response. These functions led many authors to recommend mucosal sparing techniques for the surgical management of inferior turbinate hypertrophy. However, the histological modifications of chronic diseases retain the inflammatory activity and prevent the nasal physiology restoration. It has been proved that the basal cells of the nasal mucosa are able to proliferate and to repair after cold-knife incision. The aim of this study was to demonstrate that the healing process after removal of the inferior turbinate mucosa with cold techniques results in a complete structural restoration., Methods: A prospective study was performed in 18 patients who underwent Microdebrider inferior turbinoplasty (cold technique). Subjective and objective improvement of nasal patency was evaluated with visual analogue scale, rhinomanometry, videoendoscopy and mucociliary transport test. Pre- and post-operative biopsy specimens were taken from 7 patients to evaluate the healing process. Two samples were taken from two healthy patients as control. The specimens were processed for transmission electron microscopy analysis., Results: Videoendoscopy showed reduction of lower turbinate after surgery. Nasal patency augmented and no adverse consequences were observed. After 4 months the nasal mucosa showed normal appearance, with restoration of the pseudostratified ciliated pattern, intercellular connections and normal cellular morphology. Fibrosis and submucosal edema disappeared. At longer time after operation (4 years) clinical improvement was confirmed., Conclusions: The total removal of the nasal mucosa with cold techniques results in a complete restoration of the normal structure and permanent resolution of the chronic inflammation typical of hypertrophic rhinopathy.

Published
2016
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36. Molecular and phenotypic characterization of human amniotic fluid-derived cells: a morphological and proteomic approach.

Author

Pipino C, Pierdomenico L, Di Tomo P, Di Giuseppe F, Cianci E, D'Alimonte I, Morabito C, Centurione L, Antonucci I, Mariggiò MA, Di Pietro R, Ciccarelli R, Marchisio M, Romano M, Angelucci S, and Pandolfi A

Subjects
Amniocentesis, Amniotic Fluid metabolism, Cell Lineage, Epithelial Cells metabolism, Female, Fibroblasts metabolism, Humans, Mesenchymal Stem Cells metabolism, Pregnancy, Protein Biosynthesis genetics, Protein Interaction Maps genetics, Proteomics, Regenerative Medicine, Amniotic Fluid cytology, Cell Differentiation genetics, Epithelial Cells cytology, Fibroblasts cytology, Mesenchymal Stem Cells cytology
Abstract

Mesenchymal Stem Cells derived from Amniotic Fluid (AFMSCs) are multipotent cells of great interest for regenerative medicine. Two predominant cell types, that is, Epithelial-like (E-like) and Fibroblast-like (F-like), have been previously detected in the amniotic fluid (AF). In this study, we examined the AF from 12 donors and observed the prevalence of the E-like phenotype in 5, whereas the F-like morphology was predominant in 7 samples. These phenotypes showed slight differences in membrane markers, with higher CD90 and lower Sox2 and SSEA-4 expression in F-like than in E-like cells; whereas CD326 was expressed only in the E-like phenotype. They did not show any significant differences in osteogenic, adipogenic or chondrogenic differentiation. Proteomic analysis revealed that samples with a predominant E-like phenotype (HC1) showed a different profile than those with a predominant F-like phenotype (HC2). Twenty-five and eighteen protein spots were differentially expressed in HC1 and HC2 classes, respectively. Of these, 17 from HC1 and 4 from HC2 were identified by mass spectrometry. Protein-interaction networks for both phenotypes showed strong interactions between specific AFMSC proteins and molecular chaperones, such as preproteasomes and mature proteasomes, both of which are important for cell cycle regulation and apoptosis. Collectively, our results provide evidence that, regardless of differences in protein profiling, the prevalence of E-like or F-like cells in AF does not affect the differentiation capacity of AFMSC preparations. This may be valuable information with a view to the therapeutic use of AFMSCs.

Published
2015
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37. Human second trimester amniotic fluid cells are able to create embryoid body-like structures in vitro and to show typical expression profiles of embryonic and primordial germ cells.

