Your search keyword '"Amaia Vilas-Zornoza"' showing total 106 results

1. Epigenetic-based differentiation therapy for Acute Myeloid Leukemia

Author

Edurne San José-Enériz, Naroa Gimenez-Camino, Obdulia Rabal, Leire Garate, Estibaliz Miranda, Nahia Gómez-Echarte, Fernando García, Stella Charalampopoulou, Elena Sáez, Amaia Vilas-Zornoza, Patxi San Martín-Uriz, Luis V. Valcárcel, Naroa Barrena, Diego Alignani, Luis Esteban Tamariz-Amador, Ana Pérez-Ruiz, Sebastian Hilscher, Mike Schutkowski, Ana Alfonso-Pierola, Nicolás Martinez-Calle, María José Larrayoz, Bruno Paiva, María José Calasanz, Javier Muñoz, Marta Isasa, José Ignacio Martin-Subero, Antonio Pineda-Lucena, Julen Oyarzabal, Xabier Agirre, and Felipe Prósper

Subjects

Science

Abstract

Abstract Despite the development of novel therapies for acute myeloid leukemia, outcomes remain poor for most patients, and therapeutic improvements are an urgent unmet need. Although treatment regimens promoting differentiation have succeeded in the treatment of acute promyelocytic leukemia, their role in other acute myeloid leukemia subtypes needs to be explored. Here we identify and characterize two lysine deacetylase inhibitors, CM-444 and CM-1758, exhibiting the capacity to promote myeloid differentiation in all acute myeloid leukemia subtypes at low non-cytotoxic doses, unlike other commercial histone deacetylase inhibitors. Analyzing the acetylome after CM-444 and CM-1758 treatment reveals modulation of non-histone proteins involved in the enhancer–promoter chromatin regulatory complex, including bromodomain proteins. This acetylation is essential for enhancing the expression of key transcription factors directly involved in the differentiation therapy induced by CM-444/CM-1758 in acute myeloid leukemia. In summary, these compounds may represent effective differentiation-based therapeutic agents across acute myeloid leukemia subtypes with a potential mechanism for the treatment of acute myeloid leukemia.

Published

2024

2. Single-cell transcriptional profile of CD34+ hematopoietic progenitor cells from del(5q) myelodysplastic syndromes and impact of lenalidomide

Author

Guillermo Serrano, Nerea Berastegui, Aintzane Díaz-Mazkiaran, Paula García-Olloqui, Carmen Rodriguez-Res, Sofia Huerga-Dominguez, Marina Ainciburu, Amaia Vilas-Zornoza, Patxi San Martin-Uriz, Paula Aguirre-Ruiz, Asier Ullate-Agote, Beñat Ariceta, Jose-Maria Lamo-Espinosa, Pamela Acha, Oriol Calvete, Tamara Jimenez, Antonieta Molero, Maria Julia Montoro, Maria Díez-Campelo, David Valcarcel, Francisco Solé, Ana Alfonso-Pierola, Idoia Ochoa, Felipe Prósper, Teresa Ezponda, and Mikel Hernaez

Subjects

Science

Abstract

Abstract While myelodysplastic syndromes with del(5q) (del(5q) MDS) comprises a well-defined hematological subgroup, the molecular basis underlying its origin remains unknown. Using single cell RNA-seq (scRNA-seq) on CD34+ progenitors from del(5q) MDS patients, we have identified cells harboring the deletion, characterizing the transcriptional impact of this genetic insult on disease pathogenesis and treatment response. Interestingly, both del(5q) and non-del(5q) cells present similar transcriptional lesions, indicating that all cells, and not only those harboring the deletion, may contribute to aberrant hematopoietic differentiation. However, gene regulatory network (GRN) analyses reveal a group of regulons showing aberrant activity that could trigger altered hematopoiesis exclusively in del(5q) cells, pointing to a more prominent role of these cells in disease phenotype. In del(5q) MDS patients achieving hematological response upon lenalidomide treatment, the drug reverts several transcriptional alterations in both del(5q) and non-del(5q) cells, but other lesions remain, which may be responsible for potential future relapses. Moreover, lack of hematological response is associated with the inability of lenalidomide to reverse transcriptional alterations. Collectively, this study reveals transcriptional alterations that could contribute to the pathogenesis and treatment response of del(5q) MDS.

Published

2024

3. Revealing cell populations catching the early stages of human embryo development in naive pluripotent stem cell cultures

Author

Marta Moya-Jódar, Asier Ullate-Agote, Paula Barlabé, Juan Roberto Rodríguez-Madoz, Gloria Abizanda, Carolina Barreda, Xonia Carvajal-Vergara, Amaia Vilas-Zornoza, Juan Pablo Romero, Leire Garate, Xabier Agirre, Giulia Coppiello, Felipe Prósper, and Xabier L. Aranguren

Subjects

single-cell RNA-seq, naive state, trophectoderm, 8CLCs, Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

Summary: Naive human pluripotent stem cells (hPSCs) are defined as the in vitro counterpart of the human preimplantation embryo’s epiblast and are used as a model system to study developmental processes. In this study, we report the discovery and characterization of distinct cell populations coexisting with epiblast-like cells in 5iLAF naive human induced PSC (hiPSC) cultures. It is noteworthy that these populations closely resemble different cell types of the human embryo at early developmental stages. While epiblast-like cells represent the main cell population, interestingly we detect a cell population with gene and transposable element expression profile closely resembling the totipotent eight-cell (8C)-stage human embryo, and three cell populations analogous to trophectoderm cells at different stages of their maturation process: transition, early, and mature stages. Moreover, we reveal the presence of cells resembling primitive endoderm. Thus, 5iLAF naive hiPSC cultures provide an excellent opportunity to model the earliest events of human embryogenesis, from the 8C stage to the peri-implantation period.

Published

2023

4. The transcription factor DDIT3 is a potential driver of dyserythropoiesis in myelodysplastic syndromes

Author

Nerea Berastegui, Marina Ainciburu, Juan P. Romero, Paula Garcia-Olloqui, Ana Alfonso-Pierola, Céline Philippe, Amaia Vilas-Zornoza, Patxi San Martin-Uriz, Raquel Ruiz-Hernández, Ander Abarrategi, Raquel Ordoñez, Diego Alignani, Sarai Sarvide, Laura Castro-Labrador, José M. Lamo-Espinosa, Mikel San-Julian, Tamara Jimenez, Félix López-Cadenas, Sandra Muntion, Fermin Sanchez-Guijo, Antonieta Molero, Maria Julia Montoro, Bárbara Tazón, Guillermo Serrano, Aintzane Diaz-Mazkiaran, Mikel Hernaez, Sofía Huerga, Findlay Bewicke-Copley, Ana Rio-Machin, Matthew T. Maurano, María Díez-Campelo, David Valcarcel, Kevin Rouault-Pierre, David Lara-Astiaso, Teresa Ezponda, and Felipe Prosper

Subjects

Science

Abstract

Myelodysplastic syndromes (MDS) are age-related pathologies in which alterations of hematopoietic stem cells lead to abnormal formation of blood cells. Here, the authors study the lesions that these cells undergo in aging and disease, characterizing a factor whose alteration in MDS leads to abnormal blood cell production.

Published

2022

5. Gene therapy restores the transcriptional program of hematopoietic stem cells in Fanconi anemia

Author

Miren Lasaga, Paula Río, Amaia Vilas-Zornoza, Nuria Planell, Susana Navarro, Diego Alignani, Beatriz Fernández-Varas, Daniel Mouzo, Josune Zubicaray, Roser M. Pujol, Eileen Nicoletti, Jonathan D. Schwartz, Julián Sevilla, Marina Ainciburi, Asier Ullate-Agote, Jordi Surrallés, Rosario Perona, Leandro Sastre, Felipe Prosper, David Gomez-Cabrero, and Juan A. Bueren

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Clinical trials have shown that lentiviral-mediated gene therapy can ameliorate bone marrow failure (BMF) in nonconditioned Fanconi anemia (FA) patients resulting from the proliferative advantage of corrected FA hematopoietic stem and progenitor cells (HSPC). However, it is not yet known if gene therapy can revert affected molecular pathways in diseased HSPC. Single-cell RNA sequencing was performed in chimeric populations of corrected and uncorrected HSPC co-existing in the BM of gene therapy-treated FA patients. Our study demonstrates that gene therapy reverts the transcriptional signature of FA HSPC, which then resemble the transcriptional program of healthy donor HSPC. This includes a down-regulated expression of TGF-β and p21, typically up-regulated in FA HSPC, and upregulation of DNA damage response and telomere maintenance pathways. Our results show for the first time the potential of gene therapy to rescue defects in the HSPC transcriptional program from patients with inherited diseases; in this case, in FA characterized by BMF and cancer predisposition.

Published

2023

6. In vivo CRISPR-Cas9 inhibition of hepatic LDH as treatment of primary hyperoxaluria

Author

Rebeca Martinez-Turrillas, Angel Martin-Mallo, Saray Rodriguez-Diaz, Natalia Zapata-Linares, Paula Rodriguez-Marquez, Patxi San Martin-Uriz, Amaia Vilas-Zornoza, María E. Calleja-Cervantes, Eduardo Salido, Felipe Prosper, and Juan R. Rodriguez-Madoz

Subjects

primary hyperoxaluria, CRISPR-Cas9, in vivo genome editing, LDH inhibition, oxaluria, Genetics, QH426-470, Cytology, QH573-671

Abstract

Genome-editing strategies, especially CRISPR-Cas9 systems, have substantially increased the efficiency of innovative therapeutic approaches for monogenic diseases such as primary hyperoxalurias (PHs). We have previously demonstrated that inhibition of glycolate oxidase using CRISPR-Cas9 systems represents a promising therapeutic option for PH type I (PH1). Here, we extended our work evaluating the efficacy of liver-specific inhibition of lactate dehydrogenase (LDH), a key enzyme responsible for converting glyoxylate to oxalate; this strategy would not be limited to PH1, being applicable to other PH subtypes. In this work, we demonstrate a liver-specific inhibition of LDH that resulted in a drastic reduction of LDH levels in the liver of PH1 and PH3 mice after a single-dose delivery of AAV8 vectors expressing the CRISPR-Cas9 system, resulting in reduced urine oxalate levels and kidney damage without signs of toxicity. Deep sequencing analysis revealed that this approach was safe and specific, with no off-targets detected in the liver of treated animals and no on-target/off-tissue events. Altogether, our data provide evidence that in vivo genome editing using CRISPR-Cas9 systems would represent a valuable tool for improved therapeutic approaches for PH.

