Your search keyword '"Juana Maria Flores"' showing total 10 results

1. The microbiota metabolite, phloroglucinol, confers long-term protection against inflammation

Author

Janire Castelo, Sarai Araujo-Aris, Diego Barriales, Samuel Tanner Pasco, Iratxe Seoane, Ainize Peña-Cearra, Ainhoa Palacios, Carolina Simó, Virginia Garcia-Cañas, Muthita Khamwong, Itziar Martín-Ruiz, Monika Gonzalez-Lopez, Laura Barcena, José Ezequiel Martín Rodríguez, José Luís Lavín, Naiara Gutiez, Raquel Marcos, Estibaliz Atondo, Arantza Cobela, Laura Plaza-Vinuesa, Adrián Plata, Eneko Santos-Fernandez, Alberto Fernandez-Tejada, Mari Carmen Villarán, José Miguel Mancheño, Juana Maria Flores, Ana María Aransay, Aize Pellón, Blanca de las Rivas, Rosario Muñoz, Abelardo Margolles, Patricia Ruas-Madiedo, Maria Victoria Selma, Mercedes Gomez de Agüero, Leticia Abecia, Juan Anguita, and Héctor Rodríguez

Subjects

Microbiota byproducts, phenolic derivatives, central trained immunity, inflammation, Diseases of the digestive system. Gastroenterology, RC799-869

Abstract

Phloroglucinol is a key byproduct of gut microbial metabolism that has been widely used as a treatment for irritable bowel syndrome. Here, we demonstrate that phloroglucinol tempers macrophage responses to pro-inflammatory pathogens and stimuli. In vivo, phloroglucinol administration decreases gut and extraintestinal inflammation in murine models of inflammatory bowel disease and systemic infection. The metabolite induces modest modifications in the microbiota. However, the presence of an active microbiota is required to preserve its anti-inflammatory activity. Remarkably, the protective effect of phloroglucinol lasts partially at least 6 months. Single-cell transcriptomic analysis of bone marrow progenitors demonstrates the capacity of the metabolite to induce long-lasting innate immune training in hematopoietic lineages, at least partially through the participation of the receptor and transcription factor, aryl hydrocarbon receptor (AhR). Phloroglucinol induces alterations in metabolic and epigenetic pathways that are most prevalent in upstream progenitors as hallmarks of central trained immunity. These data identify phloroglucinol as a dietary-derived compound capable of inducing central trained immunity and modulating the response of the host to inflammatory insults.

Published

2024

2. The mTOR pathway is necessary for survival of mice with short telomeres

Author

Iole Ferrara-Romeo, Paula Martinez, Sarita Saraswati, Kurt Whittemore, Osvaldo Graña-Castro, Lydia Thelma Poluha, Rosa Serrano, Elena Hernandez-Encinas, Carmen Blanco-Aparicio, Juana Maria Flores, and Maria A. Blasco

Subjects

Science

Abstract

Telomerase deficiency leads to age-related diseases and shortened lifespan, while inhibition of the mTOR pathway delays aging. Here, the authors show that inhibition of mTORC1 signaling shortens the lifespan of telomerase deficient mice.

Published

2020

3. Therapeutic effects of telomerase in mice with pulmonary fibrosis induced by damage to the lungs and short telomeres

Author

Juan Manuel Povedano, Paula Martinez, Rosa Serrano, Águeda Tejera, Gonzalo Gómez-López, Maria Bobadilla, Juana Maria Flores, Fátima Bosch, and Maria A Blasco

Subjects

telomerase, telomeres, pulmonary fibrosis, gene therapy, AAV9, Medicine, Science, Biology (General), QH301-705.5

Abstract

Pulmonary fibrosis is a fatal lung disease characterized by fibrotic foci and inflammatory infiltrates. Short telomeres can impair tissue regeneration and are found both in hereditary and sporadic cases. We show here that telomerase expression using AAV9 vectors shows therapeutic effects in a mouse model of pulmonary fibrosis owing to a low-dose bleomycin insult and short telomeres. AAV9 preferentially targets regenerative alveolar type II cells (ATII). AAV9-Tert-treated mice show improved lung function and lower inflammation and fibrosis at 1–3 weeks after viral treatment, and improvement or disappearance of the fibrosis at 8 weeks after treatment. AAV9-Tert treatment leads to longer telomeres and increased proliferation of ATII cells, as well as lower DNA damage, apoptosis, and senescence. Transcriptome analysis of ATII cells confirms downregulation of fibrosis and inflammation pathways. We provide a proof-of-principle that telomerase activation may represent an effective treatment for pulmonary fibrosis provoked or associated with short telomeres.

