Your search keyword '"Araúzo-Bravo, Marcos J."' showing total 596 results

201. Sequence-Dependent Conformational Energy of DNA Derived from Molecular Dynamics Simulations: Toward Understanding the Indirect Readout Mechanism in Protein−DNA Recognition

Author

Araúzo-Bravo, Marcos J., primary, Fujii, Satoshi, additional, Kono, Hidetoshi, additional, Ahmad, Shandar, additional, and Sarai, Akinori, additional

Published

2005

202. Dimensionality of amino acid space and solvent accessibility prediction with neural networks

Author

Araúzo-Bravo, Marcos J., Ahmad, Shandar, and Sarai, Akinori

Published

2006

203. Cell-to-cell expression variability followed by signal reinforcement progressively segregates early mouse lineages.

Author

Ohnishi, Yusuke, Huber, Wolfgang, Tsumura, Akiko, Kang, Minjung, Xenopoulos, Panagiotis, Kurimoto, Kazuki, Oleś, Andrzej K., Araúzo-Bravo, Marcos J., Saitou, Mitinori, Hadjantonakis, Anna-Katerina, and Hiiragi, Takashi

Subjects

PLURIPOTENT stem cells, GENE expression, GENETIC regulation, ENDODERM, LABORATORY mice

Abstract

It is now recognized that extensive expression heterogeneities among cells precede the emergence of lineages in the early mammalian embryo. To establish a map of pluripotent epiblast (EPI) versus primitive endoderm (PrE) lineage segregation within the inner cell mass (ICM) of the mouse blastocyst, we characterized the gene expression profiles of individual ICM cells. Clustering analysis of the transcriptomes of 66 cells demonstrated that initially they are non-distinguishable. Early in the segregation, lineage-specific marker expression exhibited no apparent correlation, and a hierarchical relationship was established only in the late blastocyst. Fgf4 exhibited a bimodal expression at the earliest stage analysed, and in its absence, the differentiation of PrE and EPI was halted, indicating that Fgf4 drives, and is required for, ICM lineage segregation. These data lead us to propose a model where stochastic cell-to-cell expression heterogeneity followed by signal reinforcement underlies ICM lineage segregation by antagonistically separating equivalent cells. [ABSTRACT FROM AUTHOR]

Published

2014

204. Identification of genes specific to mouse primordial germ cells through dynamic global gene expression.

Author

Sabour, Davood, Araúzo-Bravo, Marcos J., Hübner, Karin, Ko, Kinarm, Greber, Boris, Gentile, Luca, Stehling, Martin, and Schöler, Hans R.

Published

2011

205. Direct reprogramming of fibroblasts into epiblast stem cells.

Author

Dong Wook Han, Greber, Boris, Guangming Wu, Tapia, Natalia, Araúzo-Bravo, Marcos J., Ko, Kinarm, Bernemann, Christof, Stehling, Martin, and Schöler, Hans R.

Subjects

FIBROBLASTS, STEM cells, EMBRYOS, TRANSCRIPTION factors, SOMATIC cells, GENE expression, MOSAICISM, CELL determination

Abstract

Epiblast stem cells (EpiSCs) derived from epiblast tissue of post-implantation embryos are pluripotent and can give rise to all three germ layers in teratoma assays. Introduction of the four transcription factors Oct4, Sox2, Klf4 and c-Myc into somatic cells has been shown to generate induced pluripotent stem cells (iPSCs) that are very similar to embryonic stem cells (ESCs) in a number of characteristics. However, generation of EpiSCs by the direct reprogramming of somatic cells using these transcription factors has not been shown to date. Here, we show that these transcription factors can be used to directly generate induced EpiSCs (iEpiSCs) under EpiSC culture conditions. iEpiSCs resemble EpiSCs in morphology, gene expression pattern, epigenetic status and chimaera-forming capability. This study demonstrates that the culture environment in transcription factor-mediated reprogramming determines the cell fate of the reprogrammed cell. We therefore hypothesize that it will eventually be possible to shape the identity of a directly reprogrammed cell simply by modulating culture conditions. [ABSTRACT FROM AUTHOR]

Published

2011

206. Initiation of trophectoderm lineage specification in mouse embryos is independent of Cdx2.

Author

Guangming Wu, Gentile, Luca, Fuchikami, Takuya, Sutter, Julien, Psathaki, Katherina, Esteves, Telma C., Araúzo-Bravo, Marcos J., Ortmeier, Claudia, Verberk, Gaby, Abe, Kuniya, and Schöler, Hans R.

Subjects

EMBRYOLOGY, DEVELOPMENTAL biology, CELL populations, CELL proliferation, TRANSCRIPTION factors

Abstract

The separation of the first two lineages - trophectoderm (TE) and inner cell mass (ICM) - is a crucial event in the development of the early embryo. The ICM, which constitutes the pluripotent founder cell population, develops into the embryo proper, whereas the TE, which comprises the surrounding outer layer, supports the development of the ICM before and after implantation. Cdx2, the first transcription factor expressed specifically in the developing TE, is crucial for the differentiation of cells into the TE, as lack of zygotic Cdx2 expression leads to a failure of embryos to hatch and implant into the uterus. However, speculation exists as to whether maternal Cdx2 is required for initiation of TE lineage separation. Here, we show that effective elimination of both maternal and zygotic Cdx2 transcripts by an RNA interference approach resulted in failure of embryo hatching and implantation, but the developing blastocysts exhibited normal gross morphology, indicating that TE differentiation had been initiated. Expression of keratin 8, a marker for differentiated TE, further confirmed the identity of the TE lineage in Cdx2-deficient embryos. However, these embryos exhibited low mitochondrial activity and abnormal ultrastructure, indicating that Cdx2 plays a key role in the regulation of TE function. Furthermore, we found that embryonic compaction does not act as a `switch' regulator to turn on Cdx2 expression. Our results clearly demonstrate that neither maternal nor zygotic Cdx2 transcripts direct the initiation of ICM/TE lineage separation. [ABSTRACT FROM AUTHOR]

Published

2010

207. Generation of Parthenogenetic Induced Pluripotent Stem Cells from Parthenogenetic Neural Stem Cells.

Author

Jeong Tae Do, Jin Young Joo, Dong Wook Han, Araúzo-Bravo, Marcos J., Min Jung Kim, Greber, Boris, Zaehres, Holm, Sobek-Klocke, Ingeborg, Hyung Min Chung, and Schöler, Hans R.

Subjects

NEURAL stem cell transplantation, TRANSCRIPTION factors, PARTHENOGENESIS, GENE expression, GENETIC regulation, MICROBIAL genetics

Abstract

Somatic cells can achieve a pluripotent cell state in a process called pluripotential reprogramming. Multipotent stem cells can differentiate into cells of only one lineage, but pluripotent stem cells can give rise to cells of all three germ layers of an organism. In this study, we generated induced pluripotent stem (iPS) cells from bimaternal (uniparental) parthenogenetic neural stem cells (pNSCs) by transduction with either four (4F: Oct4, Klf4, Sox2, and c-Myc) or two (2F: Oct4 and Klf4) transcription factors. The resultant maternal iPS cells, which were reprogrammed directly from pNSCs, were capable of generating germ line-competent chimeras. Interestingly, analysis of global gene expression and imprinting status revealed that parthenogenetic iPS cells clustered closer to parthenogenetic ESCs than to female ESCs, with patterns that were clearly distinct from those of pNSCs. [ABSTRACT FROM AUTHOR]

Published

2009

208. Direct reprogramming of human neural stem cells by OCT4.

Author

Jeong Beom Kim, Greber, Boris, Araúzo-Bravo, Marcos J., Meyer, Johann, Park, Kook In, Zaehres, Holm, and Schöler, Hans R.

Subjects

NEURAL stem cells, EMBRYONIC stem cells, COMPUTER programming, GENE expression, GENETIC regulation, TRANSCRIPTION factors, PLURIPOTENTIAL theory (Mathematics), HYBRID embryos, PATIENT management

Abstract

Induced pluripotent stem (iPS) cells have been generated from mouse and human somatic cells by ectopic expression of four transcription factors (OCT4 (also called POU5F1), SOX2, c-Myc and KLF4). We previously reported that Oct4 alone is sufficient to reprogram directly adult mouse neural stem cells to iPS cells. Here we report the generation of one-factor human iPS cells from human fetal neural stem cells (one-factor (1F) human NiPS cells) by ectopic expression of OCT4 alone. One-factor human NiPS cells resemble human embryonic stem cells in global gene expression profiles, epigenetic status, as well as pluripotency in vitro and in vivo. These findings demonstrate that the transcription factor OCT4 is sufficient to reprogram human neural stem cells to pluripotency. One-factor iPS cell generation will advance the field further towards understanding reprogramming and generating patient-specific pluripotent stem cells. [ABSTRACT FROM AUTHOR]

Published

2009

209. Epigenetic Hierarchy Governing Nestin Expression.

Author

Dong Wook Han, Jeong Tae Do, Araúzo-Bravo, Marcos J., Sung Ho Lee, Meissner, Alexander, Hoon Taek Lee, Jaenisch, Rudolf, and Schöler, Hans R.

Subjects

PROTEINS, NEURAL stem cells, GENE expression, GENETIC regulation, EPIGENESIS, METHYLATION, ACETYLATION

Abstract

Nestin is an intermediate filament protein expressed specifically in neural stem cells and progenitor cells of the central nervous system. DNA demethylation and histone modifications are two types of epigenetic modifications working in a coordinate or synergistic manner to regulate the expression of various genes. This study investigated and elucidated the epigenetic regulation of Nestin gene expression during embryonic differentiation along the neural cell lineage. Nestin exhibits differential DNA methylation and histone acetylation patterns in Nestin-expressing and nonexpressing cells. In P19 embryonic carcinoma cells, activation of Nestin expression is mediated by both trichostatin A and 5-aza-20-deoxycytidine treatment, concomitant with histone acetylation, but not with DNA demethylation. Nestin transcription is also mediated by treatment with retinoic acid, again in the absence of DNA demethylation. Thus, histone acetylation is sufficient to mediate the activation of Nestin transcription. This study proposed that the regulation of Nestin gene expression can be used as a model to study the epigenetic regulation of gene expression mediated by histone acetylation, but not by DNA demethylation. [ABSTRACT FROM AUTHOR]

Published

2009

210. Epigenetics in the Diagnosis and Therapy of Malignant Melanoma.

Author

Santourlidis, Simeon, Schulz, Wolfgang A., Araúzo-Bravo, Marcos J., Gerovska, Daniela, Ott, Pauline, Bendhack, Marcelo L., Hassan, Mohamed, and Erichsen, Lars

Subjects

MELANOMA, EPIGENETICS, MELANOMA diagnosis, DIAGNOSIS, TRANSITIONAL cell carcinoma, BREAST

Abstract

Epigenetic mechanisms are fundamentally important for cancer initiation and development. However, a survey of the literature reveals that, to date, they appear less comprehensively investigated in melanoma than in many other cancers, e.g., prostate, breast, and colon carcinoma. The aim of this review is to provide a short summary of epigenetic aspects of functional relevance for melanoma pathogenesis. In addition, some new perspectives from epigenetic research in other cancers with potential for melanoma diagnosis and therapy are introduced. For example, the PrimeEpiHit hypothesis in urothelial carcinoma, which, similarly to malignant melanoma, can also be triggered by a single exogenous noxa, states that one of the first steps for cancer initiation could be epigenetic changes in key genes of one-carbon metabolism. The application of such insights may contribute to further progress in the diagnosis and therapy of melanoma, a deadly type of cancer. [ABSTRACT FROM AUTHOR]

Published

2022

211. Vaccination Accelerates Liver-Intrinsic Expression of Megakaryocyte-Related Genes in Response to Blood-Stage Malaria.