Published

2022

7. Uncovering perturbations in human hematopoiesis associated with healthy aging and myeloid malignancies at single-cell resolution

Author

Marina Ainciburu, Teresa Ezponda, Nerea Berastegui, Ana Alfonso-Pierola, Amaia Vilas-Zornoza, Patxi San Martin-Uriz, Diego Alignani, Jose Lamo-Espinosa, Mikel San-Julian, Tamara Jiménez-Solas, Felix Lopez, Sandra Muntion, Fermin Sanchez-Guijo, Antonieta Molero, Julia Montoro, Guillermo Serrano, Aintzane Diaz-Mazkiaran, Miren Lasaga, David Gomez-Cabrero, Maria Diez-Campelo, David Valcarcel, Mikel Hernaez, Juan P Romero, and Felipe Prosper

Subjects

hematopoietic stem, progenitor cells, aging, myelodysplastic syndrome, single-cell RNA sequencing, Medicine, Science, Biology (General), QH301-705.5

Abstract

Early hematopoiesis is a continuous process in which hematopoietic stem and progenitor cells (HSPCs) gradually differentiate toward specific lineages. Aging and myeloid malignant transformation are characterized by changes in the composition and regulation of HSPCs. In this study, we used single-cell RNA sequencing (scRNA-seq) to characterize an enriched population of human HSPCs obtained from young and elderly healthy individuals. Based on their transcriptional profile, we identified changes in the proportions of progenitor compartments during aging, and differences in their functionality, as evidenced by gene set enrichment analysis. Trajectory inference revealed that altered gene expression dynamics accompanied cell differentiation, which could explain aging-associated changes in hematopoiesis. Next, we focused on key regulators of transcription by constructing gene regulatory networks (GRNs) and detected regulons that were specifically active in elderly individuals. Using previous findings in healthy cells as a reference, we analyzed scRNA-seq data obtained from patients with myelodysplastic syndrome (MDS) and detected specific alterations of the expression dynamics of genes involved in erythroid differentiation in all patients with MDS such as TRIB2. In addition, the comparison between transcriptional programs and GRNs regulating normal HSPCs and MDS HSPCs allowed identification of regulons that were specifically active in MDS cases such as SMAD1, HOXA6, POU2F2, and RUNX1 suggesting a role of these transcription factors (TFs) in the pathogenesis of the disease. In summary, we demonstrate that the combination of single-cell technologies with computational analysis tools enable the study of a variety of cellular mechanisms involved in complex biological systems such as early hematopoiesis and can be used to dissect perturbed differentiation trajectories associated with perturbations such as aging and malignant transformation. Furthermore, the identification of abnormal regulatory mechanisms associated with myeloid malignancies could be exploited for personalized therapeutic approaches in individual patients.

Published

2023

8. One-Step In Vitro Generation of ETV2-Null Pig Embryos

Author

Marta Moya-Jódar, Giulia Coppiello, Juan Roberto Rodríguez-Madoz, Gloria Abizanda, Paula Barlabé, Amaia Vilas-Zornoza, Asier Ullate-Agote, Chiara Luongo, Ernesto Rodríguez-Tobón, Sergio Navarro-Serna, Evelyne París-Oller, Maria Oficialdegui, Xonia Carvajal-Vergara, Laura Ordovás, Felipe Prósper, Francisco Alberto García-Vázquez, and Xabier L. Aranguren

Subjects

gene editing, porcine embryos, CRISPR/Cas9, ETV2, vascular development, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

Each year, tens of thousands of people worldwide die of end-stage organ failure due to the limited availability of organs for use in transplantation. To meet this clinical demand, one of the last frontiers of regenerative medicine is the generation of humanized organs in pigs from pluripotent stem cells (PSCs) via blastocyst complementation. For this, organ-disabled pig models are needed. As endothelial cells (ECs) play a critical role in xenotransplantation rejection in every organ, we aimed to produce hematoendothelial-disabled pig embryos targeting the master transcription factor ETV2 via CRISPR-Cas9-mediated genome modification. In this study, we designed five different guide RNAs (gRNAs) against the DNA-binding domain of the porcine ETV2 gene, which were tested on porcine fibroblasts in vitro. Four out of five guides showed cleavage capacity and, subsequently, these four guides were microinjected individually as ribonucleoprotein complexes (RNPs) into one-cell-stage porcine embryos. Next, we combined the two gRNAs that showed the highest targeting efficiency and microinjected them at higher concentrations. Under these conditions, we significantly improved the rate of biallelic mutation. Hence, here, we describe an efficient one-step method for the generation of hematoendothelial-disabled pig embryos via CRISPR-Cas9 microinjection in zygotes. This model could be used in experimentation related to the in vivo generation of humanized organs.

Published

2022

9. Immunological Biomarkers of Fatal COVID-19: A Study of 868 Patients

Author

Esperanza Martín-Sánchez, Juan José Garcés, Catarina Maia, Susana Inogés, Ascensión López-Díaz de Cerio, Francisco Carmona-Torre, Marta Marin-Oto, Félix Alegre, Elvira Molano, Mirian Fernandez-Alonso, Cristina Perez, Cirino Botta, Aintzane Zabaleta, Ana Belen Alcaide, Manuel F. Landecho, Marta Rua, Teresa Pérez-Warnisher, Laura Blanco, Sarai Sarvide, Amaia Vilas-Zornoza, Diego Alignani, Cristina Moreno, Iñigo Pineda, Miguel Sogbe, Josepmaria Argemi, Bruno Paiva, and José Ramón Yuste

Subjects

COVID-19, SARS-CoV-2, flow cytometry, lymphopenia, outcome, survival, Immunologic diseases. Allergy, RC581-607

Abstract

Information on the immunopathobiology of coronavirus disease 2019 (COVID-19) is rapidly increasing; however, there remains a need to identify immune features predictive of fatal outcome. This large-scale study characterized immune responses to severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) infection using multidimensional flow cytometry, with the aim of identifying high-risk immune biomarkers. Holistic and unbiased analyses of 17 immune cell-types were conducted on 1,075 peripheral blood samples obtained from 868 COVID-19 patients and on samples from 24 patients presenting with non-SARS-CoV-2 infections and 36 healthy donors. Immune profiles of COVID-19 patients were significantly different from those of age-matched healthy donors but generally similar to those of patients with non-SARS-CoV-2 infections. Unsupervised clustering analysis revealed three immunotypes during SARS-CoV-2 infection; immunotype 1 (14% of patients) was characterized by significantly lower percentages of all immune cell-types except neutrophils and circulating plasma cells, and was significantly associated with severe disease. Reduced B-cell percentage was most strongly associated with risk of death. On multivariate analysis incorporating age and comorbidities, B-cell and non-classical monocyte percentages were independent prognostic factors for survival in training (n=513) and validation (n=355) cohorts. Therefore, reduced percentages of B-cells and non-classical monocytes are high-risk immune biomarkers for risk-stratification of COVID-19 patients.

Published

2021

10. Immunologic characterization of COVID-19 patients with hematological cancer

Author

Catarina Maia, Esperanza Martín-Sánchez, Juan José Garcés, Ascensión López-Díaz de Cerio, Susana Inogés, Manuel F. Landecho, Belén Gil-Alzugaray, Cristina Perez, Cirino Botta, Aintzane Zabaleta, Félix Alegre, César Rincón, Laura Blanco, Sarai Sarvide, Amaia Vilas-Zornoza, Diego Alignani, Cristina Moreno, Artur Paiva, António Martinho, Rui Alves, Enrique Colado, Covadonga Quirós, Mónica Olid, Andrés Blanco, Josepmaria Argemi, Bruno Paiva, and José Ramón Yuste

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Published

2020

11. Functional and transcriptomic analysis of extracellular vesicles identifies calprotectin as a new prognostic marker in peripheral arterial disease (PAD)

Author

Goren Saenz-Pipaon, Patxi San Martín, Núria Planell, Alberto Maillo, Susana Ravassa, Amaia Vilas-Zornoza, Esther Martinez-Aguilar, José Antonio Rodriguez, Daniel Alameda, David Lara-Astiaso, Felipe Prosper, José Antonio Paramo, Josune Orbe, David Gomez-Cabrero, and Carmen Roncal

Subjects

peripheral artery disease, extracellular vesicles, thrombosis, rna-seq, liquid-biopsy, Cytology, QH573-671

Abstract

Peripheral arterial disease (PAD) is associated with a high risk of cardiovascular events and death and is postulated to be a critical socioeconomic cost in the future. Extracellular vesicles (EVs) have emerged as potential candidates for new biomarker discovery related to their protein and nucleic acid cargo. In search of new prognostic and therapeutic targets in PAD, we determined the prothrombotic activity, the cellular origin and the transcriptomic profile of circulating EVs. This prospective study included control and PAD patients. Coagulation time (Procoag-PPL kit), EVs cellular origin and phosphatidylserine exposure were determined by flow cytometry in platelet-free plasma (n = 45 PAD). Transcriptomic profiles of medium/large EVs were generated using the MARS-Seq RNA-Seq protocol (n = 12/group). The serum concentration of the differentially expressed gene S100A9, in serum calprotectin (S100A8/A9), was validated by ELISA in control (n = 100) and PAD patients (n = 317). S100A9 was also determined in EVs and tissues of human atherosclerotic plaques (n = 3). Circulating EVs of PAD patients were mainly of platelet origin, predominantly Annexin V positive and were associated with the procoagulant activity of platelet-free plasma. Transcriptomic analysis of EVs identified 15 differentially expressed genes. Among them, serum calprotectin was elevated in PAD patients (p

Published

2020

12. CRISPR/Cas9-mediated glycolate oxidase disruption is an efficacious and safe treatment for primary hyperoxaluria type I

Author

Nerea Zabaleta, Miren Barberia, Cristina Martin-Higueras, Natalia Zapata-Linares, Isabel Betancor, Saray Rodriguez, Rebeca Martinez-Turrillas, Laura Torella, Africa Vales, Cristina Olagüe, Amaia Vilas-Zornoza, Laura Castro-Labrador, David Lara-Astiaso, Felipe Prosper, Eduardo Salido, Gloria Gonzalez-Aseguinolaza, and Juan R. Rodriguez-Madoz

Subjects

Science

Abstract

Substrate reduction therapies (SRT) are a promising therapeutic approach for monogenic inherited metabolic diseases. Here the authors evaluate the therapeutic potential of an in vivo CRISPR/Cas9-mediated SRT to treat primary hyperoxaluria type I and demonstrate its safety and efficacy.

Published

2018

13. Discovery of first-in-class reversible dual small molecule inhibitors against G9a and DNMTs in hematological malignancies

Author

Edurne San José-Enériz, Xabier Agirre, Obdulia Rabal, Amaia Vilas-Zornoza, Juan A. Sanchez-Arias, Estibaliz Miranda, Ana Ugarte, Sergio Roa, Bruno Paiva, Ander Estella-Hermoso de Mendoza, Rosa María Alvarez, Noelia Casares, Victor Segura, José I. Martín-Subero, François-Xavier Ogi, Pierre Soule, Clara M. Santiveri, Ramón Campos-Olivas, Giancarlo Castellano, Maite Garcia Fernandez de Barrena, Juan Roberto Rodriguez-Madoz, Maria José García-Barchino, Juan Jose Lasarte, Matias A Avila, Jose Angel Martinez-Climent, Julen Oyarzabal, and Felipe Prosper

Subjects

Science

Abstract

Epigenetic drugs are emerging as a powerful therapeutic option for cancer treatment. Here, the authors synthesized selective chemical probes that simultaneously inhibit the G9a and DNMTs methyltransferase activity and demonstrate their anti-tumour activity usingin vitro and in vivomodels of haematological neoplasia.

