Modelado de la cardiotoxicidad inducida por antraciclinas en hiPSC-CM de pacientes oncológicos pediátricos y estudio del papel cardioprotector del miR-4732-3p

[ES] Las antraciclinas son fármacos antineoplásicos ampliamente utilizados en el trata-miento de varios tipos de cáncer, incluyendo tanto tumores sólidos como hematoló-gicos. A pesar de su eficacia, su uso se ve limitado por su efecto cardiotóxico. El aumento de los supervivientes de cáncer, especialmente pediátrico, ha provocado que cada vez haya más personas con cardiotoxicidad inducida por antraciclinas. Por este motivo, es necesaria la búsqueda de nuevos modelos de enfermedad relevan-tes para comprender la fisiopatología del daño cardíaco inducido por antraciclinas, así como el desarrollo de nuevas terapias cardioprotectoras que permitan el uso de las antraciclinas evitando su efecto cardiotóxico. En este trabajo se ha estudiado, por una parte, la susceptibilidad al daño por do-xorrubicina (una de las principales antraciclinas empleadas en clínica) de cardiomio-citos obtenidos a partir de células madre pluripotentes inducidas derivadas de pa-cientes pediátricos oncológicos que experimentaron cardiotoxicidad causada por an-traciclinas. Los cardiomiocitos de los pacientes fueron tratados con doxorrubicina y se evaluaron diferentes parámetros, incluyendo la viabilidad, apoptosis, estrés oxida-tivo, daño genómico, daño mitocondrial, desorganización sarcomérica, etc. compa-rándolos con cardiomiocitos control. Nuestros resultados mostraron que estos car-diomiocitos recapitulan la susceptibilidad a la doxorrubicina observada en los pacien-tes, constituyendo un buen modelo de enfermedad para estudiar los mecanismos de cardiotoxicidad de la doxorrubicina o el cribado de fármacos. Por otra parte, se ha evaluado el papel cardioprotector de un miARN, el miR-4732-3p, frente al daño inducido por antraciclinas. Este miARN está desregulado en pa-cientes con cáncer de mama que sufrieron cardiotoxicidad inducida por antraciclinas. Para comprobar su efecto cardioprotector, este miARN fue sobreexpresado en célu-las cardíacas de rata, las cuales fueron tratadas con doxorrubicina, observándose que incrementaba la supervivencia de las células y reducía el estrés oxidativo. Tam-bién se estudió la cardioprotección in vivo en un modelo de cardiotoxicidad inducida por doxorrubicina en rata, observando que mejora la función cardíaca, reduce la fi-brosis intersticial y el estrés oxidativo. Además, se hizo un estudio de los posibles genes diana de este miARN. En su conjunto, nuestros resultados muestran que el miR-4732-3p tiene un efecto cardioprotector frente al daño por doxorrubicina, y po-dría ser una herramienta terapéutica para el tratamiento del daño cardíaco causado por las antraciclinas.[CAT] Les antraciclines són fàrmacs antineoplàstics àmpliament utilitzats en el tractament de diversos tipus de càncer, incloent tant tumors sòlids com hematològics. Tot i la seva eficàcia, el seu ús es veu limitat pel seu efecte cardiotòxic. L'augment dels su-pervivents de càncer, especialment pediàtric, ha provocat que cada cop hi hagi més persones amb cardiotoxicitat induïda per antraciclines. Per aquest motiu, cal cercar nous models de malaltia rellevants per comprendre la fisiopatologia del dany cardíac induït per antraciclines, així com el desenvolupament de noves teràpies cardiopro-tectores que permetin l'ús de les antraciclines evitant-ne l'efecte cardiotòxic. En aquest treball s'ha estudiat, d'una banda, la susceptibilitat al dany per doxorrubi-cina (una de les principals antraciclines emprades en clínica) de cardiomiòcits obtin-guts a partir de cèl¿lules mare pluripotents induïdes derivades de pacients pediàtrics oncològics que van experimentar cardiotoxicitat causada per antraciclines. Els cardi-omiòcits dels pacients van ser tractats amb doxorrubicina i es van avaluar diferents paràmetres, incloent-hi la viabilitat, apoptosi, estrès oxidatiu, dany genòmic, dany mitocondrial, desorganització sarcomèrica, etc. comparant-los