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Nanoligent, the spin off created by the Directors of Units 1 and 18 of NANBIOSIS, awarded for the best company in Health Sciences given by the law firm RCD

NANOLIGENT is awarded for the best company in Health Sciences  Price given by the law firm RCD.

The XXIII Investment Forum of ACCIÓ 2018 was celebrated last June 20th  with the aim of connecting with the world of private investment.  ACCIÓ, Company Competitiveness Agency, had previously published a catalog of startups with the most potential startups in Catalonia, projects selected from more than 100 candidatures were presented for the 2018 Investment Forum of ACTION. The 50 companies in this catalog stand out due to their differential nature and innovative value, due to their social impact and the involvement of the entrepreneurial team. They are companies operating in key sectors for the economy of the future such as life and health sciences, ICT and other crucial cutting-edge technologies for industry 4.0 including 3D printing, IoT and virtual reality. The 21 finalists had the opportunity to present themselves to a large number of investors and venture capital funds during the Forum’s celebration, an audience of 600 people who voted the 9 best companies to participate in the final.  Nanoligent, S.L., the company stablished on March 2017 by professors Dr. A. Villaverde and Dra. E. Vázquez from NANBIOSIS Unit 1, professor Dr. M. Mangués from NANBIOSIS Unit 18, and entrepreneur Dr. M. Rodríguez won the award for the best company in Health Sciences given by the law firm RCD (Rousaud Costas Duran)

NANOLIGENT’s mission is to improve the lives of patients by designing new medications that selectively target the cells affected by disease. With this approach NANOLIGENT develops treatments that are more effective and have less adverse effects than classical drugs using state-of-the-art protein engineering and nanobiotechnology. Currently Nanoligent is working on antimetastatic medication for colorectal cancer and its business model is carrying out a first clinical trial which demonstrates the efficacy of the medication in humans and allows the company to sign a license agreement with a pharmaceutical company

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NANOMEDICINE APPLICATIONS IN DRUG DELIVERY AND TARGETING: NANBIOSIS – NANOMED Industrial Forum

Yesterday took place in Barcelona, at Barcelona School of Management, Universitat Pompeu Fabra, a meeting of resarch groups and units of NANBIOSIS and CIBER-BBN and companies in the third B2B Forum organized by NANBIOSIS, in this case together with NANOMED SPAIN.

Thirteen companies and twelve groups from CIBER-BBN and CCMIJU (ten of them coordinating NANBIOSIS units) got together to explain, through short presentations of ten minutes, those lines of their work aimed at finding synergies and potential collaborations in the area of Nanomedicine apllications in drug delivery and targeting. There was also a talk by a  representative of CDTI (Spanish National Center for Industrial and Technological Development) to explain the financing opportunities for the companies as well as a presentation by the NANBIOSIS Coordinator, Jesús Izco, to show the new Cutting Edge Biomedical Solutions offered by the ICTS-NANBIOSIS

After lunch, the groups and companies had the opportunity to discuss in more detail, during bilateral interviews coordinated by NANBIOSIS a, those aspects that had attracted their attention, as well as, in some cases, to draw potential collaborations. The event was successfully developed with 45 attendees and more than 50 individual B2B mettings.

 

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NANOLIGENT, the first drug designed to eliminate metastases stem cells

NANBIOSIS researchers have developed a nanomedicine for the treatment of metastases by the selective elimination of tumor stem cells. It is a system based on nanoparticles that transport a chemotherapeutic drug and release it into cancer cells.

The research team, led by Esther Vázquez and Antonio Villaverde, Strategy Director of NANBIOSIS U1. Protein Production Platform (PPP), in the IBB-UAB, and Ramon Mangues, Scientific Director of NANBIOSIS U18. Nanotoxicology Unit, in the Sant Pau Hospital, have already created a prototype of the drug and have conducted in vivo trials in animal models of colorectal cancer. They have demonstrated their effectiveness, selective biodistribution and low toxicity.

