Your search keyword '"Nuria Vilaboa"' showing total 89 results

1. Recent efforts in the development of nanomaterials to control transgene expression

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Author

Clara Escudero-Duch and Nuria Vilaboa

Subjects

Chemistry, Transgene, Genetic enhancement, Biomedical Engineering, Medicine (miscellaneous), Hydrogels, Bioengineering, Development, Nanostructures, Nanomaterials, Cell biology, Gene Expression Regulation, Tissue engineering, General Materials Science, Transgenes

Published

2020

2. Remote control of transgene expression using noninvasive near-infrared irradiation

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Author

Clara Escudero-Duch, Laura Muñoz-Moreno, Francisco Martin-Saavedra, Silvia Sanchez-Casanova, Miguel Angel Lerma-Juarez, and Nuria Vilaboa

Subjects

Radiation, Radiological and Ultrasound Technology, Biophysics, Radiology, Nuclear Medicine and imaging

Published

2023

3. Vitamin B9 derivatives as carriers of bioactive cations for musculoskeletal regeneration applications: Synthesis, characterization and biological evaluation

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Author

Ana Leite-Oliveira, Nuria Vilaboa, Rosa Ana Ramírez-Jiménez, Manuel Silva, Laura Saldaña, Luis Rojo, Gerardo Asensio, Daniel Fernández-Villa, Julio San Román, Blanca Vázquez-Lasa, Ministerio de Economía y Competitividad (España), Ministerio de Ciencia, Innovación y Universidades (España), European Commission, and Veritati - Repositório Institucional da Universidade Católica Portuguesa more...

Subjects

Vitamin, Biocompatible Materials, Matrix (biology), 01 natural sciences, Mineralization (biology), Divalent, 03 medical and health sciences, chemistry.chemical_compound, Folic Acid, Tissue engineering, Cations, Drug Discovery, Humans, Magnesium, Musculoskeletal System, Cells, Cultured, 030304 developmental biology, Pharmacology, chemistry.chemical_classification, Drug Carriers, 0303 health sciences, Manganese, 010405 organic chemistry, Organic Chemistry, Mesenchymal stem cell, Metal-folate complexes, Mesenchymal Stem Cells, General Medicine, 0104 chemical sciences, Zinc, Biochemistry, chemistry, Strontium, Alkaline phosphatase, Musculoskeletal regeneration

Abstract

The development of new drugs for musculoskeletal regeneration purposes has attracted much attention in the last decades. In this work, we present three novel vitamin B9 (folic acid)-derivatives bearing divalent cations (ZnFO, MgFO and MnFO), providing their synthesis mechanism and physicochemical characterization. In addition, a strong emphasis has been placed on evaluating their biological properties (along with our previously reported SrFO) using human mesenchymal stem cells (hMSC). In all the cases, pure folate derivatives (MFOs) with a bidentate coordination mode between the metal and the folate anion, and a 1:1 stoichiometry, were obtained in high yields. A non-cytotoxic dose of all the MFOs (50 ¿g/mL) was demonstrated to modulate by their own the mRNA profiles towards osteogenic-like or fibrocartilaginous-like phenotypes in basal conditions. Moreover, ZnFO increased the alkaline phosphatase activity in basal conditions, while both ZnFO and MnFO increased the matrix mineralization degree in osteoinductive conditions. Thus, we have demonstrated the bioactivity of these novel compounds and the suitability to further studied them in vivo for musculoskeletal regeneration applications., This work has been funded by the Spanish MICINN(MAT201573656-JIN, RTI2018-095159-B-I00), ISCIII-FEDER-MINECO-AES (PI15/00752, PI15/01118, PI18/00643) CAM (IND2018/BMD-9485) and ERASMUSþTraineeship Programmes. D.F.-V. isfinancially supported by a predoctoral program MICINN FPU18/04683. L.S is financially supported by a Miguel Servet contract(CPII16/00038) from ISCIII- FEDER-MINECO-AES- FSE. N.V is financially supported by Program I2 from CAM. B. V. and L. R. are members of the SusPlast platform from the Spanish National Research Council (CSIC) more...

Published

2021

4. Spatiotemporally-controlled transgene expression in hydroxyapatite-fibrin composite scaffolds using high intensity focused ultrasound

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Author

Sam Natla, Mario L. Fabiilli, Francisco Martín-Saavedra, Alexander Moncion, Oliver D. Kripfgans, Easton C. Farrell, Jan P. Stegemann, Renny T. Franceschi, Nuria Vilaboa, Jonah S. Harmon, and Yan Li

Subjects

Scaffold, medicine.medical_treatment, Transgene, Biophysics, Gene Expression, Biocompatible Materials, Bioengineering, 02 engineering and technology, Article, Fibrin, Hydroxyapatite, Cell Line, Biomaterials, Mice, 03 medical and health sciences, Gene therapy, Tissue engineering, Luciferases, Firefly, In vivo, medicine, Animals, Hyperthermia, Transgenes, 030304 developmental biology, 0303 health sciences, Tissue Engineering, Tissue Scaffolds, biology, Chemistry, Growth factor, Regeneration (biology), 021001 nanoscience & nanotechnology, High intensity focused ultrasound, High-intensity focused ultrasound, Hydrogel, Durapatite, Mechanics of Materials, Ceramics and Composites, biology.protein, High-Intensity Focused Ultrasound Ablation, Female, 0210 nano-technology, Biomedical engineering

Abstract

Conventional tissue engineering approaches rely on scaffold-based delivery of exogenous proteins, genes, and/or cells to stimulate regeneration via growth factor signaling. However, scaffold-based approaches do not allow active control of dose, timing, or spatial localization of a delivered growth factor once the scaffold is implanted, yet these are all crucial parameters in promoting tissue regeneration. To address this limitation, we developed a stable cell line containing a heat-activated and rapamycin-dependent gene expression system. In this study, we investigate how high intensity focused ultrasound (HIFU) can spatiotemporally control firefly luciferase (fLuc) transgene activity both in vitro and in vivo by the tightly controlled generation of hyperthermia. Cells were incorporated into composite scaffolds containing fibrin and hydroxyapatite particles, which yielded significant increases in acoustic attenuation and heating in response to HIFU compared to fibrin alone. Using 2.5 MHz HIFU, transgene activation was observed at acoustic intensities of 201 W/cm2 and higher. Transgene activation was spatially patterned in the scaffolds by rastering HIFU at speeds up to 0.15 mm/s. In an in vivo study, a 67-fold increase in fLuc activity was observed in scaffolds exposed to HIFU and rapamycin versus rapamycin only at 2 days post implantation. Repeated activation of transgene expression was also demonstrated 8 days after implantation. No differences in in vivo scaffold degradation or compaction were observed between +HIFU and -HIFU groups. These results highlight the potential utility of using this heat-activated and rapamycin-dependent gene expression system in combination with HIFU for the controlled stimulation of tissue regeneration. more...

Published

2019

5. Herpes Simplex Viruses Whose Replication Can Be Deliberately Controlled as Candidate Vaccines

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Author

Richard Voellmy, David C. Bloom, and Nuria Vilaboa

Subjects

0301 basic medicine, vaccine vector, Immunology, Virulence, lcsh:Medicine, Review, Biology, Virus, replication-competent controlled, 03 medical and health sciences, 0302 clinical medicine, Immune system, live vaccine, Antigen, herpesvirus, Drug Discovery, Pharmacology (medical), 030212 general & internal medicine, Neutralizing antibody, Pharmacology, Attenuated vaccine, candidate vaccine, lcsh:R, Virology, HSV-1, 030104 developmental biology, Infectious Diseases, Viral replication, Immunization, biology.protein

Abstract

Over the last few years, we have been evaluating a novel paradigm for immunization using viruses or virus-based vectors. Safety is provided not by attenuation or inactivation of vaccine viruses, but by the introduction into the viral genomes of genetic mechanisms that allow for stringent, deliberate spatial and temporal control of virus replication. The resulting replication-competent controlled viruses (RCCVs) can be activated to undergo one or, if desired, several rounds of efficient replication at the inoculation site, but are nonreplicating in the absence of activation. Extrapolating from observations that attenuated replicating viruses are better immunogens than replication-defective or inactivated viruses, it was hypothesized that RCCVs that replicate with wild-type-like efficiency when activated will be even better immunogens. The vigorous replication of the RCCVs should also render heterologous antigens expressed from them highly immunogenic. RCCVs for administration to skin sites or mucosal membranes were constructed using a virulent wild-type HSV-1 strain as the backbone. The recombinants are activated by a localized heat treatment to the inoculation site in the presence of a small-molecule regulator (SMR). Derivatives expressing influenza virus antigens were also prepared. Immunization/challenge experiments in mouse models revealed that the activated RCCVs induced far better protective immune responses against themselves as well as against the heterologous antigens they express than unactivated RCCVs or a replication-defective HSV-1 strain. Neutralizing antibody and proliferation responses mirrored these findings. We believe that the data obtained so far warrant further research to explore the possibility of developing effective RCCV-based vaccines directed to herpetic diseases and/or diseases caused by other pathogens. more...

Published

2020

6. A Narrative Review of Cell-Based Approaches for Cranial Bone Regeneration

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Author

Maria I. Falguera Uceda, Silvia Sánchez-Casanova, Clara Escudero-Duch, and Nuria Vilaboa

Subjects

RS1-441, Pharmacy and materia medica, cranial bone, Pharmaceutical Science, Review, cell therapy, gene therapy, biomaterials

Abstract

Current cranial repair techniques combine the use of autologous bone grafts and biomaterials. In addition to their association with harvesting morbidity, autografts are often limited by insufficient quantity of bone stock. Biomaterials lead to better outcomes, but their effectiveness is often compromised by the unpredictable lack of integration and structural failure. Bone tissue engineering offers the promising alternative of generating constructs composed of instructive biomaterials including cells or cell-secreted products, which could enhance the outcome of reconstructive treatments. This review focuses on cell-based approaches with potential to regenerate calvarial bone defects, including human studies and preclinical research. Further, we discuss strategies to deliver extracellular matrix, conditioned media and extracellular vesicles derived from cell cultures. Recent advances in 3D printing and bioprinting techniques that appear to be promising for cranial reconstruction are also discussed. Finally, we review cell-based gene therapy approaches, covering both unregulated and regulated gene switches that can create spatiotemporal patterns of transgenic therapeutic molecules. In summary, this review provides an overview of the current developments in cell-based strategies with potential to enhance the surgical armamentarium for regenerating cranial vault defects. more...

Published

2022

7. Chitosan-stabilized Silver Nanoclusters with Luminescent, Photothermal and Antibacterial Properties

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Author

Francisco Martín-Saavedra, Olga García, Luis García-Fernández, Nuria Vilaboa, Julio San Román, Alberto Nakal-Chidiac, Clara Escudero-Duch, Silvia Sanchez-Casanova, María Rosa Aguilar, Ministerio de Economía y Competitividad (España), Ministerio de Ciencia, Innovación y Universidades (España), European Commission, and Agencia Estatal de Investigación (España) more...

Subjects

Photoluminescence, Materials science, Luminescence, Silver, Polymers and Plastics, Hybrid nanomaterials, Metal Nanoparticles, 02 engineering and technology, Biosensing Techniques, 010402 general chemistry, Photothermal properties, 01 natural sciences, Nanoclusters, Chitosan, Metal, chemistry.chemical_compound, Chitosan [Chemical compounds studied in this article], Materials Chemistry, Escherichia coli, Absorption (electromagnetic radiation), Organic Chemistry, Temperature, Chemical compounds studied in this article:Chitosan, Photothermal therapy, 021001 nanoscience & nanotechnology, Photochemical Processes, 0104 chemical sciences, Anti-Bacterial Agents, Silver nitrate salt, Chemical engineering, chemistry, Irgacure 2959, Silver nanohybrids, visual_art, Luminescent nanoclusters, visual_art.visual_art_medium, Surface modification, Silver nanoclusters, 0210 nano-technology

Abstract

The aim of this paper is to achieve in situ photochemical synthesis of silver nanoclusters (AgNCs) stabilized by the multiple-amine groups of chitosan (Ch@AgNCs) with luminescent and photothermal properties. Ch@AgNCs were obtained by applying a fast and simple methodology previously described by our group. Direct functionalization of AgNCs with chitosan template provided new nanohybrids directly in water solution, both in the presence or absence of oxygen. The formation of hybrid AgNCs could be monitored by the rapid increase of the absorption and emission maximum band with light irradiation time. New Ch@AgNCs not only present photoluminescent properties but also photothermal properties when irradiated with near infrared light (NIR), transducing efficiently NIR into heat and increasing the temperature of the medium up to 23 °C. The chitosan polymeric shell associated to AgNCs works as a protective support stabilizing the metal cores, facilitating the storage of nanohybrids and preserving luminescent, photothermal and bactericide properties., The authors are thankful for the financial support from Ministerio de Economía y Competitividad (MINECO) through the project MAT2017- 84277-R and MAT2014-57429-R and Ministerio de Ciencia, Innovación y Universidades (MCIU), Agencia Estatal de Investigaciónn (AEI) and Fondo Europeo de Desarrollo Regional (FEDER, UE) through the projects: PGC2018-095364-B-I00 and RTI2018-095159-B-10 more...

