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1. Ryanodine receptor dysfunction causes senescence and fibrosis in Duchenne dilated cardiomyopathy

Author

Monia Souidi, Jessica Resta, Haikel Dridi, Yvonne Sleiman, Steve Reiken, Karina Formoso, Sarah Colombani, Pascal Amédro, Pierre Meyer, Azzouz Charrabi, Marie Vincenti, Yang Liu, Rajesh Kumar Soni, Frank Lezoualc'h, D.V.M. Stéphane Blot, François Rivier, Olivier Cazorla, Angelo Parini, Andrew R. Marks, Jeanne Mialet‐Perez, Alain Lacampagne, and Albano C. Meli

Subjects
Calcium, DMD, hiPSC‐derived cardiomyocytes, Ryanodine receptor, Senescence, Diseases of the musculoskeletal system, RC925-935, Human anatomy, QM1-695
Abstract

Abstract Background Duchenne muscular dystrophy (DMD) is an X‐linked disorder characterized by progressive muscle weakness due to the absence of functional dystrophin. DMD patients also develop dilated cardiomyopathy (DCM). We have previously shown that DMD (mdx) mice and a canine DMD model (GRMD) exhibit abnormal intracellular calcium (Ca2+) cycling related to early‐stage pathological remodelling of the ryanodine receptor intracellular calcium release channel (RyR2) on the sarcoplasmic reticulum (SR) contributing to age‐dependent DCM. Methods Here, we used hiPSC‐CMs from DMD patients selected by Speckle‐tracking echocardiography and canine DMD cardiac biopsies to assess key early‐stage Duchenne DCM features. Results Dystrophin deficiency was associated with RyR2 remodelling and SR Ca2+ leak (RyR2 Po of 0.03 ± 0.01 for HC vs. 0.16 ± 0.01 for DMD, P

Published
2024
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3. Three-vessel coronary infusion of cardiosphere-derived cells for the treatment of heart failure with preserved ejection fraction in a pre-clinical pig model

Author

Gallet, Romain, Su, Jin-Bo, Corboz, Daphné, Chiaroni, Paul-Matthieu, Bizé, Alain, Dai, Jianping, Panel, Mathieu, Boucher, Pierre, Pallot, Gaëtan, Brehat, Juliette, Sambin, Lucien, Thery, Guillaume, Mouri, Nadir, de Pommereau, Aurélien, Denormandie, Pierre, Germain, Stéphane, Lacampagne, Alain, Teiger, Emmanuel, Marbán, Eduardo, and Ghaleh, Bijan

Published
2023
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4. Personalized medicine in the dish to prevent calcium leak associated with short-coupled polymorphic ventricular tachycardia in patient-derived cardiomyocytes

Author

Yvonne Sleiman, Steven Reiken, Azzouz Charrabi, Fabrice Jaffré, Leah R. Sittenfeld, Jean-Luc Pasquié, Sarah Colombani, Bruce B. Lerman, Shuibing Chen, Andrew R. Marks, Jim W. Cheung, Todd Evans, Alain Lacampagne, and Albano C. Meli

Subjects
Short-coupled PMVT, Isogenic control, Cardiac ryanodine receptor, hiPSC-derived cardiomyocytes, Drug screening, Calcium handling, Medicine (General), R5-920, Biochemistry, QD415-436
Abstract

Abstract Background Polymorphic ventricular tachycardia (PMVT) is a rare genetic disease associated with structurally normal hearts which in 8% of cases can lead to sudden cardiac death, typically exercise-induced. We previously showed a link between the RyR2-H29D mutation and a clinical phenotype of short-coupled PMVT at rest using patient-specific hiPSC-derived cardiomyocytes (hiPSC-CMs). In the present study, we evaluated the effects of clinical and experimental anti-arrhythmic drugs on the intracellular Ca2+ handling, contractile and molecular properties in PMVT hiPSC-CMs in order to model a personalized medicine approach in vitro. Methods Previously, a blood sample from a patient carrying the RyR2-H29D mutation was collected and reprogrammed into several clones of RyR2-H29D hiPSCs, and in addition we generated an isogenic control by reverting the RyR2-H29D mutation using CRIPSR/Cas9 technology. Here, we tested 4 drugs with anti-arrhythmic properties: propranolol, verapamil, flecainide, and the Rycal S107. We performed fluorescence confocal microscopy, video-image-based analyses and biochemical analyses to investigate the impact of these drugs on the functional and molecular features of the PMVT RyR2-H29D hiPSC-CMs. Results The voltage-dependent Ca2+ channel inhibitor verapamil did not prevent the aberrant release of sarcoplasmic reticulum (SR) Ca2+ in the RyR2-H29D hiPSC-CMs, whereas it was prevented by S107, flecainide or propranolol. Cardiac tissue comprised of RyR2-H29D hiPSC-CMs exhibited aberrant contractile properties that were largely prevented by S107, flecainide and propranolol. These 3 drugs also recovered synchronous contraction in RyR2-H29D cardiac tissue, while verapamil did not. At the biochemical level, S107 was the only drug able to restore calstabin2 binding to RyR2 as observed in the isogenic control. Conclusions By testing 4 drugs on patient-specific PMVT hiPSC-CMs, we concluded that S107 and flecainide are the most potent molecules in terms of preventing the abnormal SR Ca2+ release and contractile properties in RyR2-H29D hiPSC-CMs, whereas the effect of propranolol is partial, and verapamil appears ineffective. In contrast with the 3 other drugs, S107 was able to prevent a major post-translational modification of RyR2-H29D mutant channels, the loss of calstabin2 binding to RyR2. Using patient-specific hiPSC and CRISPR/Cas9 technologies, we showed that S107 is the most efficient in vitro candidate for treating the short-coupled PMVT at rest.