Author

Antonucci I, Di Pietro R, Alfonsi M, Centurione MA, Centurione L, Sancilio S, Pelagatti F, D'Amico MA, Di Baldassarre A, Piattelli A, Tetè S, Palka G, Borlongan CV, and Stuppia L

Subjects
Adult, Alternative Splicing genetics, Cell Separation, Cell Shape, Embryonic Stem Cells cytology, Female, Humans, Pregnancy, Amniotic Fluid cytology, Embryo, Mammalian cytology, Embryoid Bodies cytology, Gene Expression Profiling, Gene Expression Regulation, Developmental, Germ Cells cytology, Pregnancy Trimester, Second metabolism
Abstract

Human amniotic fluid-derived stem cells (AFSCs) represent a novel class of broadly multipotent stem cells sharing characteristics of both embryonic and adult stem cells. However, both the origin of these cells and their actual properties in terms of pluripotent differentiation potential are still debated. In order to verify the presence of features of pluripotency in human second trimester AFSCs, we have investigated the ability of these cells to form in vitro three-dimensional aggregates, known as embryoid bodies (EBs), and to express specific genes of embryonic stem cells (ESCs) and primordial germ cells (PGCs). EBs were obtained after 5 days of AFSC culture in suspension and showed positivity for alkaline phosphatase (AP) staining and for specific markers of pluripotency (OCT4 and SOX2). Moreover, EB-derived cells showed the expression of specific transcripts of the three germ layers. RT-PCR analysis, carried out at different culture times (second, third, fourth, fifth, and eighth passages), revealed the presence of specific markers of ESCs (such as FGF4 and DAPPA4), as well as of markers typical of PGCs and, in particular, genes involved in early stages of germ cell development (Fragilis, Stella, Vasa, c-Kit, Rnf17). Finally, the expression of genes related to the control of DNA methylation (DNMT3A, DNMT3b1, DNMT1, DNMT3L, MBD1, MBD2, MBD3, MDB4, MeCP2), as well as the lack of inactivation of the X-chromosome in female samples, was also demonstrated. Taken together, these data provide further evidence for the presence of common features among human AFSCs, PGCs, and ESCs.

Published
2014
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38. Inhibition of P-glycoprotein-mediated transport by S-adenosylmethionine and cynarin in multidrug-resistant human uterine sarcoma MES-SA/Dx5 cells.

Author

Angelini A, Di Pietro R, Centurione L, Castellani ML, Conti P, Porreca E, and Cuccurullo F

Subjects
ATP Binding Cassette Transporter, Subfamily B, Antibiotics, Antineoplastic pharmacology, Biological Transport drug effects, Cell Line, Tumor, Doxorubicin pharmacology, Female, Gene Expression Regulation, Neoplastic drug effects, Humans, Sarcoma drug therapy, Sarcoma pathology, Uterine Neoplasms drug therapy, Uterine Neoplasms pathology, ATP Binding Cassette Transporter, Subfamily B, Member 1 biosynthesis, Cholagogues and Choleretics pharmacology, Cinnamates pharmacology, Drug Resistance, Microbial drug effects, Drug Resistance, Neoplasm drug effects, Neoplasm Proteins biosynthesis, S-Adenosylmethionine metabolism, Sarcoma metabolism, Uterine Neoplasms metabolism
Abstract

Multidrug resistance (MDR) to anticancer chemotherapy is often mediated by the overexpression of the plasma membrane drug transporter P-glycoprotein (Pgp) encoded by multidrug resistance gene (MDR1). Various chemosensitizing agents are able to inhibit Pgp activity but their clinical application is limited by their toxicity. Furthermore, hepatotoxicity related to chemotherapy causes delays of treatment in cancer patients and often requires supplementation of anti-tumour therapy with hepatoprotective agents. In this in vitro study, we investigated the effectiveness of an endogenous hepatoprotective agent, S-adenosylmethionine (SAMe), and a natural hepatoprotective compound, Cynarin (Cyn), to inhibit Pgp activity in order to evaluate their potential use as chemosensitizing agents. Human doxorubicin (doxo) resistant uterine sarcoma cells (MES-SA/Dx5) expressing high levels of Pgp were treated with two hepatoprotectors at various concentrations (1, 5 and 10 microM) that are clinically achievable, in the presence or absence of three different concentrations of doxo (2, 4 and 8 microM). In order to evaluate the effects of both hepatoprotectors, we measured the intracellular accumulation and cytotoxicity of doxo, the cellular GSH level, ROS production and catalase (CAT) activity. We found that treatment with 2, 4 and 8 microM doxo in the presence of SAMe or Cyn significantly increased the doxo accumulation and cytotoxicity on MES-SA/Dx5 cells, when compared to control cells receiving doxo alone. Moreover, treatment with SAMe or Cyn significantly increased GSH content, greater than 80 percent and 60 percent, respectively) and CAT activity greater than 60 and 150 percent, respectively) in resistant cancer cells, while ROS production was below the values of corresponding untreated control cells. Our in vitro findings provide a rationale for the potential clinical use of these hepatoprotectors both as chemosensitizing agents, to reverse Pgp-mediated MDR, and as antioxidants to protect normal cells from chemotherapy-induced cytotoxixity.