Author

Wunderlich, Frank, Delic, Denis, Gerovska, Daniela, and Araúzo-Bravo, Marcos J.

Subjects

VACCINATION, GENE expression, BONE marrow cells, MALARIA, PROGENITOR cells

Abstract

Erythropoiesis and megakaryo-/thrombopoiesis occur in the bone marrow proceeding from common, even bipotent, progenitor cells. Recently, we have shown that protective vaccination accelerates extramedullary hepatic erythroblastosis in response to blood-stage malaria of Plasmodium chabaudi. Here, we investigated whether protective vaccination also accelerates extramedullary hepatic megakaryo-/thrombopoiesis. Female Balb/c mice were twice vaccinated with a non-infectious vaccine before infecting with 106 P. chabaudi-parasitized erythrocytes. Using gene expression microarrays and quantitative real-time PCR, transcripts of genes known to be expressed in the bone marrow by cells of the megakaryo-/thrombocytic lineage were compared in livers of vaccination-protected and unprotected mice on days 0, 1, 4, 8, and 11 p.i. Livers of vaccination-protected mice responded with expression of megakaryo-/thrombocytic genes faster to P. chabaudi than those of unvaccinated mice, evidenced at early patency on day 4 p.i., when livers exhibited significantly higher levels of malaria-induced transcripts of the genes Selp and Pdgfb (p-values < 0.0001), Gp5 (p-value < 0.001), and Fli1, Runx1, Myb, Mpl, Gp1ba, Gp1bb, Gp6, Gp9, Pf4, and Clec1b (p-values < 0.01). Together with additionally analyzed genes known to be related to megakaryopoiesis, our data suggest that protective vaccination accelerates liver-intrinsic megakaryo-/thrombopoiesis in response to blood-stage malaria that presumably contributes to vaccination-induced survival of otherwise lethal blood-stage malaria. [ABSTRACT FROM AUTHOR]

Published

2022

212. Challenges and Opportunities for the Translation of Single-Cell RNA Sequencing Technologies to Dermatology.

Author

Ascensión, Alex M., Araúzo-Bravo, Marcos J., and Izeta, Ander

Subjects

*RNA sequencing, *DERMATOLOGY, *GENOMICS, *GENETIC translation

Abstract

Skin is a complex and heterogeneous organ at the cellular level. This complexity is beginning to be understood through the application of single-cell genomics and computational tools. A large number of datasets that shed light on how the different human skin cell types interact in homeostasis—and what ceases to work in diverse dermatological diseases—have been generated and are publicly available. However, translation of these novel aspects to the clinic is lacking. This review aims to summarize the state-of-the-art of skin biology using single-cell technologies, with a special focus on skin pathologies and the translation of mechanistic findings to the clinic. The main implications of this review are to summarize the benefits and limitations of single-cell analysis and thus help translate the emerging insights from these novel techniques to the bedside. [ABSTRACT FROM AUTHOR]

Published

2022

213. Correction to: Inhibition of TGFβ Signaling Promotes Ground State Pluripotency.

Author

Hassani, Seyedeh-Nafiseh, Totonchi, Mehdi, Sharifi-Zarchi, Ali, Mollamohammadi, Sepideh, Pakzad, Mohammad, Moradi, Sharif, Samadian, Azam, Masoudi, Najmehsadat, Mirshahvaladi, Shahab, Farrokhi, Ali, Greber, Boris, Araúzo-Bravo, Marcos J., Sabour, Davood, Sadeghi, Mehdi, Salekdeh, Ghasem Hosseini, Gourabi, Hamid, Schöler, Hans R., and Baharvand, Hossein

Subjects

CONFLICT of interests, STEM cells

Abstract

The Conflict of Interest statement should read, "A patent based on this study has been filed by Royan Institute with H.B., S.N.H., M.T., and H.G. as inventors". B Correction to: Stem Cell Rev and Rep (2014) 10:16-30 b https://doi.org/10.1007/s12015-013-9473-0 After the publication of our article, it has come to our attention that we regretfully failed to appropriately disclose a conflict of interest. Correction to: Inhibition of TGF Signaling Promotes Ground State Pluripotency. [Extracted from the article]

Published

2022

214. Pluripotent stem cells induced from adult neural stem cells by reprogramming with two factors.

Author

Jeong Beom Kim, Zaehres, Holm, Guangming Wu, Gentile, Luca, Ko, Kinarm, Sebastiano, Vittorio, Araúzo-Bravo, Marcos J., Ruau, David, Dong Wook Han, Zenke, Martin, and Schöler, Hans R.

Subjects

SOMATIC cells, STEM cells, NEURAL stem cells, TRANSCRIPTION factors, ONCOGENIC viruses, RETROVIRUSES, MUTAGENESIS, EMBRYONIC stem cells, MOSAICISM

Abstract

Reprogramming of somatic cells is a valuable tool to understand the mechanisms of regaining pluripotency and further opens up the possibility of generating patient-specific pluripotent stem cells. Reprogramming of mouse and human somatic cells into pluripotent stem cells, designated as induced pluripotent stem (iPS) cells, has been possible with the expression of the transcription factor quartet Oct4 (also known as Pou5f1), Sox2, c-Myc and Klf4 (refs 1–11). Considering that ectopic expression of c-Myc causes tumorigenicity in offspring and that retroviruses themselves can cause insertional mutagenesis, the generation of iPS cells with a minimal number of factors may hasten the clinical application of this approach. Here we show that adult mouse neural stem cells express higher endogenous levels of Sox2 and c-Myc than embryonic stem cells, and that exogenous Oct4 together with either Klf4 or c-Myc is sufficient to generate iPS cells from neural stem cells. These two-factor iPS cells are similar to embryonic stem cells at the molecular level, contribute to development of the germ line, and form chimaeras. We propose that, in inducing pluripotency, the number of reprogramming factors can be reduced when using somatic cells that endogenously express appropriate levels of complementing factors. [ABSTRACT FROM AUTHOR]

Published

2008

215. Indirect readout in drug-DNA recognition: role of sequence-dependent DNA conformation.

Author

Araúzo-Bravo, Marcos J. and Sarai, Akinori

Published

2008

216. Finite-difference Euler Deconvolution Algorithm Applied to the Interpretation of Magnetic Data from Northern Bulgaria.

Author

Gerovska, Daniela, Stavrev, Petar, and Araúzo-Bravo, Marcos J.

Subjects

EULER characteristic, BASALT, ALGORITHMS, HOMOGENEITY, DECONVOLUTION (Mathematics), SPECTRUM analysis

Abstract

Here, we propose a new, finite-difference algorithm for Euler deconvolution, based on the Euler’s homogeneity equation accounting for a constant background field which allows simultaneous depth and shape estimation. The algorithm uses as input data the measured anomalous field and its first-order derivatives, in contrast to methods based on the input of higher order field derivatives. The test of the algorithm on a model of interfering fields of elementary sources with different field fall-off rates, resulting in background close to a linear one, shows that it can give a good estimation of both the depth to the sources singular points and their respective structural indices. A set of tests was carried out on column-like models with shapes ranging from the elementary model of a dipole to that of a point pole, and of models of arbitrary shape with two singular points in between. It showed that when the ratio of the distance between the observation plane and the source’s top and the length of the body allows classification of it as a dipole or a point pole, the value of the estimated structural index is close to the integer value, typical for the respective elementary source. In such cases the estimated depth value refers to that of the special internal point of the respective type of source. This can facilitate in certain situations the interpretation of non-integer structural indices and their associated depth estimates obtained with the new Euler deconvolution algorithm. Inversion of a set of magnetic data from northern Bulgaria, caused by basaltic bodies of different shape, with the proposed method confirmed that the most intense anomalies are caused by column-like bodies outcropping on the surface and with considerable depth extent. [ABSTRACT FROM AUTHOR]

Published

2005

217. Automatization of a penicillin production process with soft sensors and an adaptive controller based on neuro fuzzy systems

Author

Araúzo-Bravo, Marcos J., Cano-Izquierdo, José M., Gómez-Sánchez, Eduardo, López-Nieto, Manuel J., Dimitriadis, Yannis A., and López-Coronado, Juan

Subjects

*PENICILLIN, *ANTIBACTERIAL agents, *DETECTORS, *SYSTEM analysis

Abstract

This paper addresses the automatization of a penicillin production process with the development of soft sensors as well as Internal Model Controllers (IMC) for a penicillin fermentation plant using modules based on FasArt and FasBack neuro-fuzzy systems. While soft sensors are intended to aid the human supervision of the process currently being conducted at pilot plants, the proposed controller will make the automatization feasible and eliminate the need for human operator. FasArt and FasBack feature fast stable learning and good MIMO identification, which makes them suitable for the development of adaptive controllers and soft sensors. In this paper, these modules are evaluated by training the neuro-fuzzy systems first on simulated data and then applying the resulting IMC controllers to a simulated plant. Moreover, training the systems on data coming from a real pilot plant, and evaluating the controller performance on the same real plant. Results show that the trend of reference is captured, thus allowing high penicillin production. Moreover, soft sensors derived for biomass, viscosity and penicillin are very accurate.In addition, on-line adaptive capabilities were implemented and tested with FasBack, since this system presents learning guided by error minimization as new data samples arrive. With these features, adaptive IMC controllers can be implemented and are helpful when dynamics have been poorly learned or the plant parameters vary with time, since the performance of static models and controllers can be improved through adaptation. [Copyright &y& Elsevier]

Published

2004

218. Genome Scale Modeling to Study the Metabolic Competition between Cells in the Tumor Microenvironment.

Author

Frades, Itziar, Foguet, Carles, Cascante, Marta, and Araúzo-Bravo, Marcos J.

