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343 results on '"Pinto-Fernández A"'

1. Transport and inhibition of the sphingosine-1-phosphate exporter SPNS2

Author

Huanyu Z. Li, Ashley C. W. Pike, Yung-Ning Chang, Dheeraj Prakaash, Zuzana Gelova, Josefina Stanka, Christophe Moreau, Hannah C. Scott, Frank Wunder, Gernot Wolf, Andreea Scacioc, Gavin McKinley, Helena Batoulis, Shubhashish Mukhopadhyay, Andrea Garofoli, Adán Pinto-Fernández, Benedikt M. Kessler, Nicola A. Burgess-Brown, Saša Štefanić, Tabea Wiedmer, Katharina L. Dürr, Vera Puetter, Alexander Ehrmann, Syma Khalid, Alvaro Ingles-Prieto, Giulio Superti-Furga, and David B. Sauer

Subjects
Science
Abstract

Abstract Sphingosine-1-phosphate (S1P) is a signaling lysolipid critical to heart development, immunity, and hearing. Accordingly, mutations in the S1P transporter SPNS2 are associated with reduced white cell count and hearing defects. SPNS2 also exports the S1P-mimicking FTY720-P (Fingolimod) and thereby is central to the pharmacokinetics of this drug when treating multiple sclerosis. Here, we use a combination of cryo-electron microscopy, immunofluorescence, in vitro binding and in vivo S1P export assays, and molecular dynamics simulations to probe SPNS2’s substrate binding and transport. These results reveal the transporter’s binding mode to its native substrate S1P, the therapeutic FTY720-P, and the reported SPNS2-targeting inhibitor 33p. Further capturing an inward-facing apo state, our structures illuminate the protein’s mechanism for exchange between inward-facing and outward-facing conformations. Finally, using these structural, localization, and S1P transport results, we identify how pathogenic mutations ablate the protein’s export activity and thereby lead to hearing loss.

Published
2025
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2. Unconventional human CD61 pairing with CD103 promotes TCR signaling and antigen-specific T cell cytotoxicity

Author

Hamid, Megat H. B. A., Cespedes, Pablo F., Jin, Chen, Chen, Ji-Li, Gileadi, Uzi, Antoun, Elie, Liang, Zhu, Gao, Fei, Teague, Renuka, Manoharan, Nikita, Maldonado-Perez, David, Khalid-Alham, Nasullah, Cerundolo, Lucia, Ciaoca, Raul, Hester, Svenja S., Pinto-Fernández, Adán, Draganov, Simeon D., Vendrell, Iolanda, Liu, Guihai, Yao, Xuan, Kvalvaag, Audun, Dominey-Foy, Delaney C. C., Nanayakkara, Charunya, Kanellakis, Nikolaos, Chen, Yi-Ling, Waugh, Craig, Clark, Sally-Ann, Clark, Kevin, Sopp, Paul, Rahman, Najib M., Verrill, Clare, Kessler, Benedikt M., Ogg, Graham, Fernandes, Ricardo A., Fisher, Roman, Peng, Yanchun, Dustin, Michael L., and Dong, Tao

Published
2024
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4. Type I interferon regulation by USP18 is a key vulnerability in cancer

Author

Jové, Veronica, Wheeler, Heather, Lee, Chiachin Wilson, Healy, David R., Levine, Kymberly, Ralph, Erik C., Yamaguchi, Masaya, Jiang, Ziyue Karen, Cabral, Edward, Xu, Yingrong, Stock, Jeffrey, Yang, Bing, Giddabasappa, Anand, Loria, Paula, Casimiro-Garcia, Agustin, Kessler, Benedikt M., Pinto-Fernández, Adán, Frattini, Véronique, Wes, Paul D., and Wang, Feng

Published
2024
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5. Transport and inhibition of the sphingosine-1-phosphate exporter SPNS2.

Author

Li, Huanyu Z., Pike, Ashley C. W., Chang, Yung-Ning, Prakaash, Dheeraj, Gelova, Zuzana, Stanka, Josefina, Moreau, Christophe, Scott, Hannah C., Wunder, Frank, Wolf, Gernot, Scacioc, Andreea, McKinley, Gavin, Batoulis, Helena, Mukhopadhyay, Shubhashish, Garofoli, Andrea, Pinto-Fernández, Adán, Kessler, Benedikt M., Burgess-Brown, Nicola A., Štefanić, Saša, and Wiedmer, Tabea

Subjects
LIFE sciences, CYTOLOGY, MOLECULAR dynamics, BIOCHEMICAL substrates, HEARING disorders
Abstract

Sphingosine-1-phosphate (S1P) is a signaling lysolipid critical to heart development, immunity, and hearing. Accordingly, mutations in the S1P transporter SPNS2 are associated with reduced white cell count and hearing defects. SPNS2 also exports the S1P-mimicking FTY720-P (Fingolimod) and thereby is central to the pharmacokinetics of this drug when treating multiple sclerosis. Here, we use a combination of cryo-electron microscopy, immunofluorescence, in vitro binding and in vivo S1P export assays, and molecular dynamics simulations to probe SPNS2's substrate binding and transport. These results reveal the transporter's binding mode to its native substrate S1P, the therapeutic FTY720-P, and the reported SPNS2-targeting inhibitor 33p. Further capturing an inward-facing apo state, our structures illuminate the protein's mechanism for exchange between inward-facing and outward-facing conformations. Finally, using these structural, localization, and S1P transport results, we identify how pathogenic mutations ablate the protein's export activity and thereby lead to hearing loss. SPNS2 exports S1P and FTY720-P to control immune cell migration. Here, the authors use cryo-EM, immunofluorescence, in vitro binding and in vivo S1P export, and MD simulations to uncover the mechanisms of SPNS2's transport and inhibition. [ABSTRACT FROM AUTHOR]

