Person: Sanz Ortega, Julián
Loading...
First Name
Julián
Last Name
Sanz Ortega
Affiliation
Universidad Complutense de Madrid
Faculty / Institute
Medicina
Department
Area
Anatomía Patológica
Identifiers
4 results
Search Results
Now showing 1 - 4 of 4
- Project number: 146
Item Incorporación del arte en la enseñanza de la Medicina(2021) Pelayo Alarcón, Adela; Ortega medina, Luis; López-Ibor Alcocer, María Inés; Blanco Caneda, Maria Luisa; Polo Gaitan, Maria Gracia; Diaz Mata, Leticia; Casado Fariñas, Maria Isabel; Pascual Martin, Alejandro; Saiz-Pardo Sanz, Melchor; Zamarro Sanz, María Luisa; González Morales, María Luisa; Sanz Ortega, JuliánMediante el estudio y análisis de obras de arte que manifiestan temas relacionados con la Medicina queremos enseñar al estudiante a observar y percibir, desarrollar el análisis critico, plantearse diagnósticos diferenciales en suma ejercer la medicina con mayor éxito. El análisis de estas obras de arte les ha permitido también tener una perspectiva histórica de la Medicina, enriquecer su formación humanística, aumentar la creatividad, el juicio critico y el trabajo en equipo. Item c-Met Signaling Is Essential for Mouse Adult Liver Progenitor Cells Expansion After Transforming Growth Factor-β-Induced Epithelial–Mesenchymal Transition and Regulates Cell Phenotypic Switch(Stem Cells, 2019) Almale Del Barrio, Laura; García-Álvaro, María; Martínez-Palacián, Adoración; García-Bravo, María; Lazcanoiturburu, Nerea; Addante, Annalisa; Roncero Romero, Cesáreo; Sanz Ortega, Julián; López, María de la O; Bragado Domingo, Paloma; Mikulits, Wolfgang; Factor, Valentina M.; Thorgeirsson, Snorri S.; Ignacio, Casal, J.; Segovia, José-Carlos; Rial, Eduardo; Fabregat Romero, María Isabel; Herrera González, Blanca María; Sánchez Muñoz, AranzazuAdult hepatic progenitor cells (HPCs)/oval cells are bipotential progenitors that participate in liver repair responses upon chronic injury. Recent findings highlight HPCs plasticity and importance of the HPCs niche signals to determine their fate during the regenerative process, favoring either fibrogenesis or damage resolution. Transforming growth factor-β (TGF-β) and hepatocyte growth factor (HGF) are among the key signals involved in liver regeneration and as component of HPCs niche regulates HPCs biology. Here, we characterize the TGF-β-triggered epithelial–mesenchymal transition (EMT) response in oval cells, its effects on cell fate in vivo, and the regulatory effect of the HGF/c-Met signaling. Our data show that chronic treatment with TGF-β triggers a partial EMT in oval cells based on coexpression of epithelial and mesenchymal markers. The phenotypic and functional profiling indicates that TGF-β-induced EMT is not associated with stemness but rather represents a step forward along hepatic lineage. This phenotypic transition confers advantageous traits to HPCs including survival, migratory/invasive and metabolic benefit, overall enhancing the regenerative potential of oval cells upon transplantation into a carbon tetrachloride-damaged liver. We further uncover a key contribution of the HGF/c-Met pathway to modulate the TGF-β-mediated EMT response. It allows oval cells expansion after EMT by controlling oxidative stress and apoptosis, likely via Twist regulation, and it counterbalances EMT by maintaining epithelial properties. Our work provides evidence that a coordinated and balanced action of TGF-β and HGF are critical for achievement of the optimal regenerative potential of HPCs, opening new therapeutic perspectives.Item Lack of EGFR catalytic activity in hepatocytes improves liver regeneration following DDC‐induced cholestatic injury by promoting a pro‐restorative inflammatory response(Journal of Pathology, 2022) Lazcanoiturburu, Nerea; García‐Sáez, Juan; González‐Corralejo, Carlos; Roncero Romero, Cesáreo; Sanz Ortega, Julián; Martín‐Rodríguez, Carlos; Valdecantos, M Pilar; Martínez‐Palacián, Adoración; Almale Del Barrio, Laura; Bragado Domingo, Paloma; Calero‐Pérez, Silvia; Fernández, Almudena; García‐Bravo, María; Guerra, Carmen; Montoliu, Lluis; Segovia, José Carlos; Martínez Valverde, Ángela María; Fabregat Romero, María Isabel; Herrera González, Blanca María; Sánchez Muñoz, AranzazuDespite the well‐known hepatoprotective role of the