Control de suministro médico para pacientes.

Con la idea de poder suministrar y mejorar la gestión de los medicamentos en el cuidado de personas (pacientes) dentro del área hospitalaria surgió el propósito de nuestro proyecto que además plantea la agilización de atención en la relación enfermero-doctor que acaparará la mayor cantidad de personas posibles dentro de tratamientos de salud posibles. En nuestros días, el crecimiento de la población demanda con mayor impacto que el tratamiento de la salud en las personas internadas sea más eficiente pues se considera que constantemente surgirán enfermedades de cualquier caso que deben ser sanadas lo más pronto posible. El objetivo surge entonces crear con el conocimiento y habilidades obtenidas dar solución a este problema, particularmente utilizando herramientas de software de diseño

Differential Effects of IGF-1R Small Molecule Tyrosine Kinase Inhibitors BMS-754807 and OSI-906 on Human Cancer Cell Lines

We have determined the effects of the IGF-1R tyrosine kinase inhibitors BMS-754807 (BMS) and OSI-906 (OSI) on cell proliferation and cell-cycle phase distribution in human colon, pancreatic carcinoma, and glioblastoma cell lines and primary cultures. IGF-1R signaling was blocked by BMS and OSI at equivalent doses, although both inhibitors exhibited differential antiproliferative effects. In all pancreatic carcinoma cell lines tested, BMS exerted a strong antiproliferative effect, whereas OSI had a minimal effect. Similar results were obtained on glioblastoma primary cultures, where HGUE-GB-15, -16 and -17 displayed resistance to OSI effects, whereas they were inhibited in their proliferation by BMS. Differential effects of BMS and OSI were also observed in colon carcinoma cell lines. Both inhibitors also showed different effects on cell cycle phase distribution, BMS induced G2/M arrest followed by cell death, while OSI induced G1 arrest with no cell death. Both inhibitors also showed different effects on other protein kinases activities. Taken together, our results are indicative that BMS mainly acts through off-target effects exerted on other protein kinases. Given that BMS exhibits a potent antiproliferative effect, we believe that this compound could be useful for the treatment of different types of tumors independently of their IGF-1R activation status.This research was funded by a Grant from Instituto de Salud Carlos III Grant PI012/02025 co-supported by FEDER funds and PRECIPITA crowdfunding platform from Fundación Española para la Ciencia y la Tecnología (Fecyt) to M. Saceda and AMACMED (Asociación de mujeres afectadas por cáncer de mama de Elche y Comarca) and Monica Moraleda donation to M. Saceda. The Spanish Ministry of Economy and Competitiveness (MINECO, Project RTI2018-096724-B-C21) and the Generalitat Valenciana (PROMETEO/2016/006) supported the work in the Encinar laboratory

Evaluación de la D-Aminoácido oxidasa como posible terapia antitumoral en diferentes tipos de neoplasias

actividad al alcanzar el tumor. El H2O2 atraviesa la membrana celular y genera estrés oxidativo afectando a la supervivencia celular. Se ha estudiado el efecto de la DAO con la D-Alanina en líneas celulares tumorales, observando muerte celular en algunos casos y en otros un mecanismo citostático con bloqueo en la fase G2/M, y en células no tumorales probando su selectividad hacia las células tumorales. También se investigó el mecanismo de inducción de muerte celular llevado a cabo por la DAO en células de glioblastoma llegando a la conclusión de que se trata de una apoptosis clásica. Finalmente se comenzó un estudio piloto con el HGUE para analizar el efecto de la enzima sobre cultivos primarios de linfocitos de sangre periférica de pacientes con leucemia y de pacientes no oncológicos ni infectivos. Se observó una disminución selectiva de blastos en algunos tipos de leucemia y se iniciaron estudios sobre la participación de las PKC clásicas y el NF-κB en la sensibilidad y/o resistencia de las células a la DAO.D-Amino acid oxidase (DAO) catalyzes the oxidative deamination of D-amino acids, giving rise to α-keto acids, ammonia and H2O2. It interests as therapy against cancer because the D-amino acids are not endogenous in the organism so it is possible to regulate its activity in the tumor. The H2O2 traverses the cell membrane and generates oxidative stress affecting cell survival. We studied the effect of the enzyme DAO with D-Alanine on tumor cell lines, getting cell death in some cases and, in others, a cytostatic mechanism with blockage in the phase G2/M, and on non-tumor cells proving her selectivity to tumor cells. The mechanism of induction of cell death carried out by DAO was also researched in glioblastoma cells concluding that it is a classic apoptosis. Finally, we started a pilot study with the HGUE to analyze the effect of the enzyme on primary cultures of peripheral blood lymphocytes from patients with leukemia and from non-oncological and non-infectious patients. A selective decrease of blasts was observed in some types of leukemia and we started studies about the participation of classical PKC and NF-κB in the sensitivity and / or resistance of cells to the enzyme DAO

