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9 results on '"Pérez-Campo, Flor Maria"'

3. Methylation of the sclerostin (SOST) gene in serum free DNA: A new bone biomarker?

Author

Instituto de Salud Carlos III, European Commission, Real, Álvaro del, Pérez-Campo, Flor Maria, Pérez-Núñez, María I., Sañudo, Carolina, Santurtún, Ana, García-Ibarbia, Carmen, Garcia-Unzueta, M. Teresa, Fraga, Mario F., Fernández, Agustín F., Valero, M. Carmen, Laguna, Esther, Riancho, José A., Instituto de Salud Carlos III, European Commission, Real, Álvaro del, Pérez-Campo, Flor Maria, Pérez-Núñez, María I., Sañudo, Carolina, Santurtún, Ana, García-Ibarbia, Carmen, Garcia-Unzueta, M. Teresa, Fraga, Mario F., Fernández, Agustín F., Valero, M. Carmen, Laguna, Esther, and Riancho, José A.

Abstract

[Introduction]: Cell-free DNA (cfDNA) methylation is an important molecular biomarker, which provides information about the regulation of gene expression in the tissue of origin. There is an inverse correlation between SOST gene methylation and expression levels., [Methods]: We analyzed SOST promoter methylation in cfDNA from serum, and compared it with DNA from blood and bone cells from patients undergoing hip replacement surgery. We also measured cfDNA methylation in 28 osteoporotic patients at baseline and after 6 months of antiosteoporotic therapy (alendronate, teriparatide, or denosumab)., [Results]: SOST gene promoter methylation levels in serum cfDNA were very similar to those of bone-derived DNA (79% ± 12% and 82% ± 7%, respectively), but lower than methylation levels in blood cell DNA (87% ± 10%). Furthermore, there was a positive correlation between an individual's SOST DNA methylation values in serum and bone. No differences in either serum sclerostin levels or SOST methylation were found after 6-months of therapy with antiosteoporotic drugs., [Conclusions]: Our results suggest that serum cfDNA does not originate from blood cells, but rather from bone. However, since we did not confirm changes in this marker after therapy with bone-active drugs, further studies examining the correlation between bone changes of SOST expression and SOST methylation in cfDNA are needed to confirm its potential role as a bone biomarker.

Published
2021

5. Differential analysis of genome-wide methylation and gene expression in mesenchymal stem cells of patients with fractures and osteoarthritis

Author

Instituto de Salud Carlos III, European Commission, Instituto de Investigación Marqués de Valdecilla, Real, Álvaro del, Pérez-Campo, Flor Maria, Fernández, Agustín F., Sañudo, Carolina, Ibarbia, Carmen G., Pérez-Núñez, María I., Van Criekinge, Wim, Braspenning, Maarten, Alonso, María A., Fraga, Mario F., Riancho, José A., Instituto de Salud Carlos III, European Commission, Instituto de Investigación Marqués de Valdecilla, Real, Álvaro del, Pérez-Campo, Flor Maria, Fernández, Agustín F., Sañudo, Carolina, Ibarbia, Carmen G., Pérez-Núñez, María I., Van Criekinge, Wim, Braspenning, Maarten, Alonso, María A., Fraga, Mario F., and Riancho, José A.

Abstract

Insufficient activity of the bone-forming osteoblasts leads to low bone mass and predisposes to fragility fractures. The functional capacity of human mesenchymal stem cells (hMSCs), the precursors of osteoblasts, may be compromised in elderly individuals, in relation with the epigenetic changes associated with aging. However, the role of hMSCs in the pathogenesis of osteoporosis is still unclear. Therefore, we aimed to characterize the genome-wide methylation and gene expression signatures and the differentiation capacity of hMSCs from patients with hip fractures. We obtained hMSCs from the femoral heads of women undergoing hip replacement due to hip fractures and controls with hip osteoarthritis. DNA methylation was explored with the Infinium 450K bead array. Transcriptome analysis was done by RNA sequencing. The genomic analyses revealed that most differentially methylated loci were situated in genomic regions with enhancer activity, distant from gene bodies and promoters. These regions were associated with differentially expressed genes enriched in pathways related to hMSC growth and osteoblast differentiation. hMSCs from patients with fractures showed enhanced proliferation and upregulation of the osteogenic drivers RUNX2/OSX. Also, they showed some signs of accelerated methylation aging. When cultured in osteogenic medium, hMSCs from patients with fractures showed an impaired differentiation capacity, with reduced alkaline phosphatase activity and poor accumulation of a mineralized matrix. Our results point to 2 areas of potential interest for discovering new therapeutic targets for low bone mass disorders and bone regeneration: the mechanisms stimulating MSCs proliferation after fracture and those impairing their terminal differentiation.