Published
2012

39. Stem cell ageing and apoptosis.

Author

Fulle S, Centurione L, Mancinelli R, Sancilio S, Manzoli FA, and Di Pietro R

Subjects
Adult, Humans, Apoptosis, Cellular Senescence physiology, Stem Cells pathology
Abstract

Ageing has been defined as the process of deterioration of many body functions over the lifespan of an individual. In spite of the number of different theories about ageing, there is a general consensus in identifying ageing effects in a reduced capacity to regenerate injured tissues or organs and an increased propensity to infections and cancer. In recent years the stem cell theory of ageing has gained much attention. Adult stem cells residing in mammalian tissues are essential for tissue homeostasis and repair throughout adult life. With advancing age, the highly regulated molecular signalling necessary to ensure proper cellular, tissue, and organ homeostasis loses coordination and leads, as a consequence, to a compromised potential of regeneration and repair of damaged cells and tissues. Although a complete comprehension of the molecular mechanisms involved in stem cell ageing and apoptosis is far to be reached, recent studies are beginning to unravel the processes involved in stem cell ageing, particularly in adult skeletal muscle stem cells, namely satellite cells. Thus, the focus of this review is to analyse the relationship between stem cell ageing and apoptosis with a peculiar attention to human satellite cells as compared to haematopoietic stem cells. Undoubtedly, the knowledge of age-related changes of stem cells will help in understanding the ageing process itself and will provide novel therapeutic challenges for improved tissue regeneration.

Published
2012
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40. The effect of the plasticizer diethylhexyl phthalate on transport activity and expression of P-glycoprotein in parental and doxo-resistant human sarcoma cell lines.

Author

Angelini A, Centurione L, Sancilio S, Castellani ML, Conti P, Di Ilio C, Porreca E, Cuccurullo F, and Di Pietro R

Subjects
ATP Binding Cassette Transporter, Subfamily B, Member 1 genetics, Antineoplastic Combined Chemotherapy Protocols, Cell Line, Tumor, Diethylhexyl Phthalate therapeutic use, Dose-Response Relationship, Drug, Drug Synergism, Female, Gene Expression, Humans, Immunohistochemistry, Plasticizers therapeutic use, Sarcoma drug therapy, Sarcoma pathology, Uterine Neoplasms drug therapy, Uterine Neoplasms pathology, ATP Binding Cassette Transporter, Subfamily B, Member 1 metabolism, Antineoplastic Agents pharmacology, Biological Transport, Active drug effects, Diethylhexyl Phthalate pharmacology, Doxorubicin pharmacology, Drug Resistance, Neoplasm drug effects, Plasticizers pharmacology
Abstract

Multidrug resistance (MDR) to cancer therapy is frequently associated with the over-expression of the multidrug transporter MDR1 gene product P-glycoprotein (Pgp) in several types of human tumours. Various chemosensitizers have been used to inhibit Pgp activity but toxicity limits their clinical application. Di(2-ethylhexyl)phthalate (DEHP) is a plasticizer that is released from polyvinyl chloride (PVC) medical devices. Therefore, cancer patients undertaking chemotherapy are exposed to a clinically important amount of DEHP through blood and blood component transfusions, apheresis products, intravenous chemotherapy, parenteral nutrition and other medical treatments. The present study was designed to investigate the effects of DEHP on transport activity and expression of Pgp in order to evaluate its potential use as a chemosensitizer in cancer therapy. Human doxorubicin (doxo) resistant sarcoma cells (MES-SA/Dx5) that over-express Pgp were treated with different doses of doxo (2, 4 and 8 μM) in the presence or absence of various concentrations of DEHP (3, 6 and 12 μM) that were clinically achievable in vivo. Our results show that co-treatment with 2, 4 and 8 μM doxo in the presence of the lowest concentration of DEHP (3 μM) enhanced significantly doxo accumulation in MES-SA/Dx5 cells and, consistently increased the sensitivity to doxo, when compared to controls receiving only doxo. In contrast, higher DEHP concentrations (6 and 12 μM) induced MES-SA/Dx5 to extrude doxo decreasing doxo cytotoxicity toward resistant cells below control values. These results are consistent with the increase in Pgp expression levels in parental MES-SA cells treated with 3, 6 and 12 μM DEHP for 24 h and compared to untreated controls. All in all, these findings suggest a potential clinical application of DEHP as a chemosensitizer to improve effectiveness of the antineoplastic drugs in MDR human tumours.