Published
2023
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6. Energy Autonomous Wearable Sensors for Smart Healthcare: A Review

Author

Dahiya, Abhishek Singh, Thireau, Jerome, Boudaden, Jamila, Lal, Swatchith, Gulzar, Umair, Zhang, Yan, Gil, Thierry, Azemard, Nadine, Ramm, Peter, Kiessling, Tim, O'Murchu, Cian, Sebelius, Fredrik, Tilly, Jonas, Glynn, Colm, Geary, Shane, O'Dwyer, Colm, Razeeb, Kafil, Lacampagne, Alain, Charlot, Benoit, and Todri-Sanial, Aida

Subjects
Electrical Engineering and Systems Science - Signal Processing, Computer Science - Human-Computer Interaction
Abstract

Energy Autonomous Wearable Sensors (EAWS) have attracted a large interest due to their potential to provide reliable measurements and continuous bioelectric signals, which help to reduce health risk factors early on, ongoing assessment for disease prevention, and maintaining optimum, lifelong health quality. This review paper presents recent developments and state-of-the-art research related to three critical elements that enable an EAWS. The first element is wearable sensors, which monitor human body physiological signals and activities. Emphasis is given on explaining different types of transduction mechanisms presented, and emerging materials and fabrication techniques. The second element is the flexible and wearable energy storage device to drive low-power electronics and the software needed for automatic detection of unstable physiological parameters. The third is the flexible and stretchable energy harvesting module to recharge batteries for continuous operation of wearable sensors. We conclude by discussing some of the technical challenges in realizing energy-autonomous wearable sensing technologies and possible solutions for overcoming them.

Published
2019

7. State-of-the-Art Differentiation Protocols for Patient-Derived Cardiac Pacemaker Cells

Author

Eleonora Torre, Matteo E. Mangoni, Alain Lacampagne, Albano C. Meli, and Pietro Mesirca

Subjects
sinoatrial node, hiPSC-derived cardiac pacemaker cells, protocols, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

Human-induced pluripotent stem cell (hiPSC)-derived cardiomyocytes raise the possibility of generating pluripotent stem cells from a wide range of human diseases. In the cardiology field, hiPSCs have been used to address the mechanistic bases of primary arrhythmias and in investigations of drug safety. These studies have been focused primarily on atrial and ventricular pathologies. Consequently, many hiPSC-based cardiac differentiation protocols have been developed to differentiate between atrial- or ventricular-like cardiomyocytes. Few protocols have successfully proposed ways to obtain hiPSC-derived cardiac pacemaker cells, despite the very limited availability of human tissues from the sinoatrial node. Providing an in vitro source of pacemaker-like cells would be of paramount importance in terms of furthering our understanding of the mechanisms underlying sinoatrial node pathophysiology and testing innovative clinical strategies against sinoatrial node dysfunction (i.e., biological pacemakers and genetic- and pharmacological- based therapy). Here, we summarize and detail the currently available protocols used to obtain patient-derived pacemaker-like cells.

Published
2024
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8. Heart graft preservation technics and limits: an update and perspectives

Author

Aurore Ughetto, François Roubille, Adrien Molina, Pascal Battistella, Philippe Gaudard, Roland Demaria, Julien Guihaire, Alain Lacampagne, and Clément Delmas

Subjects
PGF primary graft failure, MP machine perfusion, ESNP ex situ normothermic perfusion, heart tranplantation, heart preservation, hypothermic machine perfusion (HMP), Diseases of the circulatory (Cardiovascular) system, RC666-701
Abstract

Heart transplantation, the gold standard treatment for end-stage heart failure, is limited by heart graft shortage, justifying expansion of the donor pool. Currently, static cold storage (SCS) of hearts from donations after brainstem death remains the standard practice, but it is usually limited to 240 min. Prolonged cold ischemia and ischemia-reperfusion injury (IRI) have been recognized as major causes of post-transplant graft failure. Continuous ex situ perfusion is a new approach for donor organ management to expand the donor pool and/or increase the utilization rate. Continuous ex situ machine perfusion (MP) can satisfy the metabolic needs of the myocardium, minimizing irreversible ischemic cell damage and cell death. Several hypothermic or normothermic MP methods have been developed and studied, particularly in the preclinical setting, but whether MP is superior to SCS remains controversial. Other approaches seem to be interesting for extending the pool of heart graft donors, such as blocking the paths of apoptosis and necrosis, extracellular vesicle therapy, or donor heart-specific gene therapy. In this systematic review, we summarize the mechanisms involved in IRI during heart transplantation and existing targeting therapies. We also critically evaluate all available data on continuous ex situ perfusion devices for adult donor hearts, highlighting its therapeutic potential and current limitations and shortcomings.

