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2. Pitx2c increases in atrial myocytes from chronic atrial fibrillation patients enhancing IKs and decreasing ICa,L

Author

Pérez Hernández, Marta, Matamoros, Marcos, Barana Muñoz, Adriana, Amorós García, Irene, Gómez García, Ricardo, Núñez, Mercedes, Sacristán, Sandra, Pinto, Ángel, Fernández-Avilés Díaz, Francisco Jesús, Tamargo Menéndez, Juan, Delpón Mosquera, María Eva, Caballero Collado, Ricardo, Pérez Hernández, Marta, Matamoros, Marcos, Barana Muñoz, Adriana, Amorós García, Irene, Gómez García, Ricardo, Núñez, Mercedes, Sacristán, Sandra, Pinto, Ángel, Fernández-Avilés Díaz, Francisco Jesús, Tamargo Menéndez, Juan, Delpón Mosquera, María Eva, and Caballero Collado, Ricardo

Abstract

Aims: Atrial fibrillation (AF) produces rapid changes in the electrical properties of the atria (electrical remodelling) that promote its own recurrence. In chronic AF (CAF) patients, up-regulation of the slow delayed rectifier K(+) current (IKs) and down-regulation of the voltage-gated Ca(2+) current (ICa,L) are hallmarks of electrical remodelling and critically contribute to the abbreviation of action potential duration and atrial refractory period. Recent evidences suggested that Pitx2c, a bicoid-related homeodomain transcription factor involved in directing cardiac asymmetric morphogenesis, could play a role in atrial remodelling. However, its effects on IKs and ICa,L are unknown. Methods and results: Real-time quantitative polymerase chain reaction analysis showed that Pitx2c mRNA expression was significantly higher in human atrial myocytes from CAF patients than those from sinus rhythm patients. The expression of Pitx2c was positively and negatively correlated with IKs and ICa,L densities, respectively. Expression of Pitx2c in HL-1 cells increased IKs density and reduced ICa,L density. Luciferase assays demonstrated that Pitx2c increased transcriptional activity of KCNQ1 and KCNE1 genes. Conversely, its effects on ICa,L could be mediated by the atrial natriuretic peptide. Conclusion: Our results demonstrated for the first time that CAF increases Pitx2c expression in isolated human atrial myocytes and suggested that this transcription factor could contribute to the CAF-induced IKs increase and ICa,L reduction observed in humans. Keywords: Chronic atrial fibrillation; Human atrial myocytes; ICa,L; IKs; Pitx2c., Centro Nacional de Investigaciones Cardiovasculares, Ministerio de Ciencia e Innovación, Instituto de Salud Carlos III, Comunidad Autónoma de Madrid, Fundaciones Mutua Madrileña, BBVA Grants, Depto. de Farmacología y Toxicología, Fac. de Medicina, TRUE, pub

Published
2024

3. Brugada syndrome trafficking-defective Nav1.5 channels can trap cardiac Kir2.1/2.2 channels.

Author

Pérez-Hernández, Marta et.al, Nieto Marín, Paloma, Crespo García, María Teresa, Tamargo Menéndez, Juan, Caballero Collado, Ricardo, Delpón Mosquera, María Eva, Pérez-Hernández, Marta et.al, Nieto Marín, Paloma, Crespo García, María Teresa, Tamargo Menéndez, Juan, Caballero Collado, Ricardo, and Delpón Mosquera, María Eva

Abstract

Cardiac Nav1.5 and Kir2.1–2.3 channels generate Na (INa) and inward rectifier K (IK1) currents, respectively. The functional INa and IK1 interplay is reinforced by the positive and reciprocal modulation between Nav15 and Kir2.1/2.2 channels to strengthen the control of ventricular excitability. Loss-of-function mutations in the SCN5A gene, which encodes Nav1.5 channels, underlie several inherited arrhythmogenic syndromes, including Brugada syndrome (BrS). We investigated whether the presence of BrS-associated mutations alters IK1 density concomitantly with INa density. Results obtained using mouse models of SCN5A haploinsufficiency, and the overexpression of native and mutated Nav1.5 channels in expression systems — rat ventricular cardiomyocytes and human induced pluripotent stem cell–derived cardiomyocytes (hiPSC-CMs) — demonstrated that endoplasmic reticulum (ER) trafficking–defective Nav1.5 channels significantly decreased IK1, since they did not positively modulate Kir2.1/2.2 channels. Moreover, Golgi trafficking–defective Nav1.5 mutants produced a dominant negative effect on Kir2.1/2.2 and thus an additional IK1 reduction. Moreover, ER trafficking–defective Nav1.5 channels can be partially rescued by Kir2.1/2.2 channels through an unconventional secretory route that involves Golgi reassembly stacking proteins (GRASPs). Therefore, cardiac excitability would be greatly affected in subjects harboring Nav1.5 mutations with Golgi trafficking defects, since these mutants can concomitantly trap Kir2.1/2.2 channels, thus unexpectedly decreasing IK1 in addition to INa., Depto. de Farmacología y Toxicología, Fac. de Medicina, TRUE, pub

Published
2024

4. Structural basis of drugs that increase cardiac inward rectifier Kir2.1 currents

Author

Gómez García, Ricardo, Caballero Collado, Ricardo, Barana Muñoz, Adriana, Amorós García, Irene, de Palm, Sue Haida, Matamoros, Marcos, Núñez, Mercedes, Pérez Hernández, Marta, Iriepa, Isabel, Tamargo Menéndez, Juan, Delpón Mosquera, María Eva, Gómez García, Ricardo, Caballero Collado, Ricardo, Barana Muñoz, Adriana, Amorós García, Irene, de Palm, Sue Haida, Matamoros, Marcos, Núñez, Mercedes, Pérez Hernández, Marta, Iriepa, Isabel, Tamargo Menéndez, Juan, and Delpón Mosquera, María Eva

Abstract

Aims: We hypothesize that some drugs, besides flecainide, increase the inward rectifier current (IK1) generated by Kir2.1 homotetramers (IKir2.1) and thus, exhibit pro- and/or antiarrhythmic effects particularly at the ventricular level. To test this hypothesis, we analysed the effects of propafenone, atenolol, dronedarone, and timolol on Kir2.x channels. Methods and results: Currents were recorded with the patch-clamp technique using whole-cell, inside-out, and cell-attached configurations. Propafenone (0.1 nM-1 µM) did not modify either IK1 recorded in human right atrial myocytes or the current generated by homo- or heterotetramers of Kir2.2 and 2.3 channels recorded in transiently transfected Chinese hamster ovary cells. On the other hand, propafenone increased IKir2.1 (EC50 = 12.0 ± 3.0 nM) as a consequence of its interaction with Cys311, an effect which decreased inward rectification of the current. Propafenone significantly increased mean open time and opening frequency at all the voltages tested, resulting in a significant increase of the mean open probability of the channel. Timolol, which interacted with Cys311, was also able to increase IKir2.1. On the contrary, neither atenolol nor dronedarone modified IKir2.1. Molecular modelling of the Kir2.1-drugs interaction allowed identification of the pharmacophore of drugs that increase IKir2.1. Conclusions: Kir2.1 channels exhibit a binding site determined by Cys311 that is responsible for drug-induced IKir2.1 increase. Drug binding decreases channel affinity for polyamines and current rectification, and can be a mechanism of drug-induced pro- and antiarrhythmic effects not considered until now., Ministerio de Ciencia e Innovación, Instituto de Salud Carlos III, Centro Nacional de Investigaciones Cardiovasculares, Comunidad de Madrid, Sociedad Española de Cardiología, Depto. de Farmacología y Toxicología, Fac. de Medicina, TRUE, pub