Published
2011

41. HIF-1alpha cytoplasmic accumulation is associated with cell death in old rat cerebral cortex exposed to intermittent hypoxia.

Author

Rapino C, Bianchi G, Di Giulio C, Centurione L, Cacchio M, Antonucci A, and Cataldi A

Subjects
Adaptor Proteins, Signal Transducing biosynthesis, Animals, Apoptosis physiology, Cell Death physiology, Cell Hypoxia physiology, Cerebral Cortex blood supply, Cerebral Cortex cytology, Cytoplasm metabolism, Hypoxia-Inducible Factor 1, alpha Subunit, I-kappa B Proteins metabolism, Immunohistochemistry, In Situ Nick-End Labeling methods, Male, Microscopy, Polarization, Neurons cytology, Neurons metabolism, Oxidative Stress, Phosphorylation, Rats, Rats, Sprague-Dawley, Reactive Oxygen Species metabolism, Shc Signaling Adaptor Proteins, Signal Transduction, Src Homology 2 Domain-Containing, Transforming Protein 1, Adaptor Proteins, Signal Transducing metabolism, Aging metabolism, Cerebral Cortex metabolism, Transcription Factors metabolism
Abstract

Intermittent hypoxia, followed by reoxygenation, determines the production of reactive oxygen species (ROS), which may lead to accelerated aging and to the appearance of age-related diseases. The rise in ROS levels might constitute a stress-stimulus activating specific redox-sensitive signalling pathways, so inducing either damaging or protective functions. Here, we report that in old rat cerebral cortex exposed to hypoxia, the accumulation in the cytoplasm of hypoxic inducible factor 1alpha (HIF-1alpha)--the master regulator of oxygen homeostasis--concomitant with p66(Shc) activation and reduced IkBalpha phosphorylation is associated with tissue apoptosis or necrosis. In young cerebral cortex, we hypothesize that the hypoxic damage may be reversible, based on our demonstration of elevated HIF-1alpha levels, combined with a low level of IkBalpha phosphorylation, a decrease in IAP-1 and a lack of major change in Bcl2 family proteins. These observations are associated with a low level of cell death induced by hypoxia, suggesting that HIF-1alpha activation in cortical neurons may produce rescue proteins in response to intermittent hypoxia.

Published
2005
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42. Protein kinase C zeta regulation of hypertrophic and apoptotic events occurring during rat neonatal heart development and growth.

Author

Centurione L, Di Giulio C, Santavenere E, Cacchio M, Sabatini N, Rapino C, Bianchi G, Rapino M, Bosco D, Antonucci A, and Cataldi A

Subjects
Animals, Animals, Newborn physiology, Blotting, Western, Image Processing, Computer-Assisted, Immunohistochemistry, Immunoprecipitation, In Situ Nick-End Labeling, Microscopy, Immunoelectron, Myocardium cytology, Rats, Rats, Wistar, Signal Transduction physiology, Transcription Factors, Apoptosis physiology, Cardiomegaly enzymology, Heart growth & development, Protein Kinase C physiology
Abstract

The development and growth of the rat heart implies hyperplasia, which stops at birth, and hypertrophy, allowing cardiac mass to grow in response to programmed genetic events along with to haemodynamic overload. Moreover, hypertrophy is accomplished to apoptosis which controls the final number of myocardial cells, deletes vestigial structures, and takes part in remodelling the organ. Since at the basis of all these processes, which lead to the complete development of the heart, the activation of specific signalling pathways underlies, attention has been addressed to the role played in vivo by Protein Kinase C zeta (PKC zeta) in regulating NF-kB signalling system and intrinsic mitochondrial apoptotic route at days 1, 4, 10 and 22 of rat life. In fact, a role has been assigned to PKC zeta in indirectly phosphorylating IKBa, which peaks between 10 and 22 days, through a IKK determining, in turn, NF-kB activation, concomitantly to cytochrome c/Apaf 1 co-localization in the cytoplasm and caspase-9/caspase-3 activation, which leads to the occurrence of apoptosis. Thus a key role for PKC zeta in regulating the hypertrophic and apoptotic events leading to establishment of complete function in rat neonatal heart is here suggested.