Published
2023
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9. Identification and quantification of resolubilised polyphenols from fining precipitation

Author

Gauthier Lagarde, Joëlline Pocher, Jean Martin Pernier, Sandra Vanbrabant, Arnaud Massot, Virginie Moine, Soizic Lacampagne, Pierre-Louis Teissedre, and Michael Jourdes

Subjects
polyphenols, fining, precipitate, condensed tannins, anthocyanins, Agriculture, Botany, QK1-989
Abstract

The aim of this study was to better understand the colloidal phenomenon involved in the fining process and to determine how many polyphenols are impacted in this process. Different types and compositions of fining agent were used to fine the wine. Some of them were pure and based on animal proteins and plant proteins, while others comprised a mixture of different matter, like PVPP and plant proteins, or PVPP, plant proteins and bentonite. Before and after fining, five different analyses were performed on the wine to characterise the polyphenolic composition and content. In order to determine polyphenol loss more precisely during fining, a new method was developed to quantify and characterise polyphenol precipitate using fining agents. This new method allowed us to find some drastic differences between the fining agents in term of total polyphenol precipitation, as well as in the composition of the precipitated compounds. Indeed, a group of anthocyanins present in low levels in wine (i.e., p-coumaroylated anthocyanins) became the most represented in the fining precipitate. Similarly, differences were also observed between the fining agents in the composition of precipitated condensed tannins. Fining agents without PVPP did not precipitate monomeric or dimeric flavan-3-ol or crown tannins. Some differences were also observed between the fining agent composed of plant-derived protein and that comprising gelatin.

Published
2023
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10. Generation of patient-specific induced pluripotent stem cell lines with Type 2 Long QT Syndrome and the KCNH2 c.379C > T pathogenic variant

Author

Lamia Goual, Elisa Bounasri, Marie Vincenti, Pascal Amédro, Romain Desprat, Florence Bernex, Jean-Marc Lemaitre, Jean-Luc Pasquié, Alain Lacampagne, Jérôme Thireau, and Albano C. Meli

Subjects
Biology (General), QH301-705.5
Abstract

Type 2 Long QT Syndrome (LQT2) is a rare genetic heart rhythm disorder causing life-threatening arrhythmias. We derived induced pluripotent stem cell (iPSC) lines from two patients with LQT2, aged 18 and 6, both carrying a heterozygous missense mutation on the 3rd and 11th exons of KCNH2. The iPSC lines exhibited normal genomes, expressed pluripotent markers, and differentiated into trilineage embryonic layers. These patient-specific iPSC lines provide a valuable model to study the molecular and functional impact of the hERG channel gene mutation in LQT2 and to develop personalized therapeutic approaches for this syndrome.

Published
2023
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17. Use of speckle tracking echocardiography to detect late anthracycline-induced cardiotoxicity in childhood cancer: A prospective controlled cross-sectional study

Author

Amedro, Pascal, Vincenti, Marie, Abassi, Hamouda, Lanot, Nicolas, De La Villeon, Gregoire, Guillaumont, Sophie, Gamon, Lucie, Mura, Thibault, Lopez-Perrin, Karine, Haouy, Stephany, Sirvent, Anne, Cazorla, Olivier, Vergely, Laurence, Lacampagne, Alain, Avesani, Martina, Sirvent, Nicolas, and Saumet, Laure

Published
2022
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19. Post-Translational Modifications and Diastolic Calcium Leak Associated to the Novel RyR2-D3638A Mutation Lead to CPVT in Patient-Specific hiPSC-Derived Cardiomyocytes.

Author

Acimovic, Ivana, Refaat, Marwan M, Moreau, Adrien, Salykin, Anton, Reiken, Steve, Sleiman, Yvonne, Souidi, Monia, Přibyl, Jan, Kajava, Andrey V, Richard, Sylvain, Lu, Jonathan T, Chevalier, Philippe, Skládal, Petr, Dvořak, Petr, Rotrekl, Vladimir, Marks, Andrew R, Scheinman, Melvin M, Lacampagne, Alain, and Meli, Albano C

Subjects
CPVT, calcium, flecainide, hiPSC-derived cardiomyocytes, post-translational modifications, ryanodine receptor, β-adrenergic receptor blockade, beta-adrenergic receptor blockade, Clinical Sciences
Abstract

BackgroundSarcoplasmic reticulum Ca2+ leak and post-translational modifications under stress have been implicated in catecholaminergic polymorphic ventricular tachycardia (CPVT), a highly lethal inherited arrhythmogenic disorder. Human induced pluripotent stem cells (hiPSCs) offer a unique opportunity for disease modeling.ObjectiveThe aims were to obtain functional hiPSC-derived cardiomyocytes from a CPVT patient harboring a novel ryanodine receptor (RyR2) mutation and model the syndrome, drug responses and investigate the molecular mechanisms associated to the CPVT syndrome.MethodsPatient-specific cardiomyocytes were generated from a young athletic female diagnosed with CPVT. The contractile, intracellular Ca2+ handling and electrophysiological properties as well as the RyR2 macromolecular remodeling were studied.ResultsExercise stress electrocardiography revealed polymorphic ventricular tachycardia when treated with metoprolol and marked improvement with flecainide alone. We found abnormal stress-induced contractile and electrophysiological properties associated with sarcoplasmic reticulum Ca2+ leak in CPVT hiPSC-derived cardiomyocytes. We found inadequate response to metoprolol and a potent response of flecainide. Stabilizing RyR2 with a Rycal compound prevents those abnormalities specifically in CPVT hiPSC-derived cardiomyocytes. The RyR2-D3638A mutation is located in the conformational change inducing-central core domain and leads to RyR2 macromolecular remodeling including depletion of PP2A and Calstabin2.ConclusionWe identified a novel RyR2-D3638A mutation causing 3D conformational defects and aberrant biophysical properties associated to RyR2 macromolecular complex post-translational remodeling. The molecular remodeling is for the first time revealed using patient-specific hiPSC-derived cardiomyocytes which may explain the CPVT proband's resistance. Our study promotes hiPSC-derived cardiomyocytes as a suitable model for disease modeling, testing new therapeutic compounds, personalized medicine and deciphering underlying molecular mechanisms.