Subjects

ADENOSINE triphosphate, CELL differentiation, GENOMES, STEM cells, CELL lines, T cells, TUMORS

Abstract

Simple Summary: Immune and cancer cells compete for nutrients within the tumor microenvironment, leading to a metabolic battle between these cell populations. In this battle, tumor cells reprogram their metabolism for a high demand of building blocks and energy and to gain advantages over immune cells. To study these mechanisms, we require the quantification of metabolic fluxes, which can be estimated at the genome-scale, with constraint-based or kinetic modeling. The tumor's physiology emerges from the dynamic interplay of numerous cell types, such as cancer cells, immune cells and stromal cells, within the tumor microenvironment. Immune and cancer cells compete for nutrients within the tumor microenvironment, leading to a metabolic battle between these cell populations. Tumor cells can reprogram their metabolism to meet the high demand of building blocks and ATP for proliferation, and to gain an advantage over the action of immune cells. The study of the metabolic reprogramming mechanisms underlying cancer requires the quantification of metabolic fluxes which can be estimated at the genome-scale with constraint-based or kinetic modeling. Constraint-based models use a set of linear constraints to simulate steady-state metabolic fluxes, whereas kinetic models can simulate both the transient behavior and steady-state values of cellular fluxes and concentrations. The integration of cell- or tissue-specific data enables the construction of context-specific models that reflect cell-type- or tissue-specific metabolic properties. While the available modeling frameworks enable limited modeling of the metabolic crosstalk between tumor and immune cells in the tumor stroma, future developments will likely involve new hybrid kinetic/stoichiometric formulations. [ABSTRACT FROM AUTHOR]

Published

2021

219. Lack of evidence for increased transcriptional noise in aged tissues.

Author

Ibañez-Solé, Olga, Ascensión, Alex M., Araúzo-Bravo, Marcos J., and Izeta, Ander

Subjects

*NOISE, *DEPERSONALIZATION, *RNA sequencing, *CELL aggregation, *TISSUES, *LUNGS

Abstract

Aging is often associated with a loss of cell type identity that results in an increase in transcriptional noise in aged tissues. If this phenomenon reflects a fundamental property of aging remains an open question. Transcriptional changes at the cellular level are best detected by single-cell RNA sequencing (scRNAseq). However, the diverse computational methods used for the quantification of age-related loss of cellular identity have prevented reaching meaningful conclusions by direct comparison of existing scRNAseq datasets. To address these issues we created Decibel, a Python toolkit that implements side-to-side four commonly used methods for the quantification of age-related transcriptional noise in scRNAseq data. Additionally, we developed Scallop, a novel computational method for the quantification of membership of single cells to their assigned cell type cluster. Cells with a greater Scallop membership score are transcriptionally more stable. Application of these computational tools to seven aging datasets showed large variability between tissues and datasets, suggesting that increased transcriptional noise is not a universal hallmark of aging. To understand the source of apparent loss of cell type identity associated with aging, we analyzed cell type-specific changes in transcriptional noise and the changes in cell type composition of the mammalian lung. No robust pattern of cell type-specific transcriptional noise alteration was found across aging lung datasets. In contrast, age-associated changes in cell type composition of the lung were consistently found, particularly of immune cells. These results suggest that claims of increased transcriptional noise of aged tissues should be reformulated. [ABSTRACT FROM AUTHOR]

Published

2023

220. FLT3activation cooperates with MLL-AF4 fusion protein to abrogate the hematopoietic specification of human ESCs

Author

Bueno, Clara, Ayllón, Verónica, Montes, Rosa, Navarro-Montero, Oscar, Ramos-Mejia, Verónica, Real, Pedro J., Romero-Moya, Damià, Araúzo-Bravo, Marcos J., and Menendez, Pablo

Abstract

Mixed-lineage leukemia (MLL)–AF4 fusion arises prenatally in high-risk infant acute pro-B-lymphoblastic leukemia (pro-B-ALL). In human embryonic stem cells (hESCs), MLL-AF4 skewed hematoendothelial specification but was insufficient for transformation, suggesting that additional oncogenic insults seem required for MLL-AF4–mediated transformation. MLL-AF4+ pro-B-ALL expresses enormous levels of FLT3, occasionally because of activating mutations, thus representing a candidate cooperating event in MLL-AF4+ pro-B-ALL. Here, we explored the developmental impact of FLT3activation alone, or together with MLL-AF4, in the hematopoietic fate of hESCs. FLT3activation does not affect specification of hemogenic precursors but significantly enhances the formation of CD45+blood cells, and CD45+CD34+blood progenitors with clonogenic potential. However, overexpression of FLT3mutations or wild-type FLT3(FLT3-WT) completely abrogates hematopoietic differentiation from MLL-AF4–expressing hESCs, indicating that FLT3activation cooperates with MLL-AF4 to inhibit human embryonic hematopoiesis. Cell cycle/apoptosis analyses suggest that FLT3activation directly affects hESC specification rather than proliferation or survival of hESC-emerging hematopoietic derivatives. Transcriptional profiling of hESC-derived CD45+cells supports the FLT3-mediated inhibition of hematopoiesis in MLL-AF4–expressing hESCs, which is associated with large transcriptional changes and downregulation of genes involved in hematopoietic system development and function. Importantly, FLT3activation does not cooperate with MLL-AF4 to immortalize/transform hESC-derived hematopoietic cells, suggesting the need of alternative (epi)-genetic cooperating hits.

Published

2013

221. FLT3 activation cooperates with MLL-AF4 fusion protein to abrogate the hematopoietic specification of human ESCs

Author

Bueno, Clara, Ayllón, Verónica, Montes, Rosa, Navarro-Montero, Oscar, Ramos-Mejia, Verónica, Real, Pedro J., Romero-Moya, Damià, Araúzo-Bravo, Marcos J., and Menendez, Pablo

Abstract

Mixed-lineage leukemia (MLL)–AF4 fusion arises prenatally in high-risk infant acute pro-B-lymphoblastic leukemia (pro-B-ALL). In human embryonic stem cells (hESCs), MLL-AF4 skewed hematoendothelial specification but was insufficient for transformation, suggesting that additional oncogenic insults seem required for MLL-AF4–mediated transformation. MLL-AF4+ pro-B-ALL expresses enormous levels of FLT3, occasionally because of activating mutations, thus representing a candidate cooperating event in MLL-AF4+ pro-B-ALL. Here, we explored the developmental impact of FLT3 activation alone, or together with MLL-AF4, in the hematopoietic fate of hESCs. FLT3 activation does not affect specification of hemogenic precursors but significantly enhances the formation of CD45+ blood cells, and CD45+CD34+ blood progenitors with clonogenic potential. However, overexpression of FLT3 mutations or wild-type FLT3 (FLT3-WT) completely abrogates hematopoietic differentiation from MLL-AF4–expressing hESCs, indicating that FLT3 activation cooperates with MLL-AF4 to inhibit human embryonic hematopoiesis. Cell cycle/apoptosis analyses suggest that FLT3 activation directly affects hESC specification rather than proliferation or survival of hESC-emerging hematopoietic derivatives. Transcriptional profiling of hESC-derived CD45+ cells supports the FLT3-mediated inhibition of hematopoiesis in MLL-AF4–expressing hESCs, which is associated with large transcriptional changes and downregulation of genes involved in hematopoietic system development and function. Importantly, FLT3 activation does not cooperate with MLL-AF4 to immortalize/transform hESC-derived hematopoietic cells, suggesting the need of alternative (epi)-genetic cooperating hits.

Published

2013

222. GeromiRs Are Downregulated in the Tumor Microenvironment during Colon Cancer Colonization of the Liver in a Murine Metastasis Model.

Author

Gerovska, Daniela, Garcia-Gallastegi, Patricia, Crende, Olatz, Márquez, Joana, Larrinaga, Gorka, Unzurrunzaga, Maite, Araúzo-Bravo, Marcos J., Badiola, Iker, and Angius, Andrea

Subjects

LIVER cancer, COLON cancer, LIVER metastasis, TUMOR microenvironment, CANCER invasiveness

Abstract

Cancer is a phenomenon broadly related to ageing in various ways such as cell cycle deregulation, metabolic defects or telomerases dysfunction as principal processes. Although the tumor cell is the main actor in cancer progression, it is not the only element of the disease. Cells and the matrix surrounding the tumor, called the tumor microenvironment (TME), play key roles in cancer progression. Phenotypic changes of the TME are indispensable for disease progression and a few of these transformations are produced by epigenetic changes including miRNA dysregulation. In this study, we found that a specific group of miRNAs in the liver TME produced by colon cancer called geromiRs, which are miRNAs related to the ageing process, are significantly downregulated. The three principal cell types involved in the liver TME, namely, liver sinusoidal endothelial cells, hepatic stellate (Ito) cells and Kupffer cells, were isolated from a murine hepatic metastasis model, and the miRNA and gene expression profiles were studied. From the 115 geromiRs and their associated hallmarks of aging, which we compiled from the literature, 75 were represented in the used microarrays, 26 out of them were downregulated in the TME cells during colon cancer colonization of the liver, and none of them were upregulated. The histone modification hallmark of the downregulated geromiRs is significantly enriched with the geromiRs miR-15a, miR-16, miR-26a, miR-29a, miR-29b and miR-29c. We built a network of all of the geromiRs downregulated in the TME cells and their gene targets from the MirTarBase database, and we analyzed the expression of these geromiR gene targets in the TME. We found that Cercam and Spsb4, identified as prognostic markers in a few cancer types, are associated with downregulated geromiRs and are upregulated in the TME cells. [ABSTRACT FROM AUTHOR]

Published

2021

223. Discovery and Proof-of-Concept Study of Nuclease Activity as a Novel Biomarker for Breast Cancer Tumors.

Author

Hernandez, Luiza I., Araúzo-Bravo, Marcos J., Gerovska, Daniela, Solaun, Ricardo Rezola, Machado, Isabel, Balian, Alien, Botero, Juliana, Jiménez, Tania, Zuriarrain Bergara, Olaia, Larburu Gurruchaga, Lide, Urruticoechea, Ander, and Hernandez, Frank J.

Subjects

*BREAST tumor diagnosis, *CARCINOGENESIS, *BIOPSY, *DNA, *NUCLEIC acid probes, *NUCLEIC acids, *TECHNOLOGY, *TUMOR markers, *PILOT projects

Abstract

Simple Summary: A diagnostic biomarker for the detection of breast cancer remains an unmet clinical need despite decades of intensive research efforts. Herein, we describe, for the first time, the use of nuclease activity as a biomarker to discriminate between healthy and cancer biopsy samples. We have identified a panel of three nucleic acid probes able to target nucleases derived from breast cancer tumors with high sensitivity and specificity. These results are in good agreement with histopathological analysis as the diagnostic gold standard. Moreover, these findings support nuclease activity as a potential adjacent diagnostic tool and shed light on the use of nuclease activity as a detection biomarker in breast cancer. Breast cancer is one of the most common pathologies diagnosed in the clinical practice. Despite major advancements in diagnostic approaches, there is no widely accepted biomarker in the clinical practice that can diagnose breast malignancy. Confirmatory diagnosis still relies on the pathological assessment of tissue biopsies by expert pathologists. Thus, there is an unmet need for new types of biomarkers and novel platform technologies that can be easily and robustly integrated into the clinic and that can assist pathologists. Herein, we show that nuclease activity associated to malignant tumors can be used as a novel biomarker in breast cancer, which can be detected via specific degradation of nucleic acid probes. In this study we have identified a set of three chemically modified nucleic acid probes that can diagnose malignancy in biopsy samples with high accuracy (89%), sensitivity (82%) and specificity (94%). This work represents a breakthrough for the potential clinical use of nuclease activity as biomarker, which can be detected via nucleic acids probes, for the clinical diagnosis of malignancy in breast tissue biopsies. This platform technology could be readily implemented into the clinic as adjunct to histopathological diagnostic. [ABSTRACT FROM AUTHOR]

Published

2021

224. Protective Vaccination Reshapes Hepatic Response to Blood-Stage Malaria of Genes Preferentially Expressed by NK Cells.