Published

2017

14. Homeobox NKX2-3 promotes marginal-zone lymphomagenesis by activating B-cell receptor signalling and shaping lymphocyte dynamics

Author

Eloy F. Robles, Maria Mena-Varas, Laura Barrio, Sara V. Merino-Cortes, Péter Balogh, Ming-Qing Du, Takashi Akasaka, Anton Parker, Sergio Roa, Carlos Panizo, Idoia Martin-Guerrero, Reiner Siebert, Victor Segura, Xabier Agirre, Laura Macri-Pellizeri, Beatriz Aldaz, Amaia Vilas-Zornoza, Shaowei Zhang, Sarah Moody, Maria Jose Calasanz, Thomas Tousseyn, Cyril Broccardo, Pierre Brousset, Elena Campos-Sanchez, Cesar Cobaleda, Isidro Sanchez-Garcia, Jose Luis Fernandez-Luna, Ricardo Garcia-Muñoz, Esther Pena, Beatriz Bellosillo, Antonio Salar, Maria Joao Baptista, Jesús Maria Hernandez-Rivas, Marcos Gonzalez, Maria Jose Terol, Joan Climent, Antonio Ferrandez, Xavier Sagaert, Ari M. Melnick, Felipe Prosper, David G. Oscier, Yolanda R. Carrasco, Martin J. S. Dyer, and Jose A. Martinez-Climent

Subjects

Science

Abstract

The homeobox NKX2 family of transcriptional factors has been shown to regulate fundamental developmental processes. Here, the authors show that NKX2-3 is a bona fideoncogenic driver in marginal-zone B-cell lymphoma and that it promotes lymphomagenesis by shaping lymphocyte dynamics and promoting BCR signalling.

Published

2016

15. Reversible dual inhibitor against G9a and DNMT1 improves human iPSC derivation enhancing MET and facilitating transcription factor engagement to the genome.

Author

Juan Roberto Rodriguez-Madoz, Edurne San Jose-Eneriz, Obdulia Rabal, Natalia Zapata-Linares, Estibaliz Miranda, Saray Rodriguez, Angelo Porciuncula, Amaia Vilas-Zornoza, Leire Garate, Victor Segura, Elizabeth Guruceaga, Xabier Agirre, Julen Oyarzabal, and Felipe Prosper

Subjects

Medicine, Science

Abstract

The combination of defined factors with small molecules targeting epigenetic factors is a strategy that has been shown to enhance optimal derivation of iPSCs and could be used for disease modelling, high throughput screenings and/or regenerative medicine applications. In this study, we showed that a new first-in-class reversible dual G9a/DNMT1 inhibitor compound (CM272) improves the efficiency of human cell reprogramming and iPSC generation from primary cells of healthy donors and patient samples, using both integrative and non-integrative methods. Moreover, CM272 facilitates the generation of human iPSC with only two factors allowing the removal of the most potent oncogenic factor cMYC. Furthermore, we demonstrated that mechanistically, treatment with CM272 induces heterochromatin relaxation, facilitates the engagement of OCT4 and SOX2 transcription factors to OSKM refractory binding regions that are required for iPSC establishment, and enhances mesenchymal to epithelial transition during the early phase of cell reprogramming. Thus, the use of this new G9a/DNMT reversible dual inhibitor compound may represent an interesting alternative for improving cell reprogramming and human iPSC derivation for many different applications while providing interesting insights into reprogramming mechanisms.

Published

2017

16. Frequent and simultaneous epigenetic inactivation of TP53 pathway genes in acute lymphoblastic leukemia.

Author

Amaia Vilas-Zornoza, Xabier Agirre, Vanesa Martín-Palanco, José Ignacio Martín-Subero, Edurne San José-Eneriz, Leire Garate, Sara Álvarez, Estíbaliz Miranda, Paula Rodríguez-Otero, José Rifón, Antonio Torres, María José Calasanz, Juan Cruz Cigudosa, José Román-Gómez, and Felipe Prósper

Subjects

Medicine, Science

Abstract

Aberrant DNA methylation is one of the most frequent alterations in patients with Acute Lymphoblastic Leukemia (ALL). Using methylation bead arrays we analyzed the methylation status of 807 genes implicated in cancer in a group of ALL samples at diagnosis (n = 48). We found that 154 genes were methylated in more than 10% of ALL samples. Interestingly, the expression of 13 genes implicated in the TP53 pathway was downregulated by hypermethylation. Direct or indirect activation of TP53 pathway with 5-aza-2'-deoxycitidine, Curcumin or Nutlin-3 induced an increase in apoptosis of ALL cells. The results obtained with the initial group of 48 patients was validated retrospectively in a second cohort of 200 newly diagnosed ALL patients. Methylation of at least 1 of the 13 genes implicated in the TP53 pathway was observed in 78% of the patients, which significantly correlated with a higher relapse (p = 0.001) and mortality (p

Published

2011

17. Supplementary Table S3 from Down-Regulation of hsa-miR-10a in Chronic Myeloid Leukemia CD34+ Cells Increases USF2-Mediated Cell Growth

Author

Felipe Prósper, José Román-Gómez, Puri Fortes, María José Calasanz, Anabel Heiniger, Antonio Torres, Jesús García-Foncillas, Ignacio Pérez-Roger, Amaia Vilas-Zornoza, Germán Navarro, Borja Saez, Oscar Aparicio, Lucia Cordeu, Eva Bandrés, Leire Garate, Edurne San José-Enériz, Antonio Jiménez-Velasco, and Xabier Agirre

Abstract

Supplementary Table S3 from Down-Regulation of hsa-miR-10a in Chronic Myeloid Leukemia CD34+ Cells Increases USF2-Mediated Cell Growth

Published

2023

18. Supplementary Figures S1-S6 from Down-Regulation of hsa-miR-10a in Chronic Myeloid Leukemia CD34+ Cells Increases USF2-Mediated Cell Growth

Author

Felipe Prósper, José Román-Gómez, Puri Fortes, María José Calasanz, Anabel Heiniger, Antonio Torres, Jesús García-Foncillas, Ignacio Pérez-Roger, Amaia Vilas-Zornoza, Germán Navarro, Borja Saez, Oscar Aparicio, Lucia Cordeu, Eva Bandrés, Leire Garate, Edurne San José-Enériz, Antonio Jiménez-Velasco, and Xabier Agirre

Abstract

Supplementary Figures S1-S6 from Down-Regulation of hsa-miR-10a in Chronic Myeloid Leukemia CD34+ Cells Increases USF2-Mediated Cell Growth

Published

2023

19. BCMA CAR-T Cell Phenotype and Functionality Is Affected By Disease Stage of Multiple Myeloma Patients

Author

Angel Martin-Mallo, Maria Erendira Calleja-Cervantes, Patxi San Martin-Uriz, Amaia Vilas-Zornoza, Aintzane Zabaleta, Diego Alignani, Paula Rodríguez-Márquez, Saray Rodríguez-Diaz, Rebeca Martínez-Turrillas, Patricia Jauregui, Cristina Calviño, Maria Luisa Palacios-Berraquero, Candela Ceballos, Jorge Illarramendi Esteban, Diana Gisell Gabaldon Limas, Maria Cruz Viguria, Ana Margarita Redondo, Manel Juan, Álvaro Urbano-Ispizua, Carlos Fernandez de Larrea, Paula Rodríguez-Otero, Jose J. Rifon Roca, Ana Alfonso Pierola, Teresa Lozano, Juan Jose Lasarte, Bruno Paiva, Susana Inogés, Ascensión López-Diaz de Cerio, Jesús San-Miguel, Juan Roberto Rodriguez-Madoz, and Felipe Prósper

Subjects

Immunology, Cell Biology, Hematology, Biochemistry

Published

2022

20. Deep Multi-Omics Profiling in Cytogenetically Poor-Risk AML

Author

Ana Rio-Machin, Findlay Bewicke-Copley, Jiexin Zheng, Pedro Casado Izquierdo, Juho J. Miettinen, Naeem Khan, Jonas Demeulemeester, Szilvia Krizsán, Christopher Middleton, Sam Benkwitz-Bedford, Joseph Saad, Amaia Vilas-Zornoza, Teresa Ezponda, William Grey, Vincent-Philippe Lavallée, Alexis Nolin-Lapalme, Farideh Miraki-Moud, Janet Matthews, Marianne Grantham, Ryan J Colm, Jonathan Bond, Doriana Di Bella, Krister Wennerberg, Alun Parsons, Andy G.X. Zeng, Hannah Armes, Karina Close, Fadimana Kaya, Kevin Rouault-Pierre, John G. Gribben, Felipe Prosper, James Cavenagh, John E. Dick, Sylvie D Freeman, Peter Van Loo, Csaba Bödör, Guy Sauvageau, Kimmo Porkka, Caroline A. Heckman, Jun Wang, Jean-Baptiste Cazier, David Taussig, Dominique Bonnet, Pedro Cutillas, and Jude Fitzgibbon

Subjects

Immunology, Cell Biology, Hematology, Biochemistry

Published

2022

21. Identification of Molecular Mechanisms Governing CAR-T Cell Response in MM Patients Using Single Cell Transcriptomics

Author

Lorea Jordana-Urriza, Guillermo Serrano, Maria Erendira Calleja-Cervantes, Patxi San Martin-Uriz, Amaia Vilas-Zornoza, Asier Ullate-Agote, Aintzane Zabaleta, Diego Alignani, Teresa Lozano, Valentin Cabañas, Almudena Navarro-Bailón, Aina Oliver-Caldes, Marta Español-Rego, Mariona Pascal, Manel Juan, Álvaro Urbano-Ispizua, Juan Luis Reguera, Jose Maria Moraleda, Maria-Victoria Mateos, Fermin Sanchez-Guijo, Ana Alfonso Pierola, José J. Rifón Roca, Paula Rodríguez-Otero, Carlos Fernandez de Larrea, Bruno Paiva, Susana Inogés, Ascensión López-Diaz de Cerio, Juan Jose Lasarte, Jesús San-Miguel, Juan Roberto Rodriguez-Madoz, Mikel Hernáez, and Felipe Prósper

Subjects

Immunology, Cell Biology, Hematology, Biochemistry

Published

2022

22. Data from Inhibitor of Differentiation-1 Sustains Mutant KRAS-Driven Progression, Maintenance, and Metastasis of Lung Adenocarcinoma via Regulation of a FOSL1 Network

Author

Ignacio Gil-Bazo, Silvestre Vicent, Ignacio I. Wistuba, Walter Weder, Carmen Behrens, Simona Taverna, Luis E. Raez, Edgardo S. Santos, Christian Rolfo, Mariano Ponz-Sarvise, David Lara-Astiaso, Amaia Vilas-Zornoza, Laura Castro-Labrador, Patxi San Martin-Uriz, Jae Hwi Jang, Marta Echavarri-de Miguel, Silvia Cadenas, Adrián Vallejo, Ernest Nadal, María Collantes, Margarita Ecay, Iosune Baraibar, Elisabeth Guruceaga, Inés López, and Marta Román

Abstract

Because of the refractory nature of mutant KRAS lung adenocarcinoma (LUAD) to current therapies, identification of new molecular targets is essential. Genes with a prognostic role in mutant KRAS LUAD have proven to be potential molecular targets for therapeutic development. Here we determine the clinical, functional, and mechanistic role of inhibitor of differentiation-1 (Id1) in mutant KRAS LUAD. Analysis of LUAD cohorts from TCGA and SPORE showed that high expression of Id1 was a marker of poor survival in patients harboring mutant, but not wild-type KRAS. Abrogation of Id1 induced G2–M arrest and apoptosis in mutant KRAS LUAD cells. In vivo, loss of Id1 strongly impaired tumor growth and maintenance as well as liver metastasis, resulting in improved survival. Mechanistically, Id1 was regulated by the KRAS oncogene through JNK, and loss of Id1 resulted in downregulation of elements of the mitotic machinery via inhibition of the transcription factor FOSL1 and of several kinases within the KRAS signaling network. Our study provides clinical, functional, and mechanistic evidence underscoring Id1 as a critical gene in mutant KRAS LUAD and warrants further studies of Id1 as a therapeutic target in patients with LUAD.Significance:These findings highlight the prognostic significance of the transcriptional regulator Id1 in KRAS-mutant lung adenocarcinoma and provide mechanistic insight into how it controls tumor growth and metastasis.