Published
2018

23. 'Ryanopathies' and RyR2 dysfunctions: can we further decipher them using in vitro human disease models?

Author

Yvonne Sleiman, Alain Lacampagne, and Albano C. Meli

Subjects
Cytology, QH573-671
Abstract

Abstract The regulation of intracellular calcium (Ca2+) homeostasis is fundamental to maintain normal functions in many cell types. The ryanodine receptor (RyR), the largest intracellular calcium release channel located on the sarco/endoplasmic reticulum (SR/ER), plays a key role in the intracellular Ca2+ handling. Abnormal type 2 ryanodine receptor (RyR2) function, associated to mutations (ryanopathies) or pathological remodeling, has been reported, not only in cardiac diseases, but also in neuronal and pancreatic disorders. While animal models and in vitro studies provided valuable contributions to our knowledge on RyR2 dysfunctions, the human cell models derived from patients’ cells offer new hope for improving our understanding of human clinical diseases and enrich the development of great medical advances. We here discuss the current knowledge on RyR2 dysfunctions associated with mutations and post-translational remodeling. We then reviewed the novel human cellular technologies allowing the correlation of patient’s genome with their cellular environment and providing approaches for personalized RyR-targeted therapeutics.

Published
2021
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24. LIX1-mediated changes in mitochondrial metabolism control the fate of digestive mesenchyme-derived cells

Author

Amandine Guérin, Claire Angebault, Sandrina Kinet, Chantal Cazevieille, Manuel Rojo, Jérémy Fauconnier, Alain Lacampagne, Arnaud Mourier, Naomi Taylor, Pascal de Santa Barbara, and Sandrine Faure

Subjects
Smooth muscle, Mitochondria, mtROS, Cristae, Cell fate, YAP1/TAZ, Medicine (General), R5-920, Biology (General), QH301-705.5
Abstract

YAP1 and TAZ are transcriptional co-activator proteins that play fundamental roles in many biological processes, from cell proliferation and cell lineage fate determination to tumorigenesis. We previously demonstrated that Limb Expression 1 (LIX1) regulates YAP1 and TAZ activity and controls digestive mesenchymal progenitor proliferation. However, LIX1 mode of action remains elusive. Here, we found that endogenous LIX1 is localized in mitochondria and is anchored to the outer mitochondrial membrane through S-palmitoylation of cysteine 84, a residue conserved in all LIX1 orthologs. LIX1 downregulation altered the mitochondrial ultrastructure, resulting in a significantly decreased respiration and attenuated production of mitochondrial reactive oxygen species (mtROS). Mechanistically, LIX1 knock-down impaired the stability of the mitochondrial proteins PHB2 and OPA1 that are found in complexes with mitochondrial-specific phospholipids and are required for cristae organization. Supplementation with unsaturated fatty acids counteracted the effects of LIX1 knock-down on mitochondrial morphology and ultrastructure and restored YAP1/TAZ signaling. Collectively, our data demonstrate that LIX1 is a key regulator of cristae organization, modulating mtROS level and subsequently regulating the signaling cascades that control fate commitment of digestive mesenchyme-derived cells.

Published
2022
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25. Health-related quality of life and physical activity in children with inherited cardiac arrhythmia or inherited cardiomyopathy: the prospective multicentre controlled QUALIMYORYTHM study rationale, design and methods

Author

Pascal Amedro, Oscar Werner, Hamouda Abassi, Aymeric Boisson, Luc Souilla, Sophie Guillaumont, Johanna Calderon, Anne Requirand, Marie Vincenti, Victor Pommier, Stefan Matecki, Gregoire De La Villeon, Kathleen Lavastre, Alain Lacampagne, Marie-Christine Picot, Constance Beyler, Christophe Delclaux, Yves Dulac, Aitor Guitarte, Philippe Charron, Isabelle Denjoy-Urbain, Vincent Probst, Alban-Elouen Baruteau, Philippe Chevalier, Sylvie Di Filippo, Jean-Benoit Thambo, Damien Bonnet, and Jean-Luc Pasquie

Subjects
Quality of life, Physical activity, Paediatrics, Inherited cardiac arrhythmia, Genetic cardiomyopathy, Computer applications to medicine. Medical informatics, R858-859.7
Abstract

Abstract Background Advances in paediatric cardiology have improved the prognosis of children with inherited cardiac disorders. However, health-related quality of life (QoL) and physical activity have been scarcely analysed in children with inherited cardiac arrhythmia or inherited cardiomyopathy. Moreover, current guidelines on the eligibility of young athletes with inherited cardiac disorders for sports participation mainly rely on expert opinions and remain controversial. Methods The QUALIMYORYTHM trial is a multicentre observational controlled study. The main objective is to compare the QoL of children aged 6 to 17 years old with inherited cardiac arrhythmia (long QT syndrome, Brugada syndrome, catecholaminergic polymorphic ventricular tachycardia, or arrhythmogenic right ventricular dysplasia), or inherited cardiomyopathy (hypertrophic, dilated, or restrictive cardiomyopathy), to that of age and gender-matched healthy subjects. The secondary objective is to assess their QoL according to the disease’s clinical and genetic characteristics, the level of physical activity and motivation for sports, the exercise capacity, and the socio-demographic data. Participants will wear a fitness tracker (ActiGraph GT3X accelerometer) for 2 weeks. A total of 214 children are required to observe a significant difference of 7 ± 15 points in the PedsQL, with a power of 90% and an alpha risk of 5%. Discussion After focusing on the survival in children with inherited cardiac disorders, current research is expanding to patient-reported outcomes and secondary prevention. The QUALIMYORYTHM trial intends to improve the level of evidence for future guidelines on sports eligibility in this population. Trial registration ClinicalTrials.gov Identifier: NCT04712136, registered on January 15th, 2021 ( https://clinicaltrials.gov/ct2/show/NCT04712136 ).