Published

2020

8. Gold nanoparticles for the in situ polymerization of near-infrared responsive hydrogels based on fibrin

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Author

Daniel López, Francisco Martín-Saavedra, Silvia Sanchez-Casanova, Victor Sebastian, Manuel Arruebo, Nuria Vilaboa, Martin Prieto, Clara Escudero-Duch, Jesus Santamaria, Agencia Estatal de Investigación (España), Instituto de Salud Carlos III, Ministerio de Economía y Competitividad (España), Ministerio de Ciencia, Innovación y Universidades (España), European Research Council, European Commission, and Comunidad de Madrid more...

Subjects

Materials science, Biocompatibility, Infrared Rays, Polymers, 0206 medical engineering, Near infrared, Biomedical Engineering, Gene Expression, Metal Nanoparticles, Nanotechnology, 02 engineering and technology, Biochemistry, Cell Line, Polymerization, Biomaterials, Mice, Animals, Humans, Transgenes, In situ polymerization, Surface plasmon resonance, Molecular Biology, Fibrin, technology, industry, and agriculture, Temperature, Thrombin, Hydrogels, General Medicine, Photothermal therapy, 021001 nanoscience & nanotechnology, 020601 biomedical engineering, Hollow gold nanoparticles, Colloidal gold, Self-healing hydrogels, Surface modification, Gold, 0210 nano-technology, Biotechnology

Abstract

Non-invasiveness and relative safety of photothermal therapy, which enables local hyperthermia of target tissues using a near infrared (NIR) laser, has attracted increasing interest. Due to their biocompatibility, amenability of synthesis and functionalization, gold nanoparticles have been investigated as therapeutic photothermal agents. In this work, hollow gold nanoparticles (HGNP) were coated with poly-L-lysine through the use of COOH-Poly(ethylene glycol)-SH as a covalent linker. The functionalized HGNP, which peak their surface plasmon resonance at 800 nm, can bind thrombin. Thrombin-conjugated HGNP conduct in situ fibrin polymerization, facilitating the process of generating photothermal matrices. Interestingly, the metallic core of thrombin-loaded HGNP fragmentates at physiological temperature. During polymerization process, matrices prepared with thrombin-loaded HGNP were loaded with genetically-modified stem cells that harbour a heat-activated and ligand-dependent gene switch for regulating transgene expression. NIR laser irradiation of resulting cell constructs in the presence of ligand successfully triggered transgene expression in vitro and in vivo., This work was supported by grant PI15/01118 from Instituto de Salud Carlos III (ISCIII)-Fondos FEDER, Ministry of Economy and Competitiveness (MINECO), Spain, grants RTI2018- 095159-B-I00 and SAF2013-50364-EXP from MINECO, grant Roche- IdiPAZ from the intramural funding program of Foundation for Biomedical Research of La Paz University Hospital-IdiPAZ, grant ERC-2013-CoG-614715 (NANOHEDONISM) from ERC Consolidator Grant program and by HSF Pharmaceuticals S.A. C.E-D. was the re- cipient of predoctoral grant FI14/00447 from ISCIII-Fondos FEDER, MINECO. N.V. is supported by Program I2 from CAM more...

Published

2019

9. Glycerylphytate compounds with tunable ion affinity and osteogenic properties

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Author

Julio San Román, Blanca Vázquez-Lasa, Ana Mora-Boza, María Luisa López-Donaire, Laura Saldaña, Nuria Vilaboa, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), European Commission, La Caixa, and Comunidad de Madrid more...

Subjects

Glycerol, 0301 basic medicine, Antioxidant, Phytic Acid, Cations, Divalent, Cell Survival, medicine.medical_treatment, Primary Cell Culture, lcsh:Medicine, chemistry.chemical_element, Ferrozine, Calcium, Chelating Activity, Antioxidants, Collagen Type I, Article, Lipid peroxidation, Mice, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Ion binding, Osteogenesis, medicine, Animals, Humans, Chelation, Ferrous Compounds, lcsh:Science, Chelating Agents, Multidisciplinary, lcsh:R, Cell Differentiation, Mesenchymal Stem Cells, Alkaline Phosphatase, Condensation reaction, Chemical biology, Combinatorial chemistry, RAW 264.7 Cells, Toxicity Tests, Subacute, 030104 developmental biology, chemistry, lcsh:Q, 030217 neurology & neurosurgery

Abstract

Phytic acid (PA) is a natural-occurring antioxidant, which plays an important role in many biological processes. PA is recognized as a potent inhibitor of lipid peroxidation because of its high affinity to multivalent cations, and it can play a role in osteogenic processes. However, its powerful chelating capacity is controversial because it can lead to a severe reduction of mineral availability in the organism. For this reason, compounds with beneficial biological properties of PA, but a modular ion binding capacity, are of high interest. In this work, we report the synthesis and physicochemical characterization of two hydroxylic derivatives of PA, named glycerylphytates (GPhy), through a condensation reaction of PA with glycerol (G). Both derivatives present antioxidant properties, measured by ferrozine/FeCl method and chelating activity with calcium ions depending on the content of glyceryl groups incorporated. Besides, the hydroxylic modification not only modulates the ion binding affinity of derivatives but also improves their cytocompatibility in human bone marrow mesenchymal cells (MSCs). Furthermore, GPhy derivatives display osteogenic properties, confirmed by COL1A and ALPL expression depending on composition. These positive features convert GPhy compounds into potent alternatives for those skeletal diseases treatments where PA is tentatively applied., The authors thank financial support to Ministry of Science, Innovation and Universities (Spain) (MAT2017- 2017-84277-R), Instituto Salud Carlos III (ISCIII)-Fondo Europeo de Desarrollo Regional (FEDER), MINECOAES (PI18/00643 and PI15/01118). Ana Mora-Boza is supported by “La Caixa” foundation (Scholarship of, code LCF/BQ/ES16/11570018), Laura Saldaña is supported by a Miguel Servet contract from ISCIII-MINECO-AESFEDER- FSE. Nuria Vilaboa is supported by Program I2 from Comunidad Autónoma de Madrid. The authors are indebted to Rosana Ramirez (ICTP-CSIC) and Fatima Bensiamar (IdiPAZ and CIBER-BBN) for excellent technical assistance with cell culture experiments and gene expression analysis, respectively. more...

Published

2019

10. Osteolysis After Total Hip Arthroplasty: Basic Science

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Author

Nuria Vilaboa and Gema Vallés

Subjects

Modern medicine, medicine.medical_specialty, Osteolysis, Basic science, business.industry, Wear debris, Aseptic loosening, Periprosthetic osteolysis, medicine.disease, medicine, Diagnostic biomarker, Intensive care medicine, business, Total hip arthroplasty

Abstract

Total hip replacement has become one of the most successful interventions achieved in modern medicine, with excellent technical outcomes and benefits for patients suffering end-stage joint diseases. In-service degradation of prosthetic materials results in the production and accumulation of wear debris particles with devastating effects for the peri-implant tissues. Exposure to wear debris induces a localized inflammatory response and periprosthetic osteolysis, leading to aseptic loosening and failure of the implant. In order to solve this clinical problem, efforts have been focused on improving the tribological properties of biomaterials and elucidating the biological response to wear debris. Unravelling the cellular and molecular mechanisms involved in this pathology will aid to identify diagnostic biomarkers and therapeutic targets. more...

Published

2018

11. Incorporation of Mg particles into PDLLA regulates mesenchymal stem cell and macrophage responses

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Author

Fátima Bensiamar, Eduardo García-Rey, Rosario Benavente, Sandra C. Cifuentes, Laura Saldaña, Amparo M. Gallardo-Moreno, Tim A. Osswald, María L González-Martín, Nuria Vilaboa, and José Luis González-Carrasco more...

Subjects

chemistry.chemical_classification, Materials science, Magnesium, Mesenchymal stem cell, Metals and Alloys, Biomedical Engineering, chemistry.chemical_element, Biomaterial, 02 engineering and technology, Polymer, Matrix (biology), 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Osseointegration, 0104 chemical sciences, Biomaterials, chemistry, Ceramics and Composites, Biophysics, Degradation (geology), Secretion, 0210 nano-technology, Biomedical engineering

Abstract

In this work, we investigated a new approach to incorporate Mg particles within a PDLLA matrix using a solvent-free commercially available process. PDLLA/Mg composites were manufactured by injection moulding and the effects of Mg incorporated into PDLLA on MSC and macrophage responses were evaluated. Small amounts of Mg particles (≤ 1 wt %) do not cause thermal degradation of PDLLA, which retains its mechanical properties. PDLLA/Mg composites release hydrogen, alkaline products and Mg(2+) ions without changing pH of culture media. Mg-containing materials provide a noncytotoxic environment that enhances MSC viability. Concentration of Mg(2+) ions in extracts of MSCs increases with the increment of Mg content in the composites. Incorporation of Mg particles into PDLLA stimulates FN production, ALP activity, and VEGF secretion in MSCs, an effect mediated by degradation products dissolved from the composites. Degradation products of PDLLA induce an increase in MCP-1, RANTES, and MIP-1α secretion in macrophages while products of composites have minimal effect on these chemokines. Regulation of MSC behavior at the biomaterial's interface and macrophage-mediated inflammatory response to the degradation products is related to the incorporation of Mg in the composites. These findings suggest that including small amounts of Mg particles into polymeric devices can be a valuable strategy to promote osseointegration and reduce host inflammatory response. more...

Published

2015

12. Replication-Competent Controlled Herpes Simplex Virus

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Author

Peterjon K. McAnany, David C. Bloom, Nuria Vilaboa, Richard Voellmy, and Joyce A. Feller

Subjects

Gene Expression Regulation, Viral, ICP8, Hot Temperature, Norpregnadienes, viruses, Genetic Vectors, Immunology, Herpesvirus 1, Human, Biology, Virus Replication, medicine.disease_cause, Recombinant virus, Microbiology, Virus, Cercopithecus aethiops, Immediate-Early Proteins, Mice, Viral Proteins, Viral Envelope Proteins, Virology, Vaccines and Antiviral Agents, Chlorocebus aethiops, medicine, Animals, Humans, HSP70 Heat-Shock Proteins, RNA, Messenger, Vector (molecular biology), Promoter Regions, Genetic, Vero Cells, Gene, Herpes Simplex, Hindlimb, Oncolytic virus, DNA-Binding Proteins, Mifepristone, Herpes simplex virus, Viral replication, Insect Science, DNA, Viral, Rabbits, Genetic Engineering, Genes, Switch, HeLa Cells

Abstract

We present the development and characterization of a replication-competent controlled herpes simplex virus 1 (HSV-1). Replication-essential ICP4 and ICP8 genes of HSV-1 wild-type strain 17syn+ were brought under the control of a dually responsive gene switch. The gene switch comprises (i) a transactivator that is activated by a narrow class of antiprogestins, including mifepristone and ulipristal, and whose expression is mediated by a promoter cassette that comprises an HSP70B promoter and a transactivator-responsive promoter and (ii) transactivator-responsive promoters that drive the ICP4 and ICP8 genes. Single-step growth experiments in different cell lines demonstrated that replication of the recombinant virus, HSV-GS3, is strictly dependent on an activating treatment consisting of administration of a supraphysiological heat dose in the presence of an antiprogestin. The replication-competent controlled virus replicates with an efficiency approaching that of the wild-type virus from which it was derived. Essentially no replication occurs in the absence of activating treatment or if HSV-GS3-infected cells are exposed only to heat or antiprogestin. These findings were corroborated by measurements of amounts of viral DNA and transcripts of the regulated ICP4 gene and the glycoprotein C (gC) late gene, which was not regulated. Similar findings were made in experiments with a mouse footpad infection model. IMPORTANCE The alphaherpesviruses have long been considered vectors for recombinant vaccines and oncolytic therapies. The traditional approach uses vector backbones containing attenuating mutations that restrict replication to ensure safety. The shortcoming of this approach is that the attenuating mutations tend to limit both the immune presentation and oncolytic properties of these vectors. HSV-GS3 represents a novel type of vector that, when activated, replicates with the efficiency of a nonattenuated virus and whose safety is derived from deliberate, stringent regulation of multiple replication-essential genes. By directing activating heat to the region of virus administration, replication is strictly confined to infected cells within this region. The requirement for antiprogestin provides an additional level of safety, ensuring that virus replication cannot be triggered inadvertently. Replication-competent controlled vectors such as HSV-GS3 may have the potential to be superior to conventional attenuated HSV vaccine and oncolytic vectors without sacrificing safety. more...