Published

2018

4. A mouse model uncovers LKB1 as an UVB-induced DNA damage sensor mediating CDKN1A (p21WAF1/CIP1) degradation.

Author

Rosaura Esteve-Puig, Rosa Gil, Elena González-Sánchez, Joan Josep Bech-Serra, Judit Grueso, Javier Hernández-Losa, Teresa Moliné, Francesc Canals, Berta Ferrer, Javier Cortés, Boris Bastian, Santiago Ramón Y Cajal, Juan Martín-Caballero, Juana Maria Flores, Ana Vivancos, Vicenç García-Patos, and Juan Ángel Recio

Subjects

Genetics, QH426-470

Abstract

Exposure to ultraviolet (UV) radiation from sunlight accounts for 90% of the symptoms of premature skin aging and skin cancer. The tumor suppressor serine-threonine kinase LKB1 is mutated in Peutz-Jeghers syndrome and in a spectrum of epithelial cancers whose etiology suggests a cooperation with environmental insults. Here we analyzed the role of LKB1 in a UV-dependent mouse skin cancer model and show that LKB1 haploinsufficiency is enough to impede UVB-induced DNA damage repair, contributing to tumor development driven by aberrant growth factor signaling. We demonstrate that LKB1 and its downstream kinase NUAK1 bind to CDKN1A. In response to UVB irradiation, LKB1 together with NUAK1 phosphorylates CDKN1A regulating the DNA damage response. Upon UVB treatment, LKB1 or NUAK1 deficiency results in CDKN1A accumulation, impaired DNA repair and resistance to apoptosis. Importantly, analysis of human tumor samples suggests that LKB1 mutational status could be a prognostic risk factor for UV-induced skin cancer. Altogether, our results identify LKB1 as a DNA damage sensor protein regulating skin UV-induced DNA damage response.

Published

2014

5. Gadd45g is essential for primary sex determination, male fertility and testis development.

Author

Heiko Johnen, Laura González-Silva, Laura Carramolino, Juana Maria Flores, Miguel Torres, and Jesús M Salvador

Subjects

Medicine, Science

Abstract

In humans and most mammals, differentiation of the embryonic gonad into ovaries or testes is controlled by the Y-linked gene SRY. Here we show a role for the Gadd45g protein in this primary sex differentiation. We characterized mice deficient in Gadd45a, Gadd45b and Gadd45g, as well as double-knockout mice for Gadd45ab, Gadd45ag and Gadd45bg, and found a specific role for Gadd45g in male fertility and testis development. Gadd45g-deficient XY mice on a mixed 129/C57BL/6 background showed varying degrees of disorders of sexual development (DSD), ranging from male infertility to an intersex phenotype or complete gonadal dysgenesis (CGD). On a pure C57BL/6 (B6) background, all Gadd45g(-/-) XY mice were born as completely sex-reversed XY-females, whereas lack of Gadd45a and/or Gadd45b did not affect primary sex determination or testis development. Gadd45g expression was similar in female and male embryonic gonads, and peaked around the time of sex differentiation at 11.5 days post-coitum (dpc). The molecular cause of the sex reversal was the failure of Gadd45g(-/-) XY gonads to achieve the SRY expression threshold necessary for testes differentiation, resulting in ovary and Müllerian duct development. These results identify Gadd45g as a candidate gene for male infertility and 46,XY sex reversal in humans.

Published

2013

6. Author response: Therapeutic effects of telomerase in mice with pulmonary fibrosis induced by damage to the lungs and short telomeres

Author

Juan Manuel Povedano, Paula Martinez, Rosa Serrano, Águeda Tejera, Gonzalo Gómez-López, Maria Bobadilla, Juana Maria Flores, Fátima Bosch, and Maria A Blasco

Published

2017

7. Consequences of telomere dysfunction in fibroblasts, club and basal cells for lung fibrosis development

Author

Sergio Piñeiro-Hermida, Paula Martínez, Giuseppe Bosso, Juana María Flores, Sarita Saraswati, Jane Connor, Raphael Lemaire, and Maria A. Blasco

Subjects

Science

Abstract

Telomere dysfunction induced by TRF1 depletion in fibroblasts, club and basal cells did not lead to interstitial lung fibrosis, underscoring alveolar type II cells as the relevant cell type in pulmonary fibrosis.

Published

2022

8. Borrelia burgdorferi infection induces long-term memory-like responses in macrophages with tissue-wide consequences in the heart.