Author

Araúzo-Bravo, Marcos J., Delic, Denis, Gerovska, Daniela, and Wunderlich, Frank

Subjects

KILLER cells, LIVER cells, VACCINATION, CELL receptors, CHROMOSOME analysis

Abstract

The role of natural killer (NK) cells in the liver as first-line post infectionem (p.i.) effectors against blood-stage malaria and their responsiveness to protective vaccination is poorly understood. Here, we investigate the effect of vaccination on NK cell-associated genes induced in the liver by blood-stage malaria of Plasmodium chabaudi. Female Balb/c mice were vaccinated at weeks 3 and 1 before being infected with 106P. chabaudi-parasitized erythrocytes. Genes preferentially expressed by NK cells were investigated in livers of vaccination-protected and non-protected mice on days 0, 1, 4, 8, and 11 p.i. using microarrays, qRT-PCR, and chromosome landscape analysis. Blood-stage malaria induces expression of specific genes in the liver at different phases of infection, i.e., Itga1 in expanding liver-resident NK (lrNK) cells, Itga2 in immigrating conventional NK (cNK) cells; Eomes and Tbx21 encoding transcription factors; Ncr1, Tnfsf10, Prf1, Gzma, Gzmb, Gzmc, Gzmm, and Gzmk encoding cytolytic effectors; natural killer gene complex (NKC)-localized genes encoding the NK cell receptors KLRG1, KLRK1, KLRAs1, 2, 5, 7, KLRD1, KLRC1, KLRC3, as well as the three receptors KLRB1A, KLRB1C, KLRB1F and their potential ligands CLEC2D and CLEC2I. Vaccination enhances this malaria-induced expression of genes, but impairs Gzmm expression, accelerates decline of Tnfsf10 and Clec2d expression, whereas it accelerates increased expression of Clec2i, taking a very similar time course as that of genes encoding plasma membrane proteins of erythroblasts, whose malaria-induced extramedullary generation in the liver is known to be accelerated by vaccination. Collectively, vaccination reshapes the response of the liver NK cell compartment to blood-stage malaria. Particularly, the malaria-induced expansion of lrNK cells peaking on day 4 p.i. is highly significantly (p < 0.0001) reduced by enhanced immigration of peripheral cNK cells, and KLRB1F:CLEC2I interactions between NK cells and erythroid cells facilitate extramedullary erythroblastosis in the liver, thus critically contributing to vaccination-induced survival of otherwise lethal blood-stage malaria of P. chabaudi. [ABSTRACT FROM AUTHOR]

Published

2020

225. Genealogy of the neurodegenerative diseases based on a meta-analysis of age-stratified incidence data.

Author

Gerovska, Daniela, Irizar, Haritz, Otaegi, David, Ferrer, Isidre, López de Munain, Adolfo, and Araúzo-Bravo, Marcos J.

Subjects

GENEALOGY, NEURODEGENERATION, META-analysis, EPIDEMIOLOGY, MATHEMATICAL models

Abstract

While the central common feature of the neurodegenerative diseases (NDs) is the accumulation of misfolded proteins, they share other pathogenic mechanisms. However, we miss an explanation for the onset of the NDs. The mechanisms through which genetic mutations, present from conception are expressed only after several decades of life are unknown. We aim to find clues on the complexity of the disease onset trigger of the different NDs expressed in the number of steps of factors related to a disease. We collected brain autopsies on diseased patients with NDs, and found a dynamic increase of the ND multimorbidity with the advance of age. Together with the observation that the NDs accumulate multiple misfolded proteins, and the same misfolded proteins are involved in more than one ND, motivated us to propose a model for a genealogical tree of the NDs. To collect the dynamic data needed to build the tree, we used a Big-data approach that searched automatically epidemiological datasets for age-stratified incidence of NDs. Based on meta-analysis of over 400 datasets, we developed an algorithm that checks whether a ND follows a multistep model, finds the number of steps necessary for the onset of each ND, finds the number of common steps with other NDs and the number of specific steps of each ND, and builds with these findings a parsimony tree of the genealogy of the NDs. The tree discloses three types of NDs: the stem NDs with less than 3 steps; the trunk NDs with 5 to 6 steps; and the crown NDs with more than 7 steps. The tree provides a comprehensive understanding of the relationship across the different NDs, as well as a mathematical framework for dynamic adjustment of the genealogical tree of the NDs with the appearance of new epidemiological studies and the addition of new NDs to the model, thus setting the basis for the search for the identity and order of these steps. Understanding the complexity, or number of steps, of factors related to disease onset trigger is important prior deciding to study single factors for a multiple steps disease. [ABSTRACT FROM AUTHOR]

Published

2020

226. An Integrative Omics Approach Reveals Involvement of BRCA1 in Hepatic Metastatic Progression of Colorectal Cancer.

Author

Gerovska, Daniela, Larrinaga, Gorka, Solano-Iturri, Jon Danel, Márquez, Joana, García Gallastegi, Patricia, Khatib, Abdel-Majid, Poschmann, Gereon, Stühler, Kai, Armesto, María, Lawrie, Charles H., Badiola, Iker, and Araúzo-Bravo, Marcos J.

Subjects

ANIMAL experimentation, CANCER patients, COLON tumors, GENE expression, LIVER tumors, METASTASIS, MICE, POLYMERASE chain reaction, RECTUM tumors, T-test (Statistics), GENOMICS, BRCA genes, DISEASE progression, TISSUE arrays

Abstract

(1) Background & Aims: The roles of different cells in the tumor microenvironment (TME) are critical to the metastatic process. The phenotypic transformation of the liver cells is one of the most important stages of the hepatic metastasis progression of colorectal cancer (CRC). Our aim was to identify the major molecules (i.e., genes, miRNAs and proteins) involved in this process. (2) Methods: We isolated and performed whole-genome analysis of gene, miRNA, and protein expression in three types of liver cells (Ito cells, Kupffer cells, and liver sinusoidal endothelial cells) from the TME of a murine model of CRC liver metastasis. We selected the statistically significant differentially expressed molecules using the Student's t-test with Benjamini-Hochberg correction and performed functional statistically-significant enrichment analysis of differentially expressed molecules with hypergeometric distribution using the curated collection of molecular signatures, MSigDB. To build a gene-miRNA-protein network centered in Brca1, we developed a software package (miRDiana) that collects miRNA targets from the union of the TargetScan, MicroCosm, mirTarBase, and miRWalk databases. This was used to search for miRNAs targeting Brca1. We validated the most relevant miRNAs with real-time quantitative PCR. To investigate BRCA1 protein expression, we built tissue microarrays (TMAs) from hepatic metastases of 34 CRC patients. (3) Results: Using integrated omics analyses, we observed that the Brca1 gene is among the twenty transcripts simultaneously up-regulated in all three types of TME liver cells during metastasis. Further analysis revealed that Brca1 is the last BRCA1-associated genome surveillance complex (BASC) gene activated in the TME. We confirmed this finding in human reanalyzing transcriptomics datasets from 184 patients from non-tumor colorectal tissue, primary colorectal tumor and colorectal liver metastasis of the GEO database. We found that the most probable sequence of cell activation during metastasis is Endothelial→Ito→Kupffer. Immunohistochemical analysis of human liver metastases showed the BRCA1 protein was co-localized in Ito, Kupffer, and endothelial cells in 81.8% of early or synchronous metastases. However, in the greater part of the metachronous liver metastases, this protein was not expressed in any of these TME cells. (4) Conclusions: These results suggest a possible role of the co-expression of BRCA1 in Ito, Kupffer, and sinusoidal endothelial cells in the early occurrence of CRC liver metastases, and point to BRCA1 as a potential TME biomarker. [ABSTRACT FROM AUTHOR]

Published

2020

227. Human Dermal Fibroblast Subpopulations Are Conserved across Single-Cell RNA Sequencing Studies

Author

Ascensión, Alex M., Fuertes-Álvarez, Sandra, Ibañez-Solé, Olga, Izeta, Ander, and Araúzo-Bravo, Marcos J.

Abstract

On the basis of their differential location within the dermis and of discrete changes in gene and protein expression, two major fibroblast subtypes (papillary and reticular) have traditionally been distinguished. In the last 3 years, a number of research groups have begun to address transcriptomic heterogeneity of human skin cells at the single-cell level by determining mRNA levels of expressed genes through single-cell RNA sequencing technologies. However, the outcome of single-cell RNA sequencing studies is thus far confusing. Very little overlap was found in fibroblast subpopulations, which also varied in number and composition in each dataset. After a careful reappraisal of the transcriptomic data of 13,823 human adult dermal fibroblasts that have been sequenced to date, we show that fibroblasts may robustly be assigned to three major types (axes A‒C), which in turn are composed of 10 major subtypes (clusters), which we denominated A1‒A4, B1 and B2, and C1‒C4. These computationally determined axes and clusters represent the major fibroblast types and subtypes in adult healthy human skin across different datasets, accounting for 92.5% of the sequenced fibroblasts. They thus may provide the basis to improve our understanding of dermal homeostasis and cellular function at the transcriptomic level.

Published

2021

228. rhBMP-2 induces terminal differentiation of human bone marrow mesenchymal stromal cells only by synergizing with other signals.

Author

Kathami, Neda, Moreno-Vicente, Carolina, Martín, Pablo, Vergara-Arce, Jhonatan A., Ruiz-Hernández, Raquel, Gerovska, Daniela, Aransay, Ana M., Araúzo-Bravo, Marcos J., Camarero-Espinosa, Sandra, and Abarrategi, Ander

Subjects

*MESENCHYMAL stem cells, *ADIPOGENESIS, *CARTILAGE regeneration, *BONE morphogenetic proteins, *BONE regeneration, *BONE growth, *CHONDROGENESIS

Abstract

Background: Recombinant human bone morphogenetic protein 2 (rhBMP-2) and human bone marrow mesenchymal stromal cells (hBM-MSCs) have been thoroughly studied for research and translational bone regeneration purposes. rhBMP-2 induces bone formation in vivo, and hBM-MSCs are its target, bone-forming cells. In this article, we studied how rhBMP-2 drives the multilineage differentiation of hBM-MSCs both in vivo and in vitro. Methods: rhBMP-2 and hBM-MSCs were tested in an in vivo subcutaneous implantation model to assess their ability to form mature bone and undergo multilineage differentiation. Then, the hBM-MSCs were treated in vitro with rhBMP-2 for short-term or long-term cell-culture periods, alone or in combination with osteogenic, adipogenic or chondrogenic media, aiming to determine the role of rhBMP-2 in these differentiation processes. Results: The data indicate that hBM-MSCs respond to rhBMP-2 in the short term but fail to differentiate in long-term culture conditions; these cells overexpress the rhBMP-2 target genes DKK1, HEY-1 and SOST osteogenesis inhibitors. However, in combination with other differentiation signals, rhBMP-2 acts as a potentiator of multilineage differentiation, not only of osteogenesis but also of adipogenesis and chondrogenesis, both in vitro and in vivo. Conclusions: Altogether, our data indicate that rhBMP-2 alone is unable to induce in vitro osteogenic terminal differentiation of hBM-MSCs, but synergizes with other signals to potentiate multiple differentiation phenotypes. Therefore, rhBMP-2 triggers on hBM-MSCs different specific phenotype differentiation depending on the signalling environment. [ABSTRACT FROM AUTHOR]

Published

2024

229. Gene expression of the liver of vaccination-protected mice in response to early patent infections of <italic>Plasmodium chabaudi</italic> blood-stage malaria.