Published

2015

13. Paracrine interactions between mesenchymal stem cells and macrophages are regulated by 1,25-dihydroxyvitamin D3

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Author

Gema Vallés, Fátima Bensiamar, Laura Saldaña, Nuria Vilaboa, Francisco José Mancebo, and Eduardo García-Rey

Subjects

0301 basic medicine, medicine.medical_treatment, lcsh:Medicine, Inflammation, Article, 03 medical and health sciences, Paracrine signalling, 0302 clinical medicine, Blood vessel prosthesis, medicine, lcsh:Science, Bone regeneration, Multidisciplinary, biology, Chemistry, lcsh:R, Mesenchymal stem cell, Chemotaxis, Cell biology, 030104 developmental biology, Cytokine, RANKL, 030220 oncology & carcinogenesis, biology.protein, lcsh:Q, medicine.symptom

Abstract

Mesenchymal stem cells (MSC) modulate the macrophage-mediated inflammatory response through the secretion of soluble factors. In addition to its classical effects on calcium homeostasis, 1,25-dihydroxyvitamin D3 (1,25D3) has emerged as an important regulator of the immune system. The present study investigates whether 1,25D3 modulates the paracrine interactions between MSC and macrophages. 1,25D3 stimulated MSC to produce PGE2 and VEGF and regulated the interplay between macrophages and MSC toward reduced pro-inflammatory cytokine production. Conditioned media (CM) from co-cultures of macrophages and MSC impaired MSC osteogenesis. However, MSC cultured in CM from 1,25D3-treated co-cultures showed increased matrix maturation and mineralization. Co-culturing MSC with macrophages prevented the 1,25D3-induced increase in RANKL levels, which correlated with up-regulation of OPG secretion. MSC seeding in three-dimensional (3D) substrates potentiated their immunomodulatory effects on macrophages. Exposure of 3D co-cultures to 1,25D3 further reduced the levels of soluble factors related to inflammation and chemotaxis. As a consequence of 1,25D3 treatment, the recruitment of monocytes toward CM of 3D co-cultures decreased, while the osteogenic maturation of MSC increased. These data add new insights into the pleiotropic effects of 1,25D3 on the crosstalk between MSC and macrophages and highlight the role of the hormone in bone regeneration. more...

Published

2017

14. Development of Recombinant HSV-Based Vaccine Vectors

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Author

Richard, Voellmy, David C, Bloom, Nuria, Vilaboa, and Joyce, Feller

Subjects

Mice, Vaccines, Synthetic, Genetic Vectors, Vaccination, Animals, Herpes Simplex Virus Vaccines, Herpesvirus 1, Human, Virus Replication

Abstract

Herpes simplex virus (HSV) causes significant morbidity on the human population through such clinical syndromes as cold sores, genital herpes, herpes stromal keratitis, and encephalitis. Attempts to generate efficacious vaccines to date have failed. We have recently described the use of a conditionally replication-competent HSV-1 vector to immunize mice against a lethal challenge of HSV-1. The unique feature of this vaccine vector is that its replication is tightly controlled and can only occur in the presence of local heat and the presence of a small molecule inducer (an antiprogestin). This gives it the safety advantage of a replication-defective vaccine vector as well as the advantage of a replication-competent vector in that it is able to stimulate innate and adaptive aspects of the immune response in a natural context that a replication-defective vector cannot. In this chapter we provide a brief overview of HSV vaccines followed by the methodology used to propagate and utilize replication-conditional HSV vectors as vaccines. more...

Published

2017

15. Patterning Expression of Regenerative Growth Factors Using High Intensity Focused Ultrasound

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Author

Francisco Martín-Saavedra, Renny T. Franceschi, Christopher G. Wilson, Alexander M. Baez, Nuria Vilaboa, Richard Voellmy, Frederic Padilla, Christopher J. Bonkowski, Mario L. Fabiilli, Man Zhang, Oliver D. Kripfgans, and J. Brian Fowlkes more...

Subjects

Transcriptional Activation, Vascular Endothelial Growth Factor A, Cell Survival, Transgene, medicine.medical_treatment, Biomedical Engineering, Bone Morphogenetic Protein 2, Medicine (miscellaneous), Bioengineering, Biology, Ligands, Regenerative medicine, Article, Cell Line, Mice, Genes, Reporter, medicine, Animals, Humans, Regeneration, Transgenes, Bone regeneration, Cell Shape, Heat-Shock Proteins, Sirolimus, Regulation of gene expression, Fibrin, Growth factor, Regeneration (biology), Rats, Cell biology, Vascular endothelial growth factor A, Gene Expression Regulation, High-Intensity Focused Ultrasound Ablation, Cattle, Wound healing, Heat-Shock Response, Biomedical engineering

Abstract

Temporal and spatial control of growth factor gradients is critical for tissue patterning and differentiation. Reinitiation of this developmental program is also required for regeneration of tissues during wound healing and tissue regeneration. Devising methods for reconstituting growth factor gradients remains a central challenge in regenerative medicine. In the current study we develop a novel gene therapy approach for temporal and spatial control of two important growth factors in bone regeneration, vascular endothelial growth factor, and bone morphogenetic protein 2, which involves application of high intensity focused ultrasound to cells engineered with a heat-activated- and ligand-inducible gene switch. Induction of transgene expression was tightly localized within cell-scaffold constructs to subvolumes of ∼30 mm³, and the amplitude and projected area of transgene expression was tuned by the intensity and duration of ultrasound exposure. Conditions for ultrasound-activated transgene expression resulted in minimal cytotoxicity and scaffold damage. Localized regions of growth factor expression also established gradients in signaling activity, suggesting that patterns of growth factor expression generated by this method will have utility in basic and applied studies on tissue development and regeneration. more...

Published

2014

16. Human bone-lineage cell responses to anisotropic Ti6Al4V surfaces are dependent on their maturation state

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Author

Enrique Gómez-Barrena, Alicia Calzado-Martín, Alba Boré, Lara Crespo, Nuria Vilaboa, and Laura Saldaña

Subjects

endocrine system, Cell type, Materials science, RHOA, biology, Mesenchymal stem cell, Metals and Alloys, Biomedical Engineering, Osteoblast, Anatomy, Adhesion, equipment and supplies, Cell Maturation, Cell biology, Biomaterials, Extracellular matrix, Fibronectin, medicine.anatomical_structure, Ceramics and Composites, medicine, biology.protein

Abstract

This article reports on the interactions of human bone cells, mesenchymal stem cells (hMSCs) from bone marrow and osteoblasts (hOBs), with a submicron-grooved Ti6Al4V alloy that promotes cell orientation in the direction of the anisotropy. Adhesion sites, actin and tubulin networks and fibronectin extracellular matrix of both cell types align with the direction of the grooves. hMSCs adhere at a higher rate on the patterned substrate than on the polished alloy, while no differences are found in hOBs attachment. Compared to the flat substrate, RhoA activity is higher in hMSCs and hOB cultured on the grooved alloy and treatment with C3 transferase leads to loss of organization of actin and tubulin cytoskeletons. Rho-associated kinase (ROCK) activity of hMSCs is upregulated on the anisotropic samples, but not affected in hOBs. Treatment with hydroxyfasudil disrupts the alignment of adhesion sites in hMSCs but not in hOBs. When cells are cultured in media that support osteogenic maturation, OPN secretion increases in hMSCs on the anisotropic alloy and it remains unaffected in hOBs. Cell layer calcification proceeds to a same extent in hMSCs cultured on the two metallic surfaces but decreases in hOBs cultured on the patterned samples. Taken together, these results indicate that hOBs are less sensitive than hMSCs to the patterned Ti6Al4V alloy. This effect can be attributed to their different stages of cell maturation and may be mediated, at least in part, through ROCK signaling because its activity increases on hMSCs cultured on the patterned alloy, while hOBs fail to upregulate it. © 2013 Wiley Periodicals, Inc. J Biomed Mater Res Part A: 102A: 3154–3166, 2014. more...

Published

2013

17. Stability and biocompatibility of photothermal gold nanorods after lyophilization and sterilization

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Author

Francisco Martín-Saavedra, Jesus Santamaria, Nuria Vilaboa, Manuel Arruebo, Virginia Cebrián, and Leyre Gomez

Subjects

Materials science, Nanostructure, Biocompatibility, Mechanical Engineering, Photothermal therapy, Sterilization (microbiology), Condensed Matter Physics, Colloid, chemistry.chemical_compound, chemistry, Mechanics of Materials, Organic chemistry, General Materials Science, Nanorod, Ammonium chloride, Irradiation, Nuclear chemistry

Abstract

Suspensions in phosphate buffered saline (PBS) of gold nanorods stabilized with cetyltrimethyl ammonium chloride (CTABr), polystyrenesulfonate (PSS) and methyl-polyethyleneglycol-thiol (m-PEG-SH) have been prepared and the evolution of their colloidal stability and plasmonic response over time has been evaluated. Their performance after lyophilization, alcoholic sterilization and resuspension has also been characterized. Sub-cytotoxic doses on HeLa cells were calculated for the three surface functionalizations used. Their heating efficiency at different exposure times was also evaluated after being irradiated with near infrared light. The best results were obtained for m-PEG-SH stabilized rods, which were not only stable, sterilizable and lyophilizable, but also biocompatible at all doses tested, showing potential as a stable, re-suspendible and biocompatible hyperthermic agent. more...

Published

2013

18. Mechanical forces regulate stem cell response to surface topography

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Author

Manuel Arruebo, Lara Crespo, Fátima Bensiamar, Laura Saldaña, and Nuria Vilaboa

Subjects

Materials science, biology, Mesenchymal stem cell, Metals and Alloys, Biomedical Engineering, Nanotechnology, Bone tissue, Biomaterials, Vascular endothelial growth factor, Fibronectin, Focal adhesion, chemistry.chemical_compound, medicine.anatomical_structure, chemistry, Ceramics and Composites, biology.protein, medicine, Biophysics, Viability assay, Mechanotransduction, Stem cell

Abstract

The interactions between bone tissue and orthopedic implants are strongly affected by mechanical forces at the bone-implant interface, but the interplay between surface topographies, mechanical stimuli, and cell behavior is complex and not well understood yet. This study reports on the influence of mechanical stretch on human mesenchymal stem cells (hMSCs) attached to metallic substrates with different roughness. Controlled forces were applied to plasma membrane of hMSCs cultured on smooth and rough stainless steel surfaces using magnetic collagen-coated particles and an electromagnet system. Degree of phosphorylation of focal adhesion kinase (p-FAK) on the active form (Tyr-397), prostaglandin E2 (PGE2) and vascular endothelial growth factor (VEGF) levels increased on rough samples under static conditions. Cell viability and fibronectin production decreased on rough substrates, while hMSCs maturated to the osteoblastic lineage to a similar extent on both surfaces. PGE2 production and osteoprotegerin/receptor activator of nuclear factor kappa-B ligand ratio increased after force application on both surfaces, although to a greater extent on smooth substrates. p-FAK on Tyr-397 was induced fairly rapidly by mechanical stimulation on rough surfaces while cells cultured on smooth samples failed to activate this kinase in response to tensile forces. Mechanical forces enhanced VEGF secretion and reduced cell viability, fibronetin levels and osteoblastic maturation on smooth surfaces but not on rough samples. The magnetite beads model used in this study is well suited to characterize the response of hMSCs cultured on metallic surfaces to tensile forces and collected data suggest a mechanism whereby mechanotransduction driven by FAK is essential for stem cell growth and functioning on metallic substrates. more...