Published
2021
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28. Role of oxidation of excitation-contraction coupling machinery in age-dependent loss of muscle function in Caenorhabditis elegans

Author

Haikel Dridi, Frances Forrester, Alisa Umanskaya, Wenjun Xie, Steven Reiken, Alain Lacampagne, and Andrew Marks

Subjects
aging, skeletal muscle, calcium, UNC-68, oxidative stress, Medicine, Science, Biology (General), QH301-705.5
Abstract

Age-dependent loss of body wall muscle function and impaired locomotion occur within 2 weeks in Caenorhabditis elegans (C. elegans); however, the underlying mechanism has not been fully elucidated. In humans, age-dependent loss of muscle function occurs at about 80 years of age and has been linked to dysfunction of ryanodine receptor (RyR)/intracellular calcium (Ca2+) release channels on the sarcoplasmic reticulum (SR). Mammalian skeletal muscle RyR1 channels undergo age-related remodeling due to oxidative overload, leading to loss of the stabilizing subunit calstabin1 (FKBP12) from the channel macromolecular complex. This destabilizes the closed state of the channel resulting in intracellular Ca2+ leak, reduced muscle function, and impaired exercise capacity. We now show that the C. elegans RyR homolog, UNC-68, exhibits a remarkable degree of evolutionary conservation with mammalian RyR channels and similar age-dependent dysfunction. Like RyR1 in mammals, UNC-68 encodes a protein that comprises a macromolecular complex which includes the calstabin1 homolog FKB-2 and is immunoreactive with antibodies raised against the RyR1 complex. Furthermore, as in aged mammals, UNC-68 is oxidized and depleted of FKB-2 in an age-dependent manner, resulting in ‘leaky’ channels, depleted SR Ca2+ stores, reduced body wall muscle Ca2+ transients, and age-dependent muscle weakness. FKB-2 (ok3007)-deficient worms exhibit reduced exercise capacity. Pharmacologically induced oxidization of UNC-68 and depletion of FKB-2 from the channel independently caused reduced body wall muscle Ca2+ transients. Preventing FKB-2 depletion from the UNC-68 macromolecular complex using the Rycal drug S107 improved muscle Ca2+ transients and function. Taken together, these data suggest that UNC-68 oxidation plays a role in age-dependent loss of muscle function. Remarkably, this age-dependent loss of muscle function induced by oxidative overload, which takes ~2 years in mice and ~80 years in humans, occurs in less than 2–3 weeks in C. elegans, suggesting that reduced antioxidant capacity may contribute to the differences in lifespan among species.

Published
2022
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29. Generation of catecholaminergic polymorphic ventricular tachycardia patient-specific induced pluripotent stem cell line

Author

Sarah Colombani, Albin A. Bernardin, Marie Vincenti, Pascal Amédro, Romain Desprat, Florence Bernex, Jean-Marc Lemaitre, Jean-Luc Pasquié, Alain Lacampagne, and Albano C. Meli

Subjects
Biology (General), QH301-705.5
Abstract

Catecholaminergic Polymorphic Ventricular Tachycardia (CPVT) is a genetic disorder characterized by ventricular tachycardia, that can cause the heart to stop beating leading to death. The prevalence is 1/10.000 and in approximately 60% of cases, the syndrome can be due to a mutation of the cardiac ryanodine receptor gene (RyR2). We derived an induced pluripotent stem cell (iPSC) line from an 11-year-old patient blood-cells, carrying a heterozygous missense mutation on the 8th exon of the RyR2 N-terminal part. This reprogramed CPVT line displayed normal karyotype, expressed pluripotent markers and had a capacity to differentiate in trilineage embryonic layers.

Published
2022
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30. Quantification et identification des phénomènes de transfert d’oxygène au-travers des barriques

Author

Yang Qiu, Soizic Lacampagne, Marie Mirabel, Martine Mietton-Peuchot, and Rémy Ghidossi

Subjects
Agriculture (General), S1-972, Plant culture, SB1-1110
Abstract

De par les propriétés physiques et chimiques particulières du bois de chêne, une barrique est le siège de phénomènes de transfert très complexes. Grâce au développement d'un perméamètre gaz/liquide innovant, les flux d’oxygène de part et d’autre de la cellule ont été mesurés et un bilan matière complet sur la barrique a pu être réalisé. Au cours de ce travail de thèse, il a été démontré que le transfert d'oxygène se fait essentiellement à l'inter-douelle dans les zones de faibles pressions et le phénomène de désorption est prépondérant dans l'apport total d'oxygène.