Published
2025
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6. USP18 is an essential regulator of muscle cell differentiation and maturation

Author

Cyriel Sebastiaan Olie, Adán Pinto-Fernández, Andreas Damianou, Iolanda Vendrell, Hailiang Mei, Bianca den Hamer, Erik van der Wal, Jessica C. de Greef, Vered Raz, and Benedikt M. Kessler

Subjects
Cytology, QH573-671
Abstract

Highlights USP18 knockdown results in transcriptome-wide changes that cause a switch from proliferation to muscle cell differentiation. Fully differentiated muscles cells (or simply 'myotubes') formed in absence of USP18 lack sarcomeric integrity (in both cell culture and engineered muscle models). An increase in USP18 expression during muscle cell differentiation is independent of its role in the interferon type 1 stimulated response. During normal muscle cell differentiation, USP18 accumulates in the cell nucleus regulating multiple cellular processes, including proliferation, differentiation initiation and muscle cell maturation. In the absence of USP18, muscle cells stop proliferating and undergo accelerated fusion as part of the differentiation process by altering the expression levels of myogenic regulatory (co-)transcription factors, whereas maturation is impaired due to reduced expression of calcium-flux genes and sarcomeric genes.

Published
2023
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14. Deubiquitinases in muscle physiology and disorders.

Author

Olie, Cyriel S., O'Brien, Darragh P., Jones, Hannah B. L., Zhu Liang, Damianou, Andreas, Sur-Erdem, Ilknur, Pinto-Fernández, Adán, Raz, Vered, and Kessler, Benedikt M.

Subjects
MUSCLE physiology, DEUBIQUITINATING enzymes, MUSCLE mass, NEUROMUSCULAR diseases, MUSCLE regeneration, HOMEOSTASIS, SARCOPENIA
Abstract

In vivo, muscle and neuronal cells are post-mitotic, and their function is predominantly regulated by proteostasis, a multilayer molecular process that maintains a delicate balance of protein homeostasis. The ubiquitin-proteasome system (UPS) is a key regulator of proteostasis. A dysfunctional UPS is a hallmark of muscle ageing and is often impacted in neuromuscular disorders (NMDs). Malfunction of the UPS often results in aberrant protein accumulation which can lead to protein aggregation and/or mis-localization affecting its function. Deubiquitinating enzymes (DUBs) are key players in the UPS, controlling protein turnover and maintaining the free ubiquitin pool. Several mutations in DUB encoding genes are linked to human NMDs, such as ATXN3, OTUD7A, UCHL1 and USP14, whilst other NMDs are associated with dysregulation of DUB expression. USP5, USP9X and USP14 are implicated in synaptic transmission and remodeling at the neuromuscular junction. Mice lacking USP19 show increased maintenance of lean muscle mass. In this review, we highlight the involvement of DUBs in muscle physiology and NMDs, particularly in processes affecting muscle regeneration, degeneration and inflammation following muscle injury. DUBs have recently garnered much respect as promising drug targets, and their roles in muscle maturation, regeneration and degeneration may provide the framework for novel therapeutics to treat muscular disorders including NMDs, sarcopenia and cachexia. [ABSTRACT FROM AUTHOR]

Published
2024
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16. Structural Dynamics of the Ubiquitin Specific Protease USP30 in Complex with a Cyanopyrrolidine-Containing Covalent Inhibitor.

Author

O'Brien DP, Jones HBL, Shi Y, Guenther F, Vendrell I, Viner R, Brennan PE, Mead E, Zarganes-Tzitzikas T, Davis JB, Pinto-Fernández A, England KS, Murphy EJ, Turnbull AP, and Kessler BM

Abstract

Inhibition of the mitochondrial deubiquitinating (DUB) enzyme USP30 is neuroprotective and presents therapeutic opportunities for the treatment of idiopathic Parkinson's disease and mitophagy-related disorders. We integrated structural and quantitative proteomics with biochemical assays to decipher the mode of action of covalent USP30 inhibition by a small-molecule containing a cyanopyrrolidine reactive group, USP30-I-1 . The inhibitor demonstrated high potency and selectivity for endogenous USP30 in neuroblastoma cells. Enzyme kinetics and hydrogen-deuterium eXchange mass spectrometry indicated that the inhibitor binds tightly to regions surrounding the USP30 catalytic cysteine and positions itself to form a binding pocket along the thumb and palm domains of the protein, thereby interfering its interaction with ubiquitin substrates. A comparison to a noncovalent USP30 inhibitor containing a benzosulfonamide scaffold revealed a slightly different binding mode closer to the active site Cys77, which may provide the molecular basis for improved selectivity toward USP30 against other members of the DUB enzyme family. Our results highlight advantages in developing covalent inhibitors, such as USP30-I-1 , for targeting USP30 as treatment of disorders with impaired mitophagy.