Published

2023

23. Supplementary Figure 3 from Inhibitor of Differentiation-1 Sustains Mutant KRAS-Driven Progression, Maintenance, and Metastasis of Lung Adenocarcinoma via Regulation of a FOSL1 Network

Author

Ignacio Gil-Bazo, Silvestre Vicent, Ignacio I. Wistuba, Walter Weder, Carmen Behrens, Simona Taverna, Luis E. Raez, Edgardo S. Santos, Christian Rolfo, Mariano Ponz-Sarvise, David Lara-Astiaso, Amaia Vilas-Zornoza, Laura Castro-Labrador, Patxi San Martin-Uriz, Jae Hwi Jang, Marta Echavarri-de Miguel, Silvia Cadenas, Adrián Vallejo, Ernest Nadal, María Collantes, Margarita Ecay, Iosune Baraibar, Elisabeth Guruceaga, Inés López, and Marta Román

Abstract

An Id1 gene signature is dependent of KEAP1-related genes and a FOSL1 network.

Published

2023

24. Supplementary Figure 1 from Inhibitor of Differentiation-1 Sustains Mutant KRAS-Driven Progression, Maintenance, and Metastasis of Lung Adenocarcinoma via Regulation of a FOSL1 Network

Author

Ignacio Gil-Bazo, Silvestre Vicent, Ignacio I. Wistuba, Walter Weder, Carmen Behrens, Simona Taverna, Luis E. Raez, Edgardo S. Santos, Christian Rolfo, Mariano Ponz-Sarvise, David Lara-Astiaso, Amaia Vilas-Zornoza, Laura Castro-Labrador, Patxi San Martin-Uriz, Jae Hwi Jang, Marta Echavarri-de Miguel, Silvia Cadenas, Adrián Vallejo, Ernest Nadal, María Collantes, Margarita Ecay, Iosune Baraibar, Elisabeth Guruceaga, Inés López, and Marta Román

Abstract

Clinical implication of Id1 expression in LUAD patients.

Published

2023

25. Supplementary Information from Inhibitor of Differentiation-1 Sustains Mutant KRAS-Driven Progression, Maintenance, and Metastasis of Lung Adenocarcinoma via Regulation of a FOSL1 Network

Author

Ignacio Gil-Bazo, Silvestre Vicent, Ignacio I. Wistuba, Walter Weder, Carmen Behrens, Simona Taverna, Luis E. Raez, Edgardo S. Santos, Christian Rolfo, Mariano Ponz-Sarvise, David Lara-Astiaso, Amaia Vilas-Zornoza, Laura Castro-Labrador, Patxi San Martin-Uriz, Jae Hwi Jang, Marta Echavarri-de Miguel, Silvia Cadenas, Adrián Vallejo, Ernest Nadal, María Collantes, Margarita Ecay, Iosune Baraibar, Elisabeth Guruceaga, Inés López, and Marta Román

Abstract

Supplementary tables and figure's headings

Published

2023

26. Supplementary Figure 2 from Inhibitor of Differentiation-1 Sustains Mutant KRAS-Driven Progression, Maintenance, and Metastasis of Lung Adenocarcinoma via Regulation of a FOSL1 Network

Author

Ignacio Gil-Bazo, Silvestre Vicent, Ignacio I. Wistuba, Walter Weder, Carmen Behrens, Simona Taverna, Luis E. Raez, Edgardo S. Santos, Christian Rolfo, Mariano Ponz-Sarvise, David Lara-Astiaso, Amaia Vilas-Zornoza, Laura Castro-Labrador, Patxi San Martin-Uriz, Jae Hwi Jang, Marta Echavarri-de Miguel, Silvia Cadenas, Adrián Vallejo, Ernest Nadal, María Collantes, Margarita Ecay, Iosune Baraibar, Elisabeth Guruceaga, Inés López, and Marta Román

Abstract

A shRNA-resistant Id1 cDNA rescues Id1 loss.

Published

2023

27. Supplementary Figure 4 from Inhibitor of Differentiation-1 Sustains Mutant KRAS-Driven Progression, Maintenance, and Metastasis of Lung Adenocarcinoma via Regulation of a FOSL1 Network

Author

Ignacio Gil-Bazo, Silvestre Vicent, Ignacio I. Wistuba, Walter Weder, Carmen Behrens, Simona Taverna, Luis E. Raez, Edgardo S. Santos, Christian Rolfo, Mariano Ponz-Sarvise, David Lara-Astiaso, Amaia Vilas-Zornoza, Laura Castro-Labrador, Patxi San Martin-Uriz, Jae Hwi Jang, Marta Echavarri-de Miguel, Silvia Cadenas, Adrián Vallejo, Ernest Nadal, María Collantes, Margarita Ecay, Iosune Baraibar, Elisabeth Guruceaga, Inés López, and Marta Román

Abstract

Regulation of kinases by Id1 expression

Published

2023

28. Supplementary Methods, Figures 1-3, Tables 1-6 from Epigenetic Silencing of the Tumor Suppressor MicroRNA Hsa-miR-124a Regulates CDK6 Expression and Confers a Poor Prognosis in Acute Lymphoblastic Leukemia

Author

Felipe Prósper, José Román-Gomez, Reiner Siebert, Antonio Torres, Anabel Heiniger, Vanesa Martín, María José Calasanz, Eva Bandrés, José Rifón, Puri Fortes, Paula Rodríguez-Otero, Gloria Abizanda, Edurne San José-Eneriz, Leire Gárate, Lucia Cordeu, José Ignacio Martin-Subero, Antonio Jiménez-Velasco, Amaia Vilas-Zornoza, and Xabier Agirre

Abstract

Supplementary Methods, Figures 1-3, Tables 1-6 from Epigenetic Silencing of the Tumor Suppressor MicroRNA Hsa-miR-124a Regulates CDK6 Expression and Confers a Poor Prognosis in Acute Lymphoblastic Leukemia

Published

2023

29. The transcriptional regulator <scp>Sin3A</scp> balances <scp>IL‐17A</scp> and Foxp3 expression in primary <scp>CD4</scp> T cells

Author

Laura Perucho, Laura Icardi, Elisabetta Di Simone, Veronica Basso, Alessandra Agresti, Amaia Vilas Zornoza, Teresa Lozano, Felipe Prosper, Juan José Lasarte, and Anna Mondino

Subjects

Genetics, Molecular Biology, Biochemistry

Published

2023

30. Novel epigenetic based differentiation therapy for Acute Myeloid Leukemia

Author

Edurne San José-Enériz, Naroa Gimenez-Camino, Obdulia Rabal, Leire Garate, Estibaliz Miranda, Fernando García, Elena Sáez, Amaia Amaia Vilas-Zornoza, Patxi San Martín-Uriz, Luis V. Valcárcel, Esteban Tamariz-Amador, Ana Alfonso-Pierola, Nicolás Martinez-Calle, María Larráyoz, Maria-Jose Calasanz, Javier Muñoz, Jose Ignacio Martin-Subero, Antonio Pineda, Julen Oyarzabal, Xabier Agirre, and Felipe Prosper

Abstract

Despite the development of novel therapies for acute myeloid leukemia (AML), outcomes remain poor for most patients, and therapeutic improvements are an urgent unmet need. Although treatment regimens promoting differentiation have succeeded in the treatment of acute promyelocytic leukemia (APL), their role in other AML subtypes needs to be explored. Here we identified and characterized two lysine (K) deacetylase inhibitors (DACi), CM-444 and CM-1758, exhibiting capacity to promote myeloid differentiation in all AML subtypes at low non-cytotoxic doses unlike other commercial HDACi. Analyzing the acetylome after CM-444 and CM-1758 treatment revealed modulation of non-histone proteins involved in the enhancer–promoter chromatin regulatory complex, including bromodomain proteins (BRDs). This acetylation was essential for enhancing the expression of key transcription factors directly involved in the differentiation therapy induced by CM-444/CM-1758 in AML. In summary, these compounds may represent effective differentiation-based therapeutic agents across AML subtypes with a novel mechanism for treatment of AML.

Published

2023

31. Uncovering perturbations in human hematopoiesis associated with healthy aging and myeloid malignancies at single-cell resolution

Author

Teresa Ezponda, Marina Ainciburu, Nerea Berastegui, Ana Alfonso-Pierola, Amaia Vilas-Zornoza, Patxi San Martin-Uriz, Diego Alignani, Jose Lamo-Espinosa, Mikel San-Julian, Tamara Jiménez-Solas, Felix Lopez, Sandra Muntion, Fermin Sanchez-Guijo, Antonieta Molero, Julia Montoro, Guillermo Serrano, Aintzane Diaz-Mazkiaran, Miren Lasaga, David Gomez-Cabrero, Maria Diez-Campelo, David Valcarcel, Mikel Hernaez, Juan P Romero, and Felipe Prosper

Subjects

General Immunology and Microbiology, General Neuroscience, General Medicine, General Biochemistry, Genetics and Molecular Biology

Abstract

Early hematopoiesis is a continuous process in which hematopoietic stem and progenitor cells (HSPCs) gradually differentiate toward specific lineages. Aging and myeloid malignant transformation are characterized by changes in the composition and regulation of HSPCs. In this study, we used single-cell RNA sequencing (scRNA-seq) to characterize an enriched population of human HSPCs obtained from young and elderly healthy individuals.Based on their transcriptional profile, we identified changes in the proportions of progenitor compartments during aging, and differences in their functionality, as evidenced by gene set enrichment analysis. Trajectory inference revealed that altered gene expression dynamics accompanied cell differentiation, which could explain aging-associated changes in hematopoiesis. Next, we focused on key regulators of transcription by constructing gene regulatory networks (GRNs) and detected regulons that were specifically active in elderly individuals. Using previous findings in healthy cells as a reference, we analyzed scRNA-seq data obtained from patients with myelodysplastic syndrome (MDS) and detected specific alterations of the expression dynamics of genes involved in erythroid differentiation in all patients with MDS such as TRIB2. In addition, the comparison between transcriptional programs and GRNs regulating normal HSPCs and MDS HSPCs allowed identification of regulons that were specifically active in MDS cases such as SMAD1, HOXA6, POU2F2, and RUNX1 suggesting a role of these transcription factors (TFs) in the pathogenesis of the disease.In summary, we demonstrate that the combination of single-cell technologies with computational analysis tools enable the study of a variety of cellular mechanisms involved in complex biological systems such as early hematopoiesis and can be used to dissect perturbed differentiation trajectories associated with perturbations such as aging and malignant transformation. Furthermore, the identification of abnormal regulatory mechanisms associated with myeloid malignancies could be exploited for personalized therapeutic approaches in individual patients.