Published
2005
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43. Increased and pathologic emperipolesis of neutrophils within megakaryocytes associated with marrow fibrosis in GATA-1(low) mice.

Author

Centurione L, Di Baldassarre A, Zingariello M, Bosco D, Gatta V, Rana RA, Langella V, Di Virgilio A, Vannucchi AM, and Migliaccio AR

Subjects
Animals, Antigens, Surface analysis, Apoptosis, Bone Marrow Cells pathology, Cell Fusion, Cytoplasm, Erythroid-Specific DNA-Binding Factors, GATA1 Transcription Factor, Megakaryocytes pathology, Membrane Fusion, Mice, Mice, Mutant Strains, Microscopy, Electron, Primary Myelofibrosis etiology, Spleen pathology, DNA-Binding Proteins physiology, Megakaryocytes ultrastructure, Neutrophils pathology, Primary Myelofibrosis pathology, Transcription Factors physiology
Abstract

Deletion of megakaryocytic-specific regulatory sequences of GATA-1 (Gata1(tm2Sho) or GATA-1(low) mutation) results in severe thrombocytopenia, because of defective thrombocytopoiesis, and myelofibrosis. As documented here, the GATA-1(low) mutation blocks megakaryocytic maturation between stage I and II, resulting in accumulation of defective megakaryocytes (MKs) in the tissues of GATA-1(low) mice. The block in maturation includes failure to properly organize alpha granules because von Willebrand factor is barely detectable in mutant MKs, and P-selectin, although normally expressed, is found frequently associated with the demarcation membrane system (DMS) instead of within granules. Conversely, both von Willebrand factor and P-selectin are barely detectable in GATA-1(low) platelets. Mutant MKs are surrounded by numerous myeloperoxidase-positive neutrophils, some of which appear in the process to establish contact with MKs by fusing their membrane with those of the DMS. As a result, 16% (in spleen) to 34% (in marrow) of GATA-1(low) MKs contain 1 to 3 neutrophils embedded in a vacuolated cytoplasm. The neutrophil-embedded GATA-1(low) MKs have morphologic features (high electron density and negativity to TUNEL staining) compatible with those of cells dying from para-apoptosis. We suggest that such an increased and pathologic neutrophil emperipolesis may represent one of the mechanisms leading to myelofibrosis by releasing fibrogenic MK cytokines and neutrophil proteases in the microenvironment.

Published
2004
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44. Caspase-3 is dually regulated by apoptogenic factors mitochondrial release and by SAPK/JNK metabolic pathway in leukemic cells exposed to etoposide-ionizing radiation combined treatment.

Author

Di Pietro R, Centurione L, Sabatini N, Bosco D, Sancilio S, Garaci F, Rana R, and Cataldi A

Subjects
Apoptosis drug effects, Blotting, Western, Caspase 3, Cell Fractionation, Combined Modality Therapy, Dose-Response Relationship, Drug, Dose-Response Relationship, Radiation, Electrophoresis, Polyacrylamide Gel, Gene Expression Regulation, Enzymologic drug effects, Gene Expression Regulation, Enzymologic radiation effects, HL-60 Cells, Humans, Immunoprecipitation, Jurkat Cells, Leukemia drug therapy, Leukemia radiotherapy, Microscopy, Fluorescence, Microscopy, Immunoelectron, Topoisomerase II Inhibitors, Antineoplastic Agents, Phytogenic therapeutic use, Apoptosis physiology, Caspases biosynthesis, Caspases genetics, Etoposide therapeutic use, Gene Expression Regulation, Enzymologic physiology, JNK Mitogen-Activated Protein Kinases physiology, Leukemia metabolism, Mitochondria enzymology
Abstract

Ionizing radiation induces a series of multiple intracellular events which can lead to activation of caspases, cytoplasmic proteases involved in the occurrence of apoptosis. The response of leukemic cells to ionizing radiation is amplified when they have been pre-treated with the anticancer drug etoposide, therefore the aim of this work has been to establish the lowest etoposide concentration combined with the lowest ionizing radiation dose to obtain the best antineoplastic response. Two leukemic cell lines, HL-60 and Jurkat, employed in this study demonstrated different sensitivities to ionizing radiation and to etoposide treatment, with Jurkat T cells requiring a higher dose (1 microM) to display cell cycle perturbation and apoptotic DNA damage similar to those seen in HL-60. We hypothesize that this kind of response could be mediated by mitochondrial release of apoptogenic factors and by SAPK/JNK metabolic pathway activation, both leading to caspase-3 cleavage. All in all these results provide insight into the sensitivity or resistance of leukemic cells to antineoplastic agents and identify molecular targets for rational therapeutic intervention strategies.