Published
2025
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20. Benchmarking the Effects on Human–Exoskeleton Interaction of Trajectory, Admittance and EMG-Triggered Exoskeleton Movement Control

Author

Camila Rodrigues-Carvalho, Marvin Fernández-García, David Pinto-Fernández, Clara Sanz-Morere, Filipe Oliveira Barroso, Susana Borromeo, Cristina Rodríguez-Sánchez, Juan C. Moreno, and Antonio J. del-Ama

Subjects
exoskeleton, human–robot interaction, electromyography, EMG control, exoskeleton control, benchmarking, Chemical technology, TP1-1185
Abstract

Nowadays, robotic technology for gait training is becoming a common tool in rehabilitation hospitals. However, its effectiveness is still controversial. Traditional control strategies do not adequately integrate human intention and interaction and little is known regarding the impact of exoskeleton control strategies on muscle coordination, physical effort, and user acceptance. In this article, we benchmarked three types of exoskeleton control strategies in a sample of seven healthy volunteers: trajectory assistance (TC), compliant assistance (AC), and compliant assistance with EMG-Onset stepping control (OC), which allows the user to decide when to take a step during the walking cycle. This exploratory study was conducted within the EUROBENCH project facility. Experimental procedures and data analysis were conducted following EUROBENCH’s protocols. Specifically, exoskeleton kinematics, muscle activation, heart and breathing rates, skin conductance, as well as user-perceived effort were analyzed. Our results show that the OC controller showed robust performance in detecting stepping intention even using a corrupt EMG acquisition channel. The AC and OC controllers resulted in similar kinematic alterations compared to the TC controller. Muscle synergies remained similar to the synergies found in the literature, although some changes in muscle contribution were found, as well as an overall increase in agonist-antagonist co-contraction. The OC condition led to the decreased mean duration of activation of synergies. These differences were not reflected in the overall physiological impact of walking or subjective perception. We conclude that, although the AC and OC walking conditions allowed the users to modulate their walking pattern, the application of these two controllers did not translate into significant changes in the overall physiological cost of walking nor the perceived experience of use. Nonetheless, results suggest that both AC and OC controllers are potentially interesting approaches that can be explored as gait rehabilitation tools. Furthermore, the INTENTION project is, to our knowledge, the first study to benchmark the effects on human–exoskeleton interaction of three different exoskeleton controllers, including a new EMG-based controller designed by us and never tested in previous studies, which has made it possible to provide valuable third-party feedback on the use of the EUROBENCH facility and testbed, enriching the apprenticeship of the project consortium and contributing to the scientific community.

Published
2023
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22. USP16 is an ISG15 cross-reactive deubiquitinase that targets pro-ISG15 and ISGylated proteins involved in metabolism

Author

Gan, Jin, primary, Pinto-Fernández, Adán, additional, Flierman, Dennis, additional, Akkermans, Jimmy J. L. L., additional, O’Brien, Darragh P., additional, Greenwood, Helene, additional, Scott, Hannah Claire, additional, Fritz, Günter, additional, Knobeloch, Klaus-Peter, additional, Neefjes, Jacques, additional, van Dam, Hans, additional, Ovaa, Huib, additional, Ploegh, Hidde L., additional, Kessler, Benedikt M., additional, Geurink, Paul P., additional, and Sapmaz, Aysegul, additional

Published
2023
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23. USP16 is an ISG15 cross-reactive deubiquitinase that targets pro-ISG15 and ISGylated proteins involved in metabolism.

Author

Jin Gan, Pinto-Fernández, Adán, Flierman, Dennis, Akkermans, Jimmy J. L. L., O'Brien, Darragh P., Greenwood, Helene, Scott, Hannah Claire, Fritz, Günter, Knobeloch, Klaus-Peter, Neefjes, Jacques, van Dam, Hans, Ovaa, Huib, Ploegh, Hidde L., Kessler, Benedikt M., Geurink, Paul P., and Sapmaz, Aysegul

Subjects
PROTEIN metabolism, VIRAL proteins, ASPARTATE aminotransferase, TYPE I interferons, ALDOLASES
Abstract

Interferon-induced ubiquitin (Ub)-like modifier ISG15 covalently modifies host and viral proteins to restrict viral infections. Its function is counteracted by the canonical deISGylase USP18 or Ub-specific protease 18. Notwithstanding indications for the existence of other ISG15 cross-reactive proteases, these remain to be identified. Here, we identify deubiquitinase USP16 as an ISG15 cross-reactive protease by means of ISG15 activity-based profiling. Recombinant USP16 cleaved pro-ISG15 and ISG15 isopeptide-linked model substrates in vitro, as well as ISGylated substrates from cell lysates. Moreover, interferon-induced stimulation of ISGylation was increased by depletion of USP16. The USP16-dependent ISG15 interactome indicated that the deISGylating function of USP16 may regulate metabolic pathways. Targeted enzymes include malate dehydrogenase, cytoplasmic superoxide dismutase 1, fructose-bisphosphate aldolase A, and cytoplasmic glutamic-oxaloacetic transaminase 1. USP16 may thus contribute to the regulation of a subset of metabolism-related proteins during type-I interferon responses. [ABSTRACT FROM AUTHOR]

Published
2023
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24. Structural basis for SMAC-mediated antagonism of caspase inhibition by the giant ubiquitin ligase BIRC6

Author

Larissa Dietz, Cara J. Ellison, Carlos Riechmann, C. Keith Cassidy, F. Daniel Felfoldi, Adán Pinto-Fernández, Benedikt M. Kessler, and Paul R. Elliott

Subjects
Multidisciplinary
Abstract

Certain inhibitor of apoptosis (IAP) family members are sentinel proteins that prevent untimely cell death by inhibiting caspases. Antagonists, including second mitochondria-derived activator of caspases (SMAC), regulate IAPs and drive cell death. Baculoviral IAP repeat-containing protein 6 (BIRC6), a giant IAP with dual E2 and E3 ubiquitin ligase activity, regulates programmed cell death through unknown mechanisms. We show that BIRC6 directly restricts executioner caspase-3 and -7 and ubiquitinates caspase-3, -7, and -9, working exclusively with noncanonical E1, UBA6. Notably, we show that SMAC suppresses both mechanisms. Cryo–electron microscopy structures of BIRC6 alone and in complex with SMAC reveal that BIRC6 is an antiparallel dimer juxtaposing the substrate-binding module against the catalytic domain. Furthermore, we discover that SMAC multisite binding to BIRC6 results in a subnanomolar affinity interaction, enabling SMAC to competitively displace caspases, thus antagonizing BIRC6 anticaspase function.