To promote the development of the drug towards the clinic, the reserachers have created Nanoligent a start-up company, based in Barcelona, led by Manuel Rodríguez, a professional with experience in the field of investment and the creation and growth of biotech companies. The technology is patented in Europe and USA and has been licenced to Nanoligent

The therapy created by the researchers is aimed at blocking the development of metastasis, mainly of colorectal cancer, through new strategies aimed at certain cell types. It consists of a new drug administration system based on protein nanoparticles that selectively conduct the therapeutic agent in tumor cells. The drug acts only on cancer cells, because it is based on the specific interaction between a protein present in the nanoparticle and a cellular receptor (CXCR4), which is overexpressed in tumor cells. “This interaction is crucial, because it allows attacking only tumor cells and not healthy cells, thus avoiding secondary effects derived from classical chemotherapy,” emphasizes Antonio Villaverde.

The CXCR4 receptor is overexpressed in many types of tumors, so that “this technology can be directed to the treatment of different types of neoplasms in addition to colorectal cancer and derived metastases, such as lymphoma, leukemia or endometrial cancer, in animal models already available to the group of Sant Pau “, comments Ramon Mangues. In addition, nanoparticles are compatible with a huge variety of possible drugs and therefore they become highly versatile vehicles that can carry a wide range of therapeutic molecules.

“There is an urgent need for more effective and personalized treatments for cancer. The toxicity and the lack of efficacy of conventional drugs are pushing alternative experimental strategies directed and designed to achieve only defined cell types. Nanoparticles, thanks to their capacity for penetration, dissemination and functionality, offer a promising nanomedical landscape to create new drugs,” explains Esther Vázquez.

In this direction, the technology of Nanoligent opens a new door in anti-pelagic therapy, as it allows to design a treatment with greater cellular specificity than that of existing treatments, while offering greater biosecurity and biodegradability and lower toxicity,” he said. Antonio Villaverde points out.

Currently, there are no drugs in the market that selectively eliminate metastatic stem cells. Although Nanoligent technology is still under development, researchers say they have a lot of potential and consider that it could have a high clinical impact as regulatory trials are overcome.

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Agreements signed with MINECO for the allocation of FEDER funds for NANBIOSIS ICTS

In the framework of the FEDER Program in ICTS 2014-2020, several projects related to the ICTS NANBIOSIS have been selected by the MINECO for co-financing with FEDER funds of the European Regional Development Funds program.

An agreement has been signed between MINECO and CIBER (partner of NANBIOSIS for the co-financing of the Project: “Purchase, installation and set-up of production and characterization equipment to complement the Units: U3-Synthesis of Peptides Unit, U18-Nanotoxicology and U20- In Vivo Experimental Platform”. The total budget of the project amounts to € 307,566.16, with 50% financing with FEDER Funds.

Also CSIC (The State Agency Superior Council of Scientific Investigations), institution that houses some of the NANBIOSIS units,  as distributed ICTS,  has signed an agreement with MINECO for the co-financing of the Project: “Purchase and installation and set-up of equipment and production and characterization laboratories to complement the units U2-Production of antibodies, U4-Biodeposition and biosensing, U6-Processing of biomaterials and U8-Micro, nanotechnology. The total budget of the project amounts to € 312.800,00 €, with 50% financing with FEDER Funds.

These two projects aim to increase the quantity and quality of the services offered by th implied units, with the objetive of positioning them as national and international benchmark in their respective fields of application. As a consequence, an increase in the performance (number of services and number of users) of each unit is expected, especially from companies (pharmaceutical and small biotechnology).

CSIC and CIBER are processing the necessary contracting procedures for the execution of these projects.

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Posters presentation by NANBIOSIS Units in CIBER-BBN ANNUAL CONFERENCE 2017

Last 13 and 14 of November, CIBER-BBN  has celebrated its 11th Annual Conference in Hotel Santemar in Santander. In this conference there was a poster session with the participation of the following Units of NANBIOSIS. Special mention deserves Unit 1 with Neus Ferrer as Director and  Paolo Saccardo as Coordinator (in the picture):

Posters:

U1. Protein Production Platform (PPP):

Engineering protein complexes as nano- or micro-structured vehicles or drugs for human and veterinary medicine. Ugutz Unzueta, Naroa Serna, Laura Sánchez-García, José Vicente Carratalá, Olivia Cano-Garrido, Mercedes Márquez, Paolo Saccardo, Rosa Mendoza, Raquel Díaz, Héctor, López-Laguna, Julieta Sánchez, Anna Obando, Amanda Muñoz, Andrés Cisneros, Eric Voltà, Aida Carreño, José Luis Corchero, Neus Ferrer-Miralles, Esther Vázquez, Antonio Villaverde.