Published
2017

6. Age-associated hydroxymethylation in human bone-marrow mesenchymal stem cells

Author

Instituto de Salud Carlos III, Fundación Ramón Areces, Principado de Asturias, Comunidad de Madrid, European Commission, Fundación Científica Asociación Española Contra el Cáncer, Obra Social Cajastur, Toraño, Estela G., Bayón, Gustavo F., Real, Álvaro del, Sierra, Marta I., García, María G., Carella, Antonella, Belmonte, Thalia, Urdinguio, Rocío G., Cubillo, Isabel, García-Castro, Javier, Delgado-Calle, Jesús, Pérez-Campo, Flor Maria, Riancho, José A., Fraga, Mario F., Fernández, Agustín F., Instituto de Salud Carlos III, Fundación Ramón Areces, Principado de Asturias, Comunidad de Madrid, European Commission, Fundación Científica Asociación Española Contra el Cáncer, Obra Social Cajastur, Toraño, Estela G., Bayón, Gustavo F., Real, Álvaro del, Sierra, Marta I., García, María G., Carella, Antonella, Belmonte, Thalia, Urdinguio, Rocío G., Cubillo, Isabel, García-Castro, Javier, Delgado-Calle, Jesús, Pérez-Campo, Flor Maria, Riancho, José A., Fraga, Mario F., and Fernández, Agustín F.

Abstract

[Background]: Age-associated changes in genomic DNA methylation have been primarily attributed to 5-methylcytosine (5mC). However, the recent discovery of 5-hydroxymethylcytosine (5hmC) suggests that this epigenetic mark might also play a role in the process. [Methods]: Here, we analyzed the genome-wide profile of 5hmc in mesenchymal stem cells (MSCs) obtained from bone-marrow donors, aged 2-89 years. [Results]: We identified 10,685 frequently hydroxymethylated CpG sites in MSCs that were, as in other cell types, significantly associated with low density CpG regions, introns, the histone posttranslational modification H3k4me1 and enhancers. Study of the age-associated changes to 5hmC identified 785 hyper- and 846 hypo-hydroxymethylated CpG sites in the MSCs obtained from older individuals. [Conclusions]: DNA hyper-hydroxymethylation in the advanced-age group was associated with loss of 5mC, which suggests that, at specific CpG sites, this epigenetic modification might play a role in DNA methylation changes during lifetime. Since bone-marrow MSCs have many clinical applications, and the fact that the epigenomic alterations in this cell type associated with aging identified in this study could have associated functional effects, the age of donors should be taken into account in clinical settings.

Published
2016

7. Early growth response 1 (EGR-1) is a transcriptional regulator of mitochondrial carrier homolog 1 (MTCH 1)/presenilin 1-associated protein (PSAP)

Author

Nelo Bazán, María Alejandra, Latorre, P., Bolado-Carrancio, A., Pérez-Campo, Flor Maria, Echenique, Pablo, Rodríguez-Rey, J.C., Carrodeguas, José A., Nelo Bazán, María Alejandra, Latorre, P., Bolado-Carrancio, A., Pérez-Campo, Flor Maria, Echenique, Pablo, Rodríguez-Rey, J.C., and Carrodeguas, José A.