Published
2023
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25. ABPP-HT - High-Throughput Activity-Based Profiling of Deubiquitylating Enzyme Inhibitors in a Cellular Context

Author

Hannah B. L. Jones, Raphael Heilig, Roman Fischer, Benedikt M. Kessler, and Adán Pinto-Fernández

Subjects
activitomics, activity-based probes, deubiquitylating enzymes, ubiquitin, proteomics, drug discovery, Chemistry, QD1-999
Abstract

The potency and selectivity of a small molecule inhibitor are key parameters to assess during the early stages of drug discovery. In particular, it is very informative for characterizing compounds in a relevant cellular context in order to reveal potential off-target effects and drug efficacy. Activity-based probes are valuable tools for that purpose, however, obtaining cellular target engagement data in a high-throughput format has been particularly challenging. Here, we describe a new methodology named ABPP-HT (high-throughput-compatible activity-based protein profiling), implementing a semi-automated proteomic sample preparation workflow that increases the throughput capabilities of the classical ABPP workflow approximately ten times while preserving its enzyme profiling characteristics. Using a panel of deubiquitylating enzyme (DUB) inhibitors, we demonstrate the feasibility of ABPP-HT to provide compound selectivity profiles of endogenous DUBs in a cellular context at a fraction of time as compared to previous methodologies.

Published
2021
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28. Targeting the Ubiquitylation and ISGylation Machinery for the Treatment of COVID-19

Author

George Vere, Md Rashadul Alam, Sam Farrar, Rachel Kealy, Benedikt M. Kessler, Darragh P. O’Brien, and Adán Pinto-Fernández

Subjects
SARS-CoV-2, COVID-19, ubiquitin proteasome system, ISGylation, ubiquitomics, Microbiology, QR1-502
Abstract

Ubiquitylation and ISGylation are protein post-translational modifications (PTMs) and two of the main events involved in the activation of pattern recognition receptor (PRRs) signals allowing the host defense response to viruses. As with similar viruses, SARS-CoV-2, the virus causing COVID-19, hijacks these pathways by removing ubiquitin and/or ISG15 from proteins using a protease called PLpro, but also by interacting with enzymes involved in ubiquitin/ISG15 machinery. These enable viral replication and avoidance of the host immune system. In this review, we highlight potential points of therapeutic intervention in ubiquitin/ISG15 pathways involved in key host–pathogen interactions, such as PLpro, USP18, TRIM25, CYLD, A20, and others that could be targeted for the treatment of COVID-19, and which may prove effective in combatting current and future vaccine-resistant variants of the disease.

Published
2022
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29. USP16 is an ISG15 cross-reactive deubiquitinase targeting a subset of metabolic pathway-related proteins

Author

Gan, Jin, primary, Pinto-Fernández, Adán, additional, Flierman, Dennis, additional, Akkermans, Jimmy J. L. L., additional, O’Brien, Darragh P., additional, Greenwood, Helene, additional, Scott, Hannah Claire, additional, Neefjes, Jacques, additional, Fritz, Günter, additional, Knobeloch, Klaus-Peter, additional, van Dam, Hans, additional, Kessler, Benedikt M., additional, Ovaa, Huib, additional, Geurink, Paul P., additional, and Sapmaz, Aysegul, additional

Published
2023
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30. Comprehensive Landscape of Active Deubiquitinating Enzymes Profiled by Advanced Chemoproteomics

Author

Adán Pinto-Fernández, Simon Davis, Abigail B. Schofield, Hannah C. Scott, Ping Zhang, Eidarus Salah, Sebastian Mathea, Philip D. Charles, Andreas Damianou, Gareth Bond, Roman Fischer, and Benedikt M. Kessler

Subjects
deubiquitylating enzymes, mass spectrometry, proteomics, chemical biology, ubiquitin specific proteases, isoforms, Chemistry, QD1-999
Abstract

Enzymes that bind and process ubiquitin, a small 76-amino-acid protein, have been recognized as pharmacological targets in oncology, immunological disorders, and neurodegeneration. Mass spectrometry technology has now reached the capacity to cover the proteome with enough depth to interrogate entire biochemical pathways including those that contain DUBs and E3 ligase substrates. We have recently characterized the breast cancer cell (MCF7) deep proteome by detecting and quantifying ~10,000 proteins, and within this data set, we can detect endogenous expression of 65 deubiquitylating enzymes (DUBs), whereas matching transcriptomics detected 78 DUB mRNAs. Since enzyme activity provides another meaningful layer of information in addition to the expression levels, we have combined advanced mass spectrometry technology, pre-fractionation, and more potent/selective ubiquitin active-site probes with propargylic-based electrophiles to profile 74 DUBs including distinguishable isoforms for 5 DUBs in MCF7 crude extract material. Competition experiments with cysteine alkylating agents and pan-DUB inhibitors combined with probe labeling revealed the proportion of active cellular DUBs directly engaged with probes by label-free quantitative (LFQ) mass spectrometry. This demonstrated that USP13, 39, and 40 are non-reactive to probe, indicating restricted enzymatic activity under these cellular conditions. Our extended chemoproteomics workflow increases depth of covering the active DUBome, including isoform-specific resolution, and provides the framework for more comprehensive cell-based small-molecule DUB selectivity profiling.