Units  U1. Protein Production Platform (PPP) and U18. Nanotoxicology Unit:

Intrinsic functional and architectonic heterogeneity of tumor-targeted protein nanoparticles. Mireia Pesarrodona, Eva Crosa, Rafael Cubarsi, Alejandro Sanchez-Chardi, Paolo Saccardo, Ugutz Unzueta, Fabian Rueda, Laura Sanchez-Garcia, Naroa Serna, Ramón Mangues, Neus Ferrer Miralles, Esther Vázquez, Antonio Villaverde.

Units U3. Synthesis of Peptides UnitU6. Biomaterial Processing and Nanostructuring Unit, and U20. In Vivo Experimental Platform:

Synthesis of different length monodisperse COL-PEG-PEPTIDE to increase biodisponibility of multifunctional nanovesicles for Fabry’s desease. Edgar Cristóbal-Lecina; Daniel Pulido; Solène Passemard; Elizabet González-Mira; Jaume Veciana; Nora Ventosa; Simó Schwartz; Ibane Abasolo; Fernando Albericio and Miriam Royo.

Units U13. Tissue & Scaffold Characterization Unit and U17. Confocal Microscopy Service::

Preclinical behavior of medium-chain cyanoacrylate glue with two different surgical application forms for mesh fixation in abdominal wall repair. Gemma Pascual, Bárbara Pérez-Köhler, Marta Rodríguez, Claudia Mesa-Ciller, Ángel Ortillés, Estefanía Peña, Begoña Calvo, Juan M. Bellón.

Units U27. High Performance Computing and U8. Micro – Nano Technology Unit:

Inspiration and Expiration Dynamics in Acute Emotional Stress Assessment. Javier Milagro, Eduardo Gil, Jorge M. Garzón-Rey, Jordi Aguiló, Raquel Bailón.

U5. Rapid Prototyping Unit:

Poly-DL-lactic acid films functionalized with collagen IV as carrier substrata for corneal epithelial stem cells. Ana de la Mata, Miguel Ángel Mateos-Timoneda, Teresa Nieto-Miguel, Sara Galindo, Marina López-Paniagua, Xavier Puñet, Elisabeth Engel, Margarita Calonge.

U6. Biomaterial Processing and Nanostructuring Unit:

Strategy for engineering myoglobin nano-traps for biomedical sensing technology. E. Laukhina, O. V. Sinitsyna, N. K. Davydova, V. N. Sergeev, A. Gomez, I. Ratera, C. Blázquez Bondia, J. Paradowska, X. Rodriguez, J. Guasch, Jaume Veciana.

Structure and nanomechanics of quatsome membranes. B. Gumí-Audenis, L. PasquinaLemonche, J.A. Durán, N. Grimaldi, F. Sanz, J. Veciana, I. Ratera, N. Ventosa and M.I. Giannotti

U7. Nanotechnology Unit:

Bioreceptors nanostructuration study for early detection of Alzheimer. José Marrugo, Dr. Samuel Dulay, Dr. Mònica Mir, Prof. Josep Samitier.

RGD dendrimer-based nanopatterns promote chondrogenesis and intercellular communication for cartilage regeneration. Ignasi Casanellas, Anna Lagunas, Iro Tsintzou, Yolanda Vida, Daniel Collado, Ezequiel Pérez-Inestrosa, Cristina Rodríguez, Joana Magalhães, José A. Andrades, José Becerra, Josep Samitier.

Long-range electron transfer between redox partner proteins. Anna Lagunas, Alejandra GuerraCastellano, Alba Nin-Hill, Irene Díaz-Moreno, Miguel A. De la Rosa, Josep Samitier, Carme Rovira, Pau Gorostiza.

U8. Micro – Nano Technology Unit:

Miniaturized multi-sensing platform for pH and Dissolved Oxygen monitoring in Organ-On-aChip systems. M. Zea, A. Moya, I. Gimenez, R. Villa, G. Gabriel.