Published

2013

19. New inhibitor targeting human transcription factor HSF1: effects on the heat shock response and tumor cell survival

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Author

Natalie Winfield, Alba Boré, Richard Voellmy, Francisco Martín-Saavedra, Nuria Vilaboa, Stewart B. Kirton, Melanie Jayne Bayford, and Stuart Firth-Clark

Subjects

0301 basic medicine, Hot Temperature, Transcription, Genetic, Cell Survival, In silico, Antineoplastic Agents, Plasma protein binding, Biology, Ligands, Cell Line, Transcriptome, Small Molecule Libraries, 03 medical and health sciences, Structure-Activity Relationship, Heat Shock Transcription Factors, Protein Domains, Cell Line, Tumor, Genetics, Humans, Binding site, Heat shock, HSF1, Transcription factor, Activating Transcription Factor 1, Acrylamides, Binding Sites, Gene regulation, Chromatin and Epigenetics, fungi, Hep G2 Cells, Molecular biology, Cell biology, High-Throughput Screening Assays, Heat shock factor, DNA-Binding Proteins, Molecular Docking Simulation, Gene Expression Regulation, Neoplastic, Thiazoles, 030104 developmental biology, A549 Cells, Structural Homology, Protein, Heat-Shock Response, HeLa Cells, Protein Binding, Transcription Factors

Abstract

Comparative modeling of the DNA-binding domain of human HSF1 facilitated the prediction of possible binding pockets for small molecules and definition of corresponding pharmacophores. In silico screening of a large library of lead-like compounds identified a set of compounds that satisfied the pharmacophoric criteria, a selection of which compounds was purchased to populate a biased sublibrary. A discriminating cell-based screening assay identified compound 001, which was subjected to systematic analysis of structure–activity relationships, resulting in the development of compound 115 (IHSF115). IHSF115 bound to an isolated HSF1 DNA-binding domain fragment. The compound did not affect heat-induced oligomerization, nuclear localization and specific DNA binding but inhibited the transcriptional activity of human HSF1, interfering with the assembly of ATF1-containing transcription complexes. IHSF115 was employed to probe the human heat shock response at the transcriptome level. In contrast to earlier studies of differential regulation in HSF1-naïve and -depleted cells, our results suggest that a large majority of heat-induced genes is positively regulated by HSF1. That IHSF115 effectively countermanded repression in a significant fraction of heat-repressed genes suggests that repression of these genes is mediated by transcriptionally active HSF1. IHSF115 is cytotoxic for a variety of human cancer cell lines, multiple myeloma lines consistently exhibiting high sensitivity. more...

Published

2017

20. Photothermal and photodynamic activity of polymeric nanoparticles based on α-tocopheryl succinate-RAFT block copolymers conjugated to IR-780

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Author

Francisco Martín-Saavedra, Francisco J. Parra-Ruiz, Nathan A. Rohner, Julio San Román, Raquel Palao-Suay, Clara Escudero-Duch, Susan N. Thomas, María Rosa Aguilar, Sergio Martín-Saldaña, and Nuria Vilaboa more...

Subjects

0301 basic medicine, Fluorescence-lifetime imaging microscopy, Materials science, Indoles, alpha-Tocopherol, Biomedical Engineering, Nanoparticle, Nanotechnology, Breast Neoplasms, 02 engineering and technology, Conjugated system, Biochemistry, Article, Biomaterials, 03 medical and health sciences, chemistry.chemical_compound, IR-780, Cell Line, Tumor, Humans, Molecular Biology, technology, industry, and agriculture, General Medicine, Raft, Hyperthermia, Induced, Photothermal therapy, 021001 nanoscience & nanotechnology, Fluorescence, 030104 developmental biology, chemistry, Photochemotherapy, Biophysics, Nanoparticles, Phototherapeutic, Female, α-Tocopheryl succinate, 0210 nano-technology, Phototoxicity, Ethylene glycol, Biotechnology

Abstract

The aim of this work was the generation of a multifunctional nanopolymeric system that incorporates IR-780 dye, a near-infrared (NIR) imaging probe that exhibits photothermal and photodynamic properties; and a derivate of α-tocopheryl succinate (α-TOS), a mitochondria-targeted anticancer compound. IR-780 was conjugated to the hydrophilic segment of copolymer PEG-b-polyMTOS, based on poly(ethylene glycol) (PEG) and a methacrylic derivative of α-tocopheryl succinate (MTOS), to generate IR-NP, self-assembled nanoparticles (NPs) in aqueous media which exhibit a hydrophilic shell and a hydrophobic core. During assembly, the hydrophobic core of IR-NP could encapsulate additional IR-780 to generate derived subspecies carrying different amount of probe (IR-NP-eIR). Evaluation of photo-inducible properties of IR-NP and IR-NP-eIR were thoroughly assessed in vitro. Developed nanotheranostic particles showed distinct fluorescence and photothermal behavior after excitation by a laser light emitting at 808 nm. Treatment of MDA-MB-453 cells with IR-NP or IR-NP-eIR resulted in an efficient internalization of the IR-780 dye, while subsequent NIR-laser irradiation led to a severe decrease in cell viability. Photocytoxicity conducted by IR-NP, which could not be attributed to the generation of lethal hyperthermia, responded to an increase in the levels of intracellular reactive oxygen species (ROS). Therefore, the fluorescence imaging and inducible phototoxicity capabilities of NPs derived from IR-780-PEG-b-polyMTOS copolymer confer high value to these nanotheranostics tools in clinical cancer research. Statement of Significance Multifunctional polymeric nanoparticles (NPs) that combine imaging and therapeutic properties are highly valuable in cancer treatment. In this paper we describe the development of NPs that are fluorescent in the near-infrared (NIR). This is important for their visualization in living tissues that present low absorption and low autofluorescence in this wavelength region (between 700 and 1000 nm). Moreover, NPs present photothermal and photodynamic properties when NIR irradiated: the NPs produce an efficient increment of temperature and increase the intracellular reactive oxygen species (ROS) when laser irradiated at 808 nm. These tuneable photoinduced properties make the NPs highly cytotoxic after NIR irradiation and provide a new tool for highly precise cancer treatment. more...

Published

2017

21. Development of Recombinant HSV-Based Vaccine Vectors

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Author

Richard Voellmy, Joyce A. Feller, Nuria Vilaboa, and David C. Bloom

Subjects

0301 basic medicine, education.field_of_study, Population, Context (language use), HSL and HSV, Biology, medicine.disease, medicine.disease_cause, Virology, Cold sore, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Immune system, Herpes simplex virus, medicine, 030212 general & internal medicine, Vector (molecular biology), education, Encephalitis

Abstract

Herpes simplex virus (HSV) causes significant morbidity on the human population through such clinical syndromes as cold sores, genital herpes, herpes stromal keratitis, and encephalitis. Attempts to generate efficacious vaccines to date have failed. We have recently described the use of a conditionally replication-competent HSV-1 vector to immunize mice against a lethal challenge of HSV-1. The unique feature of this vaccine vector is that its replication is tightly controlled and can only occur in the presence of local heat and the presence of a small molecule inducer (an antiprogestin). This gives it the safety advantage of a replication-defective vaccine vector as well as the advantage of a replication-competent vector in that it is able to stimulate innate and adaptive aspects of the immune response in a natural context that a replication-defective vector cannot. In this chapter we provide a brief overview of HSV vaccines followed by the methodology used to propagate and utilize replication-conditional HSV vectors as vaccines. more...

Published

2017

22. Advanced BMP Gene Therapies for Temporal and Spatial Control of Bone Regeneration

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Author

Christopher G. Wilson, Francisco Martín-Saavedra, Renny T. Franceschi, and Nuria Vilaboa

Subjects

Regulation of gene expression, medicine.medical_specialty, Bone Development, Bone Regeneration, Bone morphogenetic protein 8A, Mesenchymal stem cell, Reviews, Genetic Therapy, Bone healing, Biology, Bone morphogenetic protein, Cell biology, Surgery, Bone morphogenetic protein 7, Bone morphogenetic protein 6, Gene Expression Regulation, Osteogenesis, Bone Morphogenetic Proteins, medicine, Humans, Bone regeneration, General Dentistry

Abstract

Spatial and temporal patterns of bone morphogenetic protein (BMP) signaling are crucial to the assembly of appropriately positioned and shaped bones of the face and head. This review advances the hypothesis that reconstitution of such patterns with cutting-edge gene therapies will transform the clinical management of craniofacial bone defects attributed to trauma, disease, or surgical resection. Gradients in BMP signaling within developing limbs and orofacial primordia regulate proliferation and differentiation of mesenchymal progenitors. Similarly, vascular and mesenchymal cells express BMPs in various places and at various times during normal fracture healing. In non-healing fractures of long bones, BMP signaling is severely attenuated. Devices that release recombinant BMPs promote healing of bone in spinal fusions and, in some cases, of open fractures, but cannot control the timing and localization of BMP release. Gene therapies with regulated expression systems may provide substantial improvements in efficacy and safety compared with protein-based therapies. Synthetic gene switches, activated by pharmacologics or light or hyperthermic stimuli, provide several avenues for the non-invasive regulation of the expression of BMP transgenes in both time and space. Through new gene therapy platforms such as these, active control over BMP signaling can be achieved to accelerate bone regeneration. more...

Published

2013

23. Simvastatin prevents the induction of interleukin-6 gene expression by titanium particles in human osteoblastic cells

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Author

Francisco Martín-Saavedra, Concepción Pérez, Alba Boré, Gema Vallés, Laura Saldaña, and Nuria Vilaboa

Subjects

Simvastatin, medicine.medical_specialty, Osteolysis, RHOA, Materials science, media_common.quotation_subject, Biomedical Engineering, Real-Time Polymerase Chain Reaction, Biochemistry, Immunoenzyme Techniques, Biomaterials, Cell Line, Tumor, medicine, Humans, Wear particles, Interleukin 6, Internalization, Molecular Biology, DNA Primers, media_common, Titanium, Regulation of gene expression, IL-6, Microscopy, Confocal, Osteoblasts, Base Sequence, biology, Interleukin-6, Osteoblast, General Medicine, medicine.disease, Surgery, medicine.anatomical_structure, Gene Expression Regulation, Cell culture, biology.protein, Cancer research, Biotechnology, medicine.drug

Abstract

One of the most important complications of total joint arthroplasty is failure associated with periprosthetic osteolysis, a process mainly initiated by the biological response to wear-derived products from the biomaterials in service. The inflammatory mediator interleukin-6 (IL-6) plays a key role in the establishment and progression of aseptic loosening. Metal particles specifically up-regulate IL-6 production in bone-forming cells and implant-bone interfacial tissues. The use of statins has been recently associated with a significantly reduced risk of revision in patients that undergo total hip arthroplasty. We hypothesized that simvastatin (Simv) could modulate the osteoblastic response to titanium particles (Ti) by attenuating the production of IL-6. Pre-treatment of human osteoblastic cells with Simv down-regulated Ti particle-induced IL-6 gene expression at mRNA and protein levels. The effect of Simv on Ti-induced IL-6 production in osteoblastic cells could not be explained by inhibition of the internalization of metal particles. The mechanism involved in this down-regulation is based in the inhibition of the HMG-CoA/GGPP/RhoA/ROCK pathway, independently of Simv effects in the cholesterol synthesis. The cytokine-lowering property of Simv has been observed in Saos-2 cells and human primary osteoblasts (hOBs) exposed to Ti particles, and was further enhanced when hOBs were co-cultured with macrophages. more...

Published

2013

24. Size-dependent transfection efficiency of PEI-coated gold nanoparticles

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Author

Clara Yagüe, Jesus Santamaria, Francisco Martín-Saavedra, Virginia Cebrián, Nuria Vilaboa, and Manuel Arruebo

Subjects

inorganic chemicals, Materials science, Cell Survival, Static Electricity, education, Biomedical Engineering, Metal Nanoparticles, Nanoparticle, Biocompatible Materials, Nanotechnology, Endosomes, macromolecular substances, Gene delivery, Transfection, Endocytosis, Biochemistry, Biomaterials, Cell Line, Tumor, Materials Testing, Static electricity, Humans, Polyethyleneimine, Particle Size, Molecular Biology, health care economics and organizations, Cell Nucleus, technology, industry, and agriculture, DNA, General Medicine, Endocytic vesicle, Colloidal gold, Cell culture, Biophysics, Gold, Plasmids, Subcellular Fractions, Biotechnology

Abstract

Gold nanoparticles (Au NPs) are promising vectors for gene delivery applications. In order to gain insight on the influence of particle size on cell transfection, Au NPs were combined with poly(ethylenimine) (PEI) to prepare two sets of PEI-coated Au NPs having particle-size distributions centered at about 6 nm ( more...