amb cardiomiòcits control. Els nostres resultats van mostrar que aquests cardiomiòcits recapitulen la susceptibilitat a la doxorrubicina observada en els pacients, constituint un bon model de malaltia per estudiar els mecanismes de cardiotoxicitat de la doxorrubicina o el cribratge de fàrmacs. D'altra banda, s'ha avaluat el paper cardioprotector d'un miARN, el miR-4732-3p, davant del dany induït per antraciclines. Aquest miARN està desregulat en pacients amb càncer de mama que van patir cardiotoxicitat induïda per antraciclines. Per comprovar el seu efecte cardioprotector, aquest miARN va ser sobreexpressat en cèl·lules cardíaques de rata, les quals van ser tractades amb doxorrubicina, obser-vant-se que incrementava la supervivència de les cèl·lules i reduïa l'estrès oxidatiu. També es va estudiar la cardioprotecció in vivo en un model de cardiotoxicitat induï-da per doxorrubicina en rata, observant que millora la funció cardíaca, redueix la fi-brosi intersticial i l'estrès oxidatiu. A més, es va fer un estudi dels possibles gens di-ana d'aquest miARN. En conjunt, els nostres resultats mostren que el miR-4732-3p té un efecte cardioprotector davant el dany per doxorrubicina, i podria ser una eina terapèutica per al tractament del dany cardíac causat per les antraciclines.[EN] Anthracyclines are drugs widely used in the treatment of several types of cancer, including both solid tumors and hematologic malignancies. Despite its proven effica-cy, its use is hampered by its cardiotoxic effect. The increase in cancer survivors, especially pediatric, has led to more and more people with anthracycline-induced cardiotoxicity. Therefore, it is necessary to search for new relevant disease models to better understand the physiopathology of cardiac damage-induced by anthracy-clines, as well as the development of new cardioprotective therapies that allow the clinic use of anthracyclines avoiding their cardiotoxic effect. In this work we have studied, on the one hand, the susceptibility against doxorubicin damage (major anthracycline used in clinic) of cardiomyocytes obtained from in-duced pluripotent stem cells derived from oncology pediatric patients that underwent cardiotoxicity-induced by anthracyclines. Cardiomyocytes from these patients were treated with doxorubicin, and we evaluated several parameters, including cell viabil-ity, apoptosis, oxidative stress, genomic damage, mitochondrial damage, sarcomere disorganization, etc. comparing the results with control cardiomyocytes. Our results showed that these cardiomyocytes recapitulate the susceptibility against doxorubicin observed in the patients, making them a good disease model to study cardiotoxicity mechanisms of doxorubicin or drug screening. On the other hand, we evaluated the cardioprotective role of one miRNA, miR-4732-3p, against doxorubicin-induced damage. This miRNA is dysregulated in breast can-cer patients that suffered cardiotoxicity-induced by anthracyclines. To test its cardio-protective effect, this miRNA was overexpressed in rat cardiac cells that were treated with doxorubicin, showing an increment of cell survival and a reduction of oxidative stress levels. We also studied in vivo cardioprotection in a doxorubicin-induced cardi-otoxicity model in rat, showing an improvement in cardiac function, reduced intersti-tial fibrosis and reduced oxidative stress levels. Moreover, we studied possible target genes of this miARN. Overall, our results showed that miR-4732-3p has a cardiopro-tective role against doxorrubicin-induced damage and could be used as a therapeutic tool for treatment of cardiac damage caused by anthracycline.Reinal Ferré, I. (2023). Modelado de la cardiotoxicidad inducida por antraciclinas en hiPSC-CM de pacientes oncológicos pediátricos y estudio del papel cardioprotector del miR-4732-3p [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/19307

miR-4732-3p in Extracellular Vesicles From Mesenchymal Stromal Cells Is Cardioprotective During Myocardial Ischemia