Published

2023

32. Author response: Uncovering perturbations in human hematopoiesis associated with healthy aging and myeloid malignancies at single-cell resolution

Author

Teresa Ezponda, Marina Ainciburu, Nerea Berastegui, Ana Alfonso-Pierola, Amaia Vilas-Zornoza, Patxi San Martin-Uriz, Diego Alignani, Jose Lamo-Espinosa, Mikel San-Julian, Tamara Jiménez-Solas, Felix Lopez, Sandra Muntion, Fermin Sanchez-Guijo, Antonieta Molero, Julia Montoro, Guillermo Serrano, Aintzane Diaz-Mazkiaran, Miren Lasaga, David Gomez-Cabrero, Maria Diez-Campelo, David Valcarcel, Mikel Hernaez, Juan P Romero, and Felipe Prosper

Published

2022

33. CAR density influences antitumoral efficacy of BCMA CAR T cells and correlates with clinical outcome

Author

Paula Rodriguez-Marquez, Maria E. Calleja-Cervantes, Guillermo Serrano, Aina Oliver-Caldes, Maria L. Palacios-Berraquero, Angel Martin-Mallo, Cristina Calviño, Marta Español-Rego, Candela Ceballos, Teresa Lozano, Patxi San Martin-Uriz, Amaia Vilas-Zornoza, Saray Rodriguez-Diaz, Rebeca Martinez-Turrillas, Patricia Jauregui, Diego Alignani, Maria C. Viguria, Margarita Redondo, Mariona Pascal, Beatriz Martin-Antonio, Manel Juan, Alvaro Urbano-Ispizua, Paula Rodriguez-Otero, Ana Alfonso-Pierola, Bruno Paiva, Juan J. Lasarte, Susana Inoges, Ascension Lopez-Diaz de Cerio, Jesus San-Miguel, Carlos Fernandez de Larrea, Mikel Hernaez, Juan R. Rodriguez-Madoz, and Felipe Prosper

Subjects

Multidisciplinary

Abstract

Identification of new markers associated with long-term efficacy in patients treated with CAR T cells is a current medical need, particularly in diseases such as multiple myeloma. In this study, we address the impact of CAR density on the functionality of BCMA CAR T cells. Functional and transcriptional studies demonstrate that CAR T cells with high expression of the CAR construct show an increased tonic signaling with up-regulation of exhaustion markers and increased in vitro cytotoxicity but a decrease in in vivo BM infiltration. Characterization of gene regulatory networks using scRNA-seq identified regulons associated to activation and exhaustion up-regulated in CAR High T cells, providing mechanistic insights behind differential functionality of these cells. Last, we demonstrate that patients treated with CAR T cell products enriched in CAR High T cells show a significantly worse clinical response in several hematological malignancies. In summary, our work demonstrates that CAR density plays an important role in CAR T activity with notable impact on clinical response.

Published

2022

34. Design and Synthesis of Novel Epigenetic Inhibitors Targeting Histone Deacetylases, DNA Methyltransferase 1, and Lysine Methyltransferase G9a with In Vivo Efficacy in Multiple Myeloma

Author

Elena Sáez, Musheng Xu, Raquel Ordoñez, Amaia Vilas-Zornoza, Feifei Zhang, Xabier Agirre, Antonio Pineda-Lucena, Obdulia Rabal, Julen Oyarzabal, Felipe Prosper, Edurne San José-Enériz, Estíbaliz Miranda, Irene de Miguel, Leire Garate, Juan A. Sánchez-Arias, Ander Estella, and Wei Wu

Subjects

0303 health sciences, Methyltransferase, biology, Chemistry, 01 natural sciences, DNA methyltransferase, 0104 chemical sciences, 010404 medicinal & biomolecular chemistry, 03 medical and health sciences, chemistry.chemical_compound, Histone, In vivo, Drug Discovery, biology.protein, Cancer research, Molecular Medicine, Gene silencing, Epigenetics, Gene, DNA, 030304 developmental biology

Abstract

Concomitant inhibition of key epigenetic pathways involved in silencing tumor suppressor genes has been recognized as a promising strategy for cancer therapy. Herein, we report a first-in-class series of quinoline-based analogues that simultaneously inhibit histone deacetylases (from a low nanomolar range) and DNA methyltransferase-1 (from a mid-nanomolar range, IC50 1 log unit), and a suitable pharmacokinetic profile. In vivo, 12a achieved significant antitumor efficacy in a xenograft mouse model of human multiple myeloma.

Published

2021

35. Characterization of complete lncRNAs transcriptome reveals the functional and clinical impact of lncRNAs in multiple myeloma

Author

Jesús F. San Miguel, Marta Kulis, Elisabeth Guruceaga, Arantxa Carrasco-Leon, Felipe Prosper, Raquel Ordoñez, Ane Amundarain, Leire Garate, Cem Meydan, Teresa Ezponda, Laura Castro-Labrador, Xabier Agirre, José I. Martín-Subero, Ari Melnick, Marien Pascual, Estíbaliz Miranda, Amaia Vilas-Zornoza, Christopher E. Mason, Bruno Paiva, Halima El-Omri, Patxi San Martin-Uriz, Diego Alignani, María José Calasanz, Luis Vitores Valcárcel, Ruba Y. Taha, Francisco J. Planes, and Victor Segura

Subjects

0301 basic medicine, Cancer Research, Myeloma, Apoptosis, Context (language use), Disease, Biology, Article, Transcriptome, 03 medical and health sciences, 0302 clinical medicine, Interferon, medicine, Humans, Multiple myeloma, Cell Proliferation, Epigenomics, Gene knockdown, Gene Expression Profiling, RNA, Hematology, medicine.disease, Progression-Free Survival, Gene Expression Regulation, Neoplastic, 030104 developmental biology, Oncology, 030220 oncology & carcinogenesis, Cancer research, RNA, Long Noncoding, Multiple Myeloma, medicine.drug

Abstract

Multiple myeloma (MM) is an incurable disease, whose clinical heterogeneity makes its management challenging, highlighting the need for biological features to guide improved therapies. Deregulation of specific long non-coding RNAs (lncRNAs) has been shown in MM, nevertheless, the complete lncRNA transcriptome has not yet been elucidated. In this work, we identified 40,511 novel lncRNAs in MM samples. lncRNAs accounted for 82% of the MM transcriptome and were more heterogeneously expressed than coding genes. A total of 10,351 overexpressed and 9,535 downregulated lncRNAs were identified in MM patients when compared with normal bone-marrow plasma cells. Transcriptional dynamics study of lncRNAs in the context of normal B-cell maturation revealed 989 lncRNAs with exclusive expression in MM, among which 89 showed de novo epigenomic activation. Knockdown studies on one of these lncRNAs, SMILO (specific myeloma intergenic long non-coding RNA), resulted in reduced proliferation and induction of apoptosis of MM cells, and activation of the interferon pathway. We also showed that the expression of lncRNAs, together with clinical and genetic risk alterations, stratified MM patients into several progression-free survival and overall survival groups. In summary, our global analysis of the lncRNAs transcriptome reveals the presence of specific lncRNAs associated with the biological and clinical behavior of the disease.

Published

2021

36. A Multimodal Single Cell Atlas of Human Tonsils Reveals New Insights into T and B Cell Differentiation

Author

Sergio Aguilar, Ramon Massoni, Paula Soler-Vila, Juan C Nieto, Marc Elosua-Bayes, Domenica Marchese, Marta Kulis, Amaia Vilas-Zornoza, Marco Matteo Bühler, Sonal Rashmi, Clara Alsinet, Ginevra Caratù, Catia Moutinho, Sara Ruiz, Patricia Lorden, Giulia Lunazzi, Dolors Colomer, Gerard Frigola, Will Blevins, Sara Palomino, Gomez-Cabrero David, Xabier Agirre, Marc Weniger, Federico Marini, Francisco Javier Cervera Paz, Peter M Baptista, Isabel Vilaseca, Felipe Prósper, Ralf Küppers, Elías Campo, Holger Heyn, Ivo Gut, and José I. Martín-Subero

Subjects

Immunology, Cell Biology, Hematology, Biochemistry

Published

2022

37. An Atlas of Cells in the Human Tonsil

Author

Ramon Massoni-Badosa, Paula Soler-Vila, Sergio Aguilar-Fernández, Juan C. Nieto, Marc Elosua-Bayes, Domenica Marchese, Marta Kulis, Amaia Vilas-Zornoza, Marco Matteo Bühler, Sonal Rashmi, Clara Alsinet, Ginevra Caratù, Catia Moutinho, Sara Ruiz, Patricia Lorden, Giulia Lunazzi, Dolors Colomer, Gerard Frigola, Will Blevins, Sara Palomino, David Gomez-Cabrero, Xabier Agirre, Marc A. Weniger, Federico Marini, Francisco Javier Cervera-Paz, Peter M. Baptista, Isabel Vilaseca, Felipe Prosper, Ralf Küppers, Ivo Glynne Gut, Elias Campo, José Ignacio Martin-Subero, and Holger Heyn

Abstract

Palatine tonsils are secondary lymphoid organs representing the first line of immunological defense against inhaled or ingested pathogens. Here, we present a comprehensive census of cell types forming the human tonsil by applying single-cell transcriptome, epigenome, proteome and adaptive immune repertoire sequencing as well as spatial transcriptomics, resulting in an atlas of >357,000 cells. We provide a glossary of 121 annotated cell types and states, and disentangle gene regulatory mechanisms that drive cells through specialized lineage trajectories. Exemplarily, we stratify multiple tonsil-resident myeloid slancyte subtypes, establish a distant BCL6 superenhancer as locally active in both follicle-associated T and B cells, and describe SIX5 as a potentially novel transcriptional regulator of plasma cell maturation. Further, our atlas is a reference map to understand alterations observed in disease. Here, we discover immune-phenotype plasticity in tumoral cells and microenvironment shifts of mantle cell lymphomas (MCL). To facilitate such reference-based analysis, we develop HCATonsilData and SLOcatoR, a computational framework that provides programmatic and modular access to our dataset; and allows the straightforward annotation of future single-cell profiles from secondary lymphoid organs.