Published

2011

25. Bacterial adhesion reduction on a biocompatible Si+ ion implanted austenitic stainless steel

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Author

I. Braceras, José Luis González-Carrasco, Juan Carlos Galván, Amparo M. Gallardo-Moreno, Alicia Calzado-Martín, Nuria Vilaboa, M.A. Pacha-Olivenza, Marta Multigner, J. Perera-Núñez, María Luisa González-Martín, Laura Saldaña, and A. Méndez-Vilas more...

Subjects

Materials science, biology, Biocompatibility, Metallurgy, Bioengineering, Adhesion, engineering.material, biology.organism_classification, Corrosion, Biomaterials, Ion implantation, Isoelectric point, Chemical engineering, Mechanics of Materials, Staphylococcus epidermidis, engineering, Surface modification, Austenitic stainless steel

Abstract

The colonization of an implant surface by bacteria is an extremely important medical problem, which often leads to the failure of medical devices. Modern surface modification techniques, such as ion implantation, can confer to the surfaces very different properties from those of the bulk underlying material. In this work, austenitic stainless steel 316 LVM has been superficially modified by Si + ion implantation. The effect of surface modification on the biocompatibility and bacterial adhesion to 316 LVM stainless steel has been investigated. To this aim, human mesenchymal stem cells (hMSCs), as precursor of osteoblastic cells, and bacterial strains relevant in infections related to orthopedic implants, i.e., Staphylococcus aureus and Staphylococcus epidermidis , have been assayed. For the understanding of changes in the biological response associated to ion implantation, variations in the chemical surface composition, topography, surface Gibbs energy, isoelectric point and in vitro corrosion behavior have been evaluated. hMSCs adhesion, viability and differentiation to the osteoblastic lineage were unaffected by Si + ion implantation. On the other hand, Si + ion implantation diminished the number of attached bacteria in static conditions and led to smaller adhesion rates and retention strength. The ability of implanted surfaces to reduce the bacterial adhesion was higher for Staphylococcus epidermidis than for Staphylococcus aureus. This study proposes Si + ion implantation as an effective way of reducing bacterial adhesion on 316 LVM stainless steel surfaces without compromising its good biocompatibility. more...

Published

2011

26. Assessment of the Evolution of Cancer Treatment Therapies

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Author

Nuria Vilaboa, Manuel Arruebo, África González-Fernández, Berta Sáez-Gutierrez, Mónica Valladares, Alejandro Tres, and J. Lambea

Subjects

Cancer Research, medicine.medical_specialty, Pathology, medicine.medical_treatment, Cancer therapy, Review, lcsh:RC254-282, medicine, cancer, Intensive care medicine, Chemotherapy, nanotechnology, business.industry, Complete remission, Cancer, Immunotherapy, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, medicine.disease, gene therapy, nanomedicine, Cancer treatment, Oncology, Folic acid, Drug delivery, immunotherapy, business

Abstract

Cancer therapy has been characterized throughout history by ups and downs, not only due to the ineffectiveness of treatments and side effects, but also by hope and the reality of complete remission and cure in many cases. Within the therapeutic arsenal, alongside surgery in the case of solid tumors, are the antitumor drugs and radiation that have been the treatment of choice in some instances. In recent years, immunotherapy has become an important therapeutic alternative, and is now the first choice in many cases. Nanotechnology has recently arrived on the scene, offering nanostructures as new therapeutic alternatives for controlled drug delivery, for combining imaging and treatment, applying hyperthermia, and providing directed target therapy, among others. These therapies can be applied either alone or in combination with other components (antibodies, peptides, folic acid, etc.). In addition, gene therapy is also offering promising new methods for treatment. Here, we present a review of the evolution of cancer treatments, starting with chemotherapy, surgery, radiation and immunotherapy, and moving on to the most promising cutting-edge therapies (gene therapy and nanomedicine). We offer an historical point of view that covers the arrival of these therapies to clinical practice and the market, and the promises and challenges they present. more...

Published

2011

27. Feasibility of ceramic-polymer composite cryogels as scaffolds for bone tissue engineering

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Author

Laura Saldaña, Nuria Vilaboa, Luis M. Rodríguez-Lorenzo, Julio San Román, Lorena Benito-Garzón, Raul García-Carrodeguas, and Salvador De Aza

Subjects

Ceramics, Magnetic Resonance Spectroscopy, Stromal cell, Biocompatibility, Cell Survival, Polymers, Biomedical Engineering, Medicine (miscellaneous), Bone Marrow Cells, engineering.material, Methacrylate, Wollastonite, Bone and Bones, Biomaterials, Extracellular matrix, X-Ray Diffraction, Tissue engineering, Osteogenesis, Elastic Modulus, Spectroscopy, Fourier Transform Infrared, medicine, Humans, Cell Shape, Cell Proliferation, Tissue Engineering, Tissue Scaffolds, biology, Chemistry, RANK Ligand, Osteoprotegerin, Mesenchymal Stem Cells, Magnetic Resonance Imaging, Fibronectins, Fibronectin, medicine.anatomical_structure, Adipose Tissue, biology.protein, engineering, Feasibility Studies, Bone Remodeling, Bone marrow, Porosity, Cryogels, Biomedical engineering

Abstract

The purpose of the current study was to investigate whether the cryopolymerization technique is capable of producing suitable scaffolds for bone tissue engineering. Cryopolymers made of 2-hydroxyethyl methacrylate and acrylic acid with (W1 and W20) and without (W0) wollastonite particles were prepared. The elastic modulus of the specimens rose one order of magnitude from W1 to W20. Total porosity reached 56% for W0, 72% for W1 and 36% for W20, with pore sizes of up to 2 mm, large interconnection sizes of up to 1 mm and small interconnection sizes of 50-80 µm on dry specimens. Cryogels swell up to 224 ± 17% for W0, 315 ± 18% for W1 and 231 ± 27% for W20 specimens, while maintaining the integrity of the bodies. Pore sizes > 5 mm can be observed for swollen specimens. The biocompatibility of the samples was tested using human mesenchymal stem cells isolated from bone marrow and adipose tissues. Both types of cells attached and grew on the three tested substrates, colonized their inner regions and organized an extracellular cell matrix. Fibronectin and osteopontin levels decreased in the media from cells cultured on W20 samples, likely due to increased binding on the ECM deposited by cells. The osteoprotegerin-to-receptor activator of nuclear factor-κB ligand secretion ratios increased with increasing wollastonite content. Altogether, these results indicate that an appropriate balance of surface properties and structure that favours stromal cell colonization in the porous cryogels can be achieved by modulating the amount of wollastonite. more...

Published

2011

28. On the role of the colloidal stability of mesoporous silica nanoparticles as gene delivery vectors

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Author

Virginia Cebrián, Clara Yagüe, Jesus Santamaria, Manuel Arruebo, Francisco Martín-Saavedra, and Nuria Vilaboa

Subjects

Polyethylenimine, Materials science, Nanoparticle, Bioengineering, Nanotechnology, General Chemistry, Mesoporous silica, Gene delivery, Condensed Matter Physics, Atomic and Molecular Physics, and Optics, chemistry.chemical_compound, Colloid, Chemical engineering, chemistry, MCM-41, Modeling and Simulation, Nanomedicine, General Materials Science, Surface charge

Abstract

Mesoporous silica nanoparticles have been synthesized and functionalized with four different types of molecules containing amino groups, i.e., with primary amines only, with quaternary amines, with quaternized cyclic amines, or with polyethylenimine (PEI), which is formed by primary, secondary, and tertiary amines. These nanoparticles were then incubated with reporter plasmids and the ability of the resulting complexes to transfect human cells was studied. Only nanoparticles functionalized with PEI were efficient for transfection. The agglomeration behavior and the electrokinetic potential of the nanoparticle–plasmid complexes have been studied, as well as their cell internalization behavior using a fluorescent-labeled plasmid that allows its monitorization by confocal microscopy. The results indicate that the efficiency of PEI-functionalized nanoparticles for transfection resides to some extent in the different characteristics imparted to the nanoparticles regarding agglomeration and surface charge behavior. more...

Published

2011

29. Corrosion behaviour and biocompatibility of a novel Ni-free intermetallic coating growth on austenitic steel by hot dipping in an Al–12.6%Si alloy

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Author

José Luis González-Carrasco, L. Labajos-Broncano, Laura Saldaña, Maria A. Arenas, E. Frutos, María Luisa González-Martín, A. Conde, and Nuria Vilaboa

Subjects

Chromium, Silicon, Hot Temperature, Materials science, Biocompatibility, Alloy, Biomedical Engineering, Biophysics, Intermetallic, Biocompatible Materials, Bone Marrow Cells, Bioengineering, engineering.material, Corrosion, Biomaterials, Coating, Nickel, Materials Testing, Electrochemistry, Hydroxides, Humans, Scattering, Radiation, Austenitic stainless steel, Austenite, Osteoblasts, Photoelectron Spectroscopy, Metallurgy, technology, industry, and agriculture, Stainless Steel, Dielectric spectroscopy, engineering, Aluminum

Abstract

Commercial 316 LVM austenitic stainless steel samples have been coated by immersion in a bath of molten Al-12.6%Si alloy for 120 s. The coating consists of the Al12(Fe,Cr)3Si2 intermetallic. In vitro corrosion behaviour has been evaluated in the Ringer's solution by means of potentiodynamic curves and electrochemical impedance spectroscopy. The results reveal that the coated specimens exhibit lower susceptibility to localised corrosion with respect to the substrate. XPS analysis suggests that the ennoblement of the pitting potential is due to the formation of a chromium oxyhydroxide containing passive layer. The intermetallic coating shows a good biocompatibility, as demonstrated by culturing human mesenchymal stem cells isolated from bone marrow which attached, grew and differentiated to the osteoblastic lineage to a similar extent on coated and bare steels. In summary, this study proposes a method that generates Ni-free coatings of the stainless steel with useful properties for biomedical applications. © Springer Science+Business Media, LLC 2011. more...

Published

2011

30. Drug delivery from internally implanted biomedical devices used in traumatology and in orthopedic surgery

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Author

Jesus Santamaria, Manuel Arruebo, and Nuria Vilaboa

Subjects

medicine.medical_specialty, business.industry, Pharmaceutical Science, Traumatology, Prostheses and Implants, Surgery, Orthopedics, Delayed-Action Preparations, On demand, Orthopedic surgery, Drug delivery, Drug release, Animals, Humans, Medicine, Medical physics, business

Abstract

Millions of people receive annually an internal device aimed to repair or reconstruct damaged bone, and different therapeutic moieties are administered during or after surgery generally using systemic routes. The local administration of those moieties using in situ drug-eluting devices emerges as an alternative to minimize undesired side effects in healthy tissues, optimize the amount of drug needed, and reduce the costs.In vitro and in vivo published evidence regarding the performance of internally implantable drug-loaded biomedical devices for traumatology and orthopedic surgery are reviewed in this article, the problems that are encountered, and the main challenges in the development of a new generation of devices.An insight of past and current efforts to control the rate of drug release from devices, as well as the requirements that future developments may fulfill, such as responding 'on demand' after biological signaling or communicating the device with the exterior.The main drawback for proper design of devices having improved capabilities mainly remains in the lack of understanding with regards to the complex regulation of physiopathological mechanisms and the thermodynamics at the interface between the implant surface and the surrounding tissue. The potential toxicity and risk versus benefits of any new drug-eluting device need to be evaluated carefully. more...