[EN] Extracellular vesicles (EVs) derived from mesenchymal stromal cells (MSCs) are an emerging alternative to cell-based therapies to treat many diseases. However, the complexity of producing homogeneous populations of EVs in sufficient amount hampers their clinical use. To address these limitations, we immortalized dental pulp-derived MSC using a human telomerase lentiviral vector and investigated the cardioprotective potential of a hypoxia-regulated EV-derived cargo microRNA, miR-4732-3p. We tested the compared the capacity of a synthetic miR-4732-3p mimic with EVs to confer protection to cardiomyocytes, fibroblasts and endothelial cells against oxygen-glucose deprivation (OGD). Results showed that OGD-induced cardiomyocytes treated with either EVs or miR-4732-3p showed prolonged spontaneous beating, lowered ROS levels, and less apoptosis. Transfection of the miR-4732-3p mimic was more effective than EVs in stimulating angiogenesis in vitro and in vivo and in reducing fibroblast differentiation upon transforming growth factor beta treatment. Finally, the miR-4732-3p mimic reduced scar tissue and preserved cardiac function when transplanted intramyocardially in infarcted nude rats. Overall, these results indicate that miR-4732-3p is regulated by hypoxia and exerts cardioprotective actions against ischemic insult, with potential application in cell-free-based therapeutic strategies.This work was supported in part by grants from the Instituto de Salud Carlos III PI19/0245, RD16/0011/0004, cofunded by FEDER Una manera de hacer Europa and INNCON-2020-6-CARVEMO from Agencia Valenciana de la Innovación. This work was also supported by predoctoral fellowships to RS-S, MG-F, IR, and MB grants ACIF/2017/318, ACIF/2018/254, ACIF2019/257, and ACIF2019/250 from the Conselleria de Sanitat Universal i Salut Pública and co-financed by the European Union through the Operational Programme European Regional Development Fund (FEDER) of the Valencian Community 2014 2020.Sánchez-Sánchez, R.; Gómez-Ferrer, M.; Reinal-Ferre, I.; Buigues, M.; Villanueva-Bádenas, E.; Ontoria-Oviedo, I.; Hernándiz, A.... (2021). miR-4732-3p in Extracellular Vesicles From Mesenchymal Stromal Cells Is Cardioprotective During Myocardial Ischemia. Frontiers in Cell and Developmental Biology. 9. https://doi.org/10.3389/fcell.2021.734143

MicroRNA-4732-3p Is Dysregulated in Breast Cancer Patients with Cardiotoxicity, and Its Therapeutic Delivery Protects the Heart from Doxorubicin-Induced Oxidative Stress in Rats

Anthracycline-induced cardiotoxicity is the most severe collateral effect of chemotherapy originated by an excess of oxidative stress in cardiomyocytes that leads to cardiac dysfunction. We assessed clinical data from patients with breast cancer receiving anthracyclines and searched for discriminating microRNAs between patients that developed cardiotoxicity (cases) and those that did not (controls), using RNA sequencing and regression analysis. Serum levels of 25 microRNAs were differentially expressed in cases versus controls within the first year after anthracycline treatment, as assessed by three different regression models (elastic net, Robinson and Smyth exact negative binomial test and random forest). MiR-4732-3p was the only microRNA identified in all regression models and was downregulated in patients that experienced cardiotoxicity. MiR-4732-3p was also present in neonatal rat cardiomyocytes and cardiac fibroblasts and was modulated by anthracycline treatment. A miR-4732-3p mimic was cardioprotective in cardiac and fibroblast cultures, following doxorubicin challenge, in terms of cell viability and ROS levels. Notably, administration of the miR-4732-3p mimic in doxorubicin-treated rats preserved cardiac function, normalized weight loss, induced angiogenesis, and decreased apoptosis, interstitial fibrosis and cardiac myofibroblasts. At the molecular level, miR-4732-3p regulated genes of TGFβ and Hippo signaling pathways. Overall, the results indicate that miR-4732-3p is a novel biomarker of cardiotoxicity that has therapeutic potential against anthracycline-induced heart damage