Published

2022

38. The transcriptional regulator Sin3A balances IL-17A and Foxp3 expression in primary CD4 T cells

Author

Laura Perucho, Laura Icardi, Elisabetta Di Simone, Veronica Basso, Amaia Vilas Zornoza, Teresa Lozano, Felipe Prosper, Juan José Lasarte, and Anna Mondino

Abstract

The Sin3 transcriptional regulator homolog A (Sin3A) is the core member of a multi-protein chromatin-modifying complex known to control gene transcription via epigenetic mechanisms. Its inactivation in developing thymocytes halts T cell maturation. We and others had previously shown that Sin3A controls STAT3 transcriptional activity. Given the role of STAT3 in the differentiation of T helper 17 cells critical in inflammatory disorders and against opportunistic infections, we asked whether Sin3A could also contribute to their differentiation. To this aim, we exploited CD4-Cre and CD4-CreERT2deleter strains for conditional and inducible Sin3A deletion in CD4 cell subsets. We report that Sin3A inactivation in vivo arrested thymocyte development at the double positive stage, hindering the characterization of mature T cells. At difference, tamoxifen-inducible Sin3A deletion proved permissive for in vitro proliferation of T cells in Th17 skewing conditions and the acquisition of memory markers. Transcriptional profiling indicated that while Sin3A inactivation imprinted T cells with a mTORC1 signaling gene signature, Sin3A deficient cells lacked the expression of IL-17A, the signature Th17 cytokine. This reflected a defective induction of Il17a, and also of the Il23R and Il22 genes, which occurred in spite of proper upregulation of the lineage defining transcription factor RORγt. We found that Sin3A inactivation was paralleled by increased STAT3 phosphorylation and nuclear representation, and by higher fractions of IL-2 and FoxP3 expressing cells. Such events proved causally linked as inhibiting Foxp3 partially rescued IL-17A expression, and neutralizing IL-2 simultaneously lowered the representation of FoxP3+cells, while rescuing IL- 17A+ ones. Thus, together our data underline a previously unappreciated role for Sin3A in Th17 differentiation and the shaping of their immunoregulatory potential.StatementThis study identifies a new role for the transcriptional regulator Sin3A in the shaping of Th17 cell differentiation. Data indicate that by controlling IL-2 expression, and mTORC1 signaling, it balances IL-17A and Foxp3 levels, shaping Th17 inflammatory potentials.

Published

2022

39. Single-Cell RNA Sequencing Analysis Reveals a Crucial Role for CTHRC1 (Collagen Triple Helix Repeat Containing 1) Cardiac Fibroblasts After Myocardial Infarction

Author

Xabier Martinez de Morentin, Núria Planell, Juan P. Romero, Ming Wu, Paula García-Olloqui, Erika Lorenzo-Vivas, Stefan Janssens, David Gomez-Cabrero, Patxi San Martin-Uriz, Felipe Prosper, Gorka Bastarrika, David Lara-Astiaso, Miren Lasaga, Volkhard Lindner, Laura Castro-Labrador, Beatriz Pelacho, E. Iglesias, Igor Prudovsky, Sergey Ryzhov, Adrián Ruiz-Villalba, Diego Alignani, Yong-Ri Jin, Nikolaus Fortelny, Gema Medal, Amaia Vilas-Zornoza, Haifeng Yin, Silvia C. Hernandez, Juan José Gavira, Christoph Bock, Gloria Abizanda, and Marcel Palacio

Subjects

Cardiomyopathy, Dilated, Collagen helix, Cell, Myocardial Infarction, 030204 cardiovascular system & hematology, sequence analysis, RNA, Mice, 03 medical and health sciences, 0302 clinical medicine, Fibrosis, Physiology (medical), TGF beta signaling pathway, Animals, Humans, Medicine, RNA-Seq, Myocardial infarction, Ventricular remodeling, 030304 developmental biology, Extracellular Matrix Proteins, 0303 health sciences, business.industry, Myocardium, RNA, Fibroblasts, medicine.disease, Cell biology, Disease Models, Animal, medicine.anatomical_structure, Single-Cell Analysis, Cardiology and Cardiovascular Medicine, business

Abstract

Background: Cardiac fibroblasts (CFs) have a central role in the ventricular remodeling process associated with different types of fibrosis. Recent studies have shown that fibroblasts do not respond homogeneously to heart injury. Because of the limited set of bona fide fibroblast markers, a proper characterization of fibroblast population heterogeneity in response to cardiac damage is lacking. The purpose of this study was to define CF heterogeneity during ventricular remodeling and the underlying mechanisms that regulate CF function. Methods: Collagen1α1–GFP (green fluorescent protein)–positive CFs were characterized after myocardial infarction (MI) by single-cell and bulk RNA sequencing, assay for transposase-accessible chromatin sequencing, and functional assays. Swine and patient samples were studied using bulk RNA sequencing. Results: We identified and characterized a unique CF subpopulation that emerges after MI in mice. These activated fibroblasts exhibit a clear profibrotic signature, express high levels of Cthrc1 (collagen triple helix repeat containing 1), and localize into the scar. Noncanonical transforming growth factor–β signaling and different transcription factors including SOX9 are important regulators mediating their response to cardiac injury. Absence of CTHRC1 results in pronounced lethality attributable to ventricular rupture. A population of CFs with a similar transcriptome was identified in a swine model of MI and in heart tissue from patients with MI and dilated cardiomyopathy. Conclusions: We report CF heterogeneity and their dynamics during the course of MI and redefine the CFs that respond to cardiac injury and participate in myocardial remodeling. Our study identifies CTHRC1 as a novel regulator of the healing scar process and a target for future translational studies.

Published

2020

40. Revealing cell populations catching the early stages of the human embryo development in naïve pluripotent stem cells

Author

Marta Moya-Jódar, Asier Ullate-Agote, Paula Barlabé, Juan Roberto Rodríguez-Madoz, Gloria Abizanda, Carolina Barreda, Xonia Carvajal-Vergara, Amaia Vilas-Zornoza, Juan Pablo Romero, Leire Garate, Xabier Agirre, Giulia Coppiello, Felipe Prósper, and Xabier L. Aranguren

Abstract

Naïve human pluripotent stem cells (hPSCs) are defined as the in vitro counterpart of the human preimplantation embryo’s epiblast and are used as a model system to study developmental processes. In this study, we report the discovery and characterization of distinct cell populations coexisting with epiblast-like cells in 5iLAF naïve human induced PSCs (hiPSCs) cultures. Noteworthily these populations closely resemble different cell types of the human embryo at early developmental stages. While epiblast-like cells represented the main cell population, interestingly we detected a cell population with gene and transposable element expression profile closely resembling the totipotent 8-Cell (8C) stage human embryo, and three cell populations analogous to trophectoderm (TE) cells at different stages of their maturation process: transition, early and mature stage. Thus, 5iLAF naïve hiPSCs cultures provide an excellent opportunity to model the earliest events of human embryogenesis, from the 8C stage to the peri-implantation period.Graphical abstract

Published

2022

41. Preneoplastic somatic mutations including

Author

Sara, Rodriguez, Jon, Celay, Ibai, Goicoechea, Cristina, Jimenez, Cirino, Botta, Maria-José, Garcia-Barchino, Juan-Jose, Garces, Marta, Larrayoz, Susana, Santos, Diego, Alignani, Amaia, Vilas-Zornoza, Cristina, Perez, Sonia, Garate, Sarai, Sarvide, Aitziber, Lopez, Hans-Christian, Reinhardt, Yolanda R, Carrasco, Isidro, Sanchez-Garcia, Maria-Jose, Larrayoz, Maria-Jose, Calasanz, Carlos, Panizo, Felipe, Prosper, Jose-Maria, Lamo-Espinosa, Marina, Motta, Alessandra, Tucci, Antonio, Sacco, Massimo, Gentile, Sara, Duarte, Helena, Vitoria, Catarina, Geraldes, Artur, Paiva, Noemi, Puig, Ramon, Garcia-Sanz, Aldo M, Roccaro, Gema, Fuerte, Jesus F, San Miguel, Jose-Angel, Martinez-Climent, and Bruno, Paiva

Subjects

Lymphoma, B-Cell, Lymphoma, SciAdv r-articles, Diseases and Disorders, Mice, hemic and lymphatic diseases, Mutation, Myeloid Differentiation Factor 88, Animals, Humans, Biomedicine and Life Sciences, Waldenstrom Macroglobulinemia, Aged, Research Article, Cancer

Abstract

Normal cell counterparts of solid and myeloid tumors accumulate mutations years before disease onset; whether this occurs in B lymphocytes before lymphoma remains uncertain. We sequenced multiple stages of the B lineage in elderly individuals and patients with lymphoplasmacytic lymphoma, a singular disease for studying lymphomagenesis because of the high prevalence of mutated MYD88. We observed similar accumulation of random mutations in B lineages from both cohorts and unexpectedly found MYD88L265P in normal precursor and mature B lymphocytes from patients with lymphoma. We uncovered genetic and transcriptional pathways driving malignant transformation and leveraged these to model lymphoplasmacytic lymphoma in mice, based on mutated MYD88 in B cell precursors and BCL2 overexpression. Thus, MYD88L265P is a preneoplastic event, which challenges the current understanding of lymphomagenesis and may have implications for early detection of B cell lymphomas., Description, MYD88L265P occurs in between a normal mutated lymphopoiesis and additional genetic alterations during lymphomagenesis.

Published

2022

42. Preneoplastic somatic mutations including MYD88(L265P) in lymphoplasmacytic lymphoma

Author

Sara Rodriguez, Jon Celay, Ibai Goicoechea, Cristina Jimenez, Cirino Botta, Maria-José Garcia-Barchino, Juan-Jose Garces, Marta Larrayoz, Susana Santos, Diego Alignani, Amaia Vilas-Zornoza, Cristina Perez, Sonia Garate, Sarai Sarvide, Aitziber Lopez, Hans-Christian Reinhardt, Yolanda R. Carrasco, Isidro Sanchez-Garcia, Maria-Jose Larrayoz, Maria-Jose Calasanz, Carlos Panizo, Felipe Prosper, Jose-Maria Lamo-Espinosa, Marina Motta, Alessandra Tucci, Antonio Sacco, Massimo Gentile, Sara Duarte, Helena Vitoria, Catarina Geraldes, Artur Paiva, Noemi Puig, Ramon Garcia-Sanz, Aldo M. Roccaro, Gema Fuerte, Jesus F. San Miguel, Jose-Angel Martinez-Climent, Bruno Paiva, Rodriguez, Sara, Celay, Jon, Goicoechea, Ibai, Jimenez, Cristina, Botta, Cirino, Garcia-Barchino, Maria-José, Garces, Juan-Jose, Larrayoz, Marta, Santos, Susana, Alignani, Diego, Vilas-Zornoza, Amaia, Perez, Cristina, Garate, Sonia, Sarvide, Sarai, Lopez, Aitziber, Reinhardt, Hans-Christian, Carrasco, Yolanda R, Sanchez-Garcia, Isidro, Larrayoz, Maria-Jose, Calasanz, Maria-Jose, Panizo, Carlo, Prosper, Felipe, Lamo-Espinosa, Jose-Maria, Motta, Marina, Tucci, Alessandra, Sacco, Antonio, Gentile, Massimo, Duarte, Sara, Vitoria, Helena, Geraldes, Catarina, Paiva, Artur, Puig, Noemi, Garcia-Sanz, Ramon, Roccaro, Aldo M, Fuerte, Gema, San Miguel, Jesus F, Martinez-Climent, Jose-Angel, and Paiva, Bruno

Subjects

Multidisciplinary, hemic and lymphatic diseases, Lymphoplasmacytic lymphoma, lymphoplasmacytic lymphoma, MYD88, Mutations, B cell lymphoma, single cell

Abstract

Normal cell counterparts of solid and myeloid tumors accumulate mutations years before disease onset; whether this occurs in B lymphocytes before lymphoma remains uncertain. We sequenced multiple stages of the B lineage in elderly individuals and patients with lymphoplasmacytic lymphoma, a singular disease for studying lymphomagenesis because of the high prevalence of mutated MYD88 . We observed similar accumulation of random mutations in B lineages from both cohorts and unexpectedly found MYD88 L265P in normal precursor and mature B lymphocytes from patients with lymphoma. We uncovered genetic and transcriptional pathways driving malignant transformation and leveraged these to model lymphoplasmacytic lymphoma in mice, based on mutated MYD88 in B cell precursors and BCL2 overexpression. Thus, MYD88 L265P is a preneoplastic event, which challenges the current understanding of lymphomagenesis and may have implications for early detection of B cell lymphomas.