Published

2010

31. Identification of differentially expressed genes in trabecular bone from the iliac crest of osteoarthritic patients

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Author

E. Gil-Garay, L. Alvarez, Nuria Vilaboa, L. Munuera, and E. Sánchez-Sabaté

Subjects

Trabecular bone, Adult, Cartilage, Articular, Male, Pathology, medicine.medical_specialty, Bone disease, Biomedical Engineering, Gene Expression, Osteoarthritis, Iliac crest, Osteoarthritis, Hip, Ilium, Rheumatology, Osteoclast, Reference Values, Bone cell, medicine, Humans, Orthopedics and Sports Medicine, Femoral neck, Aged, Aged, 80 and over, Analysis of Variance, business.industry, Reverse Transcriptase Polymerase Chain Reaction, Osteoblast, Articular cartilage damage, Middle Aged, medicine.disease, medicine.anatomical_structure, Female, Proteoglycans, business, Receptors, Transforming Growth Factor beta

Abstract

SummaryObjectiveOsteoarthritis (OA) is clinically characterized by degeneration of the joints and has been traditionally considered a primary disorder of articular cartilage, with secondary changes in the subchondral bone. The increased bone mass and generalized changes in bone quality observed in osteoarthritic patients suggest that OA may be a primary systemic bone disorder with secondary articular cartilage damage. The iliac crest is a skeletal site distant from the affected joint, with a minimal load-bearing function. To provide evidence that OA is a systemic disorder, we searched for differentially expressed genes in the iliac crest bone of patients suffering from hip OA.Material and methodsGene expression levels between bone samples collected at surgery from the iliac crest of patients undergoing total hip arthroplasty for primary OA and younger donors, who were undergoing spinal arthrodesis, were investigated by means of oligonucleotide microarrays. To verify data detected by microarrays technology, Real Time Reverse Transcription-Polymerase Chain Reaction (RT-PCR) assays were performed with specimens from osteoarthritic patients and donors, as well as from elderly donors who were undergoing arthroplasty for subcapital femoral neck fracture.ResultsThe microarray analysis surveyed 8327 genes and identified 83 whose expression levels differed at least 1.5-fold in the OA group (P more...

Published

2009

32. Calcium phosphate-based particles influence osteogenic maturation of human mesenchymal stem cells

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Author

Fátima Bensiamar, Isabel Izquierdo-Barba, Laura Saldaña, L. Munuera, Nuria Vilaboa, Sandra Sánchez-Salcedo, and María Vallet-Regí

Subjects

Calcium Phosphates, Materials science, Cell Survival, Biomedical Engineering, chemistry.chemical_element, Calcium, Biochemistry, Biomaterials, Microscopy, Electron, Transmission, X-Ray Diffraction, medicine, Humans, Osteopontin, Viability assay, Particle Size, Molecular Biology, Cells, Cultured, biology, Mesenchymal stem cell, Actin cytoskeleton reorganization, Cell Differentiation, Mesenchymal Stem Cells, Osteoblast, General Medicine, Alkaline Phosphatase, equipment and supplies, Cell biology, Durapatite, medicine.anatomical_structure, chemistry, Microscopy, Electron, Scanning, biology.protein, Alkaline phosphatase, Bone marrow, Biotechnology

Abstract

Biphasic calcium phosphates (BCPs) consist of a mixture of hydroxyapatite and β-tricalcium phosphate and are recommended as alternatives or additives to autogenous bone for orthopaedic and dental applications. There is clinical evidence showing particle release from bioceramics, which might impair the ability of human mesenchymal stem cells (hMSC) from bone marrow to proliferate or mature into a functional osteoblast phenotype. This study analyses the influence of BCP particles and their precursors, calcium-deficient apatite (CDA) particles, on in vitro hMSC behaviour. Both types of particles were efficiently internalized by hMSC. Cell viability, morphology and actin cytoskeleton reorganization were unaffected by exposure of hMSC to BCP or CDA particles. Direct exposure to BCP particles impaired hMSC osteogenic differentiation and bone matrix mineralization to a lesser extent than CDA, as assayed by evaluation of alkaline phosphatase activity, osteopontin secretion and mineralized nodule formation. The ability of bioceramic particles to affect osteogenic maturation through modification of soluble factors in media was assayed in an in vitro system that avoids direct cell–particle contact. Indirect exposure to CDA particles severely impaired hMSC osteogenic maturation owing to the uptake of Ca2+ from the culture media. Lower textural properties of BCP and the lack of calcium deficiency in its composition prevented Ca2+ uptake, allowing the development of a functional osteoblast phenotype. more...

Published

2009

33. Remote Patterning of Transgene Expression Using Near Infrared-Responsive Plasmonic Hydrogels

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Author

Francisco, Martín-Saavedra and Nuria, Vilaboa

Subjects

Fibrin, Hot Temperature, Tissue Scaffolds, Infrared Rays, Gene Expression, Metal Nanoparticles, Biocompatible Materials, Hydrogels, Genetic Therapy, Cells, Immobilized, Animals, Genetically Modified, Animals, Gold, Transgenes, Genetic Engineering

Abstract

The development of noninvasive technologies for remote control of gene expression has received increased attention for their therapeutic potential in clinical scenarios, including cancer, neurological disorders, immunology, tissue engineering, as well as developmental biology research. Near-infrared (NIR) light is a suitable source of energy that can be employed to pattern transgene expression in plasmonic cell constructs. Gold nanoparticles tailored to exhibit a plasmon surface band absorption peaking at NIR wavelengths within the so called tissue optical window (TOW) can be used as fillers in fibrin-based hydrogels. These biocompatible composites can be loaded with cells harboring heat-inducible gene switches. NIR laser irradiation of the resulting plasmonic cell constructs causes the local conversion of NIR photon energy into heat, achieving spatially restricted patterns of transgene expression that faithfully match the illuminated areas of the hydrogels. In combination with cells genetically engineered to harbor gene switches activated by heat and dependent on a small-molecule regulator (SMR), NIR-responsive hydrogels allow reliable and safe control of the spatiotemporal availability of therapeutic biomolecules in target tissues. more...

Published

2016

34. Remote Patterning of Transgene Expression Using Near Infrared-Responsive Plasmonic Hydrogels

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Author

Francisco Martín-Saavedra and Nuria Vilaboa

Subjects

0301 basic medicine, chemistry.chemical_classification, Materials science, Transgene, Biomolecule, technology, industry, and agriculture, Biomaterial, Nanoparticle, Bioinformatics, 03 medical and health sciences, 030104 developmental biology, chemistry, Tissue engineering, Colloidal gold, Self-healing hydrogels, Biophysics, Plasmon

Abstract

The development of noninvasive technologies for remote control of gene expression has received increased attention for their therapeutic potential in clinical scenarios, including cancer, neurological disorders, immunology, tissue engineering, as well as developmental biology research. Near-infrared (NIR) light is a suitable source of energy that can be employed to pattern transgene expression in plasmonic cell constructs. Gold nanoparticles tailored to exhibit a plasmon surface band absorption peaking at NIR wavelengths within the so called tissue optical window (TOW) can be used as fillers in fibrin-based hydrogels. These biocompatible composites can be loaded with cells harboring heat-inducible gene switches. NIR laser irradiation of the resulting plasmonic cell constructs causes the local conversion of NIR photon energy into heat, achieving spatially restricted patterns of transgene expression that faithfully match the illuminated areas of the hydrogels. In combination with cells genetically engineered to harbor gene switches activated by heat and dependent on a small-molecule regulator (SMR), NIR-responsive hydrogels allow reliable and safe control of the spatiotemporal availability of therapeutic biomolecules in target tissues. more...

Published

2016

35. Bioactivity of dexamethasone-releasing coatings on polymer/magnesium composites

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Author

Nuria Vilaboa, Laura Saldaña, José Luis González-Carrasco, Nerea Argarate, Garbiñe Atorrasagasti, Eduardo García-Rey, Fátima Bensiamar, Beatriz Olalde, and Sandra C. Cifuentes

Subjects

0301 basic medicine, Compressive Strength, Polymers, Macrophage, Cost-Benefit Analysis, Anti-Inflammatory Agents, 02 engineering and technology, Dexamethasone, Extracellular matrix, chemistry.chemical_compound, In-vitro, Coated Materials, Biocompatible, Polylactic acid, Coating, Osteogenesis, Endothelial growth-factor, Magnesium, Composite material, Orthopedic implants, Mesenchymal stem cell, chemistry.chemical_classification, Microscopy, Confocal, Neovascularization, Pathologic, Polymer, 021001 nanoscience & nanotechnology, Differentiation, Cytokines, Marrow stromal cells, 0210 nano-technology, medicine.drug, Materials science, Cell Survival, Polyesters, Biomedical Engineering, chemistry.chemical_element, Bone Marrow Cells, Bioengineering, Composite, engineering.material, Biomaterials, 03 medical and health sciences, Coatings, medicine, PLLA/Magnesium, Alloys, Humans, Glucocorticoids, Inflammation, Foreign-body reaction, Glucocorticoid-induced osteoporosis, Macrophages, Mesenchymal Stem Cells, In vitro, 030104 developmental biology, chemistry, engineering, Stress, Mechanical, Polyglycolic Acid

Abstract

We developed biodegradable polymeric coatings loaded with increasing amounts of dexamethasone on composites based on polylactic acid and Mg particles for bone repair. Incorporation of Mg particles into the polymeric matrix improves the compressive behaviour of the polymer. Mg-containing composites release Mg ions into the culture medium and improve mesenchymal stem cell (MSC) viability, enhance their osteogenic potential and promote the release of angiogenic factors. Dexamethasone-loaded coatings deposited on composites delay Mg ion dissolution while releasing controlled amounts of the drug, which are highly dependent on initial payload. Release kinetic of dexamethasone from the coatings exhibits a fast initial release of the drug followed by a slower secondary release. Bioactivity of the released dexamethasone was explored by monitoring dose-dependent responses of MSCs and macrophages. Biological effects exerted by the released drug are similar to those observed in cells treated with solutions of the glucocorticoid, indicating that the method employed for inclusion of dexamethasone into the coatings does not impair its bioactive behaviour. Culturing MSCs on dexamethasone-releasing coatings enhances extracellular matrix production and initial induction to osteogenic commitment as a function of drug payload. Dexamethasone incorporated into the coatings presents anti-inflammatory activity, as shown by the decrease in the production of cytokines and angiogenic factors by macrophages and MSCs. Deposition of dexamethasone-releasing coatings on polymer/Mg composites appears to be a promising approach to delay composite degradation at the early stage of implantation and may be useful to attenuate inflammation and adverse foreign body reactions. more...

Published

2016

36. On the interactions of human bone cells with Ti6Al4V thermally oxidized by means of laser shock processing

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Author

María Luisa González-Martín, José Luis González-Carrasco, M Ángeles Montealegre, Laura Saldaña, Sandra Barriuso, Lara Crespo, Virginia Vadillo-Rodríguez, Margarita Hierro-Oliva, Nuria Vilaboa, Enrique Gómez-Barrena, Junta de Extremadura, Comunidad de Madrid, Ministerio de Economía y Competitividad (España), and Ministerio de Ciencia e Innovación (España) more...

Subjects

Cell Survival, Surface Properties, Laser peening, 0206 medical engineering, Biomedical Engineering, Laser, Bioengineering, 02 engineering and technology, Heating, Biomaterials, Focal adhesion, Materials Testing, Oxidation, Cell Adhesion, medicine, Humans, Cell adhesion, Cells, Cultured, Cell Proliferation, Mesenchymal stem cell, Titanium, Osteoblasts, Chemistry, Lasers, Osteoblast, technology, industry, and agriculture, Cell Differentiation, Adhesion, 021001 nanoscience & nanotechnology, equipment and supplies, 020601 biomedical engineering, medicine.anatomical_structure, Bone Substitutes, Biophysics, Lamellipodium, Titanium alloy, 0210 nano-technology, Oxidation-Reduction, Filopodia

Abstract

We investigated a Ti6Al4V alloy modified by means of laser peening in the absence of sacrificial coatings. As a consequence of the temperature rise during laser focusing, melting and ablation generated an undulated surface that exhibits an important increase in the content of titanium oxides and OH- ions. Human mesenchymal stem cells and osteoblasts cultured on the oxidized alloy develop noticeable filopodia and lamellipodia. Their paxillin-stained focal adhesions are smaller than in cells attached to the untreated alloy and exhibit a marked loss of colocalization with the ends of actin stress fibers. An important imbalance of phosphorylation and/or dephosphorylation of the focal adhesion kinase is detected in cells grown on the oxidized alloy. Although these mechanisms of adhesion are deeply altered, the surface treatment does not affect cell attachment or proliferation rates on the alloy. Human mesenchymal stem cells cultured on the treated alloy in media containing osteogenic inducers differentiate towards the osteoblastic phenotype to a higher extent than those on the untreated surface. Also, the specific functions of human osteoblasts cultured on these media are enhanced on the treated alloy. In summary, laser peening tailors the Ti6Al4V surface to yield an oxidized layer with increased roughness that allows the colonization and activities of bone-lineage cells., This work was supported by grants PI12/01698 from Fondo de Investigaciones Sanitarias (FIS, Spanish Ministry of Economy and Competitiveness, MINECO, Spain), S2013/MIT-2862 from Comunidad de Madrid, MAT2009-14695-C04-01-02-04 from the former Spanish Ministry of Science and Innovation (MICINN), MAT2012-37736-C05-03-05 and MAT2014-52905- REDT (MINECO) and GR10149 (Junta de Extremadura, Spain). LC was the recipient of predoctoral fellowship BES-2010-034989 from MICINN. LS is supported by grant award CP11/00022 (FIS). NV is supported by Program I2 from Comunidad de Madrid (Spain). more...