Differential Effects of IGF-1R Small Molecule Tyrosine Kinase Inhibitors BMS-754807 and OSI-906 on Human Cancer Cell Lines

We have determined the effects of the IGF-1R tyrosine kinase inhibitors BMS-754807 (BMS) and OSI-906 (OSI) on cell proliferation and cell-cycle phase distribution in human colon, pancreatic carcinoma, and glioblastoma cell lines and primary cultures. IGF-1R signaling was blocked by BMS and OSI at equivalent doses, although both inhibitors exhibited differential antiproliferative effects. In all pancreatic carcinoma cell lines tested, BMS exerted a strong antiproliferative effect, whereas OSI had a minimal effect. Similar results were obtained on glioblastoma primary cultures, where HGUE-GB-15, -16 and -17 displayed resistance to OSI effects, whereas they were inhibited in their proliferation by BMS. Differential effects of BMS and OSI were also observed in colon carcinoma cell lines. Both inhibitors also showed different effects on cell cycle phase distribution, BMS induced G2/M arrest followed by cell death, while OSI induced G1 arrest with no cell death. Both inhibitors also showed different effects on other protein kinases activities. Taken together, our results are indicative that BMS mainly acts through off-target effects exerted on other protein kinases. Given that BMS exhibits a potent antiproliferative effect, we believe that this compound could be useful for the treatment of different types of tumors independently of their IGF-1R activation status.This research was funded by a Grant from Instituto de Salud Carlos III Grant PI012/02025 co-supported by FEDER funds and PRECIPITA crowdfunding platform from Fundación Española para la Ciencia y la Tecnología (Fecyt) to M. Saceda and AMACMED (Asociación de mujeres afectadas por cáncer de mama de Elche y Comarca) and Monica Moraleda donation to M. Saceda. The Spanish Ministry of Economy and Competitiveness (MINECO, Project RTI2018-096724-B-C21) and the Generalitat Valenciana (PROMETEO/2016/006) supported the work in the Encinar laboratory

Cell death mechanisms induced by CLytA-DAAO chimeric enzyme in human tumor cell lines

23 p.-11 fig.The combination of the choline binding domain of the amidase N-acetylmuramoyl-L-alanine (CLytA)-D-amino acid oxidase (DAAO) (CLytA-DAAO) and D-Alanine induces cell death in several pancreatic and colorectal carcinoma and glioblastoma cell lines. In glioblastoma cell lines, CLytA-DAAO-induced cell death was inhibited by a pan-caspase inhibitor, suggesting a classical apoptotic cell death. Meanwhile, the cell death induced in pancreatic and colon carcinoma cell lines is some type of programmed necrosis. In this article, we studied the mechanisms that trigger CLytA-DAAO-induced cell death in pancreatic and colorectal carcinoma and glioblastoma cell lines and we acquire a further insight into the necrotic cell death induced in pancreatic and colorectal carcinoma cell lines. We have analyzed the intracellular calcium mobilization, mitochondrial membrane potential, PARP-1 participation and AIF translocation. Although the mitochondrial membrane depolarization plays a crucial role, our results suggest that CLytA-DAAO-induced cell death is context dependent. We have previously detected pancreatic and colorectal carcinoma cell lines (Hs766T and HT-29, respectively) that were resistant to CLytA-DAAO-induced cell death. In this study, we have examined the putative mechanism underlying the resistance in these cell lines, evaluating both detoxification mechanisms and the inflammatory and survival responses. Overall, our results provide a better understanding on the cell death mechanism induced by CLytA-DAAO, a promising therapy against cancer.This research was funded by Spanish Instituto de Salud Carlos III, grant number PI01202025, and donations from Association of women affected by breast cancer in Elche and the region (AMACMEC) to M.S., Miguel Servet Program from Instituto de Salud Carlos III (CP19/00095) to C.d.J.R. and grants from the Spanish Ministry of Economy, Industry and Competitiveness, grant numbers BIO2013-47684-R and BIO2016-79323-R, and the RETICS-FEDER RICET, RD16/0027/0010, to J.M.S. The CIBER of Enfermedades Respiratorias (CIBERES) is an initiative of the Spanish Instituto de Salud Carlos III and Spanish National Research Council (CSIC Grant 201820I132).Peer reviewe