Published
2024

7. Tbx20 controls the expression of the KCNH2 gene and of hERG channels

Author

Caballero, Ricardo, Utrilla, Raquel G., Amorós, Irene, Matamoros, Marcos, Pérez-Hernández, Marta, Tinaquero, David, Alfayate, Silvia, Nieto-Marín, Paloma, Guerrero-Serna, Guadalupe, Liu, Qing-hua, Ramos-Mondragón, Roberto, Ponce-Balbuena, Daniela, Herron, Todd, Campbell, Katherine F., Filgueiras-Rama, David, Peinado, Rafael, López-Sendón, José L., Jalife, José, Delpón, Eva, and Tamargo, Juan

Published
2017

8. Contributors

Author

Asín, Laura, primary, Bégin-Colin, Sylvie, additional, Beola, Lilianne, additional, Blanco-Andujar, Cristina, additional, Boehm, Whitney N., additional, Bohórquez, Ana C., additional, Brites, Carlos D.S., additional, Cabrera, David, additional, Carlos, Luis D., additional, Cotin, Geoffrey, additional, Darlington, Thomas K., additional, de la Fuente, Jesús M., additional, Dhavalikar, Rohan, additional, Dupré, Luc, additional, Farrow, Neil, additional, Fratila, Raluca M., additional, Galarreta, Betty C., additional, Garaio, Eneko, additional, Gonzalez-Moragas, Laura, additional, Grazú, Valeria, additional, Gutiérrez, Lucía, additional, Hernández, Yulán, additional, Idiago-López, Javier, additional, Jeyadevan, Balachandran, additional, Kitaura, Ryoichi, additional, Laromaine, Anna, additional, Maenosono, Shinya, additional, Mamiya, Hiroaki, additional, Mertz, Damien, additional, Millán, Angel, additional, Mohan, Priyank, additional, Moreno-Antolín, Eduardo, additional, Moros, Maria, additional, Oldenburg, Steven J., additional, Ortega, Daniel, additional, Pérez-Hernández, Marta, additional, Perton, Francis, additional, Pichon, Benoit, additional, Piñol, Rafael, additional, Plazaola, Fernando, additional, Rinaldi, Carlos, additional, Rubia-Rodríguez, Irene, additional, Sauerova, Karolina, additional, Silva, Nuno J., additional, Takahashi, Mari, additional, Telling, Neil, additional, Terán, Francisco J., additional, Tino, Angela, additional, and Tortiglione, Claudia, additional

Published
2019
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11. Disruption of Ca2+i Homeostasis and Connexin 43 Hemichannel Function in the Right Ventricle Precedes Overt Arrhythmogenic Cardiomyopathy in Plakophilin-2–Deficient Mice

Author

Kim, Joon-Chul, Pérez-Hernández, Marta, Alvarado, Francisco J., Maurya, Svetlana R., Montnach, Jerome, Yin, Yandong, Zhang, Mingliang, Lin, Xianming, Vasquez, Carolina, Heguy, Adriana, Liang, Feng-Xia, Woo, Sun-Hee, Morley, Gregory E., Rothenberg, Eli, Lundby, Alicia, Valdivia, Hector H., Cerrone, Marina, and Delmar, Mario

Published
2019
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12. Loss of Nuclear Envelope Integrity and Increased Oxidant Production Cause DNA Damage in Adult Hearts Deficient in PKP2: A Molecular Substrate of ARVC

Author

Pérez-Hernández, Marta, primary, van Opbergen, Chantal J.M., additional, Bagwan, Navratan, additional, Vissing, Christoffer Rasmus, additional, Marrón-Liñares, Grecia M., additional, Zhang, Mingliang, additional, Torres Vega, Estefania, additional, Sorrentino, Andrea, additional, Drici, Lylia, additional, Sulek, Karolina, additional, Zhai, Ruxu, additional, Hansen, Finn B., additional, Christensen, Alex Hørby, additional, Boesgaard, Søren, additional, Gustafsson, Finn, additional, Rossing, Kasper, additional, Small, Eric M., additional, Davies, Michael J., additional, Rothenberg, Eli, additional, Sato, Priscila Y., additional, Cerrone, Marina, additional, Jensen, Thomas Hartvig Lindkær, additional, Qvortrup, Klaus, additional, Bundgaard, Henning, additional, Delmar, Mario, additional, and Lundby, Alicia, additional

Published
2022
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13. Cardiac Kir2.1 and NaV1.5 Channels Traffic Together to the Sarcolemma to Control Excitability

Author

Ponce-Balbuena, Daniela, Guerrero-Serna, Guadalupe, Valdivia, Carmen R., Caballero, Ricardo, Diez-Guerra, F. Javier, Jiménez-Vázquez, Eric N., Ramírez, Rafael J., Monteiro da Rocha, André, Herron, Todd J., Campbell, Katherine F., Willis, B. Cicero, Alvarado, Francisco J., Zarzoso, Manuel, Kaur, Kuljeet, Pérez-Hernández, Marta, Matamoros, Marcos, Valdivia, Héctor H., Delpón, Eva, and Jalife, José

Published
2018
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17. Role of plakophilin-2 expression on exercise-related progression of arrhythmogenic right ventricular cardiomyopathy: a translational study

Author

Cerrone, Marina, primary, Marrón-Liñares, Grecia M, additional, van Opbergen, Chantal J M, additional, Costa, Sarah, additional, Bourfiss, Mimount, additional, Pérez-Hernández, Marta, additional, Schlamp, Florencia, additional, Sanchis-Gomar, Fabian, additional, Malkani, Kabir, additional, Drenkova, Kamelia, additional, Zhang, Mingliang, additional, Lin, Xianming, additional, Heguy, Adriana, additional, Velthuis, Birgitta K, additional, Prakken, Niek H J, additional, LaGerche, Andre, additional, Calkins, Hugh, additional, James, Cynthia A, additional, Te Riele, Anneline S J M, additional, and Delmar, Mario, additional