Published

2016

37. In vitro biocompatibility of an ultrafine grained zirconium

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Author

L. Munuera, José Luis González-Carrasco, Nuria Vilaboa, María L González-Martín, María Teresa Pérez-Prado, Marta Multigner, Ling Jiang, Laura Saldaña, and A. Méndez-Vilas

Subjects

Materials science, Biocompatibility, Cell Survival, Surface Properties, Biophysics, chemistry.chemical_element, Biocompatible Materials, Bioengineering, In Vitro Techniques, Biomaterials, Calcification, Physiologic, Osteogenesis, Tubulin, Cell Line, Tumor, Materials Testing, Alloys, Cell Adhesion, medicine, Humans, Nanotopography, Particle Size, Cells, Cultured, Cytoskeleton, Strengthening mechanisms of materials, Titanium, Zirconium, Osteoblasts, Metallurgy, Biomaterial, Mesenchymal Stem Cells, Osteoblast, Alkaline Phosphatase, Actins, Grain size, Fibronectins, medicine.anatomical_structure, chemistry, Chemical engineering, Mechanics of Materials, Microscopy, Electron, Scanning, Ceramics and Composites, Severe plastic deformation, Hydrophobic and Hydrophilic Interactions

Abstract

We have investigated a novel ultrafine grained (UFG) Zr obtained by severe plastic deformation (SPD) which resulted in a refinement of the grain size by several orders of magnitude. Compared to conventional Zr, higher hardness values were measured on UFG Zr. Polished surfaces having similar topographical features from both materials were prepared, as assessed by atomic force microscopy (AFM). Surface hydrophobicity of Zr, evaluated by measuring water contact angles, was unaffected by grain size reduction. In vitro biocompatibility was addressed on conventional and UFG Zr surfaces and, for comparative purposes, a polished Ti6Al4 V alloy was also investigated. Cell attachment and spreading, actin and β-tubulin cytoskeleton reorganisation, fibronectin secretion and cellular distribution as well as cell viability were evaluated by culturing human osteoblastic Saos-2 cells on the surfaces. The osteoblastic response to conventional Zr was found to be essentially identical to Ti6Al4V and was not affected by grain size reduction. In order to evaluate the ability of the surfaces to promote osteogenic maturation and bone matrix mineralisation, human mesenchymal cells from bone marrow were switched to the osteoblastic phenotype by incubation in osteogenic induction media. Compared to undifferentiated mesenchymal cells, alkaline phosphatase activity and formation of mineralisation nodules were enhanced to the same extent on both Zr surfaces and Ti6Al4V alloy after induction of osteoblastic differentiation. In summary, improved mechanical properties together with excellent in vitro biocompatibility make UFG Zr a promising biomaterial for surgical implants. © 2007 Elsevier Ltd. All rights reserved. more...

Published

2007

38. Rutile and titanium particles differentially affect the production of osteoblastic local factors

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Author

Pablo González-Melendi, L. Munuera, Mercedes Pardo Rodríguez, Laura Saldaña, Nuria Vilaboa, and Gema Vallés

Subjects

Materials science, Biocompatibility, Cell Survival, Biomedical Engineering, chemistry.chemical_element, Dinoprostone, Corrosion, Immunoenzyme Techniques, Biomaterials, Materials Testing, medicine, Humans, Ceramic, Cells, Cultured, Aged, Titanium, Microscopy, Confocal, Osteoblasts, L-Lactate Dehydrogenase, Interleukin-6, RANK Ligand, Metallurgy, Osteoprotegerin, Metals and Alloys, Granulocyte-Macrophage Colony-Stimulating Factor, Osteoblast, Middle Aged, Receptors, Interleukin-6, Titanium oxide, Endotoxins, medicine.anatomical_structure, Chemical engineering, chemistry, Rutile, Agglomerate, visual_art, Ceramics and Composites, visual_art.visual_art_medium, Particulate Matter

Abstract

Titanium and its alloys are widely used as implant materials for dental and orthopaedic applications. To improve their wear and corrosion resistance, several surface modifications that give rise to an outer ceramic layer of rutile have been developed. It is expected that after a long period of functional loading, rutile debris will arise from these modified surfaces. We have compared the in vitro biocompatibility of subcytotoxic doses of rutile and titanium particles of phagocytosable size in primary cultures of human osteoblasts. Particles were visualized using a spectral confocal microscope by reflection. Both types of particles aggregated in the culture media and were efficiently internalized by osteoblasts as agglomerates. Treatment of isolated cultures of osteoblasts with rutile particles stimulated the release of IL-6, PGE2, and GM-CSF to a lesser extent than titanium. The influence of macrophages on the particle-induced stimulation of those local factors was analyzed by coculturing TPA-differentiated THP-1 cells with osteoblasts. Under these conditions, levels of IL-6 and PGE2 after treatment of cocultured osteoblasts with rutile particles were lower than after exposure to titanium. These results indicate that rutile debris shows a lower bioreactivity than titanium when tested in cultures of human osteoblasts and support the improved biocompatibility of titanium-based implants modified to create an outer layer of rutile on their surfaces. more...

Published

2007

39. Incorporation of Mg particles into PDLLA regulates mesenchymal stem cell and macrophage responses

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Author

Sandra C, Cifuentes, Fátima, Bensiamar, Amparo M, Gallardo-Moreno, Tim A, Osswald, José L, González-Carrasco, Rosario, Benavente, María L, González-Martín, Eduardo, García-Rey, Nuria, Vilaboa, and Laura, Saldaña more...

Subjects

Vascular Endothelial Growth Factor A, Cell Survival, Macrophages, Polyesters, Biocompatible Materials, Mesenchymal Stem Cells, Alkaline Phosphatase, Cell Line, Humans, Magnesium, Chemokine CCL5, Cells, Cultured, Chemokine CCL2, Chemokine CCL3

Abstract

In this work, we investigated a new approach to incorporate Mg particles within a PDLLA matrix using a solvent-free commercially available process. PDLLA/Mg composites were manufactured by injection moulding and the effects of Mg incorporated into PDLLA on MSC and macrophage responses were evaluated. Small amounts of Mg particles (≤ 1 wt %) do not cause thermal degradation of PDLLA, which retains its mechanical properties. PDLLA/Mg composites release hydrogen, alkaline products and Mg(2+) ions without changing pH of culture media. Mg-containing materials provide a noncytotoxic environment that enhances MSC viability. Concentration of Mg(2+) ions in extracts of MSCs increases with the increment of Mg content in the composites. Incorporation of Mg particles into PDLLA stimulates FN production, ALP activity, and VEGF secretion in MSCs, an effect mediated by degradation products dissolved from the composites. Degradation products of PDLLA induce an increase in MCP-1, RANTES, and MIP-1α secretion in macrophages while products of composites have minimal effect on these chemokines. Regulation of MSC behavior at the biomaterial's interface and macrophage-mediated inflammatory response to the degradation products is related to the incorporation of Mg in the composites. These findings suggest that including small amounts of Mg particles into polymeric devices can be a valuable strategy to promote osseointegration and reduce host inflammatory response. more...

Published

2015

40. Regulatable Gene Expression Systems for Gene Therapy

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Author

Nuria Vilaboa and Richard Voellmy

Subjects

Genetics, Regulation of gene expression, Transgene, Gene targeting, Promoter, Genetic Therapy, Biology, Cell biology, Gene Expression Regulation, Heat shock protein, Gene Targeting, Drug Discovery, Gene expression, Animals, Humans, Molecular Medicine, Molecular Biology, Gene, Genetics (clinical), Regulator gene

Abstract

It is feasible to restrict transgene expression to a tissue or region in need of therapy by using promoters that respond to focusable physical stimuli. The most extensively investigated promoters of this type are radiation-inducible promoters and heat shock protein gene promoters that can be activated by directed, transient heat. Temporal regulation of transgenes can be achieved by various two- or three-component gene switches that are triggered by an appropriate small molecule inducer. The most commonly considered gene switches that are reviewed herein are based on small molecule-responsive transactivators derived from bacterial tetracycline repressor, insect or mammalian steroid receptors, or mammalian FKBP12/FRAP. A new generation of gene switches combines a heat shock protein gene promoter and a small molecule-responsive gene switch and can provide for both spatial and temporal regulation of transgene activity. more...

Published

2006

41. Osteoblast response to plasma-spray porous Ti6Al4V coating on substrates of identical alloy

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Author

Nuria Vilaboa, Marta Rodríguez, Laura Saldaña, José Luis González-Carrasco, and L. Munuera

Subjects

musculoskeletal diseases, Materials science, Biocompatibility, Alloy, Biomedical Engineering, engineering.material, Osseointegration, Biomaterials, Coated Materials, Biocompatible, Coating, Materials Testing, Alloys, medicine, Humans, Cell adhesion, Thermal spraying, Cells, Cultured, Aged, Titanium, Osteoblasts, Metallurgy, technology, industry, and agriculture, Metals and Alloys, Osteoblast, equipment and supplies, medicine.anatomical_structure, Ceramics and Composites, engineering, Biophysics, Alkaline phosphatase

Abstract

We have evaluated the in-vitro biocompatibility of Ti6Al4V alloy coated by plasma spraying with an identical alloy. These surfaces are widely used in cementless prosthetic components, although osteoblasts behavior on this treated alloy has not been evaluated to date. Cross sectional examination revealed a thick and rough coating of identical composition without sign of delamination. Within the coating, small discontinuities and nonconnected pores were observed. Osteoblast response was evaluated by assessing cell adhesion, proliferation, and differentiation of primary cultures of human osteoblastic cells. Compared to the polished alloy, osteoblast adhesion measured as cell attachment and actin network reorganization was delayed on the plasma-sprayed surface. Cell proliferation and viability were also impaired on the rough surface. Several informative markers of osteoblastic differentiation such as procollagen I peptide, alkaline phosphatase, osteocalcin, osteoprotegerin, and mineralized nodule formation were evaluated and indicated that the plasma-sprayed alloy favored a more differentiated phenotype than polished alloy. Taken together, our in vitro results indicate that successful osseointegration of plasma spraying of Ti6Al4V with an identical alloy is mediated by modulation of osteoblastic differentiation and mineralization. © 2006 Wiley Periodicals, Inc. more...

Published

2006

42. Osteoblast response to thermally oxidized Ti6Al4V alloy

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Author

Gema Vallés, Laura Saldaña, L. Munuera, Nuria Vilaboa, and J. González-Cabrero

Subjects

Thermal oxidation, Materials science, Biocompatibility, biology, Cell growth, Metallurgy, Alloy, Metals and Alloys, Biomedical Engineering, Osteoblast, engineering.material, Biomaterials, medicine.anatomical_structure, Ceramics and Composites, Biophysics, medicine, Osteocalcin, biology.protein, engineering, Alkaline phosphatase, Cell adhesion

Abstract

We have recently reported that thermal oxidation treatments of Ti6Al4V at 500 degrees and 700 degrees C for 1 h result in the formation of an outer "ceramic" layer of rutile that do not decrease the high in vitro corrosion resistance of the alloy. In the present work, surface roughness was measured and found marginally increased as a consequence of oxidation of the alloy at 700 degrees C, but not at 500 degrees C. We have evaluated the biocompatibility of the oxidized surfaces, by assessing cell adhesion, proliferation, and differentiation of primary cultures of human osteoblastic cells. Compared with polished alloy, both thermal treatments increased osteoblast adhesion measured as cell attachment, beta1 integrin and FAK-Y397 expression, as well as cytoskeletal reorganization. Compared with treatment at 500 degrees C, thermal oxidation at 700 degrees C enhanced cell adhesion. Treatment at 700 degrees C transiently impaired cell proliferation and viability, which were not altered in alloys oxidized at 500 degrees C. Several markers of osteoblastic differentiation such as procollagen I peptide, alkaline phosphatase, osteocalcin, and mineralized nodule formation were found either unaffected or differentially increased by alloys treated either at 500 degrees or 700 degrees C. In addition, thermal oxidation at 700 degrees C also increased osteoprotegerin secretion. Taken together, our results indicate that thermal oxidation treatments at 500 degrees or 700 degrees C for 1 h improve the in vitro biocompatibility of Ti6Al4V. more...