CLytA-DAAO, free and immobilized in magnetic nanoparticles, induces cell death in human cancer cells

19 p.-8 fig.-1 tab.D-amino acid oxidase (DAAO) catalyzes the oxidation of D-amino acids generating hydrogen peroxide, a potential producer of reactive oxygen species. In this study, we used a CLytA-DAAO chimera, both free and bound to magnetic nanoparticles, against colon carcinoma, pancreatic adenocarcinoma, and glioblastoma cell lines. We found that the enzyme induces cell death in most of the cell lines tested and its efficiency increases significantly when it is immobilized in nanoparticles. We also tested this enzyme therapy in non-tumor cells, and we found that there is not cell death induction, or it is significantly lower than in tumor cells. The mechanism triggering cell death is apparently a classical apoptosis pathway in the glioblastoma cell lines, while in colon and pancreatic carcinoma cell lines, CLytA-DAAO-induced cell death is a necrosis. Our results constitute a proof of concept that an enzymatic therapy, based on magnetic nanoparticles-delivering CLytA-DAAO, could constitute a useful therapy against cancer and besides it could be used as an enhancer of other treatments such as epigenetic therapy, radiotherapy, and treatments based on DNA repair.This research was funded by Spanish Instituto de Salud Carlos III, grant number PI01202025, and donations from Association of women affected by breast cancer in Elche and the region (AMACMEC) to MS and grants from the Spanish Ministry of Economy, Industry and Competitiveness, grant numbers BIO2013-47684-R and BIO2016-79323-R, and the RETICS-FEDER RICET, RD16/0027/0010, to JMS. The CIBER of Enfermedades Respiratorias (CIBERES) is an initiative of the Spanish Instituto de Salud Carlos III and Spanish National Research Council (CSIC Grant 201820I132).Peer reviewe

CLytA-DAAO chimeric enzyme bound to magnetic nanoparticles. A new therapeutical approach for cancer patients?

24 p.-10 fig.-3 tab.D-amino acid oxidase (DAAO) is an enzyme that catalyzes the oxidation of D-amino acids generating H2O2. The enzymatic chimera formed by DAAO bound to the choline-binding domain of N-acetylmuramoyl-L-alanine amidase (CLytA) induces cytotoxicity in several pancreatic and colorectal carcinoma and glioblastoma cell models. In the current work, we determined whether the effect of CLytA-DAAO immobilized in magnetic nanoparticles, gold nanoparticles, and alginate capsules offered some advantages as compared to the free CLytA-DAAO. Results indicate that the immobilization of CLytA-DAAO in magnetic nanoparticles increases the stability of the enzyme, extending its time of action. Besides, we compared the effect induced by CLytA-DAAO with the direct addition of hydrogen peroxide, demonstrating that the progressive generation of reactive oxygen species by CLytA-DAAO is more effective in inducing cytotoxicity than the direct addition of H2O2. Furthermore, a pilot study has been initiated in biopsies obtained from pancreatic and colorectal carcinoma and glioblastoma patients to evaluate the expression of the main genes involved in resistance to CLytA-DAAO cytotoxicity. Based on our findings, we propose that CLytA-DAAO immobilized in magnetic nanoparticles could be effective in a high percentage of patients and, therefore, be used as an anti-cancer therapy for pancreatic and colorectal carcinoma and glioblastoma.This research was funded by Foundation for the Promotion of Health and Biomedical Research of Valencia Region (FISABIO), grant number UGP-19-063, and co-supported by PRECIPITA crowdfunding platform from Spanish Foundation for Science and Technology (FECYT) and donations from Association of women affected by breast cancer in Elche and the region (AMACMEC) to M.S., Miguel Servet Program from Instituto de Salud Carlos III (CP19/00095) to C.d.J.R. and grants from the Spanish Ministry of Economy, Industry and Competitiveness, grant numbers BIO2013-47684-R and BIO2016-79323-R, and the RETICS-FEDER RICET, RD16/0027/0010, to J.M.S. The CIBER of Enfermedades Respiratorias (CIBERES) is an initiative of the Spanish Instituto de Salud Carlos III and Spanish National Research Council (CSIC Grant 201820I132).Peer reviewe