Author

Al-Quraishy, Saleh, Dkhil, Mohamed A., Al-Shaebi, E. M., Abdel-Baki, Abdel-Azeem S., Araúzo-Bravo, Marcos J., Delic, Denis, and Wunderlich, Frank

Subjects

MALARIA, VACCINATION, GENE expression, ERYTHROCYTES, ERYTHROPOIESIS

Abstract

Background: The role of the liver for survival of blood-stage malaria is only poorly understood. In experimental blood-stage malaria with Plasmodium chabaudi, protective vaccination induces healing and, thus, survival of otherwise lethal infections. This model is appropriate to study the role of the liver in vaccination-induced survival of blood-stage malaria. Methods: Female Balb/c mice were vaccinated with a non-infectious vaccine consisting of plasma membranes isolated in the form of erythrocyte ghosts from P. chabaudi-infected erythrocytes at week 3 and week 1 before infection with P. chabaudi blood-stage malaria. Gene expression microarrays and quantitative real-time PCR were used to investigate the response of the liver, in terms of expression of mRNA and long intergenic non-coding (linc)RNA, to vaccination-induced healing infections and lethal P. chabaudi malaria at early patency on day 4 post infection, when parasitized erythrocytes begin to appear in peripheral blood. Results: In vaccination-induced healing infections, 23 genes were identified to be induced in the liver by > tenfold at p < 0.01. More than one-third were genes known to be involved in erythropoiesis, such as Kel, Rhag, Ahsp, Ermap, Slc4a1, Cldn13 Gata1, and Gfi1b. Another group of > tenfold expressed genes include genes involved in natural cytotoxicity, such as those encoding killer cell lectin-like receptors Klrb1a, Klrc3, Klrd1, the natural cytotoxicity-triggering receptor 1 Ncr1, as well as the granzyme B encoding Gzmb. Additionally, a series of genes involved in the control of cell cycle and mitosis were identified: Ccnb1, Cdc25c, Ckap2l were expressed > tenfold only in vaccination-protected mice, and the expression of 22 genes was at least 100% higher in vaccination-protected mice than in non-vaccinated mice. Furthermore, distinct lincRNA species were changed by > threefold in livers of vaccination-protected mice, whereas lethal malaria induced different lincRNAs. Conclusion: The present data suggest that protective vaccination accelerates the malaria-induced occurrence of extramedullary erythropoiesis, generation of liver-resident cytotoxic cells, and regeneration from malaria-induced injury in the liver at early patency, which may be critical for final survival of otherwise lethal blood-stage malaria of P. chabaudi. [ABSTRACT FROM AUTHOR]

Published

2018

230. Physical Interventions Restore Physical Frailty and the Expression of CXCL-10 and IL-1β Inflammatory Biomarkers in Old Individuals and Mice.

Author

Marcos-Pérez, Diego, Cruces-Salguero, Sara, García-Domínguez, Esther, Araúzo-Bravo, Marcos J., Gómez-Cabrera, Mari Carmen, Viña, José, Vergara, Itziar, and Matheu, Ander

Subjects

*OLDER people, *FRAILTY, *MICE, *BIOMARKERS, *EXERCISE therapy, *RECEIVER operating characteristic curves

Abstract

Background: Frailty is a geriatric syndrome associated with negative health outcomes that represents a dynamic condition with a potential of reversibility after physical exercise interventions. Typically, inflammatory and senescence markers are increased in frail individuals. However, the impact that physical exercise exerts on inflammatory and senescence biomarkers remains unknown. We assessed the effect of physical intervention in old individuals and mice and determined the expression of inflammatory and senescence markers. Methods: Twelve elderly individuals were enrolled from a primary care setting to a 3-month intervention. Frailty was measured by SPPB and the expression of biomarkers by cytokine array and RT-qPCR. In addition, 12 aged C57BL/6 mice completed an intervention, and inflammation and senescence markers were studied. Results: The physical intervention improved the SPPB score, reducing frail and pre-frail individuals. This was correlated with a reduction in several pro-inflammatory biomarkers such as IL-6, CXCL-1, CXCL-10, IL-1β, IL-7, GM-CSF as well as p16INK4a and p21CIP1 senescence markers. Otherwise, the levels of anti-inflammatory biomarker IL-4 were significantly increased. Moreover, the physical intervention in mice also improved their functional capacity and restored the expression of inflammatory (Il-1β, Cxcl-10, Il-6, and Cxcl-1) and senescence (p21Cip1) markers. Additionally, PLSDA and ROC curve analysis revealed CXCL-10 and IL-1β to be the biomarkers of functional improvement in both cohorts. Conclusions: Our results showed that a physical intervention improves physical frailty, and reverses inflammation and senescence biomarkers comprising CXCL-10 and IL-1β. [ABSTRACT FROM AUTHOR]

Published

2024

231. Establishment of feeder-free culture system for human induced pluripotent stem cell on DAS nanocrystalline graphene.

Author

Lee, Hyunah, Nam, Donggyu, Choi, Jae-Kyung, Araúzo-Bravo, Marcos J., Kwon, Soon-Yong, Zaehres, Holm, Lee, Taehee, Park, Chan Young, Kang, Hyun-Wook, Schöler, Hans R., and Kim, Jeong Beom

Published

2016

232. A distinct circular DNA profile intersects with proteome changes in the genotoxic stress-related hSOD1G93A model of ALS.

Author

Gerovska, Daniela, Noer, Julie B., Qin, Yating, Ain, Quratul, Januzi, Donjetë, Schwab, Matthias, Witte, Otto W., Araúzo-Bravo, Marcos J., and Kretz, Alexandra

Subjects

*CIRCULAR DNA, *PROTEOMICS, *EXTRACHROMOSOMAL DNA, *AMYOTROPHIC lateral sclerosis, *CIRCULAR RNA, *ADENYLATE cyclase, *G protein coupled receptors

Abstract

Background: Numerous genes, including SOD1, mutated in familial and sporadic amyotrophic lateral sclerosis (f/sALS) share a role in DNA damage and repair, emphasizing genome disintegration in ALS. One possible outcome of chromosomal instability and repair processes is extrachromosomal circular DNA (eccDNA) formation. Therefore, eccDNA might accumulate in f/sALS with yet unknown function. Methods: We combined rolling circle amplification with linear DNA digestion to purify eccDNA from the cervical spinal cord of 9 co-isogenic symptomatic hSOD1G93A mutants and 10 controls, followed by deep short-read sequencing. We mapped the eccDNAs and performed differential analysis based on the split read signal of the eccDNAs, referred as DifCir, between the ALS and control specimens, to find differentially produced per gene circles (DPpGC) in the two groups. Compared were eccDNA abundances, length distributions and genic profiles. We further assessed proteome alterations in ALS by mass spectrometry, and matched the DPpGCs with differentially expressed proteins (DEPs) in ALS. Additionally, we aligned the ALS-specific DPpGCs to ALS risk gene databases. Results: We found a six-fold enrichment in the number of unique eccDNAs in the genotoxic ALS-model relative to controls. We uncovered a distinct genic circulome profile characterized by 225 up-DPpGCs, i.e., genes that produced more eccDNAs from distinct gene sequences in ALS than under control conditions. The inter-sample recurrence rate was at least 89% for the top 6 up-DPpGCs. ALS proteome analyses revealed 42 corresponding DEPs, of which 19 underlying genes were itemized for an ALS risk in GWAS databases. The up-DPpGCs and their DEP tandems mainly impart neuron-specific functions, and gene set enrichment analyses indicated an overrepresentation of the adenylate cyclase modulating G protein pathway. Conclusions: We prove, for the first time, a significant enrichment of eccDNA in the ALS-affected spinal cord. Our triple circulome, proteome and genome approach provide indication for a potential importance of certain eccDNAs in ALS neurodegeneration and a yet unconsidered role as ALS biomarkers. The related functional pathways might open up new targets for therapeutic intervention. [ABSTRACT FROM AUTHOR]

Published

2023

233. Single-cell RNA sequencing of human non-hematopoietic bone marrow cells reveals a unique set of inter-species conserved biomarkers for native mesenchymal stromal cells.

Author

Fiévet, Loïc, Espagnolle, Nicolas, Gerovska, Daniela, Bernard, David, Syrykh, Charlotte, Laurent, Camille, Layrolle, Pierre, De Lima, Julien, Justo, Arthur, Reina, Nicolas, Casteilla, Louis, Araúzo-Bravo, Marcos J., Naji, Abderrahim, Pagès, Jean-Christophe, and Deschaseaux, Frédéric

Subjects

*BONE marrow cells, *RNA sequencing, *STROMAL cells, *COMPUTATIONAL biology, *STEM cell niches, *ADIPOGENESIS

Abstract

Background: Native bone marrow (BM) mesenchymal stem/stromal cells (BM-MSCs) participate in generating and shaping the skeleton and BM throughout the lifespan. Moreover, BM-MSCs regulate hematopoiesis by contributing to the hematopoietic stem cell niche in providing critical cytokines, chemokines and extracellular matrix components. However, BM-MSCs contain a heterogeneous cell population that remains ill-defined. Although studies on the taxonomy of native BM-MSCs in mice have just started to emerge, the taxonomy of native human BM-MSCs remains unelucidated. Methods: By using single-cell RNA sequencing (scRNA-seq), we aimed to define a proper taxonomy for native human BM non-hematopoietic subsets including endothelial cells (ECs) and mural cells (MCs) but with a focal point on MSCs. To this end, transcriptomic scRNA-seq data were generated from 5 distinct BM donors and were analyzed together with other transcriptomic data and with computational biology analyses at different levels to identify, characterize and classify distinct native cell subsets with relevant biomarkers. Results: We could ascribe novel specific biomarkers to ECs, MCs and MSCs. Unlike ECs and MCs, MSCs exhibited an adipogenic transcriptomic pattern while co-expressing genes related to hematopoiesis support and multilineage commitment potential. Furthermore, by a comparative analysis of scRNA-seq of BM cells from humans and mice, we identified core genes conserved in both species. Notably, we identified MARCKS, CXCL12, PDGFRA, and LEPR together with adipogenic factors as archetypal biomarkers of native MSCs within BM. In addition, our data suggest some complex gene nodes regulating critical biological functions of native BM-MSCs together with a preferential commitment toward an adipocyte lineage. Conclusions: Overall, our taxonomy for native BM non-hematopoietic compartment provides an explicit depiction of gene expression in human ECs, MCs and MSCs at single-cell resolution. This analysis helps enhance our understanding of the phenotype and the complexity of biological functions of native human BM-MSCs. [ABSTRACT FROM AUTHOR]

Published

2023

234. Corrigendum: Reprogramming to pluripotency is an ancient trait of vertebrate Oct4 and Pou2 proteins.

Author

Tapia, Natalia, Reinhardt, Peter, Duemmler, Annett, Wu, Guangming, Araúzo-Bravo, Marcos J., Esch, Daniel, Greber, Boris, Cojocaru, Vlad, Alexander Rascon, Cynthia, Tazaki, Akira, Kump, Kevin, Voss, Randal, Tanaka, Elly M., and Schöler, Hans R.