epidermal growth factor receptor (EGFR) pathway upon acute damage, its specific actions during chronic liver disease, particularly cholestatic injury, remain ambiguous and unresolved. Here, we analyzed the consequences of inactivating EGFR signaling in the liver on the regenerative response following cholestatic injury. For that, transgenic mice overexpressing a dominant negative mutant human EGFR lacking tyrosine kinase activity (ΔEGFR) in albumin‐positive cells were submitted to liver damage induced by 3,5‐diethoxycarbonyl‐1,4‐dihydrocollidine (DDC), an experimental model resembling human primary sclerosing cholangitis. Our results show an early activation of EGFR after 1–2 days of a DDC‐supplemented diet, followed by a signaling switch‐off. Furthermore, ΔEGFR mice showed less liver damage and a more efficient regeneration following DDC injury. Analysis of the mechanisms driving this effect revealed an enhanced activation of mitogenic/survival signals, AKT and ERK1/2‐MAPKs, and changes in cell turnover consistent with a quicker resolution of damage in response to DDC. These changes were concomitant with profound differences in the profile of intrahepatic immune cells, consisting of a shift in the M1/M2 balance towards M2 polarity, and the Cd4/Cd8 ratio in favor of Cd4 lymphocytes, overall supporting an immune cell switch into a pro‐restorative phenotype. Interestingly, ΔEGFR livers also displayed an amplified ductular reaction, with increased expression of EPCAM and an increased number of CK19‐positive ductular structures in portal areas, demonstrating an overexpansion of ductular progenitor cells. In summary, our work supports the notion that hepatocyte‐specific EGFR activity acts as a key player in the crosstalk between parenchymal and non‐parenchymal hepatic cells, promoting the pro‐inflammatory response activated during cholestatic injury and therefore contributing to the pathogenesis of cholestatic liver disease. © 2022 The Pathological Society of Great Britain and Ireland.Item Bone morphogenetic protein 9 as a key regulator of liver progenitor cells in DDC‐induced cholestatic liver injury(Liver International, 2018) Addante, Annalisa; Roncero Romero, Cesáreo; Almale Del Barrio, Laura; Lazcanoiturburu, Nerea; García‐Álvaro, María; Fernández García De Castro, Margarita; Sanz Ortega, Julián; Hammad, Seddik; Nwosu, Zeribe C.; Lee, Se‐Jin; Fabregat Romero, María Isabel; Dooley, Steven; Dijke, Peter ten; Herrera González, Blanca María; Sánchez Muñoz, AranzazuBackground & Aims: Bone morphogenetic protein 9 (BMP9) interferes with liver regeneration upon acute injury, while promoting fibrosis upon carbon tetrachlorideinduced chronic injury. We have now addressed the role of BMP9 in 3,5 diethoxicarbonyl-1,4 dihydrocollidine (DDC)-induced cholestatic liver injury, a model of liver regeneration mediated by hepatic progenitor cell (known as oval cell), exemplified as ductular reaction and oval cell expansion. Methods: WT and BMP9KO mice were submitted to DDC diet. Livers were examined for liver injury, fibrosis, inflammation and oval cell expansion by serum biochemistry, histology, RT-qPCR and western blot. BMP9 signalling and effects in oval cells were studied in vitro using western blot and transcriptional assays, plus functional assays of DNA synthesis, cell viability and apoptosis. Crosslinking assays and short hairpin RNA approaches were used to identify the receptors mediating BMP9 effects. Results: Deletion of BMP9 reduces liver damage and fibrosis, but enhances inflammation upon DDC feeding. Molecularly, absence of BMP9 results in overactivation of PI3K/AKT, ERK-MAPKs and c-Met signalling pathways, which together with an enhanced ductular reaction and oval cell expansion evidence an improved regenerative response and decreased damage in response to DDC feeding. Importantly, BMP9 directly targets oval cells, it activates SMAD1,5,8, decreases cell growth and promotes apoptosis, effects that are mediated by Activin Receptor-Like Kinase 2 (ALK2) type I receptor. Conclusions: We identify BMP9 as a negative regulator of oval cell expansion in cholestatic injury, its deletion enhancing liver regeneration. Likewise, our work further supports BMP9 as an attractive therapeutic target for chronic liver diseases.