Published
2019
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31. Alergia a las proteínas de leche de vaca no mediada por IgE: documento de consenso de la Sociedad Española de Gastroenterología, Hepatología y Nutrición Pediátrica (SEGHNP), la Asociación Española de Pediatría de Atención Primaria (AEPAP), la Sociedad Española de Pediatría Extrahospitalaria y Atención Primaria (SEPEAP) y la Sociedad Española de Inmunología Clínica, Alergología y Asma Pediátrica (SEICAP)

Author

Beatriz Espín Jaime, Juan J. Díaz Martín, Luis Carlos Blesa Baviera, Ángela Claver Monzón, Anselmo Hernández Hernández, José Ignacio García Burriel, María José García Mérida, Celia Pinto Fernández, Cristóbal Coronel Rodríguez, Enriqueta Román Riechmann, and Carmen Ribes Koninckx

Subjects
Cow's milk protein allergy, Non-IgE-mediated cow's milk allergy, Food protein induced enterocolitis syndrome, Allergic proctocolitis, Cow's milk protein intolerance, Food allergy, Pediatrics, RJ1-570
Abstract

Resumen: La alergia a las proteínas de leche de vaca no mediada por IgE es una patología frecuente, en cuyo manejo están implicados profesionales de diferentes áreas existiendo a día de hoy una gran variabilidad en la forma de abordar su diagnóstico, tratamiento, seguimiento y prevención. Con el objetivo de unificar pautas de actuación se ha elaborado un documento de consenso entre cuatro de las sociedades científicas implicadas en el abordaje de niños con dicha patología. Abstract: Non-IgE-mediated cow's milk allergy is a frequent disorder in paediatrics. As patients might be seen by professionals from different specialties and levels of expertise, a great variability in diagnostic procedures and disease monitoring is commonly observed. Therefore, four scientific societies involved in its management have developed a consensus document providing specific recommendations related to its prevention, diagnosis, treatment and follow up.

Published
2019
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32. Non-IgE-mediated cow's milk allergy: Consensus document of the Spanish Society of Paediatric Gastroenterology, Hepatology, and Nutrition (SEGHNP), the Spanish Association of Paediatric Primary Care (AEPAP), the Spanish Society of Extra-hospital Paediatrics and Primary Health Care (SEPEAP), and the Spanish Society of Paediatric ClinicaL Immunology, Allergy, and Asthma (SEICAP)

Author

Beatriz Espín Jaime, Juan J. Díaz Martín, Luis Carlos Blesa Baviera, Ángela Claver Monzón, Anselmo Hernández Hernández, José Ignacio García Burriel, María José García Mérida, Celia Pinto Fernández, Cristóbal Coronel Rodríguez, Enriqueta Román Riechmann, and Carmen Ribes Koninckx

Subjects
Alergia a las proteínas de leche de vaca, Alergia a la leche de vaca no mediada por IgE, Enterocolitis inducida por proteínas, Proctocolitis alérgica, Intolerancia a las proteínas de leche de vaca, Alergia alimentaria, Pediatrics, RJ1-570
Abstract

Non-IgE-mediated cow's milk allergy is a frequent disorder in paediatrics. As patients might be seen by professionals from different specialties and levels of expertise, a great variability in diagnostic procedures and disease monitoring is commonly observed. Therefore, four scientific societies involved in its management have developed a consensus document providing specific recommendations related to its prevention, diagnosis, treatment and follow up. Resumen: La alergia a las proteínas de leche de vaca no mediada por IgE es una patología frecuente, en cuyo manejo están implicados profesionales de diferentes áreas existiendo a día de hoy una gran variabilidad en la forma de abordar su diagnóstico, tratamiento, seguimiento y prevención. Con el objetivo de unificar pautas de actuación se ha elaborado un documento de consenso entre cuatro de las sociedades científicas implicadas en el abordaje de niños con dicha patología.

Published
2019
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33. Diseño de una mediateca pública en el municipio de Socorro, Santander

Author

Lozano Sepúlveda, Jaime Andrés, Pinto Fernández, Juan David, Barrientos Monsalve, Ender, and Universidad Santo Tomás

Subjects
Diseño, Aprendizaje, Design, Mediateca, Motivación en educación, Comunidad, Educación, Diseño arquitectónico, Administración del conocimiento, Community, Académico, Academic, Knowledge, Conocimiento
Abstract

El objetivo principal es realizar el diseño de una mediateca en el municipio del Socorro, el cual se encuentre ubicado a proximidades de la carrera 14, convergiendo en un lugar estratégico sobre las instituciones académicos aledañas, siendo este espacio el lugar ideal para generar un punto de desarrollo académico y de actividades varias que ayuden a contribuir con una mayor oportunidad de valor informativo tanto para los estudiantes como la misma comunidad del sector, enriqueciendo el factor educativo del Socorro e incentivando a adultos y jóvenes a percibir nuevas formas de el conocimiento que se albergan en estos espacios. The main objective is to design a media library in the municipality of Socorro, which is located near the race 14, converging on a strategic point about the surrounding academic institutions, This space being the ideal place to generate a point of academic development and various activities that help contribute with a greater opportunity of informative value both for students and the community of the sector, enriching the educational factor of Socorro and encouraging adults and young people to perceive new forms of knowledge that are housed in these spaces. Arquitecto http://www.ustabuca.edu.co/ustabmanga/presentacion Pregrado