Published

2013

235. Human adult germline stem cells in question.

Author

Ko, Kinarm, Araúzo-Bravo, Marcos J., Tapia, Natalia, Kim, Julee, Qiong Lin, Bernemann, Christof, Han, Dong Wook, Gentile, Luca, Reinhardt, Peter, Greber, Boris, Schneider, Rebekka K., Kliesch, Sabine, Zenke, Martin, and Schöler, Hans R.

Subjects

*GERM cells, *EMBRYONIC stem cell research, *STEM cell research, *EMBRYOLOGY, *HUMAN cloning, *FIBROBLASTS, *GENE expression, *GENETIC regulation, *MOLECULAR genetics

Abstract

Arising from: S. Conrad et al. 456, 344–349 (2008); Conrad et al. replyConrad et al. have generated human adult germline stem cells (haGSCs) from human testicular tissue, which they claim have similar pluripotent properties to human embryonic stem cells (hESCs). Here we investigate the pluripotency of haGSCs by using global gene-expression analysis based on their gene array data and comparing the expression of pluripotency marker genes in haGSCs and hESCs, and in haGSCs and human fibroblast samples derived from different laboratories, including our own. We find that haGSCs and fibroblasts have a similar gene-expression profile, but that haGSCs and hESCs do not. The pluripotency of Conrad and colleagues’ haGSCs is therefore called into question. [ABSTRACT FROM AUTHOR]

Published

2010

236. ReadOut: structure-based calculation of direct and indirect readout energies and specificities for protein–DNA recognition.

Author

Ahmad, Shandar, Kono, Hidetoshi, Araúzo-Bravo, Marcos J., and Sarai, Akinori

Published

2006

237. Oct4-induced oligodendrocyte progenitor cells enhance functional recovery in spinal cord injury model.

Author

Kim, Jeong Beom, Lee, Hyunah, Araúzo‐Bravo, Marcos J, Hwang, Kyujin, Nam, Donggyu, Park, Myung Rae, Zaehres, Holm, Park, Kook In, and Lee, Seok‐Jin

Subjects

*OLIGODENDROGLIA, *SPINAL cord injuries, *ASTROCYTES, *LABORATORY mice, *REGENERATIVE medicine

Abstract

The generation of patient-specific oligodendrocyte progenitor cells (OPCs) holds great potential as an expandable cell source for cell replacement therapy as well as drug screening in spinal cord injury or demyelinating diseases. Here, we demonstrate that induced OPCs (iOPCs) can be directly derived from adult mouse fibroblasts by Oct4-mediated direct reprogramming, using anchorageindependent growth to ensure high purity. Homogeneous iOPCs exhibit typical small-bipolar morphology, maintain their selfrenewal capacity and OPC marker expression for more than 31 passages, share high similarity in the global gene expression profile to wild-type OPCs, and give rise to mature oligodendrocytes and astrocytes in vitro and in vivo. Notably, transplanted iOPCs contribute to functional recovery in a spinal cord injury (SCI) model without tumor formation. This study provides a simple strategy to generate functional self-renewing iOPCs and yields insights for the in-depth study of demyelination and regenerative medicine. [ABSTRACT FROM AUTHOR]

Published

2015

238. Induced Endothelial Cell-Integrated Liver Assembloids Promote Hepatic Maturation and Therapeutic Effect on Cholestatic Liver Fibrosis.

Author

Nam, Donggyu, Park, Myung Rae, Lee, Hyunah, Bae, Sung Chul, Gerovska, Daniela, Araúzo-Bravo, Marcos J., Zaehres, Holm, Schöler, Hans R., and Kim, Jeong Beom

Subjects

*HEPATIC fibrosis, *LIVER cells, *STEM cell transplantation, *SOMATIC cells, *TREATMENT effectiveness, *PLURIPOTENT stem cells

Abstract

The transplantation of pluripotent stem cell (PSC)-derived liver organoids has been studied to solve the current donor shortage. However, the differentiation of unintended cell populations, difficulty in generating multi-lineage organoids, and tumorigenicity of PSC-derived organoids are challenges. However, direct conversion technology has allowed for the generation lineage-restricted induced stem cells from somatic cells bypassing the pluripotent state, thereby eliminating tumorigenic risks. Here, liver assembloids (iHEAs) were generated by integrating induced endothelial cells (iECs) into the liver organoids (iHLOs) generated with induced hepatic stem cells (iHepSCs). Liver assembloids showed enhanced functional maturity compared to iHLOs in vitro and improved therapeutic effects on cholestatic liver fibrosis animals in vivo. Mechanistically, FN1 expressed from iECs led to the upregulation of Itgα5/β1 and Hnf4α in iHEAs and were correlated to the decreased expression of genes related to hepatic stellate cell activation such as Lox and Spp1 in the cholestatic liver fibrosis animals. In conclusion, our study demonstrates the possibility of generating transplantable iHEAs with directly converted cells, and our results evidence that integrating iECs allows iHEAs to have enhanced hepatic maturation compared to iHLOs. [ABSTRACT FROM AUTHOR]

Published

2022

239. ART culture conditions change the probability of mouse embryo gestation through defined cellular and molecular responses.

Author

Schwarzer, Caroline, Esteves, Telma Cristina, Araúzo-Bravo, Marcos J., Le Gac, Séverine, Nordhoff, Verena, Schlatt, Stefan, and Boiani, Michele

Subjects

*MICE embryology, *EMBRYO implantation, *EMBRYO transfer, *PHENOTYPES, *DEVELOPMENTAL biology, *BLASTOCYST, *BIRTH weight, *GENE expression

Abstract

STUDY QUESTION Do different human ART culture protocols prepare embryos differently for post-implantation development? SUMMARY ANSWER The type of ART culture protocol results in distinct cellular and molecular phenotypes in vitro at the blastocyst stage as well as subsequently during in vivo development. WHAT IS KNOWN ALREADY It has been reported that ART culture medium affects human development as measured by gestation rates and birthweights. However, due to individual variation across ART patients, it is not possible as yet to pinpoint a cause–effect relationship between choice of culture medium and developmental outcome. STUDY DESIGN, SIZE, DURATION In a prospective study, 13 human ART culture protocols were compared two at a time against in vivo and in vitro controls. Superovulated mouse oocytes were fertilized in vivo using outbred and inbred mating schemes. Zygotes were cultured in medium or in the oviduct and scored for developmental parameters 96h later. Blastocysts were either analyzed or transferred into fosters to measure implantation rates and fetal development. In total, 5735 fertilized mouse oocytes, 1732 blastocysts, 605 fetuses and 178 newborns were examined during the course of the study (December 2010–December 2011). PARTICIPANTS/MATERIALS, SETTING, METHODS Mice of the B6C3F1, C57Bl/6 and CD1 strains were used as oocyte donors, sperm donors and recipients for embryo transfer, respectively. In vivo fertilized B6C3F1 oocytes were allowed to cleave in 13 human ART culture protocols compared with mouse oviduct and optimized mouse medium (KSOM(aa)). Cell lineage composition of resultant blastocysts was analyzed by immunostaining and confocal microscopy (trophectoderm, Cdx2; primitive ectoderm, Nanog; primitive endoderm, Sox17), global gene expression by microarray analysis, and rates of development to midgestation and to term. MAIN RESULTS AND THE ROLE OF CHANCE Mouse zygotes show profound variation in blastocyst (49.9–91.9%) and fetal (15.7–62.0%) development rates across the 13 ART culture protocols tested (R2= 0.337). Two opposite protocols, human tubal fluid/multiblast (high fetal rate) and ISM1/ISM2 (low fetal rate), were analyzed in depth using outbred and inbred fertilization schemes. Resultant blastocysts show imbalances of cell lineage composition; culture medium-specific deviation of gene expression (38 genes, ≥4-fold) compared with the in vivo pattern; and produce different litter sizes (P ≤ 0.0076) after transfer into fosters. Confounding effects of subfertility, life style and genetic heterogeneity are reduced to a minimum in the mouse model compared with ART patients. LIMITATIONS, REASONS FOR CAUTION This is an animal model study. Mouse embryo responses to human ART media are not transferable 1-to-1 to human development due to structural and physiologic differences between oocytes of the two species. WIDER IMPLICATIONS OF THE FINDINGS Our data promote awareness that human ART culture media affect embryo development. Effects reported here in the mouse may apply also in human, because no ART medium presently available on the market has been optimized for human embryo development. The mouse embryo assay (MEA), which requires ART media to support at least 80% blastocyst formation, is in need of reform and should be extended to include post-implantation development. STUDY FUNDING/COMPETING INTEREST(S) This work was supported by the Deutsche Forschungsgemeinschaft (BO 2540/4-1 to M.B. and SCHL 394/9 to S.S.) and by the Nederlandse Organisatie voor Wetenschappelijk Onderzoek (no. 63-258 to S.L.G.). No competing interests. TRIAL REGISTRATION NUMBER Not applicable. [ABSTRACT FROM AUTHOR]

Published

2012

240. A balanced Oct4 interactome is crucial for maintaining pluripotency.

Author

Dong Han, Guangming Wu, Rui Chen, Drexler, Hannes C. A., MacCarthy, Caitlin M., Kee-Pyo Kim, Kenjiro Adachi, Gerovska, Daniela, Mavrommatis, Lampros, Bedzhov, Ivan, Araúzo-Bravo, Marcos J., and Schöler, Hans R.

Subjects

*RIBOSOMAL DNA, *GENE targeting, *COMPUTATIONAL biology, *DEVELOPMENTAL biology, *PROTEOMICS, *GREEN fluorescent protein, *TETRAPLOIDY

Abstract

The article discusses how a balanced Oct4 maintains pluripotency in vitro. It shows how Oct4 linker mutant embryonic stem cells (ESCs) resulted in impaired ESC self-renewal and early development of embryo from decreasing expression of self-renewal genes and increasing expression of differentiation genes. Also noted is the finding that how Oct4 exerted its function remains unclear.