Published
2004
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45. Molecular and morphological modifications occurring in rat heart exposed to intermittent hypoxia: role for protein kinase C alpha.

Author

Cataldi A, Bianchi G, Rapino C, Sabatini N, Centurione L, Di Giulio C, Bosco D, and Antonucci A

Subjects
Animals, DNA Fragmentation, Enzyme Activation, Hypoxia-Inducible Factor 1, alpha Subunit, Immunohistochemistry methods, In Situ Nick-End Labeling, Male, Microscopy, Electron, Myocardium chemistry, Myocardium ultrastructure, Rats, Rats, Wistar, Transcription Factors analysis, Vascular Endothelial Growth Factor A analysis, Aging physiology, Hypoxia enzymology, Isoenzymes metabolism, Myocardium enzymology, Protein Kinase C metabolism, Signal Transduction physiology
Abstract

Exposure of rats to intermittent hypoxia determines different responses at tissue and cell level. Heart mainly undergoes the effects of hypoxic injury and its response is determined both by the relationship between oxygen supply and demand and by its functional state. Since molecular mechanisms mediate cells sensing and response to low O(2) concentration, here we explore the role played by Protein Kinase C alpha (PKC alpha) in the signal transduction mechanisms leading to the occurrence of morphological responses in rat neonatal, young and old heart subjected to intermittent hypoxia. Along with a key role for hypoxia inducible factor and vascular endothelial growth factor in the occurrence of continuous state of dynamic adaptation of vasculature, PKC alpha presumably phosphorylates IkBalpha in rat normoxic and hypoxic neonatal hearts, supporting the hypothesis of a rescue strategy carried out against hypoxia, together with an hypertrophic response. In hypoxic young heart PKC alpha activation, paralleled by sustained Bax homodimerization and caspase-3 activation, along with reduced p-IKBalpha and Inhibiting Apoptosis Protein (IAP) expression, suggests that the young early and deeply undergoes the effects of lowered oxygen tension. In addition, since no modifications concerning PKC alpha driven signalling system are evidenced in both the experimental conditions, we suggest an oxygen impaired sensing during ageing.

Published
2004
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46. Effect of chronic hypoxia on inducible nitric oxide synthase expression in rat myocardial tissue.

Author

Grilli A, De Lutiis MA, Patruno A, Speranza L, Cataldi A, Centurione L, Taccardi AA, Di Napoli P, De Caterina R, Barbacane R, Conti P, and Felaco M

Subjects
Animals, Apoptosis, Blotting, Western, DNA Fragmentation, Electrophoresis, Gene Expression Regulation, Enzymologic, Image Processing, Computer-Assisted, Immunohistochemistry, In Situ Nick-End Labeling, Male, Myocardium pathology, Nitric Oxide Synthase genetics, Nitric Oxide Synthase Type II, RNA, Messenger analysis, Rats, Reverse Transcriptase Polymerase Chain Reaction, Transcription, Genetic, Hypoxia enzymology, Myocardium enzymology, Nitric Oxide Synthase biosynthesis
Abstract

