Your search keyword '"Araúzo-Bravo, Marcos J."' showing total 256 results

251. RNA-sequencing from single nuclei.

Author

Grindberg, Rashel V., Yee-Greenbaum, Joyclyn L., McConnell, Michael J., Novotny, Mark, O'Shaughnessy, Andy L., Lambert, Georgina M., Araúzo-Bravo, Marcos J., Jun Lee, Fishman, Max, Robbins, Gillian E., Xiaoying Lin, Venepally, Pratap, Badger, Jonathan H., Galbraith, David W., Gage, Fred H., and Lasken, Roger S.

Subjects

*NUCLEOTIDE sequence, *ANTISENSE DNA, *MESSENGER RNA, *GENE mapping, *PROGENITOR cells

Abstract

It has recently been established that synthesis of double-stranded cDNA can be done from a single cell for use in DNA sequencing. Global gene expression can be quantified from the number of reads mapping to each gene, and mutations and mRNA splicing variants determined from the sequence reads. Here we demonstrate that this method of transcriptomic analysis can be done using the extremely low levels of mRNA in a single nucleus, isolated from a mouse neural progenitor cell line and from dissected hippocampal tissue. This method is characterized by excellent coverage and technical reproducibility. On average, more than 16,000 of the 24,057 mouse protein-coding genes were detected from single nuclei, and the amount of gene-expression variation was similar when measured between single nuclei and single cells. Several major advantages of the method exist: first, nuclei, compared with whole cells, have the advantage of being easily isolated from complex tissues and organs, such as those in the CNS. Second, the method can be widely applied to eukaryotic species, including those of different kingdoms. The method also provides insight into regulatory mechanisms specific to the nucleus. Finally, the method enables dissection of regulatory events at the single-cell level; pooling of 10 nuclei or 10 cells obscures some of the variability measured in transcript levels, implying that single nuclei and cells will be extremely useful in revealing the physiological state and interconnectedness of gene regulation in a manner that avoids the masking inherent to conventional transcriptomics using bulk cells or tissues. [ABSTRACT FROM AUTHOR]

Published

2013

252. Metabolic control of adult neural stem cell activity by Fasn-dependent lipogenesis.

Author

Knobloch, Marlen, Braun, Simon M. G., Zurkirchen, Luis, von Schoultz, Carolin, Zamboni, Nicola, Araúzo-Bravo, Marcos J., Kovacs, Werner J., Karalay, Özlem, Suter, Ueli, Machado, Raquel A. C., Roccio, Marta, Lutolf, Matthias P., Semenkovich, Clay F., and Jessberger, Sebastian

Subjects

*PROGENITOR cells, *STEM cells, *LIPID synthesis, *FATTY acids, *METABOLIC regulation

Abstract

Mechanisms controlling the proliferative activity of neural stem and progenitor cells (NSPCs) have a pivotal role to ensure life-long neurogenesis in the mammalian brain. How metabolic programs are coupled with NSPC activity remains unknown. Here we show that fatty acid synthase (Fasn), the key enzyme of de novo lipogenesis, is highly active in adult NSPCs and that conditional deletion of Fasn in mouse NSPCs impairs adult neurogenesis. The rate of de novo lipid synthesis and subsequent proliferation of NSPCs is regulated by Spot14, a gene previously implicated in lipid metabolism, that we found to be selectively expressed in low proliferating adult NSPCs. Spot14 reduces the availability of malonyl-CoA, which is an essential substrate for Fasn to fuel lipogenesis. Thus, we identify here a functional coupling between the regulation of lipid metabolism and adult NSPC proliferation. [ABSTRACT FROM AUTHOR]

Published

2013

253. FGF signalling inhibits neural induction in human embryonic stem cells.

Author

Greber, Boris, Coulon, Philippe, Zhang, Miao, Moritz, Sören, Frank, Stefan, Müller-Molina, Arnoldo José, Araúzo-Bravo, Marcos J, Han, Dong Wook, Pape, Hans-Christian, and Schöler, Hans R

Subjects

*FIBROBLAST growth factors, *HUMAN embryonic stem cells, *CELLULAR signal transduction, *PROMOTERS (Genetics), *GENETIC regulation, *NEURONS, *CELL differentiation