Published

2022

241. Triku: a feature selection method based on nearest neighbors for single-cell data.

Author

M Ascensión, Alex, Ibáñez-Solé, Olga, Inza, Iñaki, Izeta, Ander, and Araúzo-Bravo, Marcos J

Subjects

*FEATURE selection, *K-nearest neighbor classification, *CELL populations, *GENE ontology

Abstract

Background Feature selection is a relevant step in the analysis of single-cell RNA sequencing datasets. Most of the current feature selection methods are based on general univariate descriptors of the data such as the dispersion or the percentage of zeros. Despite the use of correction methods, the generality of these feature selection methods biases the genes selected towards highly expressed genes, instead of the genes defining the cell populations of the dataset. Results Triku is a feature selection method that favors genes defining the main cell populations. It does so by selecting genes expressed by groups of cells that are close in the k -nearest neighbor graph. The expression of these genes is higher than the expected expression if the k -cells were chosen at random. Triku efficiently recovers cell populations present in artificial and biological benchmarking datasets, based on adjusted Rand index, normalized mutual information, supervised classification, and silhouette coefficient measurements. Additionally, gene sets selected by triku are more likely to be related to relevant Gene Ontology terms and contain fewer ribosomal and mitochondrial genes. Conclusion Triku is developed in Python 3 and is available at https://github.com/alexmascension/triku. [ABSTRACT FROM AUTHOR]

Published

2022

242. Therapeutic HNF4A mRNA attenuates liver fibrosis in a preclinical model.

Author

Yang, Taihua, Poenisch, Marion, Khanal, Rajendra, Hu, Qingluan, Dai, Zhen, Li, Ruomeng, Song, Guangqi, Yuan, Qinggong, Yao, Qunyan, Shen, Xizhong, Taubert, Richard, Engel, Bastian, Jaeckel, Elmar, Vogel, Arndt, Falk, Christine S., Schambach, Axel, Gerovska, Daniela, Araúzo-Bravo, Marcos J., Vondran, Florian W.R., and Cantz, Tobias

Subjects

*HEPATOCYTE nuclear factors, *ANIMAL models in research, *MESSENGER RNA, *CIRRHOSIS of the liver, *GENE expression profiling

Abstract

Therapeutic targeting of injuries that require transient restoration of proteins by mRNA delivery is an attractive approach that, until recently, has remained poorly explored. In this study, we examined the therapeutic utility of mRNA delivery for liver fibrosis and cirrhosis. Specifically, we aimed to demonstrate the therapeutic efficacy of human hepatocyte nuclear factor alpha (HNF4A) mRNA in mouse models of fibrosis and cirrhosis. We investigated restoration of hepatocyte functions by HNF4A mRNA transfection in vitro , and analyzed the attenuation of liver fibrosis and cirrhosis in multiple mouse models, by delivering hepatocyte-targeted biodegradable lipid nanoparticles (LNPs) encapsulating HNF4A mRNA. To identify potential mechanisms of action, we performed microarray-based gene expression profiling, single-cell RNA sequencing, and chromatin immunoprecipitation. We used primary liver cells and human liver buds for additional functional validation. Expression of HNF4A mRNA led to restoration of the metabolic activity of fibrotic primary murine and human hepatocytes in vitro. Repeated in vivo delivery of LNP-encapsulated HNF4A mRNA induced a robust inhibition of fibrogenesis in 4 independent mouse models of hepatotoxin- and cholestasis-induced liver fibrosis. Mechanistically, we discovered that paraoxonase 1 is a direct target of HNF4A and it contributes to HNF4A-mediated attenuation of liver fibrosis via modulation of liver macrophages and hepatic stellate cells. Collectively, our findings provide the first direct preclinical evidence of the applicability of HNF4A mRNA therapeutics for the treatment of fibrosis in the liver. Liver fibrosis and cirrhosis remain unmet medical needs and contribute to high mortality worldwide. Herein, we take advantage of a promising therapeutic approach to treat liver fibrosis and cirrhosis. We demonstrate that restoration of a key gene, HNF4A, via mRNA encapsulated in lipid nanoparticles decreased injury in multiple mouse models of fibrosis and cirrhosis. Our study provides proof-of-concept that mRNA therapy is a promising strategy for reversing liver fibrosis and cirrhosis. [Display omitted] • Restoration of HNF4A via mRNA delivery improves functions of fibrotic primary hepatocytes from both mice and humans. • The mRNA encapsulated in lipid nanoparticles can be delivered into hepatocytes of the fibrotic liver. • Lipid nanoparticle-mediated HNF4A mRNA delivery ameliorates fibrosis and cirrhosis in different chronic liver injury models. • Paraoxonase 1, a therapeutic target of HNF4A , contributes to anti-fibrotic effects of HNF4A. • HNF4A mRNA delivery affects macrophage infiltration and polarization as well as hepatic stellate cell activation. [ABSTRACT FROM AUTHOR]

Published

2021

243. Author Correction: PR-LncRNA signature regulates glioma cell activity through expression of SOX factors.

Author

Torres-Bayona, Sergio, Aldaz, Paula, Auzmendi-Iriarte, Jaione, Saenz-Antoñanzas, Ander, Garcia, Idoia, Arrazola, Mariano, Gerovska, Daniela, Undabeitia, Jose, Querejeta, Arrate, Egaña, Larraitz, Villanúa, Jorge, Ruiz, Irune, Sarasqueta, Cristina, Urculo, Enrique, Araúzo-Bravo, Marcos J., Huarte, Maite, Samprón, Nicolas, and Matheu, Ander

Subjects

*GLIOMAS, *REVERSE transcriptase polymerase chain reaction

Abstract

(E) Quantification of mRNA levels of p21cip, Bax and SerpinB5 in cells transfected with ASOs for PR-LncRNA1 and 10 and compared to cells with a control ASO (F) Expression of PR-LncRNA 1,5 and 10 in indicated conventional cell lines (U87-MG, U251, U373 and A172) and glioma stem cells (GNS166, GNS179 and GB1) (G) Quantification of primary oncospheres formed in ASO-transfected cells after 10 days in culture (n = 3). (H) Quantification of number of secondary oncospheres generated from disaggregating primary oncospheres in ASO-transfected and control cells. [Extracted from the article]

Published

2022

244. Reiterative infusions of MSCs improve pediatric osteogenesis imperfecta eliciting a pro‐osteogenic paracrine response: TERCELOI clinical trial.

Author

Infante, Arantza, Gener, Blanca, Vázquez, Miguel, Olivares, Nerea, Arrieta, Arantza, Grau, Gema, Llano, Isabel, Madero, Luis, Bueno, Ana Maria, Sagastizabal, Belén, Gerovska, Daniela, Araúzo‐Bravo, Marcos J, Astigarraga, Itziar, and Rodríguez, Clara I.

Subjects

*OSTEOGENESIS imperfecta, *CLINICAL trials, *CHILD patients, *CELLULAR therapy, *BONE cells

Abstract

Background: Osteogenesis imperfecta (OI) is a rare genetic disease characterized by bone fragility, with a wide range in the severity of clinical manifestations. The majority of cases are due to mutations in the COL1A1 or COL1A2 genes, which encode type I collagen. Mesenchymal stem cells (MSCs), as the progenitors of the osteoblasts, the main type I collagen secreting cell type in the bone, have been proposed and tested as an innovative therapy for OI with promising but transient outcomes. Methods: To overcome the short‐term effect of MSCs therapy, we performed a phase I clinical trial based on reiterative infusions of histocompatible MSCs, administered in a 2.5‐year period, in two pediatric patients affected by severe and moderate OI. The aim of this study was to assess the safety and effectiveness of this cell therapy in nonimmunosuppressed OI patients. The host response to MSCs was studied by analyzing the sera from OI patients, collected before, during, and after the cell therapy. Results: We first demonstrated that the sequential administration of MSCs was safe and improved the bone parameters and quality of life of OI patients along the cell treatment plus 2‐year follow‐up period. Moreover, the study of the mechanism of action indicated that MSCs therapy elicited a pro‐osteogenic paracrine response in patients, especially noticeable in the patient affected by severe OI. Conclusions: Our results demonstrate the feasibility and potential of reiterative MSCs infusion for two pediatric OI and highlight the paracrine response shown by patients as a consequence of MSCs treatment. [ABSTRACT FROM AUTHOR]

Published

2021

245. Signal Integration and Transcriptional Regulation of the Inflammatory Response Mediated by the GM-/M-CSF Signaling Axis in Human Monocytes

Author

Juan José Lozano, Ana M. Aransay, Aroa Baragaño Raneros, Marcos J. Araúzo-Bravo, José Luis Lavín, Carlos López-Larrea, Beatriz Suarez-Alvarez, Marta Ruiz-Ortega, Covadonga Huidobro, Ana Belen Sanz, Ramon M. Rodriguez, Angel L. Corbí, Paula Díaz Bulnes, Jose Ramón Vidal-Castiñeira, Cristina Martin-Martin, Amaya Puig-Kröger, Monika González, Alex M. Ascensión, UAM. Departamento de Medicina, Instituto de Investigación Sanitaria Fundación Jiménez Díaz (IIS-FJD), Instituto de Salud Carlos III, Principado de Asturias, European Commission, Red Española de Investigación Renal, Ministerio de Economía y Competitividad (España), Rodríguez, Ramón M, Lavín, José L., Ascensión, Alex M., Lozano, Juan José, Raneros, Aroa B., Vidal-Castiñeira, José Ramón, Huidobro, Covadonga, Ruiz-Ortega, Marta, Puig-Kröger, Amaya, Corbí, Angel L., Araúzo-Bravo, Marcos J., Aransay, Ana M., López-Larrea, Carlos, Rodríguez, Ramón M [0000-0002-6770-5123], Lavín, José L. [0000-0003-0914-3211], Ascensión, Alex M. [0000-0002-0013-3052], Lozano, Juan José [0000-0001-7613-3908], Raneros, Aroa B. [0000-0002-8264-0276], Vidal-Castiñeira, José Ramón [0000-0003-4877-3566], Huidobro, Covadonga [0000-0001-9823-3846], Ruiz-Ortega, Marta [0000-0002-1495-6535], Puig-Kröger, Amaya [0000-0003-2943-9757], Corbí, Angel L.[0000-0003-1980-5733], Araúzo-Bravo, Marcos J. [0000-0002-3264-464X], Aransay, Ana M. [0000-0002-0013-3052], and López-Larrea, Carlos [0000-0001-9988-1730]