Published
2023

34. Relevance of hazards in exoskeleton applications: a survey-based enquiry

Author

European Commission, Conferencia de Rectores de las Universidades Españolas, Massardi, Stefano, Pinto-Fernández, David, Babic, Jan, Dežman, Miha, Trošt, Andrej, Grosu, V., Lefeber, D., Rodriguez, C., Bessler, J., Schaake, L., Prange-Lasonder, G., Veneman, J.F., Torricelli, Diego, European Commission, Conferencia de Rectores de las Universidades Españolas, Massardi, Stefano, Pinto-Fernández, David, Babic, Jan, Dežman, Miha, Trošt, Andrej, Grosu, V., Lefeber, D., Rodriguez, C., Bessler, J., Schaake, L., Prange-Lasonder, G., Veneman, J.F., and Torricelli, Diego

Abstract

Exoskeletons are becoming the reference technology for assistance and augmentation of human motor functions in a wide range of application domains. Unfortunately, the exponential growth of this sector has not been accompanied by a rigorous risk assessment (RA) process, which is necessary to identify the major aspects concerning the safety and impact of this new technology on humans. This situation may seriously hamper the market uptake of new products. This paper presents the results of a survey that was circulated to understand how hazards are considered by exoskeleton users, from research and industry perspectives. Our analysis aimed to identify the perceived occurrence and the impact of a sample of generic hazards, as well as to collect suggestions and general opinions from the respondents that can serve as a reference for more targeted RA. Our results identified a list of relevant hazards for exoskeletons. Among them, misalignments and unintended device motion were perceived as key aspects for exoskeletons’ safety. This survey aims to represent a first attempt in recording overall feedback from the community and contribute to future RAs and the identification of better mitigation strategies in the field.

Published
2023

35. A mechatronic leg replica to benchmark human–exoskeleton physical interactions

Author

European Commission, Dežman, Miha, Massardi, Stefano, Pinto-Fernández, David, Grosu, V., Rodriguez-Guerrero, C., Babic, Jan, Torricelli, Diego, European Commission, Dežman, Miha, Massardi, Stefano, Pinto-Fernández, David, Grosu, V., Rodriguez-Guerrero, C., Babic, Jan, and Torricelli, Diego

Abstract

Evaluating human-exoskeleton interaction typically requires experiments with human subjects, which raises safety issues and entails time-consuming testing procedures. This paper presents a mechatronic replica of a human leg, which was designed to quantify physical interaction dynamics between exoskeletons and human limbs without the need for human testing. In the first part of this work, we present the mechanical, electronic, sensory system and software solutions integrated in our leg replica prototype. In the second part, we used the leg replica to test its interaction with two types of commercially available wearable devices, i.e. an active full leg exoskeleton and a passive knee orthosis. We ran basic test examples to demonstrate the functioning and benchmarking potential of the leg replica to assess the effects of joint misalignments on force transmission. The integrated force sensors embedded in the leg replica detected higher interaction forces in the misaligned scenario in comparison to the aligned one, in both active and passive modalities. The small standard deviation of force measurements across cycles demonstrates the potential of the leg replica as a standard test method for reproducible studies of human-exoskeleton physical interaction.

Published
2023

36. Anatomical model for measuring the interaction of an exoskeleton with a biological limb assisted by said exoskeleton

Author

Torricelli, Diego, Massardi, Stefano, Pinto-Fernández, David, Gómez Larrén, Estela, Babič, Jan, Dežman, Miha, Trošt, Andrej, Grosu, Victor, Lefeber, Dirk, Rodriguez-Guerrero, C., Torricelli, Diego, Massardi, Stefano, Pinto-Fernández, David, Gómez Larrén, Estela, Babič, Jan, Dežman, Miha, Trošt, Andrej, Grosu, Victor, Lefeber, Dirk, and Rodriguez-Guerrero, C.

Abstract

The present invention is related to an anatomical model for measuring the interaction of an exoskeleton with a biological limb assisted by said exoskeleton. The present invention is characterized by a special structure of the device formed by an inner structure comprising a first structural element and a second structural element. The first structural element and a second structural element are joined by means of a first joint, preferably with rotation capability. Likewise, the device comprises a first casing and a second casing, each of the casings covering the first structural element and a second structural element respectively. The device is further characterized in that each of the shells is divided into a plurality of segments and, each segment is attached to the internal structure by means of a sensor that allows to provide a signal representing the loads that the exoskeleton exerts on the region corresponding to that segment.

Published
2023

37. An anatomical model for measuring the interaction of an exoskeleton with a biological limb assisted by said exoskeleton

Author

Torricelli, Diego, Massardi, Stefano, Pinto-Fernández, David, Gómez Larrén, Estela, Babič, Jan, Dežman, Miha, Trošt, Andrej, Grosu, Victor, Lefeber, Dirk, Rodriguez-Guerrero, C., Torricelli, Diego, Massardi, Stefano, Pinto-Fernández, David, Gómez Larrén, Estela, Babič, Jan, Dežman, Miha, Trošt, Andrej, Grosu, Victor, Lefeber, Dirk, and Rodriguez-Guerrero, C.

Abstract

[EN] The present invention is related to an anatomical model for measuring the interaction of an exoskeleton with a biological limb assisted by said exoskeleton. The present invention is characterized by a special structure of the device formed by an inner structure comprising a first structural element and a second structural element. The first structural element and a second structural element are joined by means of a first joint, preferably with rotation capability. Likewise, the device comprises a first casing and a second casing, each of the casings covering the first structural element and a second structural element respectively. The device is further characterized in that each of the shells is divided into a plurality of segments and, each segment is attached to the internal structure by means of a sensor that allows to provide a signal representing the loads that the exoskeleton exerts on the region corresponding to that segment., [FR] La présente invention concerne un modèle anatomique servant à mesurer l'interaction entre un exosquelette et un membre biologique assisté par ledit exosquelette. La présente invention est caractérisée par une structure spéciale du dispositif formée par une structure interne comprenant un premier élément structural et un second élément structural. Le premier élément structural et un second élément structural sont assemblés au moyen d'un premier joint, de préférence de manière à pouvoir tourner. De même, le dispositif comprend une première enveloppe et une seconde enveloppe, chacune des enveloppes recouvrant respectivement le premier élément structural et un second élément structural. Le dispositif est en outre caractérisé en ce que chacune des enveloppes est divisée en une pluralité de segments, et chaque segment est fixé à la structure interne au moyen d'un capteur qui permet de fournir un signal représentant les charges que l'exosquelette exerce sur la région correspondant à ce segment.