Published
2022
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32. Colchicine to prevent sympathetic denervation after acute myocardial infarction: the COLD-MI trial

Author

Huet, Fabien, primary, Mariano-Goulart, Denis, additional, Aguilhon, Sylvain, additional, Delbaere, Quentin, additional, Lacampagne, Alain, additional, Fauconnier, Jérémy, additional, Leclercq, Florence, additional, Macia, Jean-Christophe, additional, Akodad, Mariama, additional, Jammoul, Nidal, additional, Prunier, Fabrice, additional, Mewton, Nathan, additional, Angoulvant, Denis, additional, Lozza, Catherine, additional, Soltani, Sonia, additional, Rodier, Annabelle, additional, Grandemange, Sylvie, additional, Dupuy, Anne-Marie, additional, Cristol, Jean-Paul, additional, Amico, Mailis, additional, Nagot, Nicolas, additional, and Roubille, François, additional

Published
2024
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34. IP3 receptor orchestrates maladaptive vascular responses in heart failure

Author

Haikel Dridi, Gaetano Santulli, Jessica Gambardella, Stanislovas S. Jankauskas, Qi Yuan, Jingyi Yang, Steven Reiken, Xujun Wang, Anetta Wronska, Xiaoping Liu, Alain Lacampagne, and Andrew R. Marks

Subjects
Cardiology, Cell biology, Medicine
Abstract

Patients with heart failure (HF) have augmented vascular tone, which increases cardiac workload, impairing ventricular output and promoting further myocardial dysfunction. The molecular mechanisms underlying the maladaptive vascular responses observed in HF are not fully understood. Vascular smooth muscle cells (VSMCs) control vasoconstriction via a Ca2+-dependent process, in which the type 1 inositol 1,4,5-trisphosphate receptor (IP3R1) on the sarcoplasmic reticulum (SR) plays a major role. To dissect the mechanistic contribution of intracellular Ca2+ release to the increased vascular tone observed in HF, we analyzed the remodeling of IP3R1 in aortic tissues from patients with HF and from controls. VSMC IP3R1 channels from patients with HF and HF mice were hyperphosphorylated by both serine and tyrosine kinases. VSMCs isolated from IP3R1VSMC–/– mice exhibited blunted Ca2+ responses to angiotensin II (ATII) and norepinephrine compared with control VSMCs. IP3R1VSMC–/– mice displayed significantly reduced responses to ATII, both in vivo and ex vivo. HF IP3R1VSMC–/– mice developed significantly less afterload compared with HF IP3R1fl/fl mice and exhibited significantly attenuated progression toward decompensated HF and reduced interstitial fibrosis. Ca2+-dependent phosphorylation of the MLC by MLCK activated VSMC contraction. MLC phosphorylation was markedly increased in VSMCs from patients with HF and HF mice but reduced in VSMCs from HF IP3R1VSMC–/– mice and HF WT mice treated with ML-7. Taken together, our data indicate that VSMC IP3R1 is a major effector of increased vascular tone, which contributes to increased cardiac afterload and decompensation in HF.

Published
2022
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35. Health-related quality of life and physical activity in children with inherited cardiac arrhythmia or inherited cardiomyopathy: the prospective multicentre controlled QUALIMYORYTHM study rationale, design and methods

Author

Amedro, Pascal, Werner, Oscar, Abassi, Hamouda, Boisson, Aymeric, Souilla, Luc, Guillaumont, Sophie, Calderon, Johanna, Requirand, Anne, Vincenti, Marie, Pommier, Victor, Matecki, Stefan, De La Villeon, Gregoire, Lavastre, Kathleen, Lacampagne, Alain, Picot, Marie-Christine, Beyler, Constance, Delclaux, Christophe, Dulac, Yves, Guitarte, Aitor, Charron, Philippe, Denjoy-Urbain, Isabelle, Probst, Vincent, Baruteau, Alban-Elouen, Chevalier, Philippe, Di Filippo, Sylvie, Thambo, Jean-Benoit, Bonnet, Damien, and Pasquie, Jean-Luc

Published
2021
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38. Impact of Neurons on Patient-Derived Cardiomyocytes Using Organ-On-A-Chip and iPSC Biotechnologies

Author

Albin A. Bernardin, Sarah Colombani, Antoine Rousselot, Virginie Andry, Yannick Goumon, Hélène Delanoë-Ayari, Côme Pasqualin, Bernard Brugg, Etienne D. Jacotot, Jean-Luc Pasquié, Alain Lacampagne, and Albano C. Meli

Subjects
organ-on-a-chip, microfluidic system, iPSC, cardiomyocytes, neurons, Cytology, QH573-671
Abstract

In the heart, cardiac function is regulated by the autonomic nervous system (ANS) that extends through the myocardium and establishes junctions at the sinus node and ventricular levels. Thus, an increase or decrease in neuronal activity acutely affects myocardial function and chronically affects its structure through remodeling processes. The neuro–cardiac junction (NCJ), which is the major structure of this system, is poorly understood and only a few cell models allow us to study it. Here, we present an innovant neuro–cardiac organ-on-chip model to study this structure to better understand the mechanisms involved in the establishment of NCJ. To create such a system, we used microfluidic devices composed of two separate cell culture compartments interconnected by asymmetric microchannels. Rat PC12 cells were differentiated to recapitulate the characteristics of sympathetic neurons, and cultivated with cardiomyocytes derived from human induced pluripotent stem cells (hiPSC). We confirmed the presence of a specialized structure between the two cell types that allows neuromodulation and observed that the neuronal stimulation impacts the excitation–contraction coupling properties including the intracellular calcium handling. Finally, we also co-cultivated human neurons (hiPSC-NRs) with human cardiomyocytes (hiPSC-CMs), both obtained from the same hiPSC line. Hence, we have developed a neuro–cardiac compartmentalized in vitro model system that allows us to recapitulate the structural and functional properties of the neuro–cardiac junction and that can also be used to better understand the interaction between the heart and brain in humans, as well as to evaluate the impact of drugs on a reconstructed human neuro–cardiac system.