Subjects

Adult, 0301 basic medicine, MAPK/ERK pathway, Plasticity, Macrophage, Medicina, Biology, Gm-Csf, Monocyte, Monocytes, General Biochemistry, Genetics and Molecular Biology, Phosphatidylinositol 3-Kinases, 03 medical and health sciences, 0302 clinical medicine, Polarization, medicine, Transcriptional regulation, Humans, Epigenetics, Autocrine signalling, Receptor, lcsh:QH301-705.5, Cells, Cultured, Inflammation, Mitogen-Activated Protein Kinase 1, Mitogen-Activated Protein Kinase 3, Macrophage Colony-Stimulating Factor, Granulocyte-Macrophage Colony-Stimulating Factor, Janus Kinase 2, DNA Methylation, M-Csf, Chromatin, Cell biology, 030104 developmental biology, medicine.anatomical_structure, lcsh:Biology (General), Differentiation, DNA methylation, 030217 neurology & neurosurgery, Signal Transduction

Abstract

19 p.-6 fig., In recent years, the macrophage colony-stimulating factor (M-CSF) and granulocyte-macrophage CSF (GM-CSF) cytokines have been identified as opposing regulators of the inflammatory program. However, the two cytokines are simultaneously present in the inflammatory milieu, and it is not clear how cells integrate these signals. In order to understand the regulatory networks associated with the GM/M-CSF signaling axis, we analyzed DNA methylation in human monocytes. Our results indicate that GM-CSF induces activation of the inflammatory program and extensive DNA methylation changes, while M-CSF-polarized cells are in a less differentiated state. This inflammatory program is mediated via JAK2 associated with the GM-CSF receptor and the downstream extracellular signal-regulated (ERK) signaling. However, PI3K signaling is associated with a negative regulatory loop of the inflammatory program and M-CSF autocrine signaling in GM-CSF-polarized monocytes. Our findings describe the regulatory networks associated with the GM/M-CSF signaling axis and how they contribute to the establishment of the inflammatory program associated with monocyte activation., This work was supported by grants from the Plan Nacional de I+D+I 2013– 2016 ISCIII (Institute of Health Carlos III; PI16/01318, PI17/01244, PI17/ 0119, PI16/1900, and PI19/00184); the Gobierno del Principado de Asturias; the PCTI-Plan de Ciencia, Tecnología e Innovación 2013-2017 (grant IDI/ 2018/144); FEDER ‘‘Funding Program of the European Union’’; the Red Española de Investigación Renal (REDinREN) (RD16/0009/0020, RD016/0009/002, and RD016/0009/001); the Agencia Estatal de Investigación (AEI) (ayuda Juan de la Cierva-Incorporaciόn; IJCI-2017-33347 to R.M.R.); and the Instituto de Salud Carlos III (Contratos Sara Borrell; CD16/00033 to C.H.). CIC bioGUNE support was provided by the Basque Department of Industry, Tourism and Trade (Etortek and Elkartek programs), the Innovation Technology Department of Bizkaia County, the CIBERehd Network, and Spanish MINECO, the Severo Ochoa Excellence Accreditation (SEV-2016-0644).

Published

2019

246. Basic Hallmarks of Urothelial Cancer Unleashed in Primary Uroepithelium by Interference with the Epigenetic Master Regulator ODC1.

Author

Erichsen, Lars, Seifert, Hans-Helge, Schulz, Wolfgang A., Hoffmann, Michèle J., Niegisch, Günter, Araúzo-Bravo, Marcos J., Bendhack, Marcelo L., Poyet, Cedric, Hermanns, Thomas, Beermann, Agnes, Hassan, Mohamed, Theis, Lisa, Mahmood, Wardah, and Santourlidis, Simeon

Subjects

*TRANSITIONAL cell carcinoma, *DNA methylation, *GENE expression, *CANCER invasiveness, *APOPTOSIS

Abstract

Urothelial carcinoma (UC) is a common disease causing significant morbidity and mortality as well as considerable costs for health systems. Extensive aberrant methylation of DNA is broadly documented in early UC, contributing to genetic instability, altered gene expression and tumor progression. However the triggers initiating aberrant methylation are unknown. Recently we discovered that several genes encoding key enzymes of methyl group and polyamine metabolism, including Ornithine Decarboxylase 1 (ODC1), are affected by DNA methylation in early stage UC. In this study, we investigated the hypothesis that these epigenetic alterations act in a feed-forward fashion to promote aberrant DNA methylation in UC. We demonstrate that siRNA-mediated knockdown of ODC1 expression elicits genome-wide LINE-1 demethylation, induction of LINE-1 transcripts and double-strand DNA breaks and decreases viability in primary cultured uroepithelial cells. Similarly, following siRNA-mediated knockdown of ODC1, UC cells undergo double-strand DNA breaks and apoptosis. Collectively, our findings provide evidence that ODC1 gene hypermethylation could be a starting point for the onset of genome-wide epigenetic aberrations in urothelial carcinogenesis. Furthermore, LINE-1 induction enabled by ODC1 interference provides a new experimental model to study mechanisms and consequences of LINE-1 activation in the etiology and progression of UC as well as presumably other cancers. [ABSTRACT FROM AUTHOR]

Published

2020

247. Vaccination accelerates hepatic erythroblastosis induced by blood-stage malaria.

Author

Delic, Denis, Wunderlich, Frank, Al-Quraishy, Saleh, Abdel-Baki, Abdel-Azeem S., Dkhil, Mohamed A., and Araúzo-Bravo, Marcos J.

Subjects

*VACCINATION, *MALARIA, *ERYTHROCYTES, *GENE expression, *RETICULOCYTES

Abstract

Background: Vaccination induces survival of otherwise lethal blood-stage infections of the experimental malaria Plasmodium chabaudi. Blood-stage malaria induces extramedullary erythropoiesis in the liver. This study investigates how vaccination affects the course of malaria-induced expression of erythrocytic genes in the liver. Methods: Female Balb/c mice were vaccinated at week 3 and week 1 before challenging with 106P. chabaudi-parasitized erythrocytes. The non-infectious vaccine consisted of erythrocyte ghosts isolated from P. chabaudi-infected erythrocytes. Gene expression microarrays and quantitative real-time PCR were used to compare mRNA expression of different erythrocytic genes in the liver of vaccination-protected and non-protected mice during infections on days 0, 1, 4, 8, and 11 p.i. Results: Global transcriptomics analyses reveal vaccination-induced modifications of malaria-induced increases in hepatic gene expression on days 4 and 11 p.i. On these days, vaccination also alters hepatic expression of the erythropoiesis-involved genes Ermap, Kel, Rhd, Rhag, Slc4a1, Gypa, Add2, Ank1, Epb4.1, Epb4.2, Epb4.9, Spta1, Sptb, Tmod1, Ahsp, Acyp1, Gata1, Gfi1b, Tal1, Klf1, Epor, and Cldn13. In vaccination-protected mice, expression of these genes, except Epb4.1, is significantly higher on day 4 p.i. than in un-protected non-vaccinated mice, reaches maximal expression at peak parasitaemia on day 8 p.i., and is slowed down or even decreased towards the end of crisis phase on day 11 p.i.. After day 1 p.i., Epor expression takes about the same course as that of the other erythroid genes. Hepatic expression of Epo, however, is delayed in both vaccinated and non-vaccinated mice for the first 4 days p.i. and is maximal at significantly higher levels in vaccinated mice on day 8 p.i., before declining towards the end of crisis phase on day 11 p.i. Conclusion: The present data indicate that vaccination accelerates malaria-induced erythroblastosis in the liver for 1–2 days. This may contribute to earlier replenishment of peripheral red blood cells by liver-derived reticulocytes, which may favour final survival of otherwise lethal blood-stage malaria, since reticulocytes are not preferred as host cells by P. chabaudi. [ABSTRACT FROM AUTHOR]

Published

2020

248. Enhanced Ex Vivo Generation of Erythroid Cells from Human Induced Pluripotent Stem Cells in a Simplified Cell Culture System with Low Cytokine Support.

Author

Bernecker, Claudia, Ackermann, Mania, Lachmann, Nico, Rohrhofer, Lisa, Zaehres, Holm, Araúzo-Bravo, Marcos J., van den Akker, Emile, Schlenke, Peter, and Dorn, Isabel

Subjects

*PLURIPOTENT stem cells, *INDUCED pluripotent stem cells, *STEM cell factor, *CELL culture, *ERYTHROCYTES, *CELLS

Abstract

Red blood cell (RBC) differentiation from human induced pluripotent stem cells (hiPSCs) offers great potential for developmental studies and innovative therapies. However, ex vivo erythropoiesis from hiPSCs is currently limited by low efficiency and unphysiological conditions of common culture systems. Especially, the absence of a physiological niche may impair cell growth and lineage-specific differentiation. We here describe a simplified, xeno- and feeder-free culture system for prolonged RBC generation that uses low numbers of supporting cytokines [stem cell factor (SCF), erythropoietin (EPO), and interleukin 3 (IL-3)] and is based on the intermediate development of a "hematopoietic cell forming complex (HCFC)." From this HCFC, CD43+ hematopoietic cells (purity >95%) were continuously released into the supernatant and could be collected repeatedly over a period of 6 weeks for further erythroid differentiation. The released cells were mainly CD34+/CD45+ progenitors with high erythroid colony-forming potential and CD36+ erythroid precursors. A total of 1.5 × 107 cells could be harvested from the supernatant of one six-well plate, showing 100- to 1000-fold amplification during subsequent homogeneous differentiation into GPA+ erythroid cells. Mean enucleation rates near 40% (up to 60%) further confirmed the potency of the system. These benefits may be explained by the generation of a niche within the HCFC that mimics the spatiotemporal signaling of the physiological microenvironment in which erythropoiesis occurs. Compared to other protocols, this method provides lower complexity, less cytokine and medium consumption, higher cellular output, and better enucleation. In addition, slight modifications in cytokine addition shift the system toward continuous generation of granulocytes and macrophages. [ABSTRACT FROM AUTHOR]

Published

2019

249. PR-LncRNA signature regulates glioma cell activity through expression of SOX factors.

Author

Torres-Bayona, Sergio, Aldaz, Paula, Auzmendi-Iriarte, Jaione, Saenz-Antoñanzas, Ander, Garcia, Idoia, Arrazola, Mariano, Gerovska, Daniela, Undabeitia, Jose, Querejeta, Arrate, Egaña, Larraitz, Villanúa, Jorge, Ruiz, Irune, Sarasqueta, Cristina, Urculo, Enrique, Araúzo-Bravo, Marcos J., Huarte, Maite, Samprón, Nicolas, and Matheu, Ander

Published

2018

250. Corrigendum to 'Therapeutic HNF4A mRNA attenuates liver fibrosis in a preclinical model' [J Hepatol (2021) 1420-1433].

Author

Yang, Taihua, Poenisch, Marion, Khanal, Rajendra, Hu, Qingluan, Dai, Zhen, Li, Ruomeng, Song, Guangqi, Yuan, Qinggong, Yao, Qunyan, Shen, Xizhong, Taubert, Richard, Engel, Bastian, Jaeckel, Elmar, Vogel, Arndt, Falk, Christine S., Schambach, Axel, Gerovska, Daniela, Araúzo-Bravo, Marcos J., Vondran, Florian W.R., and Cantz, Tobias

Subjects

*HEPATIC fibrosis, *ANIMAL models in research, *MESSENGER RNA

Published

2022