Published
2021
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18. Multi-Smart and Scalable Bioligands-Free Nanomedical Platform for Intratumorally Targeted Tambjamine Delivery, a Difficult to Administrate Highly Cytotoxic Drug

Author

Pérez-Hernández, Marta, Cuscó, Cristina, Benítez-García, Cristina, Bonelli, Joaquin, Nuevo-Fonoll, Marina, Soriano, Aroa, Martínez-García, David, Arias-Betancur, Alain, García-Valverde, María, Segura, Miguel F., Quesada, Roberto, Rocas, Josep, Soto-Cerrato, Vanessa, Pérez-Tomás, Ricardo, Universitat Autònoma de Barcelona, Institut Català de la Salut, [Pérez-Hernández M, Benítez-García C] Cancer Cell Biology Research Group (CCBRG), Department of Pathology and Experimental Therapeutics, Faculty of Medicine and Health Sciences, Universitat de Barcelona, L’Hospitalet de Llobregat, 08907 Barcelona, Spain. Oncobell Program, Institut d’Investigació Biomèdica de Bellvitge (IDIBELL), L’Hospitalet de Llobregat, 08908 Barcelona, Spain. [Cuscó C, Bonelli J] Nanobiotechnological Polymers Division, Ecopol Tech, S.L., El Foix Business Park, 43720 L’Arboç del Penedès, Spain. [Nuevo-Fonoll M] Cancer Cell Biology Research Group (CCBRG), Department of Pathology and Experimental Therapeutics, Faculty of Medicine and Health Sciences, Universitat de Barcelona, L’Hospitalet de Llobregat, 08907 Barcelona, Spain. [Soriano A, Segura MF] Grup de Recerca Translacional en Càncer Infantil i Juvenil, Vall d’Hebron Institut de Recerca (VHIR), Barcelona, Spain. Universitat Autònoma de Barcelona, Bellaterra, Spain, and Vall d'Hebron Barcelona Hospital Campus

Subjects
Amphoteric nanocapsules, Medicine (miscellaneous), 02 engineering and technology, Other subheadings::Other subheadings::/drug therapy [Other subheadings], 01 natural sciences, neoplasias::neoplasias por localización::neoplasias torácicas::neoplasias del tracto respiratorio::neoplasias pulmonares [ENFERMEDADES], Therapeutics::Drug Therapy::Drug Delivery Systems::Drug Carriers::Nanocapsules [ANALYTICAL, DIAGNOSTIC AND THERAPEUTIC TECHNIQUES, AND EQUIPMENT], amphoteric nanocapsules, Cytotoxic T cell, Other subheadings::/therapeutic use [Other subheadings], Biology (General), Internalization, media_common, terapéutica::farmacoterapia::sistemas de liberación de medicamentos::portadores de fármacos::nanocápsulas [TÉCNICAS Y EQUIPOS ANALÍTICOS, DIAGNÓSTICOS Y TERAPÉUTICOS], Chemistry, 021001 nanoscience & nanotechnology, Lung cancer treatment, Nanomedicine, Tumor microenvironment, Drug delivery, Nanomedicina, Lung cancer, 0210 nano-technology, Polymer nanocapsules, Biodistribution, Dispositius d'administració de medicaments, Neoplasms::Neoplasms by Site::Thoracic Neoplasms::Respiratory Tract Neoplasms::Lung Neoplasms [DISEASES], QH301-705.5, media_common.quotation_subject, Otros calificadores::Otros calificadores::/farmacoterapia [Otros calificadores], 010402 general chemistry, Article, General Biochemistry, Genetics and Molecular Biology, Nanocapsules, In vivo, polymer nanocapsules, tumor microenvironment, pH-tunable, Targeted drug delivery systems, Otros calificadores::/uso terapéutico [Otros calificadores], Medicaments - Modes d'administració, lung cancer treatment, 0104 chemical sciences, Drug delivery devices, Cancer cell, targeted drug delivery systems, Cancer research, Càncer de pulmó, Ph-tunable, Pulmons - Càncer - Tractament
Abstract

Nanocàpsules anfòteres; Tractament del càncer de pulmó; Sistemes de lliurament de medicaments dirigits Nanocápsulas anfóteras; Tratamiento del cáncer de pulmón; Sistemas de administración de fármacos dirigidos Amphoteric nanocapsules; Lung cancer treatment; Targeted drug delivery systems Cancer is one of the leading causes of mortality worldwide due, in part, to limited success of some current therapeutic approaches. The clinical potential of many promising drugs is restricted by their systemic toxicity and lack of selectivity towards cancer cells, leading to insufficient drug concentration at the tumor site. To overcome these hurdles, we developed a novel drug delivery system based on polyurea/polyurethane nanocapsules (NCs) showing pH-synchronized amphoteric properties that facilitate their accumulation and selectivity into acidic tissues, such as tumor microenvironment. We have demonstrated that the anticancer drug used in this study, a hydrophobic anionophore named T21, increases its cytotoxic activity in acidic conditions when nanoencapsulated, which correlates with a more efficient cellular internalization. A biodistribution assay performed in mice has shown that the NCs are able to reach the tumor and the observed systemic toxicity of the free drug is significantly reduced in vivo when nanoencapsulated. Additionally, T21 antitumor activity is preserved, accompanied by tumor mass reduction compared to control mice. Altogether, this work shows these NCs as a potential drug delivery system able to reach the tumor microenvironment, reducing the undesired systemic toxic effects. Moreover, these nanosystems are prepared under scalable methodologies and straightforward process, and provide tumor selectivity through a smart mechanism independent of targeting ligands. This research was funded by Consejería de Educación de la Junta de Castilla y León (BU092U16 and BU067P20), Instituto de Salud Carlos III (grants PI18/00441 and DTS20/00018), ACCIÓ (Agency for business competitiveness; Generalitat de Catalunya) (Nuclis d’R+D EMC/2755/2017); co-funded by the European Regional Development Fund (ERDF); Asociación Española Contra el Cáncer (LABAE18009SEGU), and supported by the “Pla de Doctorats Industrials de la Secretaria d’Universitats i Recerca del Departament d’Empresa i Coneixement de la Generalitat de Catalunya (grant number 2013 DI 028).