Abstract

Attempts to elucidate the cellular function of MTCH1 (mitochondrial carrier homolog 1) have not yet rendered a clear insight into the function of this outer mitochondrial membrane protein. Classical biochemical and cell biology approaches have not produced the expected outcome. In vitro experiments have indicated a likely role in the regulation of cell death by apoptosis, and its reported interaction with presenilin 1 suggests a role in the cellular pathways in which this membrane protease participates, nevertheless in vivo data are missing. In an attempt to identify cellular pathways in which this protein might participate, we have studied its promoter looking for transcriptional regulators. We have identified several putative binding sites for EGR-1 (Early growth response 1; a protein involved in growth, proliferation and differentiation), in the proximal region of the MTCH1 promoter. Chromatin immunoprecipitation showed an enrichment of these sequences in genomic DNA bound to EGR-1 and transient overexpression of EGR-1 in cultured HEK293T cells induces an increase of endogenous MTCH1 levels. We also show that MTCH1 levels increase in response to treatment of cells with doxorubicin, an apoptosis inducer through DNA damage. The endogenous levels of MTCH1 decrease when EGR-1 levels are lowered by RNA interference. Our results indicate that EGR-1 is a transcriptional regulator of MTCH1 and give some clues about the cellular processes in which MTCH1 might participate.

Published
2016

8. Non-conventional yeasts as hosts for heterologous protein production

Author

Domínguez Olavarri, Ángel, Fermiñán, Encarnación, Sánchez, Manuel, González, Francisco J., Pérez-Campo, Flor Maria, García, Susana, Herrero, Ana B., San Vicente, Avelino, Cabello, Juan, Prado, Marciano, Choupina, Altino, Fernández-Lago, Luis, and López, M. Carmen

Subjects
ComputingMilieux_COMPUTERSANDSOCIETY, GeneralLiterature_MISCELLANEOUS
Abstract

Creative Commons-Attribution-Non-Commercial-Share Alike 3.0 Spain.-- et al., Yeasts are an attractive group of lower eukaryotic microorganisms, some of which are used in several industrial processes that include brewing, baking and the production of a variety of biochemical compounds. More recently, yeasts have been developed as host organisms for the production of foreign (heterologous) proteins. Saccharomyces ccrevisiae has usually been the yeast of choice, but an increasing number of alternative non-Saccharomyces yeasts has now become accessible for modern molecular genetics techniques. Some of them exhibit certain favourable traits such as high-level secretion or very strong and tightly regulated promoters, offering significant advantages over traditional bakers' yeast. In the present work, the current status of Kluyveromyces lactis, Yarrowia lipolytica, Hansennla polymorpha and Picliia pastoris (the best-known alternative yeast systems) is reviewed. The advantages and limitations of these systems are discussed in relation to S. cerevisiae. © Springer-Verlag 1998., This work was partially supported by grants from the CICYT (BIO92-0304 and BIO 95-0518) and EU (BIO4-CT96-0003).

Published
1998

9. Non-conventional yeasts as hosts for heterologous protein production

Author

Dominguez, Ángel, Fermiñán, E., Sánchez, Manuel, González, Francisco M., Pérez-Campo, Flor Maria, García, Susana, Herrero, Ana B., San Vicente, Avelino, Cabello, Juan, Prado, Marciano, Iglesias, Francisco J., Choupina, Altino, Burguillo, Francisco J., Fernández-Lago, Luis, and López, Maria Carmen

Subjects
Yarrowia lipolytica, Hansenula polymorpha, Pichia pastoris, Kluyveromyces lactis, Heterologous protein
Abstract

Yeasts are an attractive group of lower eukaryotic microorganisms, some of which are used in several industrial processes that include brewing, baking and the production of a variety of biochemical compounds. More recently, yeasts have been developed as host organisms for the production of foreign (heterologous) proteins. Saccharomyces cerevisiae has usually been the yeast of choice, but an increasing number of alternative non-Saccharomyces yeasts has now become accessible for modern molecular genetics techniques. Some of them exhibit certain favourable traits such as high-level secretion or very strong and tightly regulated promoters, offering significant advantages over traditional bakers' yeast. In the present work, the current status of Kluyveromyces lactis, Yarrowia lipolytica, Hansenula polymorpha and Pichia pastoris (the best-known alternative yeast systems) is reviewed. The advantages and limitations of these systems are discussed in relation to S. cerevisiae. Spanish Society for Microbiology

Published
1998

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