Published
2022
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41. Generation of patient-specific induced pluripotent stem cell lines with Type 2 Long QT Syndrome and the KCNH2 c.379C > T pathogenic variant

Author

Goual, Lamia, primary, Bounasri, Elisa, additional, Vincenti, Marie, additional, Amédro, Pascal, additional, Desprat, Romain, additional, Bernex, Florence, additional, Lemaitre, Jean-Marc, additional, Pasquié, Jean-Luc, additional, Lacampagne, Alain, additional, Thireau, Jérôme, additional, and Meli, Albano C., additional

Published
2023
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43. Influence of curettage on Esca-diseased Vitis vinifera L. cv. Sauvignon blanc plants on the quality of musts and wines

Author

Emilie Bruez, Céline Cholet, Cécile Thibon, Pascaline Redon, Soizic Lacampagne, Tommaso Martignon, Massimo Giudici, Philippe Darriet, and Laurence Gény

Subjects
curettage, Esca, Sauvignon blanc, musts, chemical analyses, wine quality, Agriculture, Botany, QK1-989
Abstract

Aim: A study on Sauvignon blanc (SB) cultivar in France showed that curettage had an effect on the resilience of GTD grapevines. No experiments, however, have been conducted on its effects on wine quality, particularly on white Sauvignon blanc cultivar wines. Methods and results: Grapevines from Sauvignon blanc cultivar that had expressed Esca-foliar symptoms were used for the study, with some of them having been curetted in 2014. Subsequently, bunches from Control (asymptomatic), Curetted and Esca-symptomatic vines were harvested in 2017 and 2018 in order to produce white wine. Technical and chemical results on both must and wine showed that wines from curetted plants were similar to those from asymptomatic vines. There were differences, however, for Esca-diseased vines, where the alcoholic fermentation of musts was faster than for the other modalities. Olfactometry results showed that, for the one-year-old 2017 vintage wines, no differences were detected, although they were for the 2018 vintage. Conclusion: The results of the chemical analyses and wine tasting showed that the wines from curetted and asymptomatic grapevines were similar, and that their quality was the same. Significance of the study: The quality of wines from curetted vines compared to asymptomatic ones was confirmed and validated through chemical and sensory analyses of the must and the one-year-old wines.

Published
2021
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44. Low-dose colchicine prevents sympathetic denervation after myocardial ischemia-reperfusion: a new potential protective mechanism

Author

Fabien Huet, Jérémy Fauconnier, Marion Legall, Pierre Sicard, Catherine Lozza, Alain Lacampagne, and François Roubille

Subjects
colchicine, heart rate variability, myocardial infarction, sympathetic innervation, Medicine, Medicine (General), R5-920
Abstract

Purpose: To evaluate the impact of colchicine on sympathetic denervation after acute myocardial infarction (AMI). Materials & methods: Ischemia/Reperfusion was induced in C57BL/6J male mice. Left coronary artery was ligated during 45 min followed by reperfusion. 400 μg/kg of colchicine or the placebo was administrated intraperitoneally 15 min before the reperfusion. Results: Colchicine treatment significantly improved heart rate variability index after AMI. Colchicine prevented sympathetic denervation in the remote area (p = 0.04) but not in the scar area (p = 0.70). Conclusion: These results suggest promising protective pathway of colchicine after AMI.

Published
2021
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45. Metformin Reverses the Enhanced Myocardial SR/ER–Mitochondria Interaction and Impaired Complex I-Driven Respiration in Dystrophin-Deficient Mice

Author

Claire Angebault, Mathieu Panel, Mathilde Lacôte, Jennifer Rieusset, Alain Lacampagne, and Jérémy Fauconnier

Subjects
Duchenne muscular dystrophy cardiomyopathy, mitochondria-associated ER membrane, mitochondrial calcium uniporter, MICU1, calcium, Biology (General), QH301-705.5
Abstract

Besides skeletal muscle dysfunction, Duchenne muscular dystrophy (DMD) exhibits a progressive cardiomyopathy characterized by an impaired calcium (Ca2+) homeostasis and a mitochondrial dysfunction. Here we aimed to determine whether sarco-endoplasmic reticulum (SR/ER)–mitochondria interactions and mitochondrial function were impaired in dystrophic heart at the early stage of the pathology. For this purpose, ventricular cardiomyocytes and mitochondria were isolated from 3-month-old dystrophin-deficient mice (mdx mice). The number of contacts points between the SR/ER Ca2+ release channels (IP3R1) and the porine of the outer membrane of the mitochondria, VDAC1, measured using in situ proximity ligation assay, was greater in mdx cardiomyocytes. Expression levels of IP3R1 as well as the mitochondrial Ca2+ uniporter (MCU) and its regulated subunit, MICU1, were also increased in mdx heart. MICU2 expression was however unchanged. Furthermore, the mitochondrial Ca2+ uptake kinetics and the mitochondrial Ca2+ content were significantly increased. Meanwhile, the Ca2+-dependent pyruvate dehydrogenase phosphorylation was reduced, and its activity significantly increased. In Ca2+-free conditions, pyruvate-driven complex I respiration was decreased whereas in the presence of Ca2+, complex I-mediated respiration was boosted. Further, impaired complex I-mediated respiration was independent of its intrinsic activity or expression, which remains unchanged but is accompanied by an increase in mitochondrial reactive oxygen species production. Finally, mdx mice were treated with the complex I modulator metformin for 1 month. Metformin normalized the SR/ER-mitochondria interaction, decreased MICU1 expression and mitochondrial Ca2+ content, and enhanced complex I-driven respiration. In summary, before any sign of dilated cardiomyopathy, the DMD heart displays an aberrant SR/ER-mitochondria coupling with an increase mitochondrial Ca2+ homeostasis and a complex I dysfunction. Such remodeling could be reversed by metformin providing a novel therapeutic perspective in DMD.