Published
2021

19. Targeting the Microtubule EB1-CLASP2 Complex Modulates Na V 1.5 at Intercalated Discs

Author

Marchal, Gerard A., primary, Jouni, Mariam, additional, Chiang, David Y., additional, Pérez-Hernández, Marta, additional, Podliesna, Svitlana, additional, Yu, Nuo, additional, Casini, Simona, additional, Potet, Franck, additional, Veerman, Christiaan C., additional, Klerk, Mischa, additional, Lodder, Elisabeth M., additional, Mengarelli, Isabella, additional, Guan, Kaomei, additional, Vanoye, Carlos G., additional, Rothenberg, Eli, additional, Charpentier, Flavien, additional, Redon, Richard, additional, George, Alfred L., additional, Verkerk, Arie O., additional, Bezzina, Connie R., additional, MacRae, Calum A., additional, Burridge, Paul W., additional, Delmar, Mario, additional, Galjart, Niels, additional, Portero, Vincent, additional, and Remme, Carol Ann, additional

Published
2021
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21. Multi-Smart and Scalable Bioligands-Free Nanomedical Platform for Intratumorally Targeted Tambjamine Delivery, a Difficult to Administrate Highly Cytotoxic Drug

Author

Pérez-Hernández, Marta, primary, Cuscó, Cristina, additional, Benítez-García, Cristina, additional, Bonelli, Joaquin, additional, Nuevo-Fonoll, Marina, additional, Soriano, Aroa, additional, Martínez-García, David, additional, Arias-Betancur, Alain, additional, García-Valverde, María, additional, Segura, Miguel F., additional, Quesada, Roberto, additional, Rocas, Josep, additional, Soto-Cerrato, Vanessa, additional, and Pérez-Tomás, Ricardo, additional

Published
2021
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22. Cx43 hemichannel microdomain signaling at the intercalated disc enhances cardiac excitability

Author

De Smet, Maarten A.J., primary, Lissoni, Alessio, additional, Nezlobinsky, Timur, additional, Wang, Nan, additional, Dries, Eef, additional, Pérez-Hernández, Marta, additional, Lin, Xianming, additional, Amoni, Matthew, additional, Vervliet, Tim, additional, Witschas, Katja, additional, Rothenberg, Eli, additional, Bultynck, Geert, additional, Schulz, Rainer, additional, Panfilov, Alexander V., additional, Delmar, Mario, additional, Sipido, Karin R., additional, and Leybaert, Luc, additional

Published
2021
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23. Structural and Functional Characterization of a Na v 1.5-Mitochondrial Couplon

Author

Pérez-Hernández, Marta, primary, Leo-Macias, Alejandra, additional, Keegan, Sarah, additional, Jouni, Mariam, additional, Kim, Joon-Chul, additional, Agullo-Pascual, Esperanza, additional, Vermij, Sarah, additional, Zhang, Mingliang, additional, Liang, Feng-Xia, additional, Burridge, Paul, additional, Fenyo, David, additional, Rothenberg, Eli, additional, and Delmar, Mario, additional

Published
2021
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26. Role of plakophilin-2 expression on exercise-related progression of arrhythmogenic right ventricular cardiomyopathy: a translational study.

Author

Cerrone, Marina, Marrón-Liñares, Grecia M, Opbergen, Chantal J M van, Costa, Sarah, Bourfiss, Mimount, Pérez-Hernández, Marta, Schlamp, Florencia, Sanchis-Gomar, Fabian, Malkani, Kabir, Drenkova, Kamelia, Zhang, Mingliang, Lin, Xianming, Heguy, Adriana, Velthuis, Birgitta K, Prakken, Niek H J, LaGerche, Andre, Calkins, Hugh, James, Cynthia A, Riele, Anneline S J M Te, and Delmar, Mario

Subjects
ARRHYTHMOGENIC right ventricular dysplasia, DESMOSOMES, EXERCISE, MUSCLE cells, MUSCLE mass
Abstract

Aims Exercise increases arrhythmia risk and cardiomyopathy progression in arrhythmogenic right ventricular cardiomyopathy (ARVC) patients, but the mechanisms remain unknown. We investigated transcriptomic changes caused by endurance training in mice deficient in plakophilin-2 (PKP2cKO), a desmosomal protein important for intercalated disc formation, commonly mutated in ARVC and controls. Methods and results Exercise alone caused transcriptional downregulation of genes coding intercalated disk proteins. The changes converged with those in sedentary and in exercised PKP2cKO mice. PKP2 loss caused cardiac contractile deficit, decreased muscle mass and increased functional/transcriptomic signatures of apoptosis, despite increased fractional shortening and calcium transient amplitude in single myocytes. Exercise accelerated cardiac dysfunction, an effect dampened by pre-training animals prior to PKP2-KO. Consistent with PKP2-dependent muscle mass deficit, cardiac dimensions in human athletes carrying PKP2 mutations were reduced, compared to matched controls. Conclusions We speculate that exercise challenges a cardiomyocyte "desmosomal reserve" which, if impaired genetically (e.g. PKP2 loss), accelerates progression of cardiomyopathy. [ABSTRACT FROM AUTHOR]

Published
2022
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32. Targeting the Microtubule EB1-CLASP2 Complex Modulates NaV1.5 at Intercalated Discs.

Author

Marchal, Gerard A., Jouni, Mariam, Chiang, David Y., Pérez-Hernández, Marta, Podliesna, Svitlana, Nuo Yu, Casini, Simona, Potet, Franck, Veerman, Christiaan C., Klerk, Mischa, Lodder, Elisabeth M., Mengarelli, Isabella, Kaomei Guan, Vanoye, Carlos G., Rothenberg, Eli, Charpentier, Flavien, Redon, Richard, George Jr, Alfred L., Verkerk, Arie O., and Bezzina, Connie R.

Published
2021
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33. Contributors