Published
2023

38. Benchmarking the Effects on Human–Exoskeleton Interaction of Trajectory, Admittance and EMG-Triggered Exoskeleton Movement Control

Author

European Commission, Ministerio de Ciencia e Innovación (España), Rodrigues-Carvalho, C., Fernández-García,M., Pinto-Fernández, David, Sanz-Morere, C., Barroso, Filipe O., Borromeo, S., Rodríguez-Sánchez, C., Moreno, Juan Camilo, Del-Ama, Antonio J., European Commission, Ministerio de Ciencia e Innovación (España), Rodrigues-Carvalho, C., Fernández-García,M., Pinto-Fernández, David, Sanz-Morere, C., Barroso, Filipe O., Borromeo, S., Rodríguez-Sánchez, C., Moreno, Juan Camilo, and Del-Ama, Antonio J.

Abstract

Nowadays, robotic technology for gait training is becoming a common tool in rehabilitation hospitals. However, its effectiveness is still controversial. Traditional control strategies do not adequately integrate human intention and interaction and little is known regarding the impact of exoskeleton control strategies on muscle coordination, physical effort, and user acceptance. In this article, we benchmarked three types of exoskeleton control strategies in a sample of seven healthy volunteers: trajectory assistance (TC), compliant assistance (AC), and compliant assistance with EMG-Onset stepping control (OC), which allows the user to decide when to take a step during the walking cycle. This exploratory study was conducted within the EUROBENCH project facility. Experimental procedures and data analysis were conducted following EUROBENCH’s protocols. Specifically, exoskeleton kinematics, muscle activation, heart and breathing rates, skin conductance, as well as user-perceived effort were analyzed. Our results show that the OC controller showed robust performance in detecting stepping intention even using a corrupt EMG acquisition channel. The AC and OC controllers resulted in similar kinematic alterations compared to the TC controller. Muscle synergies remained similar to the synergies found in the literature, although some changes in muscle contribution were found, as well as an overall increase in agonist-antagonist co-contraction. The OC condition led to the decreased mean duration of activation of synergies. These differences were not reflected in the overall physiological impact of walking or subjective perception. We conclude that, although the AC and OC walking conditions allowed the users to modulate their walking pattern, the application of these two controllers did not translate into significant changes in the overall physiological cost of walking nor the perceived experience of use. Nonetheless, results suggest that both AC and OC controllers are potential

Published
2023

40. Human USP18 protects diverse cancer lineages from Type I Interferon independently of its canonical catalytic function

Author

Jové, Veronica, primary, Wheeler, Heather, additional, Lee, Chiachin Wilson, additional, Healy, David R., additional, Levine, Kymberly, additional, Ralph, Erik C., additional, Yang, Bing, additional, Giddabasappa, Anand, additional, Loria, Paula, additional, Yamaguchi, Masaya, additional, Casimiro-Garcia, Agustin, additional, Kessler, Benedikt M., additional, Pinto-Fernández, Adán, additional, Frattini, Véronique, additional, Wes, Paul D., additional, and Wang, Feng, additional

Published
2023
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42. Human USP18 protects diverse cancer lineages from Type I Interferon independently of its canonical catalytic function

Author

Veronica Jové, Heather Wheeler, Chiachin Wilson Lee, David R. Healy, Kymberly Levine, Erik C. Ralph, Bing Yang, Anand Giddabasappa, Paula Loria, Masaya Yamaguchi, Agustin Casimiro-Garcia, Benedikt M. Kessler, Adán Pinto-Fernández, Véronique Frattini, Paul D. Wes, and Feng Wang

Abstract

Precise temporal regulation of Type I interferon signaling is imperative to effectively fight infections and cancerous cells without triggering autoimmunity. The key negative regulator of Type I interferon signaling is ubiquitin-specific protease 18 (USP18). USP18 cleaves interferon-inducible ubiquitin-like modifications through its canonical catalytic function and directly inhibits interferon receptor signaling through its scaffold role.USP18loss-of-function dramatically impacts autoimmune disease, viral susceptibility, and cancer cell survival. However, the relative contribution of catalytic versus scaffold function is unresolved and must be determined to design effective therapeutics targeting USP18. To precisely delineate individual contribution, we evaluated the functional impact of single amino acid mutations that disrupt catalytic or scaffold activity. Here we demonstrate catalytic activity does not contribute to cell autonomous Type I interferon sensitivity across multiple cancer cell lineages. Furthermore, introducing a patient-derived mutation that disrupts scaffold function is sufficient to inhibit cancer growth. These findings establish a fundamental mechanistic basis for USP18 therapeutic design across diseases.OVERVIEWUSP18 is the key negative regulator of Type I interferon signaling in humans, mediating autoimmune disease, viral susceptibility, and cancer cell survival.USP18 cleaves interferon-inducible ubiquitin-like modifications through its canonical catalytic function and attenuates interferon receptor signaling through its scaffold role.Delineating the contribution of each function is critical to resolve the mechanistic basis of interferon regulation and enable the development of therapeutics targeting USP18.We demonstrate that cell intrinsic interferon sensitivity is not mediated by loss of catalytic activity. However, disruption of scaffold function by a patient-specific mutation inhibits cancer cell growth.Furthermore, we discovered that canonical catalytic activity is surprisingly inefficient in human cells.These results clarify a fundamental mechanism of immune regulation and cancer cell survival in humans.Abstract Figure