Abstract

Human embryonic stem cells (hESCs) can exit the self-renewal programme, through the action of signalling molecules, at any given time and differentiate along the three germ layer lineages. We have systematically investigated the specific roles of three signalling pathways, TGF?/SMAD2, BMP/SMAD1, and FGF/ERK, in promoting the transition of hESCs into the neuroectoderm lineage. In this context, inhibition of SMAD2 and ERK signalling served to cooperatively promote exit from hESC self-renewal through the rapid downregulation of NANOG and OCT4. In contrast, inhibition of SMAD1 signalling acted to maintain SOX2 expression and prevent non-neural differentiation via HAND1. Inhibition of FGF/ERK upregulated OTX2 that subsequently induced the neuroectodermal fate determinant PAX6, revealing a novel role for FGF2 in indirectly repressing PAX6 in hESCs. Combined inhibition of the three pathways hence resulted in highly efficient neuroectoderm formation within 4 days, and subsequently, FGF/ERK inhibition promoted rapid differentiation into peripheral neurons. Our study assigns a novel, biphasic role to FGF/ERK signalling in the neural induction of hESCs, which may also have utility for applications requiring the rapid and efficient generation of peripheral neurons. [ABSTRACT FROM AUTHOR]

Published

2011

254. Abstract #10 PR-LncRNA Signature May 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, Miranda-Acosta, Yeiris, Osorio, Enrique, Urculo, Enrique, Araúzo-Bravo, Marcos J., Huarte, Maite, Samprón, Nicolás, and Matheu, Ander

Subjects

*GLIOMAS, *RNA

Published

2022

255. Proprotein convertases blockage up-regulates specifically metallothioneins coding genes in human colon cancer stem cells.

Author

Gerovska, Daniela, García-Gallastegi, Patricia, Descarpentrie, Jean, Crende, Olatz, Casado-Andrés, María, Martín, Ander, Eguia, Jokin, Khatib, Abdel-Majid, Araúzo-Bravo, Marcos J., and Badiola, Iker

Subjects

*PROPROTEIN convertases, *CANCER stem cells, *COLON cancer, *HUMAN genes, *GENETIC code

Abstract

Despite continuous exertion made, colon cancer still represents a major health problem and its incidence continues being high worldwide. There is growing evidence in support of the cancer stem cells (CSCs) being central in the initiation of this cancer, and CSCs have been the focus of various studies for the identification of new ways of treatment. Lately, the proprotein convertases (PCs) were reported to regulate the maturation and expression of various molecules involved in the malignant phenotype of colon cancer cells, however, the identity of the molecules regulated by these serine proteases in CSCs is unknown. In this study, we used the general PCs inhibitor, the Decanoyl-RVKR-chloromethylketone (Decanoyl-RVKR-CMK) that inhibits all the PCs found in the secretory pathway, and analyzed its effect on CSCs using RNA-seq analysis. Remarkably, from the only 9 up-regulated genes in the human SW620-derived sphere-forming cells, we identified 7 of the 11 human metallothioneins, all of them localized on chromosome 16, and zinc related proteins as downstream effectors of the PCs. The importance of these molecules in the regulation of cell proliferation, differentiation and chemoresistance, and their reported potential tumor suppressor role and loss in colon cancer patients associated with worse prognosis, suggests that targeting PCs in the control of the malignant phenotype of CSCs is a new potential therapeutic strategy in colon cancer. • Proprotein convertases (PCs) play an important role in colon cancer stem cells (CSCs). • PCs regulate very specifically the expression of metallothioneins in colon CSCs. • Targeting PCs may constitute a novel therapy against colon CSCs. [ABSTRACT FROM AUTHOR]

Published

2021

256. Molecular Tracing of mES Cell Derivation from Blastocysts in The Presence of TGF-β and ERK Signaling Inhibitors.

Author

Totonchi, M., Hassani, S. N., Tapia, N., Sharifi-Zarchi, A., Araúzo-Bravo, Marcos J., Greber, B., Sabour, D., Gourabi, H., Schöler, Hans R., and Baharvand, H

Subjects

*EMBRYONIC stem cell research, *BLASTOCYST, *LABORATORY mice, *GENE expression, *HEREDITY

Abstract

Objective: Mouse embryonic stem (ES) cells are derived from inner cell mass of 3.5-day blastocysts and thought to exist in a naïve state of pluripotency. During ICM-ES cell course, a normal developmental program is perpetuated as an infinite self-renewal and pluripotency in vitro. In a recent study, we have shown the highly efficient and reproducible generation of ES cells from different murine strains in the presence of TGF-β and ERK signaling inhibitors (R2i). Materials and Methods: To explore the mechanism underlying the acquisition of ground state pluripotency, we performed global gene expression profiling using illumine BeadChip array during the derivation of mouse ES cells. Results: We observed differential patterns of expression for genes involved in gene regulatory network of pluripotency, metabolism, and regulation of cell morphology. Conclusion: This study provides a deeper understanding of mechanisms underlying naïve ES cell derivation and pluripotency regulatory circuitry [ABSTRACT FROM AUTHOR]

Published

2013