Author

Abrams, Dominic, Abriel, Hugues, Adkisson, Wayne O., Ajijola, Olujimi A., Alvarado, Francisco J., Amin, Ahmad S., André, Clémentine, Anter, Elad, Antzelevitch, Charles, Ariga, Rina, Arora, Rishi, Arya, Arash, Asirvatham, Samuel, Atienza, Felipe, Atluri, Pavan, Balse, Elise, Basso, Cristina, Benditt, David G., Bennett, Richard, Berenfeld, Omer, Berruezo, Antonio, Bers, Donald M., Bhaskaran, Ashwin, Bogun, Frank, Bose, Rupan, Botzer, Lior, Boyle, Patrick M., Bradfield, Jason S., Brini, Marisa, Brugada, Pedro, Caldwell, Jessica L., Calkins, Hugh, Poindexter, Catherine Ellen, Callans, David J., Carafoli, Ernesto, Catterall, William A., Cerrone, Marina, Chandler, Stephanie, Chauvel, Remi, Chen, Lan S., Chen, Peng-Sheng, Cheniti, Ghassen, Cheung, Christopher C., Chiamvimonvat, Nipavan, Chiang, David Y., Chorin, Ehud, Christini, David J., Christoffels, Vincent M., Christoph, Jan, Clancy, Colleen E., Climent, Andreu M., Cochet, Hubert, Coetzee, William A., Crossley, George H., Crotti, Lia, Cuculich, Phillip S., Curtis, Anne B., Dagradi, Federica, Damiano, Ralph J., Jr, Darbar, Dawood, Das, Mithilesh K., Delmar, Mario, Delpón, Eva, Derval, Nicolas, Deshmukh, Abhishek, Dherange, Parinita, Dickfeld, Timm M., Dierckx, Hans, Dinov, Borislav, Divakaran, Sanjay, Dixit, Sanjay, Dubois, Rémi, Duchateau, Josselin, Edwards, Andrew G., Ellenbogen, Kenneth A., Ellinor, Patrick T., Ellis, Christopher R., Enriquez, Andres, Estes III, N.A. Mark, Etheridge, Susan P., Everett, Thomas H., Fedorov, Vadim V., Filgueiras-Rama, David, Fishbein, Michael, Fishman, Glenn I., Fradley, Michael, Gami, Apoor S., Gando, Ivan, Garabelli, Paul James, Garcia, Fermin, George, Alfred L., Jr, Gerstenfeld, Edward P., Goldberger, Jeffrey J., Gourdie, Robert G., Grace, Andrew, Grubb, Blair P., Guerrier, Karine, Guillem, María S., Györke, Sándor, Haines, David E., Halperin, Henry R., Hatem, Stéphane, Haïssaguerre, Michel, Herron, Todd J., Hindricks, Gerhard, Hocini, Mélèze, Hoffman, Jacob, Hund, Thomas J., Hutchinson, Mathew D., Iliceto, Sabino, Ilkhanoff, Leonard, Ingles, Jodie, Ip, James E., Jackman, Warren M., Jalife, Jose, Jaïs, Pierre, Jhun, Bong Sook, Restrepo, Alejandro Jimenez, John, Roy M., Johnson, Jason, Jongbloed, Monique, Jáuregui, Beatriz, Kalman, Jonathan M., Kalyanasundaram, Anuradha, Kamp, Timothy J., Kanagasundram, Arvindh N., Kang, Po Wei, Kanj, Mohamed H., Kapa, Suraj, Kapur, Sunil, Karabin, Beverly, Kernik, Divya C., Klein, George J., Kléber, André G., Knight, Bradley P., Koenig, Sara N., Kohl, Peter, Konecny, Thomas, Koneru, Jayanthi N., Krahn, Andrew D., Krishnappa, Darshan, Krogh-Madsen, Trine, Kumar, Saurabh, Kusayama, Takashi, Kushnir, Alexander, Kwak, Brenda R., Lador, Adi, Lakatta, Edward G., Laksman, Zachary W.M., Latchamsetty, Rakesh, Lau, Dennis H., Lee, Byron K., Lenaeus, Michael J., Lerman, Bruce B., Li, Ning, Lin, Shien-Fong, Link, Mark S., Liu, Bin, Liu, Christopher F., Lockwood, Deborah J., Loeys, Bart, Lubitz, Steven A., Prof-Dr, Stefan Luther, Lyon, Aurore, MacGregor, Robert M., MacRae, Calum A., Maher, Timothy, Maltsev, Victor, Man, Joyce C.K., Marchlinski, Francis E., Markowitz, Steven M., Maron, Barry J., Maron, Martin S., Marra, Martina Perazzolo, Marx, Steven O., Mazzanti, Andrea, McCulloch, Andrew D., Mehta, Nishaki K., Melby, Spencer J., Mellor, Greg, Michaud, Gregory F., Miles, William M., Miller, Jennifer C., Miller, John M., Mitrani, Raul D., Mohler, Peter J., Montgomery, Jay A., Moreno, Jonathan D., Murray, Katherine T., Myerburg, Robert J., Nakagawa, Hiroshi, Naksuk, Niyada, Nalliah, Chrishan Joseph, Napolitano, Carlo, Narayan, Sanjiv M., Nazarian, Saman, Nerbonne, Jeanne M., Nery, Pablo B., Nguyen, Thao P., Nichols, Colin G., Nielsen, Morten S., Nogami, Akihiko, Noujaim, Sami F., Nubret, Karine, O-Uchi, Jin, Olgin, Jeffrey E., Olshansky, Brian, Ozcan, Cevher, Pambrun, Thomas, Panfilov, Alexander V., Pang, Paul D., Park, David S., Parlitz, Ulrich, Patocskai, Bence, Pauziene, Neringa, Pauža, Dainius H., Penela, Diego, Peyronnet, Rémi, Pfenniger, Anna, Phillips, S. Tyler, Picard, François, Ploux, Sylvain, Po, Sunny S., Poelzing, Steven, Polina, Iuliia, Porta-Sánchez, Andreu, Prasad, Abhiram, Priori, Silvia G., Pérez-Hernández, Marta, Qian, Pierre C., Quintanilla, MScEng, Jorge G., Radwański, Przemysław B., Ramirez, F. Daniel, Rappel, Wouter-Jan, Richardson, Travis D., Ripplinger, Crystal M., Robinson, Clifford G., Roden, Dan M., Rodrigo, Miguel, Rodriguez, Blanca, Rosso, Raphael, Rowin, Ethan J., Rudy, Yoram, Rysevaite-Kyguoliene, Kristina, Sacher, Frédéric, Sadek, Mouhannad M., Sanders, Prashanthan, Satin, Jonathan, Sauer, William H., Saxon, Leslie A., Schalij, Martin Jan, Schepers, Dorien, Scherlag, Benjamin J., Schleifer, J. William, Schmidt, Ehud J., Schröder-Schetelig, Johannes, Schuessler, Richard B., Schwartz, Peter J., Semsarian, Christopher, Shaw, Robin M., Shen, Win-Kuang, Sheu, Shey-Shing, Shivkumar, Kalyanam, Sieliwonczyk, Ewa, Silva, Jonathan R., Skanes, Allan C., Smyth, James W., Sobie, Eric A., Soejima, Kyoko, Somers, Virend K., Sorajja, Dan, Sroubek, Jakub, Stavrakis, Stavros, Steinberg, Christian, Stevenson, William G., Supple, Gregory E., Swerdlow, Charles, Tandri, Harikrishna, Tedrow, Usha, Thai, Phung N., Thiene, Gaetano, Tixier, Romain, Tomaselli, Gordon F., Towbin, Jeffrey A., Trayanova, Natalia A., Tristani-Firouzi, Martin, Tseng, Zian H., Tung, Roderick, Ueda, Akiko, Upadhyay, Gaurav A., Valderrábano, Miguel, Valdivia, Héctor H., van den Brink, Jonas, van der Werf, Christian, van Opbergen, Chantal J.M., Vaseghi, Marmar, Vautier, R. Ashton, Vera Pedrosa, Maria Linarejos, Verma, Nishant, Vermij, Sarah H., Virk, Sohaib, Viskin, Sami, Vlachos, Konstantinos, Walsh, Edward P., Wang, Paul J., Welte, Nicolas, Wilde, Arthur A.M., Wilkoff, Bruce L., Wu, Joseph C., Yang, Hua-Qian, Yee, Raymond, Zaman, Junaid A.B., Zeppenfeld, Katja, Zghaib, Tarek, Zhang, Jianhua, Zhang, Xiao-Dong, and Zimetbaum, Peter