Author

Diego Barriales, Itziar Martín-Ruiz, Ana Carreras-González, Marta Montesinos-Robledo, Mikel Azkargorta, Ibon Iloro, Iraide Escobés, Teresa Martín-Mateos, Estibaliz Atondo, Ainhoa Palacios, Monika Gonzalez-Lopez, Laura Bárcena, Ana R Cortázar, Diana Cabrera, Ainize Peña-Cearra, Sebastiaan M van Liempd, Juan M Falcón-Pérez, Miguel A Pascual-Itoiz, Juana María Flores, Leticia Abecia, Aize Pellon, Maria Luz Martínez-Chantar, Ana M Aransay, Alberto Pascual, Felix Elortza, Edurne Berra, José Luis Lavín, Héctor Rodríguez, and Juan Anguita

Subjects

Biology (General), QH301-705.5

Abstract

Lyme carditis is an extracutaneous manifestation of Lyme disease characterized by episodes of atrioventricular block of varying degrees and additional, less reported cardiomyopathies. The molecular changes associated with the response to Borrelia burgdorferi over the course of infection are poorly understood. Here, we identify broad transcriptomic and proteomic changes in the heart during infection that reveal a profound down-regulation of mitochondrial components. We also describe the long-term functional modulation of macrophages exposed to live bacteria, characterized by an augmented glycolytic output, increased spirochetal binding and internalization, and reduced inflammatory responses. In vitro, glycolysis inhibition reduces the production of tumor necrosis factor (TNF) by memory macrophages, whereas in vivo, it produces the reversion of the memory phenotype, the recovery of tissue mitochondrial components, and decreased inflammation and spirochetal burdens. These results show that B. burgdorferi induces long-term, memory-like responses in macrophages with tissue-wide consequences that are amenable to be manipulated in vivo.

Published

2021

9. Constitutive expression of cyclo-oxygenase 2 transgene in hepatocytes protects against liver injury.

Author

Rafael Mayoral, Belen Mollá, Juana Maria Flores, Lisardo Boscá, Marta Casado, and Paloma Martín-sanz

Subjects

TRANSGENE expression, CYCLOOXYGENASE 2, LIVER cells, LIVER injuries, PROSTAGLANDINS, LABORATORY mice, TRANSGENIC mice

Abstract

The effect of COX (cyclo-oxygenase)-2-dependent PGs (prostaglandins) in acute liver injury has been investigated in transgenic mice that express human COX-2 in hepatocytes. We have used three well-established models of liver injury: in LPS (lipopolysaccharide) injury in D-GalN (D-galactosamine)-preconditioned mice; in the hepatitis induced by ConA (concanavalin A); and in the proliferation of hepatocytes in regenerating liver after PH (partial hepatectomy). The results from the present study demonstrate that PG synthesis in hepatocytes decreases the susceptibility to LPS/D-GalN or ConA-induced liver injury as deduced by significantly lower levels of the pro-inflammatory profile and plasmatic aminotransferases in transgenic mice, an effect suppressed by COX-2-selective inhibitors. These Tg (transgenic) animals express higher levels of anti-apoptotic proteins and exhibit activation of proteins implicated in cell survival, such as Akt and AMP kinase after injury. The resistance to LPS/D-GalN-induced liver apoptosis involves an impairment of procaspase 3 and 8 activation. Protection against ConA-induced injury implies a significant reduction in necrosis. Moreover, hepatocyte commitment to start replication is anticipated in Tg mice after PH, due to the expression of PCNA (proliferating cell nuclear antigen), cyclin D1 and E. These results show, in a genetic model, that tissue-specific COX-2-dependent PGs exert an efficient protection against acute liver injury by an antiapoptotic/antinecrotic effect and by accelerated early hepatocyte proliferation. [ABSTRACT FROM AUTHOR]

Published

2008

10. Lkb1 loss promotes tumor progression of BRAF(V600E)-induced lung adenomas.

Author

Elena González-Sánchez, Juan Martín-Caballero, Juana María Flores, Javier Hernández-Losa, Ma Ángeles Montero, Javier Cortés, Roso Mares, Mariano Barbacid, and Juan A Recio

Subjects

Medicine, Science

Abstract

Aberrant activation of MAP kinase signaling pathway and loss of tumor suppressor LKB1 have been implicated in lung cancer development and progression. Although oncogenic KRAS mutations are frequent, BRAF mutations (BRAF(V600E)) are found in 3% of human non-small cell lung cancers. Contrary to KRAS mutant tumors, BRAF(V600E)-induced tumors are benign adenomas that fail to progess. Interestingly, loss of tumor supressor LKB1 coexists with KRAS oncogenic mutations and synergizes in tumor formation and progression, however, its cooperation with BRAF(V600E) oncogene is unknown. Our results describe a lung cell population in neonates mice where expression of BRAF(V600E) leads to lung adenoma development. Importantly, expression of BRAF(V600E) concomitant with the loss of only a single-copy of Lkb1, overcomes senencence-like features of BRAF(V600E)-mutant adenomas leading malignization to carcinomas. These results posit LKB1 haploinsufficiency as a risk factor for tumor progression of BRAF(V600E) mutated lung adenomas in human cancer patients.

Published

2013