Electrochemical characterization of SWCNTs based microelectrodes fabricated by inkjet printing. M. Mass, A. Moya, G. Longinotti, M. Zea, M. Muñoz, E. Ramon, L. Fraigi, R. Villa, G. Ybarra, G. Gabriel.

U9. Synthesis of Nanoparticles Unit:

In vivo imaging and local persistance of polymeric micro- and nanomaterials labelled with the near infrared dye IR820. Isabel Ortiz de Solórzano, Gracia Mendoza, Inmaculada Pintre, Sara García-Salinas, Víctor Sebastián, Vanesa Andreu, Marina Gimeno, Manuel Arruebo.

U10. Drug Formulation:

Cationic nioplexes-in-polysaccharide-based hydrogels as versatile biodegradable hybrid materials to deliver nucleic acids. Santiago Grijalvo, Adele Alagia, Gustavo Puras, Jon Zárate, Judith Mayr, José Luis Pedraz, Ramon Eritja

U12. Nanostructured liquid characterization unit:

Perfluorocarbon-loaded Nanocapsules from Nano-emulsion Templates as Microbubble Precursors for Biomedical Applications. G. Calderó, A. González, M. Monge, C. Rodríguez-Abreu, M.J.García-Celma, C. Solans.

Biodistribution study of polymeric drug-loaded nanoparticles in murine model. Marta Monge, Aurora Dols, Stephane Fourcade, Aurora Pujol, Carlos Rodríguez-Abreu, Conxita Solans.

U16. Surface Characterization and Calorimetry Unit:

Behavior and a comparative study between tantalum and titanium alloy implant surfaces against bacterial adhesion. M.A. Pacha-Olivenza, M.L. González-Martín.

Bacterial adhesion on calcium ion-modified titanium implant surfaces. M.A. Pacha Olivenza, R. Tejero, M. Delgado-Rastrollo, M.L. González-Martín.

Bioactive coatings to promote tissue regeneration and ingrowth into 3D custom-made porous titanium endoimplants (COATREG-3D). Santos-Ruiz L; Granados JF; Ruiz F; Yáñez JI; González A; Cabeza N; Vida Y; Pérez-Inestrosa E; Izquierdo-Barba I; Vallet-Regí M; Rubio J; Orgaz F; Rubio N; González ML; Peris JL; Monopoli D; Becerra J.

U17. Confocal Microscopy Service:

Subcutaneous implantation of a biodegradable apatite/agarose scaffold: biocompatibility and osteogenesis characterization in a rat model. Natalio García-Honduvilla, Gemma Pascual, Miguel A. Ortega, Alejandro Coca, Cynthia Trejo, Jesús Román, Juan Peña, María V. Cabañas, Julia Buján, and María Vallet-Regí.

U25. NMR: Biomedical Applications I:

Dual T1/T2 NCP-based novel contrast agents for brain tumor MRI: a preclinical study. Suarez, S; Arias-Ramos, N; Candiota, AP; Lorenzo, J; Ruiz-Molina, D; Arús, C; Novio, F.

Metronomic treatment in immunocompetent preclinical GL261 glioblastoma: effects of cyclophosphamide and temozolomide. Ferrer-Font, L; Arias-Ramos, N; Lope-Piedrafita, S; Julià- Sapé, M; Pumarola, M; Arús, C; Candiota, AP.

U26. NMR: Biomedical Applications II:

Gated nanodevices for innovative medical therapies. Maria Alfonso, Irene Galiana, Beatriz Lozano, Borja Diaz de Greñu, Cristina de la Torre, Andrea Bernardos, Sameh El Sayed, Daniel MuñozEspin, Miguel Rovira, José Ramón Murguía, Manuel Serrano, Ramón Martínez-Máñez.

NANOPROBE: Gated sensing materials and devices for the detection of infectious diseases and urological cancer. Ángela Ribes, Luís Pla, Sara Santiago-Felipe, Alba Loras-Monfort, M.Carmen Martínez-Bisbal, Elena Aznar, Guillermo Quintás-Soriano, José Luis Ruiz-Cerdá, María Angeles.

 

 

 

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