Published
2022
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34. Brugada syndrome trafficking-defective Nav1.5 channels can trap cardiac Kir2.1/2.2 channels

Author

Pérez-Hernández, Marta, Matamoros, Marcos, Alfayate, Silvia, Nieto-Marín, Paloma, Utrilla, Raquel G, Tinaquero, David, de Andrés, Raquel, Crespo, Teresa, Ponce-Balbuena, Daniela, Willis, B Cicero, Jiménez-Vazquez, Eric N, Guerrero-Serna, Guadalupe, da Rocha, Andre M, Campbell, Katherine, Herron, Todd J, Díez-Guerra, F Javier, Tamargo, Juan, Jalife, José, Caballero, Ricardo, and Delpón, Eva

Subjects
cardiovascular system, Cardiology, Sodium channels, Cell Biology, Arrhythmias, Potassium channels
Abstract

Cardiac Nav1.5 and Kir2.1-2.3 channels generate Na (INa) and inward rectifier K (IK1) currents, respectively. The functional INa and IK1 interplay is reinforced by the positive and reciprocal modulation between Nav15 and Kir2.1/2.2 channels to strengthen the control of ventricular excitability. Loss-of-function mutations in the SCN5A gene, which encodes Nav1.5 channels, underlie several inherited arrhythmogenic syndromes, including Brugada syndrome (BrS). We investigated whether the presence of BrS-associated mutations alters IK1 density concomitantly with INa density. Results obtained using mouse models of SCN5A haploinsufficiency, and the overexpression of native and mutated Nav1.5 channels in expression systems - rat ventricular cardiomyocytes and human induced pluripotent stem cell-derived cardiomyocytes (hiPSC-CMs) - demonstrated that endoplasmic reticulum (ER) trafficking-defective Nav1.5 channels significantly decreased IK1, since they did not positively modulate Kir2.1/2.2 channels. Moreover, Golgi trafficking-defective Nav1.5 mutants produced a dominant negative effect on Kir2.1/2.2 and thus an additional IK1 reduction. Moreover, ER trafficking-defective Nav1.5 channels can be partially rescued by Kir2.1/2.2 channels through an unconventional secretory route that involves Golgi reassembly stacking proteins (GRASPs). Therefore, cardiac excitability would be greatly affected in subjects harboring Nav1.5 mutations with Golgi trafficking defects, since these mutants can concomitantly trap Kir2.1/2.2 channels, thus unexpectedly decreasing IK1 in addition to INa.

Published
2018

35. Effect of surface chemistry and associated protein corona on the long-term biodegradation of iron oxide nanoparticles in vivo

Author

Ruíz del Árbol, María, Stepien, Grazyna, Pérez-Hernández, Marta, Gutiérrez, Lucía, Fratila, Raluca M., Pardo, Julián, and Fuente, Jesús M. de la

Subjects
inorganic chemicals, education, technology, industry, and agriculture, respiratory system, health care economics and organizations
Abstract

Resumen del trabajo presentado a la 12th International Conference on the Scientific and Clinical Applications of Magnetic Carriers, celebrada en Copenhague (Dinamarca) del 22 al 26 de mayo de 2018., Once a nanoparticle (NP) is administered in vivo, it interacts with the components of the physiological environment, especially with proteins, resulting in the formation of the so-called protein corona (PC). PC can dramatically change the nanomaterial size, aggregation state, and interfacial properties, dominating in an uncontrolled way the biological behaviour of NPs. Although it is widely accepted that the presence of this PC would ultimately determine the fate of the nanomaterial, its role in the biotransformation and degradation of NPs in vivo has been scarcely investigated. Here we report how the surface modification of identical superparamagnetic iron oxide NPs with either glucose (Glc) or poly(ethylene glycol) (PEG) affects the PC identity, the NPs biodistribution, and more importantly, the degradation over time. Although NPs@Glc and NPs@PEG bound similar amount of proteins in vitro, the differences found in the composition of both PCs corresponded to the NPs biodistribution in vivo. Whereas NPs@Glc were mostly accumulated in the liver and spleen, NPs@PEG were detected in various organs, including thymus or reproductive system organs. Moreover, by employing magnetic measurements we have found that the biodegradation kinetic and therefore clearance of both NPs types was unequal, as NPs@PEG core suffered a faster degradation over time than NPs@Glc, in both liver and spleen. Differences in the degradation rate observed in vitro and in vivo could be related not only with the attached molecules, but also with the associated PC, which composition may directly affect the degradation rate by lysosomal enzymes or indirectly by driving NPs accumulation in different cells.

Published
2018

37. Disruption of Ca 2+ i Homeostasis and Connexin 43 Hemichannel Function in the Right Ventricle Precedes Overt Arrhythmogenic Cardiomyopathy in Plakophilin-2–Deficient Mice

Author

Kim, Joon-Chul, primary, Pérez-Hernández, Marta, additional, Alvarado, Francisco J., additional, Maurya, Svetlana R., additional, Montnach, Jerome, additional, Yin, Yandong, additional, Zhang, Mingliang, additional, Lin, Xianming, additional, Vasquez, Carolina, additional, Heguy, Adriana, additional, Liang, Feng-Xia, additional, Woo, Sun-Hee, additional, Morley, Gregory E., additional, Rothenberg, Eli, additional, Lundby, Alicia, additional, Valdivia, Hector H., additional, Cerrone, Marina, additional, and Delmar, Mario, additional

Published
2019
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39. Effect of surface chemistry and associated protein corona on the long-term biodegradation of iron oxide nanoparticles in vivo

Author

Diputación General de Aragón, Ministerio de Economía y Competitividad (España), European Commission, European Research Council, Universidad de Zaragoza, Stepien, Grazyna, Ruíz del Árbol, María, Pérez-Hernández, Marta, Monge, Marta, Gutiérrez, Lucía, Fratila, Raluca M., Heras, Marcelo de las, Menao, Sebastián, Puente Lanzarote, Juan José, Solans, Conxita, Pardo, Julián, Fuente, Jesús M. de la, Diputación General de Aragón, Ministerio de Economía y Competitividad (España), European Commission, European Research Council, Universidad de Zaragoza, Stepien, Grazyna, Ruíz del Árbol, María, Pérez-Hernández, Marta, Monge, Marta, Gutiérrez, Lucía, Fratila, Raluca M., Heras, Marcelo de las, Menao, Sebastián, Puente Lanzarote, Juan José, Solans, Conxita, Pardo, Julián, and Fuente, Jesús M. de la

Abstract

The protein corona formed on the surface of a nanoparticle in a biological medium determines its behavior in vivo. Herein, iron oxide nanoparticles containing the same core and shell, but bearing two different surface coatings, either glucose or poly(ethylene glycol), were evaluated. The nanoparticles' protein adsorption, in vitro degradation, and in vivo biodistribution and biotransformation over four months were investigated. Although both types of nanoparticles bound similar amounts of proteins in vitro, the differences in the protein corona composition correlated to the nanoparticles biodistribution in vivo. Interestingly, in vitro degradation studies demonstrated faster degradation for nanoparticles functionalized with glucose, whereas the in vivo results were opposite with accelerated biodegradation and clearance of the nanoparticles functionalized with poly(ethylene glycol). Therefore, the variation in the degradation rate observed in vivo could be related not only to the molecules attached to the surface, but also with the associated protein corona, as the key role of the adsorbed proteins on the magnetic core degradation has been demonstrated in vitro.