Published

2022

43. The bone marrow niche regulates redox and energy balance in MLL::AF9 leukemia stem cells

Author

Ana C. Viñado, Isabel A. Calvo, Itziar Cenzano, Danel Olaverri, Miguel Cocera, Patxi San Martin-Uriz, Juan P. Romero, Amaia Vilas-Zornoza, Laura Vera, Nuria Gomez-Cebrian, Leonor Puchades-Carrasco, Livia E. Lisi-Vega, Iñigo Apaolaza, Pablo Valera, Elisabeth Guruceaga, Froilan Granero-Molto, Purificacion Ripalda-Cemborain, Tamara J. Luck, Lars Bullinger, Francisco J. Planes, José J. Rifon, Simón Méndez-Ferrer, Rushdia Z. Yusuf, Ana Pardo-Saganta, Felipe Prosper, and Borja Saez

Subjects

CXCR4, Cancer Research, MICROENVIRONMENT, Hematology, ACUTE MYELOID-LEUKEMIA, CHEMOTHERAPY, DISEASE, Article, CRE RECOMBINASE, APOPTOSIS, Leukemia, Myeloid, Acute, Oncology, STROMAL CELLS, Bone Marrow, MULTIPLE-MYELOMA, Neoplastic Stem Cells, Tumor Microenvironment, INHIBITS PROLIFERATION, Humans, Energy Metabolism, Oxidation-Reduction

Abstract

Eradicating leukemia requires a deep understanding of the interaction between leukemic cells and their protective microenvironment. The CXCL12/CXCR4 axis has been postulated as a critical pathway dictating leukemia stem cell (LSC) chemoresistance in AML due to its role in controlling cellular egress from the marrow. Nevertheless, the cellular source of CXCL12 in the acute myeloid leukemia (AML) microenvironment and the mechanism by which CXCL12 exerts its protective role in vivo remain unresolved. Here, we show that CXCL12 produced by Prx1+ mesenchymal cells but not by mature osteolineage cells provide the necessary cues for the maintenance of LSCs in the marrow of an MLL::AF9-induced AML model. Prx1+ cells promote survival of LSCs by modulating energy metabolism and the REDOX balance in LSCs. Deletion of Cxcl12 leads to the accumulation of reactive oxygen species and DNA damage in LSCs, impairing their ability to perpetuate leukemia in transplantation experiments, a defect that can be attenuated by antioxidant therapy. Importantly, our data suggest that this phenomenon appears to be conserved in human patients. Hence, we have identified Prx1+ mesenchymal cells as an integral part of the complex niche-AML metabolic intertwining, pointing towards CXCL12/CXCR4 as a target to eradicate parenchymal LSCs in AML.

Published

2021

44. A diabetic milieu increases cellular susceptibility to SARS-CoV-2 infections in engineered human kidney organoids and diabetic patients

Author

Carolina Tarantino, Megan L. Stanifer, Elena Garreta, Gustav Jonsson, Josef M. Penninger, Daniel Moya-Rull, Amaia Vilas-Zornoza, Nuria Montserrat, Roger Oria, Omar HasanAli, Ali Mirazimi, Astrid Hagelkrueys, Josep M. Campistol, Vanessa Monteil, Pere Domingo-Pedrol, Praticia Prado, Steeve Boulant, Juan P. Romero, Alexandra Leopoldi, Asier Ullate-Agote, Felipe Prosper, Andres Marco, Carmen Hurtado del Pozo, Federico Gonzalez, and Pedro Ventura-Aguiar

Subjects

Kidney, business.industry, medicine.disease, Diabetic nephropathy, medicine.anatomical_structure, Downregulation and upregulation, Immunology, Gene expression, Organoid, Extracellular, Medicine, skin and connective tissue diseases, Receptor, business, Viral load

Abstract

SummarySARS-CoV-2 infections lead to a high risk of hospitalization and mortality in diabetic patients. Why diabetic individuals are more prone to develop severe COVID-19 remains unclear. Here, we established a novel human kidney organoid model that mimics early hallmarks of diabetic nephropathy. High oscillatory glucose exposure resulted in metabolic changes, expansion of extracellular membrane components, gene expression changes determined by scRNAseq, and marked upregulation of angiotensin-converting enzyme 2 (ACE2). Upon SARS-CoV-2 infection, hyperglycemic conditions lead to markedly higher viral loads in kidney organoids compared to normoglycemia. Genetic deletion of ACE2, but not of the candidate receptor BSG/CD147, in kidney organoids demonstrated the essential role of ACE2 in SARS-CoV-2 infections and completely prevented SARS-CoV-2 infection in the diabetogenic microenvironment. These data introduce a novel organoid model for diabetic kidney disease and show that diabetic-induced ACE2 licenses the diabetic kidney to enhanced SARS-CoV-2 replication.

Published

2021

45. Gene Therapy Restores the Transcriptional Program of Hematopoietic Stem Cells in Fanconi Anemia

Author

Miren Lasaga, Paula Río, Amaia Vilas-Zornoza, Nuria Planell, Susana Navarro, Diego Alignani, Beatriz Fernández-Varas, Josune Zubicaray, Roser M. Pujol, Eileen Nicoletti, Jonathan D. Schwartz, Julián Sevilla, Marina Ainciburi, Asier Ullate-Agote, Jordi Surrallés, Rosario Perona, Leandro Sastre, Felipe Prosper, David Gomez-Cabrero, and Juan A. Bueren

Subjects

medicine.anatomical_structure, DNA damage, Fanconi anemia, DNA repair, Genetic enhancement, medicine, Cancer research, Hematopoietic stem cell, DNA Repair Pathway, Progenitor cell, Biology, medicine.disease, Gene

Abstract

SUMMARY PARAGRAPH Fanconi anemia (FA) is a monogenic inherited disease associated with mutations in genes that encode for proteins participating in the FA/BRCA DNA repair pathway. Mutations in FA genes result in chromosomal instability and cell death, leading to cancer risks and progressive cell mortality, most notably in hematopoietic stem and progenitor cells (HSPC). Recently, we showed the first clinical evidence that gene therapy confers engraftment and proliferative advantage of gene-corrected HSPCs in FA patients1. Despite this and many other gene therapy advances, the question of whether the molecular pathways affected in monogenic diseases can be reverted by lentiviral-mediated gene therapy has never been addressed. This is even more challenging in DNA repair syndromes such as FA since in these cases, transcriptional defects in affected cells might not be restored due to DNA damage accumulated prior to gene therapy. Using single-cell RNA sequencing in HSPCs from FA-A patients previously treated by ex vivo gene therapy, we demonstrate that lentiviral-mediated gene therapy prior to severe bone marrow failure not only restores the expression of the defective gene, but also induces a long-term correction of the transcriptional program in FA HSPCs, which then acquire a signature characteristic of healthy HSPCs. Our results reveal new molecular evidence showing the potential of gene therapy to fully rescue phenotypic defects in FA, a devastating HSPC disease characterized by defective DNA repair.

Published

2021

46. Inhibition of a G9a/DNMT network triggers immune-mediated bladder cancer regression

Author

Puri Fortes, José A. Casado, Jesús M. Paramio, Obdulia Rabal, Cristian Suárez-Cabrera, Marta Dueñas, Cristina Segovia, Carmen Segrelles, Noelia Casares, Juan José Lasarte, Xabier Agirre, Felix Guerrero-Ramos, Iris Lodewijk, Ester Munera-Maravilla, Amaia Vilas-Zornoza, Leire Garate, Guillermo Velasco, Edurne San José-Enériz, Julen Oyarzabal, Mónica Martínez-Fernández, Estíbaliz Miranda, Fernando F. López-Calderón, Alejandra Bernardini, Luis Vitores Valcárcel, Felipe Villacampa, Daniel Castellano, Carolina Rubio, and Felipe Prosper

Subjects

0301 basic medicine, Programmed cell death, medicine.medical_treatment, Programmed Cell Death 1 Receptor, General Biochemistry, Genetics and Molecular Biology, Mice, 03 medical and health sciences, 0302 clinical medicine, Immune system, Cell Line, Tumor, Histocompatibility Antigens, medicine, Animals, Humans, Enhancer of Zeste Homolog 2 Protein, Cisplatin, Bladder cancer, business.industry, Histone-Lysine N-Methyltransferase, General Medicine, Immunotherapy, medicine.disease, Immune checkpoint, Editorial Commentary, 030104 developmental biology, Urinary Bladder Neoplasms, Apoptosis, 030220 oncology & carcinogenesis, Cancer research, Immunogenic cell death, Female, business, medicine.drug

Abstract

Bladder cancer is lethal in its advanced, muscle-invasive phase with very limited therapeutic advances1,2. Recent molecular characterization has defined new (epi)genetic drivers and potential targets for bladder cancer3,4. The immune checkpoint inhibitors have shown remarkable efficacy but only in a limited fraction of bladder cancer patients5–8. Here, we show that high G9a (EHMT2) expression is associated with poor clinical outcome in bladder cancer and that targeting G9a/DNMT methyltransferase activity with a novel inhibitor (CM-272) induces apoptosis and immunogenic cell death. Using an immunocompetent quadruple-knockout (PtenloxP/loxP; Trp53loxP/loxP; Rb1loxP/loxP; Rbl1−/−) transgenic mouse model of aggressive metastatic, muscle-invasive bladder cancer, we demonstrate that CM-272 + cisplatin treatment results in statistically significant regression of established tumors and metastases. The antitumor effect is significantly improved when CM-272 is combined with anti-programmed cell death ligand 1, even in the absence of cisplatin. These effects are associated with an endogenous antitumor immune response and immunogenic cell death with the conversion of a cold immune tumor into a hot tumor. Finally, increased G9a expression was associated with resistance to programmed cell death protein 1 inhibition in a cohort of patients with bladder cancer. In summary, these findings support new and promising opportunities for the treatment of bladder cancer using a combination of epigenetic inhibitors and immune checkpoint blockade. Inhibition of histone and DNA methyltransferase activity enhances sensitivity to platinum-based and immunotherapy in a novel transgenic mouse model of metastatic bladder cancer.