Published
2023
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43. Benchmarking the Effects on Human–Exoskeleton Interaction of Trajectory, Admittance and EMG-Triggered Exoskeleton Movement Control

Author

Rodrigues-Carvalho, Camila, primary, Fernández-García, Marvin, additional, Pinto-Fernández, David, additional, Sanz-Morere, Clara, additional, Barroso, Filipe Oliveira, additional, Borromeo, Susana, additional, Rodríguez-Sánchez, Cristina, additional, Moreno, Juan C., additional, and del-Ama, Antonio J., additional

Published
2023
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44. Sex-specific deubiquitylation drives immune-related neurodegeneration inDrosophila

Author

Jingnu Xia, Adán Pinto-Fernández, Andreas Damianou, Jeffery Y Lee, Benedikt M Kessler, Ilan Davis, Paul Elliott, and Petros Ligoxygakis

Abstract

SummaryRisk of neurodegenerative disease such as late onset Alzheimer’s is linked to aberrant ubiquitinylation and accumulation of non-degraded proteins in brain cells. A glial network of innate immune genes modulates inflammatory responses to such protein deposition. However, vulnerability differs between the sexes. Here, we show that theDrosophilahomologue of the deubiquitylase Trabid can align the sex-specific aspects of neurodegenerative phenotypes with changes in ubiquitylation and inflammatory activity. An enzymatically null Trabid in flies, caused sex-specific changes in locomotion, sleep patterns, brain histology and ultimately, lifespan. These changes were underscored by altered ubiquitin and proteome enrichment profiles and the same enzymatic activity as its human counterpart. When the sex-determination genetransformerwas silenced in astrocytes or immunocompetent tissues, sex differences were significantly reduced. Our results indicate that Trabid underscores sex-specificity in disease neurology, by controlling the balance between ubiquitylation and inflammation.

Published
2022
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46. Activity-Based Protein Profiling (ABPP) for cellular deubiquitinase (DUB) and inhibitor profiling at deep and high-throughput levels

Author

Hannah B. L. Jones, Raphael Heilig, Benedikt M. Kessler, and Adán Pinto-Fernández

Abstract

This chapter provides detailed methodology and materials required to profile deubiquitinases (DUBs) in a cellular matrix using specific activity-based probes, with immunoblotting and mass spectrometry proteomics-based readouts. Different types of activity-based protein profiling (ABPP) for studying the potency and selectivity of DUB inhibitors are outlined here, including the standard ABPP, the deep DUBome ABPP, and the ABPP-HT (high-throughput compatible).

Published
2022

47. USP18 is an essential regulator of muscle cell differentiation and maturation

Author

Olie, CS, Pinto-Fernández, A, Damianou, A, Vendrell, I, Mei, H, den Hamer, B, van der Wal, E, de Greef, JC, Raz, V, and Kessler, BM

Subjects
Cancer Research, Cellular and Molecular Neuroscience, Differentiation, Neuroimmunology, Immunology, Cell Biology
Abstract

The ubiquitin proteasomal system is a critical regulator of muscle physiology, and impaired UPS is key in many muscle pathologies. Yet, little is known about the function of deubiquitinating enzymes (DUBs) in the muscle cell context. We performed a genetic screen to identify DUBs as potential regulators of muscle cell differentiation. Surprisingly, we observed that the depletion of ubiquitin-specific protease 18 (USP18) affected the differentiation of muscle cells. USP18 depletion first stimulated differentiation initiation. Later, during differentiation, the absence of USP18 expression abrogated myotube maintenance. USP18 enzymatic function typically attenuates the immune response by removing interferon-stimulated gene 15 (ISG15) from protein substrates. However, in muscle cells, we found that USP18, predominantly nuclear, regulates differentiation independent of ISG15 and the ISG response. Exploring the pattern of RNA expression profiles and protein networks whose levels depend on USP18 expression, we found that differentiation initiation was concomitant with reduced expression of the cell-cycle gene network and altered expression of myogenic transcription (co) factors. We show that USP18 depletion altered the calcium channel gene network, resulting in reduced calcium flux in myotubes. Additionally, we show that reduced expression of sarcomeric proteins in the USP18 proteome was consistent with reduced contractile force in an engineered muscle model. Our results revealed nuclear USP18 as a critical regulator of differentiation initiation and maintenance, independent of ISG15 and its role in the ISG response.

Published
2022
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48. Activity-Based Protein Profiling (ABPP) for Cellular Deubiquitinase (DUB) and Inhibitor Profiling at Deep and High-Throughput Levels

Author

Hannah B L, Jones, Raphael, Heilig, Benedikt M, Kessler, and Adán, Pinto-Fernández

Subjects
Proteomics, Deubiquitinating Enzymes
Abstract

This chapter provides detailed methodology and materials required to profile deubiquitinases (DUBs) in a cellular matrix using specific activity-based probes, with immunoblotting and mass spectrometry proteomics-based readouts. Different types of activity-based protein profiling (ABPP) for studying the potency and selectivity of DUB inhibitors are outlined here, including the standard ABPP, the deep DUBome ABPP, and the ABPP-HT (high-throughput compatible).

Published
2022

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