Published
2018

40. Supporting information: Effect of surface chemistry and associated protein corona on the long-term biodegradation of iron oxide nanoparticles in vivo

Author

Stepien, Grazyna, Ruiz del Árbol, María, Pérez-Hernández, Marta, Monge, Marta, Gutiérrez, Lucía, Fratila, Raluca M., Heras, Marcelo de las, Menao, Sebastián, Puente Lanzarote, Juan José, Solans, Conxita, Pardo, Julián, Fuente, Jesús M. de la, Stepien, Grazyna, Ruiz del Árbol, María, Pérez-Hernández, Marta, Monge, Marta, Gutiérrez, Lucía, Fratila, Raluca M., Heras, Marcelo de las, Menao, Sebastián, Puente Lanzarote, Juan José, Solans, Conxita, Pardo, Julián, and Fuente, Jesús M. de la

Published
2018

42. Additional file 1: of Multiparametric analysis of anti-proliferative and apoptotic effects of gold nanoprisms on mouse and human primary and transformed cells, biodistribution and toxicity in vivo

Author

Pérez-Hernández, Marta, Moros, María, Grazyna Stepien, Pino, Pablo Del, Menao, Sebastián, Heras, Marcelo De Las, Arias, Maykel, Mitchell, Scott, Pelaz, Beatriz, Gálvez, Eva, Fuente, Jesús De La, and Pardo, Julián

Abstract

Figure S1. a) SEM micrograph of the initial NPR-P. b) Length (L) distribution of the NPRs, average length is 146.2 ± 32.4 nm. c) UV/Vis spectra of a NPR-P solution. Figure S2. a) Agarose gel (0.7%, 100 V, 1 h) of the pegylated NPRs (NPR-P) and the modified ones (NPR-PT, NPR-PTG and NPR-PG). b) ζ-potential measurements of the final NPRs measured in water and using a concentration of 0.04 mg/mL. Figure S3. Fluorescence spectra of NPRs solutions labeled with TAMRA. In black, there is the normalized spectrum for NPR-PT, and in red the normalized spectra for NPR-PTG. Figure S4. UV/Vis spectra of NPRs before (red) and after (black) their incubation in complete cell media during 24 h. Figure S5. (A) Analysis of cell morphology changes by flow cytometry. MiaPaca, HeLa, A549, MEF, B16, MC57G line cells were incubated with four types of nanoparticles (NPR-P, NPR-PG, NPR-PT, NPR-PTG) at four concentrations (25, 50, 100 and 200 μg/mL) for 48 h as indicated in experimental section. After incubation time, cells were analyzed by flow cytometry. A representative experiment is shown at the concentration of 200 μg/mL Note: Ctrl = negative control. Figure S6. Periodic acid-Schiff (PAS) and periodic acid-Schiff diastasa (PAS/D) stain of the liver of mice treated with NPRs. Mice were injected (i.v) with 6 μg/g NPR-PTG and sacrificed after 4 months, the organs were fixed and processed for PAS staining, as indicated in experimental section. Representative images are shown. (DOCX 45107 kb)

Published
2017
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43. Nanotechnology in drug discovery and development

Author

Gutiérrez, Lucía, Stepien, Grazyna, Pérez-Hernández, Marta, Pardo, Julián, Grazú, Valeria, and Fuente, Jesús M. de la

Subjects
Nanomedicine, Biodistribution, Toxicity, Nanoparticles, Nanotechnology, Nanomaterials
Abstract

Nanotechnology is a promising tool expected to have a strong impact in the health sector in the future years, especially related to the development of nanomaterials with new properties. In this work we have focused on the use of nanomaterials in the frame of drug development. These materials aim at overcoming present challenges from conventional medicine by modifying the properties of the final products in comparison with already existing drugs. We will provide a general overview of the different nanomaterials being studied in health treatments and a discussion on the current challenges that these compounds face in order to reach the clinical practice. Given the importance of the knowledge on the biodistribution and toxicity of new nanomaterials for their subsequent approval for regulatory agencies, the last two sections of this work focus on the methodology used to evaluate these parameters in new nanomaterials for health treatment.

Published
2017

44. The p.P888L SAP97 polymorphism increases the transient outward current (Ito,f) and abbreviates the action potential duration and the QT interval.

Author

Tinaquero, David, Crespo-García, Teresa, Utrilla, Raquel G., Nieto-Marín, Paloma, González-Guerra, Andrés, Rubio-Alarcón, Marcos, Cámara-Checa, Anabel, Dago, María, Matamoros, Marcos, Pérez-Hernández, Marta, Tamargo, María, Cebrián, Jorge, Jalife, José, Tamargo, Juan, Bernal, Juan Antonio, Caballero, Ricardo, Delpón, Eva, ITACA Investigators, Alonso-Martín, Joaquín J., and Arribas, Fernando

Subjects
GENETIC polymorphisms, ACTION potentials, LONG QT syndrome, HEART cells, POTASSIUM channels
Abstract

Synapse-Associated Protein 97 (SAP97) is an anchoring protein that in cardiomyocytes targets to the membrane and regulates Na+ and K+ channels. Here we compared the electrophysiological effects of native (WT) and p.P888L SAP97, a common polymorphism. Currents were recorded in cardiomyocytes from mice trans-expressing human WT or p.P888L SAP97 and in Chinese hamster ovary (CHO)-transfected cells. The duration of the action potentials and the QT interval were significantly shorter in p.P888L-SAP97 than in WT-SAP97 mice. Compared to WT, p.P888L SAP97 significantly increased the charge of the Ca-independent transient outward (Ito,f) current in cardiomyocytes and the charge crossing Kv4.3 channels in CHO cells by slowing Kv4.3 inactivation kinetics. Silencing or inhibiting Ca/calmodulin kinase II (CaMKII) abolished the p.P888L-induced Kv4.3 charge increase, which was also precluded in channels (p.S550A Kv4.3) in which the CaMKII-phosphorylation is prevented. Computational protein-protein docking predicted that p.P888L SAP97 is more likely to form a complex with CaMKII than WT. The Na+ current and the current generated by Kv1.5 channels increased similarly in WT-SAP97 and p.P888L-SAP97 cardiomyocytes, while the inward rectifier current increased in WT-SAP97 but not in p.P888L-SAP97 cardiomyocytes. The p.P888L SAP97 polymorphism increases the Ito,f, a CaMKII-dependent effect that may increase the risk of arrhythmias. [ABSTRACT FROM AUTHOR]

Published
2020
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45. Ankyrin-G mediates targeting of both Na+ and KATP channels to the rat cardiac intercalated disc.