The purpose of our study was to evaluate the effect of chronic exposure to low cellular oxygen tension (90% N2 and 10% O2 for 14 days) in inducing apoptosis and activation of transcription and translation of inducible nitric oxide (NO) synthase (iNOS) in rat hearts tissue. Rats were divided into four groups: normoxic, hypoxic, rats maintained in normoxic condition for 7 days and subjected to hypoxic conditions for another 7 days, and rats maintained in hypoxic condition for 7 days and subjected to normoxic conditions for another 7 days. At the 7th and 14th days, five rats from each group were sacrificed. Immunohistochemical and Western blot analysis were performed on myocardial tissue to reveal the presence of iNOS. Expression of iNOS was determined by RT-PCR. Apoptosis was evaluated by terminal deoxynucleotidyl transferase-mediated deoxyuridine triphosphate nick-end labeling and by detection of internucleosomal DNA fragmentation by electrophoresis. Electrophoretic analysis of DNA showed oligonucleosomal fragmentation in the hypoxic groups, but no ladder was observed in the other groups. This data was confirmed through end labeling with streptavidin-biotin (biotin d-UTP). iNOS expression was evaluated through immunohistochemical techniques (Ab anti-iNOS) and Western blotting, and the results were quantified with a computerized imaging analysis. The expression of iNOS protein was greater in the hypoxic groups; in the normoxic groups, only a nonspecific background was detected. This data was supported with results obtained through RT-PCR, which showed the specific transcription of mRNA for iNOS in the same experimental conditions. In addition, the iNOS activity was also evaluated and was found to be more active in the hypoxic groups (0.1 +/- 0.01 vs 0.02 +/- 0.003). The present study shows that exposure to low oxygen tension is capable of inducing programmed cell death and activating iNOS.

Published
2003
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47. NF-kappaB activation plays an antiapoptotic role in human leukemic K562 cells exposed to ionizing radiation.

Author

Cataldi A, Rapino M, Centurione L, Sabatini N, Grifone G, Garaci F, and Rana R

Subjects
Caspase 3, Caspases metabolism, Caspases radiation effects, Cell Nucleus metabolism, Cell Nucleus radiation effects, Cell Survival physiology, Cell Survival radiation effects, Cytoplasm metabolism, Cytoplasm radiation effects, Enzyme Activation radiation effects, Humans, I-kappa B Proteins metabolism, I-kappa B Proteins radiation effects, In Situ Nick-End Labeling, Jurkat Cells cytology, Jurkat Cells radiation effects, K562 Cells, Leukemia metabolism, Microscopy, Fluorescence, NF-kappa B metabolism, Phosphatidylinositol 3-Kinases metabolism, Phosphatidylinositol 3-Kinases radiation effects, Phosphorylation, Protein Kinase C metabolism, Protein Kinase C radiation effects, Radiation, Ionizing, Apoptosis physiology, Apoptosis radiation effects, Leukemia pathology, NF-kappa B physiology
Abstract

Exposure of cells to ionizing radiation (IR) determines cellular lesions, such as DNA and membrane damage, which involve a coordinate network of signal transduction pathways responsible for resistance to or delay of apoptosis, depending on cell type and administered dose. Since, after IR exposure, the apoptotic profile appeared different in the two chosen cell lines K562 and Jurkat along with caspase-3 activation, we paid attention to the influence exerted by Protein kinase C delta on transcription factor NF-kappaB activation. Interestingly, K562 resist to IR carrying out a survival strategy which includes PKC delta/NF-kappaB pathway activation, probably mediated by novel IKKs and a role for PI-3-kinase in activating PKC delta at Thr 505 by PDK-1 phosphorylation is suggested. In addition, since caspase-3 is not activated in these cells upon ionizing radiation exposure, it could be supposed that NF-kappaB antagonizes apoptosis induction interfering with pathways which lead to caspase activation, may be by inducing expression of IAP, caspases 3, 7, 9, inhibitor. Thus NF-kappaB activation explains the resistance displayed by K562 to IR and drug potential interference directed to this protein could overcome apoptosis resistance in clinical settings., (Copyright 2003 Wiley-Liss, Inc.)

Published
2003
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48. GATA-1 as a regulator of mast cell differentiation revealed by the phenotype of the GATA-1low mouse mutant.

Author

Migliaccio AR, Rana RA, Sanchez M, Lorenzini R, Centurione L, Bianchi L, Vannucchi AM, Migliaccio G, and Orkin SH

Subjects
3T3 Cells, Animals, Ascitic Fluid cytology, Ascitic Fluid immunology, Cell Differentiation genetics, Cell Differentiation immunology, Cell Differentiation physiology, Coculture Techniques, Colony-Forming Units Assay, Connective Tissue Cells cytology, Connective Tissue Cells immunology, DNA-Binding Proteins immunology, Enhancer Elements, Genetic, Erythroid-Specific DNA-Binding Factors, Female, GATA1 Transcription Factor, Gene Expression, Mast Cells immunology, Mast Cells physiology, Mice, Mice, Mutant Strains, Promoter Regions, Genetic, Stem Cells cytology, Stem Cells immunology, Stem Cells physiology, Transcription Factors immunology, Transduction, Genetic, DNA-Binding Proteins genetics, DNA-Binding Proteins physiology, Mast Cells cytology, Transcription Factors genetics, Transcription Factors physiology
Abstract