Published
2021
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47. Generation of three Duchenne Muscular Dystrophy patient-specific induced pluripotent stem cell lines DMD_YoTaz_PhyMedEXp, DMD_RaPer_PhyMedEXp, DMD_OuMen_PhyMedEXp (INSRMi008-A, INSRMi009-A and INSRMi010-A)

Author

Monia Souidi, Pascal Amédro, Pierre Meyer, Romain Desprat, Jean-Marc Lemaître, François Rivier, Alain Lacampagne, and Albano C. Meli

Subjects
Biology (General), QH301-705.5
Abstract

Duchenne Muscular Dystrophy (DMD) is a X-linked degenerative pathology with a prevalence of 1/3600–6000 boys due to the absence of functional dystrophin in muscles. This muscular disease leads to skeletal muscle damages, respiratory failure and in the later stages dilated cardiomyopathy (DCM) leading to heart failure. We generated iPSC lines from three different DMD patients carrying respectively deletions of exons 1, 52 and 55 in the dystrophin gene. The reprogrammed iPSC lines showed expression of pluripotent markers, capacity to differentiate in trilineage embryonic layers and a normal karyotype.

Published
2020
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49. IP3 receptor orchestrates maladaptive vascular responses in heart failure

Author

Dridi, Haikel, Santulli, Gaetano, Gambardella, Jessica, Jankauskas, Stanislovas S., Yuan, Qi, Yang, Jingyi, Reiken, Steven, Wang, Xujun, Wronska, Anetta, Liu, Xiaoping, Lacampagne, Alain, and Marks, Andrew R.

Subjects
Calcium channels -- Health aspects -- Physiological aspects, Vascular smooth muscle -- Health aspects -- Physiological aspects, Muscle cells -- Health aspects -- Physiological aspects, Blood circulation disorders -- Development and progression, Heart failure -- Complications and side effects, Health care industry
Abstract

Patients with heart failure (HF) have augmented vascular tone, which increases cardiac workload, impairing ventricular output and promoting further myocardial dysfunction. The molecular mechanisms underlying the maladaptive vascular responses observed in HF are not fully understood. Vascular smooth muscle cells (VSMCs) control vasoconstriction via a [Ca.sup.2+]-dependent process, in which the type 1 inositol 1,4,5-trisphosphate receptor (IP3R1) on the sarcoplasmic reticulum (SR) plays a major role. To dissect the mechanistic contribution of intracellular [Ca.sup.2+] release to the increased vascular tone observed in HF, we analyzed the remodeling of IP3R1 in aortic tissues from patients with HF and from controls. VSMC IP3R1 channels from patients with HF and HF mice were hyperphosphorylated by both serine and tyrosine kinases. VSMCs isolated from [IP3R1.sup.VSMC-/-] mice exhibited blunted [Ca.sup.2+] responses to angiotensin II (ATII) and norepinephrine compared with control VSMCs. [IP3R1.sup.VSMC-/-] mice displayed significantly reduced responses to ATII, both in vivo and ex vivo. HF [IP3R1.sup.VSMC-/-] mice developed significantly less afterload compared with HF [IP3R1.sup.fl/fl] mice and exhibited significantly attenuated progression toward decompensated HF and reduced interstitial fibrosis. [Ca.sup.2+]-dependent phosphorylation of the MLC by MLCK activated VSMC contraction. MLC phosphorylation was markedly increased in VSMCs from patients with HF and HF mice but reduced in VSMCs from HF [IP3R1.sup.VSMC-/-] mice and HF WT mice treated with ML-7. Taken together, our data indicate that VSMC IP3R1 is a major effector of increased vascular tone, which contributes to increased cardiac afterload and decompensation in HF., Introduction Heart failure (HF) is a complex clinical syndrome that remains a leading cause of mortality despite decades of intense efforts to develop novel therapeutics (1, 2). Beginning early in [...]

Published
2022
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50. The Algebra Initiative Colloquium. Volume 1: Plenary and Reactor Papers.

Author

Office of Educational Research and Improvement (ED), Washington, DC. and Lacampagne, Carole B.

Abstract

This volume contains the plenary or reactor papers presented at a conference on reform in algebra held in Leesburg, Virginia, December 9-12, 1993. Papers included are: (1) "Introduction" (C. B. Lacampagne); (2) "Summary" (C. B. Lacampagne); (3) "Recommendations" (C. B. Lacampagne); (4) "The Development of Algebra and Algebra Education" (V. J. Katz); (5) "Long-Term Algebra Reform: Democratizing Access to Big Ideas" (J. J. Kaput); (6) "Algebra in the K-12 Curriculum" (G. Burrill); (7) "What Is the Appropriate K-12 Algebra Experience for Various Students?" (J. Fey); (8) "Algebra at the College Level" (M. Artin); (9) "Algebra Initiative" (V. Pless); (10) "Algebra and the Technical Workforce" (H. Pollak); (11) "Reshaping Algebra to Serve the Evolving Needs of the Technical Workforce" (S. Garfunkel); (12) "A Cognitive Perspective in the Mathematical Preparation of Teachers: The Case of Algebra" (A. G. Thompson & P. W. Thompson); (13) "Preparing Teachers to Teach Algebra for All: Preliminary Musings and Questions" (M. Enneking); and (14) "Algebra for All: Dumbing Down or Summing Up?" (L. A. Steen). Appendices include the conference agenda; Conceptual Framework for the Algebra Initiative of the National Institute on Student Achievement, Curriculum, and Assessment; and a participant list. (MKR)

Published
1995

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