Published

2019

47. Inhibitor of Differentiation-1 Sustains Mutant KRAS-Driven Progression, Maintenance, and Metastasis of Lung Adenocarcinoma via Regulation of a FOSL1 Network

Author

Patxi San Martin-Uriz, Marta Echavarri-de Miguel, Carmen Behrens, Elisabeth Guruceaga, Silvestre Vicent, Christian Rolfo, Laura Castro-Labrador, Ignacio Gil-Bazo, Inés López, Simona Taverna, Marta Roman, Silvia Cadenas, Mariano Ponz-Sarvise, Amaia Vilas-Zornoza, Walter Weder, Margarita Ecay, Adrian Vallejo, Jae Hwi Jang, Iosune Baraibar, Edgardo S. Santos, Ernest Nadal, David Lara-Astiaso, Ignacio I. Wistuba, Luis E. Raez, and María Collantes

Subjects

0301 basic medicine, Cancer Research, Mutant, Biology, medicine.disease_cause, Metastasis, 03 medical and health sciences, 0302 clinical medicine, Downregulation and upregulation, KRAS, medicine, neoplasms, Transcription factor, Oncogene, FOSL1, medicine.disease, digestive system diseases, respiratory tract diseases, 3. Good health, LUng Cancer, 030104 developmental biology, Oncology, 030220 oncology & carcinogenesis, Cancer research, Adenocarcinoma, Human medicine

Abstract

Because of the refractory nature of mutant KRAS lung adenocarcinoma (LUAD) to current therapies, identification of new molecular targets is essential. Genes with a prognostic role in mutant KRAS LUAD have proven to be potential molecular targets for therapeutic development. Here we determine the clinical, functional, and mechanistic role of inhibitor of differentiation-1 (Id1) in mutant KRAS LUAD. Analysis of LUAD cohorts from TCGA and SPORE showed that high expression of Id1 was a marker of poor survival in patients harboring mutant, but not wild-type KRAS. Abrogation of Id1 induced G2–M arrest and apoptosis in mutant KRAS LUAD cells. In vivo, loss of Id1 strongly impaired tumor growth and maintenance as well as liver metastasis, resulting in improved survival. Mechanistically, Id1 was regulated by the KRAS oncogene through JNK, and loss of Id1 resulted in downregulation of elements of the mitotic machinery via inhibition of the transcription factor FOSL1 and of several kinases within the KRAS signaling network. Our study provides clinical, functional, and mechanistic evidence underscoring Id1 as a critical gene in mutant KRAS LUAD and warrants further studies of Id1 as a therapeutic target in patients with LUAD. Significance: These findings highlight the prognostic significance of the transcriptional regulator Id1 in KRAS-mutant lung adenocarcinoma and provide mechanistic insight into how it controls tumor growth and metastasis.

Published

2019

48. Design and Synthesis of Novel Epigenetic Inhibitors Targeting Histone Deacetylases, DNA Methyltransferase 1, and Lysine Methyltransferase G9a with

Author

Obdulia, Rabal, Edurne, San José-Enériz, Xabier, Agirre, Juan Antonio, Sánchez-Arias, Irene, de Miguel, Raquel, Ordoñez, Leire, Garate, Estíbaliz, Miranda, Elena, Sáez, Amaia, Vilas-Zornoza, Antonio, Pineda-Lucena, Ander, Estella, Feifei, Zhang, Wei, Wu, Musheng, Xu, Felipe, Prosper, and Julen, Oyarzabal

Subjects

DNA (Cytosine-5-)-Methyltransferase 1, Mice, Inbred BALB C, Antineoplastic Agents, Histone-Lysine N-Methyltransferase, Histone Deacetylases, Histone Deacetylase Inhibitors, Molecular Docking Simulation, Cell Line, Tumor, Drug Design, Histocompatibility Antigens, Neoplasms, Animals, Humans, Enzyme Inhibitors, Cell Proliferation

Abstract

Concomitant inhibition of key epigenetic pathways involved in silencing tumor suppressor genes has been recognized as a promising strategy for cancer therapy. Herein, we report a first-in-class series of quinoline-based analogues that simultaneously inhibit histone deacetylases (from a low nanomolar range) and DNA methyltransferase-1 (from a mid-nanomolar range, IC

Published

2021

49. Tumor cells in light-chain amyloidosis and myeloma show distinct transcriptional rewiring of normal plasma cell development

Author

Javier de la Rubia, Maria Victoria Mateos, David Lara-Astiaso, Amaia Vilas-Zornoza, Joaquin Martinez-Lopez, Ramón Lecumberri, Sara Rodriguez, Marco Vicari, Sonia Garate, María Teresa Cedena, Ibai Goicoechea, Assaf Weiner, Luis Palomera, María José Casanova, Sarai Sarvide, Vito Michele Fazio, Jose Enrique de la Puerta, Alfonso García de Coca, Jesús F. San Miguel, Maria Esther González, Diego Alignani, Alice Nevone, Noemi Puig, Albert Oriol, Ido Amit, Felipe de Arriba, Bruno Paiva, María D. Odero, Valentin Cabañas, Isabel Krsnik, Felipe Prosper, Enrique M. Ocio, Daniel Alameda, Marta Lasa, Elena Arriazu, Mercedes Gironella, Jorge Labrador, Albert Pérez-Montaña, Juan J. Lahuerta, and Mario Nuvolone

Subjects

Adult, Plasma Cells, Immunology, Biology, Plasma cell, Immunoglobulin light chain, Biochemistry, CD19, CME article, Tumor Cells, Cultured, medicine, Humans, Immunoglobulin Light-chain Amyloidosis, Free Research Articles, Multiple myeloma, Lymphoid Neoplasia, Amyloidosis, Cell Biology, Hematology, medicine.disease, humanities, medicine.anatomical_structure, Monoclonal, biology.protein, Cancer research, Brief Reports, Bone marrow, Multiple Myeloma, Transcriptome, Monoclonal gammopathy of undetermined significance

Abstract

Although light-chain amyloidosis (AL) and multiple myeloma (MM) are characterized by tumor plasma cell (PC) expansion in bone marrow (BM), their clinical presentation differs. Previous attempts to identify unique pathogenic mechanisms behind such differences were unsuccessful, and no studies have investigated the differentiation stage of tumor PCs in patients with AL and MM. We sought to define a transcriptional atlas of normal PC development in secondary lymphoid organs (SLOs), peripheral blood (PB), and BM for comparison with the transcriptional programs (TPs) of tumor PCs in AL, MM, and monoclonal gammopathy of undetermined significance (MGUS). Based on bulk and single-cell RNA sequencing, we observed 13 TPs during transition of normal PCs throughout SLOs, PB, and BM. We further noted the following: CD39 outperforms CD19 to discriminate newborn from long-lived BM-PCs; tumor PCs expressed the most advantageous TPs of normal PC differentiation; AL shares greater similarity to SLO-PCs whereas MM is transcriptionally closer to PB-PCs and newborn BM-PCs; patients with AL and MM enriched in immature TPs had inferior survival; and protein N-linked glycosylation–related TPs are upregulated in AL. Collectively, we provide a novel resource to understand normal PC development and the transcriptional reorganization of AL and other monoclonal gammopathies.

Published

2021

50. Deep MRD profiling defines outcome and unveils different modes of treatment resistance in standard- and high-risk myeloma

Author

Joaquin Martinez-Lopez, Diego Alignani, Jesús Martín-Sánchez, Norma C. Gutiérrez, Juan Flores-Montero, Ibai Goicoechea, Rafael Rios, Joan Bargay, Noemi Puig, Leire Burgos, Juan José Garcés, Maria-Victoria Mateos, Juan José Lahuerta, Joan Bladé, María-Belén Vidriales, Lourdes Cordón, Maria-Jose Calasanz, Isabel Krsnik, Bruno Paiva, Miguel-Teodoro Hernández, Albert Oriol, Sara Rodriguez, Idoia Rodriguez, Maria-Teresa Cedena, Vicente Fresquet, Luis Palomera, Sarai Sarvide, J A Martinez-Climent, Amaia Vilas-Zornoza, Alberto Orfao, Javier de la Rubia, Rafael Martínez-Martínez, Ramón García-Sanz, David Lara-Astiaso, José-María Moraleda, Jesús F. San Miguel, Laura Rosiñol, Jon Celay, Josep Sarrá, María-Luisa Martín Ramos, and Daniel Alameda

Subjects

Oncology, Adult, Boron Compounds, Male, medicine.medical_specialty, Neoplasm, Residual, Physics::Instrumentation and Detectors, Clinical Trials and Observations, Immunology, Patient subgroups, Glycine, Drug resistance, Biochemistry, Dexamethasone, Bortezomib, hemic and lymphatic diseases, Internal medicine, Antineoplastic Combined Chemotherapy Protocols, medicine, Neoplasm, Humans, Progression-free survival, Treatment resistance, Lenalidomide, Complete response, Multiple myeloma, Aged, Chromosome Aberrations, Lymphoid Neoplasia, business.industry, Cell Biology, Hematology, Middle Aged, medicine.disease, Flow Cytometry, Progression-Free Survival, body regions, Clinical trial, Treatment Outcome, Drug Resistance, Neoplasm, Female, business, Multiple Myeloma

Abstract

PETHEMA/GEM Cooperative Group., Patients with multiple myeloma (MM) carrying standard- or high-risk cytogenetic abnormalities (CAs) achieve similar complete response (CR) rates, but the later have inferior progression-free survival (PFS). This questions the legitimacy of CR as a treatment endpoint and represents a biological conundrum regarding the nature of tumor reservoirs that persist after therapy in high-risk MM. We used next-generation flow (NGF) cytometry to evaluate measurable residual disease (MRD) in MM patients with standard- vs high-risk CAs (n = 300 and 90, respectively) enrolled in the PETHEMA/GEM2012MENOS65 trial, and to identify mechanisms that determine MRD resistance in both patient subgroups (n = 40). The 36-month PFS rates were higher than 90% in patients with standard- or high-risk CAs achieving undetectable MRD. Persistent MRD resulted in a median PFS of ∼3 and 2 years in patients with standard- and high-risk CAs, respectively. Further use of NGF to isolate MRD, followed by whole-exome sequencing of paired diagnostic and MRD tumor cells, revealed greater clonal selection in patients with standard-risk CAs, higher genomic instability with acquisition of new mutations in high-risk MM, and no unifying genetic event driving MRD resistance. Conversely, RNA sequencing of diagnostic and MRD tumor cells uncovered the selection of MRD clones with singular transcriptional programs and reactive oxygen species–mediated MRD resistance in high-risk MM. Our study supports undetectable MRD as a treatment endpoint for patients with MM who have high-risk CAs and proposes characterizing MRD clones to understand and overcome MRD resistance. This trial is registered at www.clinicaltrials.gov as #NCT01916252.

Published

2021