Here it is shown that the phenotype of adult mice lacking the first enhancer (DNA hypersensitive site I) and the distal promoter of the GATA-1 gene (neo Delta HS or GATA-1(low) mutants) reveals defects in mast cell development. These include the presence of morphologically abnormal alcian blue(+) mast cells and apoptotic metachromatic(-) mast cell precursors in connective tissues and peritoneal lavage and numerous (60-70% of all the progenitors) "unique" trilineage cells committed to erythroid, megakaryocytic, and mast pathways in the bone marrow and spleen. These abnormalities, which were mirrored by impaired mast differentiation in vitro, were reversed by retroviral-mediated expression of GATA-1 cDNA. These data indicate an essential role for GATA-1 in mast cell differentiation.

Published
2003
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49. Protein kinase C zeta nuclear translocation mediates the occurrence of radioresistance in friend erythroleukemia cells.

Author

Cataldi A, Centurione L, Di Pietro R, Rapino M, Bosco D, Grifone G, Garaci F, and Rana R

Subjects
Animals, Blotting, Western, In Situ Nick-End Labeling, Leukemia, Erythroblastic, Acute metabolism, Mice, Microscopy, Electron, Microscopy, Immunoelectron, Protein Isoforms, Subcellular Fractions metabolism, Time Factors, Tumor Cells, Cultured, Active Transport, Cell Nucleus, Leukemia, Erythroblastic, Acute radiotherapy, Protein Kinase C metabolism, Radiation Tolerance
Abstract

Friend erythroleukemia cells require high doses (15 Gy) of ionizing radiation to display a reduced rate of proliferation and an increased number of dead cells. Since ionizing radiation can activate several signaling pathways at the plasma membrane which can lead to the nuclear translocation of a number of proteins, we looked at the intranuclear signaling system activated by Protein Kinases C, being this family of enzymes involved in the regulation of cell growth and death. Our results show an early and dose-dependent increased activity of zeta and epsilon isoforms, although PKC zeta is the only isoform significantly active and translocated into the nuclear compartment upon low (1.5 Gy) and high (15 Gy) radiation doses. These observations are concomitant and consistent with an increase in the anti-apoptotic protein Bcl-2 level upon both radiation doses. Our results point at the involvement of the PKC pathway in the survival response to ionizing radiation of this peculiar cell line, offering PKC zeta for consideration as a possible target of pharmacological treatments aimed at amplifying the effect of such a genotoxic agent., (Copyright 2002 Wiley-Liss, Inc.)

Published
2003
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50. Engagement of PI-3-kinase mediated protein kinase C zeta activation in protecting Friend cells from ionizing radiation-induced apoptosis.

Author

Cataldi A, Di Pietro R, Centurione L, Rapino M, Santavenere E, Garaci F, Cocco L, Giuliani-Piccari G, and Rana R

Subjects
DNA biosynthesis, Enzyme Activation, Humans, Leukemia, Erythroblastic, Acute pathology, Tumor Cells, Cultured, Apoptosis radiation effects, Friend murine leukemia virus, Leukemia, Erythroblastic, Acute radiotherapy, Phosphatidylinositol 3-Kinases physiology, Protein Kinase C physiology
Abstract

Murine erythroleukemia cells (Friend) respond to ionizing radiation with the activation and nuclear translocation of p85alpha subunit of phosphatidylinositol-3-kinase (PI-3-kinase) which mediates the downstream activation and nuclear translocation of atypical Protein kinase C zeta (PKC zeta). This event occurs mainly upon high dose of ionizing radiation (15 Gy) and is concomitant to an increase in BrdU incorporation, which probably accounts for a predominant repair DNA synthesis. Following treatment with wortmannin, a relatively specific inhibitor of PI-3-kinase, both an increased number of apoptotic cells and the inhibition of protein kinase C zeta translocation were detected. Altogether the evidence suggests a potential role of the PI-3-kinase/PKC zeta pathway in protecting Friend cells from ionizing radiation-induced apoptosis offering PKC zeta for consideration as possible target of pharmacological treatments.

Published
2003

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