Author

Hua-Qian Yang, Pérez-Hernández, Marta, Sanchez-Alonso, Jose, Shevchuk, Andriy, Gorelik, Julia, Rothenberg, Eli, Delmar, Mario, and Coetzee, William A.

Abstract

We investigated targeting mechanisms of Na+ and KATP channels to the intercalated disk (ICD) of cardiomyocytes. Patch clamp and surface biotinylation data show reciprocal downregulation of each other’s surface density. Mutagenesis of the Kir6.2 ankyrin binding site disrupts this functional coupling. Duplex patch clamping and Angle SICM recordings show that INa and IKATP functionally co-localize at the rat ICD, but not at the lateral membrane. Quantitative STORM imaging show that Na+ and KATP channels are localized close to each other and to AnkG, but not to AnkB, at the ICD. Peptides corresponding to Nav1.5 and Kir6.2 ankyrin binding sites dysregulate targeting of both Na+ and KATP channels to the ICD, but not to lateral membranes. Finally, a clinically relevant gene variant that disrupts KATP channel trafficking also regulates Na+ channel surface expression. The functional coupling between these two channels need to be considered when assessing clinical variants and therapeutics. [ABSTRACT FROM AUTHOR]

Published
2020
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46. Brugada syndrome trafficking–defective Nav1.5 channels can trap cardiac Kir2.1/2.2 channels

Author

Pérez-Hernández, Marta, primary, Matamoros, Marcos, additional, Alfayate, Silvia, additional, Nieto-Marín, Paloma, additional, Utrilla, Raquel G., additional, Tinaquero, David, additional, de Andrés, Raquel, additional, Crespo, Teresa, additional, Ponce-Balbuena, Daniela, additional, Willis, B. Cicero, additional, Jiménez-Vazquez, Eric N., additional, Guerrero-Serna, Guadalupe, additional, da Rocha, Andre M., additional, Campbell, Katherine, additional, Herron, Todd J., additional, Díez-Guerra, F. Javier, additional, Tamargo, Juan, additional, Jalife, José, additional, Caballero, Ricardo, additional, and Delpón, Eva, additional

Published
2018
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47. Cardiac Kir2.1 and Na V 1.5 Channels Traffic Together to the Sarcolemma to Control Excitability

Author

Ponce-Balbuena, Daniela, primary, Guerrero-Serna, Guadalupe, additional, Valdivia, Carmen R., additional, Caballero, Ricardo, additional, Diez-Guerra, F. Javier, additional, Jiménez-Vázquez, Eric N., additional, Ramírez, Rafael J., additional, Monteiro da Rocha, André, additional, Herron, Todd J., additional, Campbell, Katherine F., additional, Willis, B. Cicero, additional, Alvarado, Francisco J., additional, Zarzoso, Manuel, additional, Kaur, Kuljeet, additional, Pérez-Hernández, Marta, additional, Matamoros, Marcos, additional, Valdivia, Héctor H., additional, Delpón, Eva, additional, and Jalife, José, additional

Published
2018
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48. Effect of Surface Chemistry and Associated Protein Corona on the Long-Term Biodegradation of Iron Oxide Nanoparticles In Vivo

Author

Stepien, Grazyna, primary, Moros, María, additional, Pérez-Hernández, Marta, additional, Monge, Marta, additional, Gutiérrez, Lucía, additional, Fratila, Raluca M., additional, las Heras, Marcelo de, additional, Menao Guillén, Sebastián, additional, Puente Lanzarote, Juan José, additional, Solans, Conxita, additional, Pardo, Julián, additional, and de la Fuente, Jesús Martínez, additional

Published
2018
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49. A Functional Analysis on the Interspecies Interaction between Mouse LFA-1 and Human Intercellular Adhesion Molecule-1 at the Cell Level

Author

Núñez, David, primary, Comas, Laura, additional, Lanuza, Pilar M., additional, Sánchez-Martinez, Diego, additional, Pérez-Hernández, Marta, additional, Catalán, Elena, additional, Domingo, María Pilar, additional, Velázquez-Campoy, Adrián, additional, Pardo, Julián, additional, and Gálvez, Eva M., additional

Published
2017
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50. A functional analysis on the interspecies interaction between mouse LFA-1 and human intercellular adhesion molecule-1 at the cell level

Author

European Commission, Gobierno de Aragón, Consejo Superior de Investigaciones Científicas (España), Ministerio de Economía y Competitividad (España), Ministerio de Educación, Cultura y Deporte (España), Núñez Jurado, David, Comas, Laura, Lanuza, Pilar M., Sánchez-Martínez, Diego, Pérez-Hernández, Marta, Catalán, Elena, Domingo, María Pilar, Velázquez-Campoy, Adrián, Pardo, Julián, Gálvez Buerba, Eva Mª, European Commission, Gobierno de Aragón, Consejo Superior de Investigaciones Científicas (España), Ministerio de Economía y Competitividad (España), Ministerio de Educación, Cultura y Deporte (España), Núñez Jurado, David, Comas, Laura, Lanuza, Pilar M., Sánchez-Martínez, Diego, Pérez-Hernández, Marta, Catalán, Elena, Domingo, María Pilar, Velázquez-Campoy, Adrián, Pardo, Julián, and Gálvez Buerba, Eva Mª

Abstract

The interaction between intercellular adhesion molecules (ICAM) and the integrin leukocyte function-associated antigen-1 (LFA-1) is crucial for the regulation of several physiological and pathophysiological processes like cell-mediated elimination of tumor or virus infected cells, cancer metastasis, or inflammatory and autoimmune processes. Using purified proteins it was reported a species restriction for the interaction of ICAM-1 and LFA-1, being mouse ICAM-1 able to interact with human LFA-1 but not human ICAM-1 with mouse LFA-1. However, in vivo results employing tumor cells transfected with human ICAM-1 suggest that functionally mouse LFA-1 can recognize human ICAM-1. In order to clarify the interspecies cross-reactivity of the ICAM-1/LFA-1 interaction, we have performed functional studies analyzing the ability of human soluble ICAM-1 and human/mouse LFA-1 derived peptides to inhibit cell aggregation and adhesion as well as cell-mediated cytotoxicity in both mouse and human systems. In parallel, the affinity of the interaction between mouse LFA-1-derived peptides and human ICAM-1 was determined by calorimetry assays. According to the results obtained, it seems that human ICAM-1 is able to interact with mouse LFA-1 on intact cells, which should be taking into account when using humanized mice and xenograft models for the study of immune-related processes.

Published
2017

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