Published

2005

43. A novel approach for addressing diseases not yielding to effective vaccination? Immunization by replication-competent controlled virus

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Author

David C. Bloom, Richard Voellmy, and Nuria Vilaboa

Subjects

Pharmacology, Inoculation, Heterologous Antigens, Immunology, Biology, Virus Replication, Virology, Communicable Diseases, Virus, Vaccination, Immune system, Immunization, Drug Discovery, Viruses, Disease Transmission, Infectious, Molecular Medicine, Humans, Vector (molecular biology), Antigens, Gene

Abstract

Vaccination involves inoculation of a subject with a disabled disease-causing microbe or parts thereof. While vaccination has been highly successful, we still lack sufficiently effective vaccines for important infectious diseases. We propose that a more complete immune response than that elicited from a vaccine may be obtained from immunization with a disease-causing virus modified to subject replication-essential genes to the control of a gene switch activated by non-lethal heat in the presence of a drug-like compound. Upon inoculation, strictly localized replication of the virus would be triggered by a heat dose administered to the inoculation site. Activated virus would transiently replicate with an efficiency approaching that of the disease-causing virus and express all viral antigens. It may also vector heterologous antigens or control co-infecting microbes. more...

Published

2015

44. Gene and Cell Therapy

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Author

Francesco Saverio Tedesco, Scott Henry, Nicola Brunetti-Pierri, Eric Swayze, Ornella Parolini, George Calin, Andrew Wise, Vincenzo Cerullo, Markus Vähä-Koskela, Paolo De Coppi, Nuria Vilaboa, Louise Rodino-Klapac, Ernst Wagner, CARMEN GUTIERREZ MILLAN, Anna Cargnoni, Richard Heller, Bryony Nayagam, Given Names Deactivated Family Name Deactivated, Tina Catela Ivkovic, Jean Christopher Chamcheu, Uta Griesenbach, Devika S Manickam, and Laia Tolosa more...

Subjects

chemistry.chemical_classification, Chemistry, Biophysics, Polymer, Gene delivery, Redox responsive

Published

2015

45. Deliberate Regulation of Therapeutic Transgenes: Recent Advances in System Development and Uses

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Author

Richard Voellmy and Nuria Vilaboa

Subjects

System development, Computational biology, Biology

Published

2015

46. Immunization by Replication-Competent, Controlled Viral Pathogen ? A Novel Approach Worth Exploring for Diseases Refractory to Effective Conventional Vaccination?

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Author

Richard Voellmy, David C. Bloom, and Nuria Vilaboa

Subjects

Immunization, Refractory, business.industry, Virology, Drug Discovery, Immunology, Immunology and Allergy, Medicine, business, Pathogen, Replication (computing)

Published

2015

47. Decrease of Staphylococcal adhesion on surgical stainless steel after Si ion implantation

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Author

Alicia Calzado-Martín, I. Braceras, Marta Multigner, José Luis González-Carrasco, M. Luisa González-Martín, Miguel A. Pacha-Olivenza, Carolina Vera, Luis Labajos Broncano, Amparo M. Gallardo-Moreno, Nuria Vilaboa, Ministerio de Ciencia e Innovación (España), Fundación Mutua Madrileña, Junta de Extremadura, European Commission, and Comunidad de Madrid more...

Subjects

Silicon, Materials science, Biocompatibility, Alloy, General Physics and Astronomy, engineering.material, Corrosion, Stainless steel, Staphylococcus epidermidis, XPS, Austenitic stainless steel, biology, Bacteria, Metallurgy, technology, industry, and agriculture, Biomaterial, Surfaces and Interfaces, General Chemistry, Condensed Matter Physics, biology.organism_classification, Surgical stainless steel, Surfaces, Coatings and Films, Ion implantation, engineering, Biomedical engineering

Abstract

316LVM austenitic stainless steel is often the material of choice on temporal musculoskeletal implants and surgical tools as it combines good mechanical properties and acceptable corrosion resistance to the physiologic media, being additionally relatively inexpensive. This study has aimed at improving the resistance to bacterial colonization of this surgical stainless steel, without compromising its biocompatibility and resistance. To achieve this aim, the effect of Si ion implantation on 316LVM has been studied. First, the effect of the ion implantation parameters (50 keV; fluence: 2.5-5 × 1016 ions/cm2; angle of incidence: 45-90°) has been assessed in terms of depth profiling of chemical composition by XPS and nano-topography evaluation by AFM. The in vitro biocompatibility of the alloy has been evaluated with human mesenchymal stem cells. Finally, bacterial adhesion of Staphylococcus epidermidis and Staphylococcus aureus on these surfaces has been assessed. Reduction of bacterial adhesion on Si implanted 316LVM is dependent on the implantation conditions as well as the features of the bacterial strains, offering a promising implantable biomaterial in terms of biocompatibility, mechanical properties and resistance to bacterial colonization. The effects of surface composition and nano-topography on bacterial adhesion, directly related to ion implantation conditions, are also discussed. © 2014 Elsevier B.V., The work was supported by the Spanish Ministry for Science and Innovation Grants CIT-420000-2008-17, MAT2009-14695-C04-01-02-03 and grants from Fundación Mutua Madrileña (Spain), and the Junta de Extremadura-FEDER (Grant GR10149). NV is supported by Program I2 from Comunidad de Madrid (Spain). more...

Published

2014

48. Spatial arrangement of mesenchymal stem cells regulates their immunomodulatory properties on macrophages

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Author

Nuria Vilaboa, Laura Saldaña, Gema Vallés, and Fátima Bensiamar

Subjects

Chemistry, Mesenchymal stem cell, General Medicine, Cell biology

Published

2014

49. 1,25-Dihydroxyvitamin D3 modulates the cross-talk between mesenchymal stem cells and macrophages

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Author

Gema Vallés, Nuria Vilaboa, Fátima Bensiamar, and Laura Saldaña

Subjects

Mesenchymal stem cell, General Medicine, Cell biology

Published

2014

50. Regulation of Multidrug Resistance 1 (MDR1)/P-glycoprotein Gene Expression and Activity by Heat-Shock Transcription Factor 1 (HSF1)

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Author

Patricio Aller, Elena de Blas, Alfonso Troyano, Nuria Vilaboa, and Alba Galán

Subjects

Hot Temperature, Time Factors, Transcription, Genetic, HSP27 Heat-Shock Proteins, Transfection, Vinblastine, physiological processes, Biochemistry, Transactivation, Heat Shock Transcription Factors, Genes, Reporter, Heat shock protein, Gene expression, polycyclic compounds, Humans, HSP70 Heat-Shock Proteins, ATP Binding Cassette Transporter, Subfamily B, Member 1, Promoter Regions, Genetic, HSF1, neoplasms, Molecular Biology, Heat-Shock Proteins, P-glycoprotein, Regulation of gene expression, Binding Sites, Expression vector, Base Sequence, biology, fungi, Cell Biology, Molecular biology, Drug Resistance, Multiple, Recombinant Proteins, Neoplasm Proteins, DNA-Binding Proteins, Heat shock factor, Kinetics, Gene Expression Regulation, biology.protein, HeLa Cells, Molecular Chaperones, Transcription Factors

Abstract

7 páginas, 7 figuras -- PAGS nros. 24970-24976, Infection of HeLa cells with adenovirus-carrying HSF1+ cDNA, which encodes a mutated form of HSF1 with constitutive transactivation capacity, increased multidrug resistance 1 (MDR1) mRNA level and P-glycoprotein (P-gp) cell surface content and stimulated rhodamine 123 accumulation and vinblastine efflux activity. On the other hand, infection with adenovirus-carrying HSP70 andHSP27 cDNAs did not increase MDR1/P-gp expression. HSF1 regulates MDR1/P-gp expression at the transcriptional level, since HSF1+ bound the heat-shock consensus elements (HSEs) in the MDR1 gene promoter and also activated the expression of an MDR1 promoter-driven reporter plasmid (pMDR1(−1202)). In addition, heat-shock increased pMDR1(−1202) promoter activity but not the activity of a similar reporter plasmid with point mutations at specific HSEs, and the heat-induced increase was totally inhibited by co-transfection with an expression plasmid carrying HSF1−, a dominant negative mutant of HSF1. The stress inducers arsenite, butyrate, and etoposide also increased pMDR1(−1202) promoter activity, but the increase was not inhibited (in the case of butyrate) or was only partially inhibited (in the case of arsenite and etoposide) by HSF1−. These results demonstrate that HSF1 regulates MDR1 expression, and that the HSEs present in the −315 to −285 region mediate the heat-induced activation of the MDR1 promoter. However, other factors may also participate in MDR1 induction by stressing agents. The acquisition of the multidrug resistance (MDR)1 phenotype, defined as increased resistance against cytotoxic drugs with unrelated structures, represents one of the major obstacles for chemotherapy of tumors and other malignancies. One of the mechanisms that may account for MDR is the surface accumulation of the P-glycoprotein (P-gp, also called the multidrug transporter), which blocks the influx and/or increases the efflux of many hydrophobic agents, including some of the most commonly used anticancer drugs (for a review, see Ref. 1). In humans, P-gp is encoded by the MDR gene family, composed of two members, only one of which (MDR1) seems to be functionally linked to the development of the MDR phenotype (2). P-gp is expressed in some normal tissues, such as epithelial cells of kidney, liver, pancreas, and intestinal mucosa and capillaries of brain and testis. In these tissues, P-gp probably plays a physiological role, promoting the excretion of xenobiotics or preventing their absorption and also possibly acting as a chloride channel (reviewed in Refs. 1 and 3). As a consequence, cancers derived from these tissues may constitutively express P-gp and be intrinsically drug-resistant. However, in most cases P-gp-derived resistance is acquired during chemotherapy,e.g. in breast, bladder, lung, and ovary tumors, among others (for a review, see Ref. 3). Prolonged exposure to cytotoxic drugs may lead to the selection of cells with MDR1 gene amplification, at least under in vitro conditions (2, 4-6). However, even when amplification occurs, it does not always adequately explain the increased P-gp expression and drug resistance (6, 7). On the other hand, P-gp expression may also be de novo induced by short term exposures to cytotoxic agents such as UV light (8), actinomycin D (9), chemotherapeutic drugs (10), and inducers of the stress response (11, 12)., The heat-shock transcription factors (HSFs) were originally characterized as regulators of the expression of heat-shock protein (HSP) genes, through the binding to specific sequences (“heat-shock elements,” or HSEs) present in the promoter of these genes. The HSF family contains three members in humans, namely HSF1, HSF2, and HSF4 (13-15), among which HSF1 is specifically responsible for the stress-mediated HSP induction (16, 17). In unstressed cells, HSF1 is present in the cytoplasm as a monomer or forming heteromeric complexes. Upon treatment with stress inducers, HSF1 homotrimerizes, translocates to the nucleus, and binds the HSE (16, 17) to further acquire the transactivation capacity (18). Indirect proofs have suggested that HSFs could also participate in MDR1 gene expression. In fact, (a) HSEs have been identified in theMDR1 gene promoter (11, 12); (b) typical stress inducers such as heat-shock and arsenite, which induce HSPgene expression, also induce MDR1 gene expression in some cell types (11, 12); (c) some multidrug-resistant cell lines exhibit constitutively high HSF-DNA binding activity (19); and (d) quercetin, which inhibits HSF-HSE binding, also inhibits HSF-DNA binding and P-gp expression in multidrug-resistant cells (20). However, the problem is far from being clear, since (a) some work suggests that the activation of MDR1 expression by heat-shock and other stressing agents may be mediated by DNA sequences and transcription factors other than HSE and HSFs (21-23); (b) the possibility cannot be excluded that MDR1gene induction by stressing agents, instead of being a direct response, is mediated by increased HSPs expression; and (c) even if HSFs directly regulate MDR1 gene expression, it is not known which member of the family is actually implicated. In the present work, we analyzed the regulation of MDR1 gene expression by HSF1 using direct gene transfer procedures. This was made possible by the use of specific HSF1 mutants, namely a construction encoding an active mutant (HSF1+) (a deleted form of HSF1 with constitutive binding and transactivation capacities) and a construction encoding a dominant negative mutant (HSF1−) (a deleted form that constitutively binds the HSP gene promoters but is unable to transactivate, even under stressing conditions) (18), This work was supported by Dirección General de Enseñanza Superior e Investigación Cientı́fica (Spain) Grant PM97–0144 and Comunidad Autónoma de Madrid (Spain) Grant 08.1/0027/1997.The costs of publication of this article were defrayed in part by the payment of page charges more...

Published

2000