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      Estudio de la expresión de factores óseos en el hueso murino ante la falta de pleiotrofina y sus cambios en la situación inflamatoria Translated title: Study of bone factor expression in murine model in the absence of pleiotrophin and its changes in the inflammatory situation

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          Abstract

          Resumen La pleitrofina (PTN) en un péptido implicado en el desarrollo y el mantenimiento del tejido óseo, y con importantes funciones en los procesos inflamatorios. Sin embargo, la deleción de la PTN en modelos murinos no produce un deterioro óseo significativo, sin que hasta la fecha se hayan estudiado los mecanismos que compensan su perdida. Con este estudio quisimos comprobar cómo afecta la deleción de PTN y la inflamación aguda a la expresión de factores óseos. Para ello empleamos ratones hembra de tres meses deficientes para la PTN (PTNKo) a las que indujimos una inflamación aguda por administración de lipopolisacárido (LPS). Se aislaron las vértebras y las tibias para poder medir la expresión de genes y realizar un recuento de osteocitos. En cultivos celulares comprobamos si la PTN podía proteger a células MC3T3 (osteoblásticas) y MLOY4 (osteocitos) de la inducción de muerte celular producida por etopósido. Nuestros resultados muestran que la expresión de osteocalcina está incrementada en las vértebras de los ratones PTNKo, y que la inflamación produjo el incremento de expresión de podaplanina (E11), conexina 43 (Cox43) y el péptido relacionado con la parathormona (PTHrP) en los ratones PTNKo tratados con LPS. La administración de PTN redujo de manera significativa la muerte inducida por etopósido en cultivos de células MC3T3 y MLOY4. En conclusión, la deficiencia de PTN indujo un aumento de la expresión de OCN, y la inflamación aguda produjo la sobrexpresión de E11, PTHrP, y Cox43 en ratones PTNKo. La PTN aumentó la viabilidad de células osteblásticas y osteocitos frente al tratamiento con etopósido.

          Translated abstract

          Summary Pleiotrophin (PTN) is a peptide involved in the development and maintenance of bone tissue with important functions in inflammatory processes. However, the deletion of PTN in murine models does not produce a significant bone deterioration, but the mechanisms that compensate for its loss have not been studied to date. Our study was aimed at verifying how the deletion of PTN and acute inflammation affect the expression of bone factors. To this end, we used three-month-old female mice deficient for PTN (PTNKo) to which we induced acute inflammation by administration of lipopolysaccharide (LPS). Vertebrae and tibiae were isolated to measure gene expression and carry out an osteocyte count. In cell cultures, we checked whether PTN could protect MC3T3 (osteoblast) and MLOY4 (osteocyte) cells from the induction of cell death caused by etoposide. Our results show that the expression of osteocalcin is increased in the vertebrae of PTNKo mice, and that inflammation increased the expression of podhalanin (E11), connexin 43 (Cox43) and the parathormone-related peptide (PTHrP) in the PTNKo mice treated with LPS. Administering PTN significantly reduced etoposide-induced death in MC3T3 and MLOY4 cell cultures. Thus, PTN deficiency induced increased expression of OCN, and acute inflammation produced overexpression of E11, PTHrP, and Cox43 in PTNKo mice. PTN increased the viability of osteoblastic cells and osteocytes compared to etoposide treatment.

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          Most cited references48

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              Podoplanin in Inflammation and Cancer

              Podoplanin is a small cell-surface mucin-like glycoprotein that plays a crucial role in the development of the alveoli, heart, and lymphatic vascular system. Emerging evidence indicates that it is also involved in the control of mammary stem-cell activity and biogenesis of platelets in the bone marrow, and exerts an important function in the immune response. Podoplanin expression is upregulated in different cell types, including fibroblasts, macrophages, T helper cells, and epithelial cells, during inflammation and cancer, where it plays important roles. Podoplanin is implicated in chronic inflammatory diseases, such as psoriasis, multiple sclerosis, and rheumatoid arthritis, promotes inflammation-driven and cancer-associated thrombosis, and stimulates cancer cell invasion and metastasis through a variety of strategies. To accomplish its biological functions, podoplanin must interact with other proteins located in the same cell or in neighbor cells. The binding of podoplanin to its ligands leads to modulation of signaling pathways that regulate proliferation, contractility, migration, epithelial–mesenchymal transition, and remodeling of the extracellular matrix. In this review, we describe the diverse roles of podoplanin in inflammation and cancer, depict the protein ligands of podoplanin identified so far, and discuss the mechanistic basis for the involvement of podoplanin in all these processes.
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                Author and article information

                Journal
                romm
                Revista de Osteoporosis y Metabolismo Mineral
                Rev Osteoporos Metab Miner
                Sociedad Española de Investigaciones Óseas y Metabolismo Mineral (Madrid, Madrid, Spain )
                1889-836X
                2173-2345
                September 2020
                : 12
                : 3
                : 98-104
                Affiliations
                [02] Madrid orgnameUniversidad San Pablo-CEU orgdiv1Facultad de Farmacia orgdiv2Departamento de Química y Bioquímica España
                [03] Madrid orgnameUniversidad San Pablo-CEU orgdiv1Facultad de Farmacia orgdiv2Departamento de Ciencias Farmacéuticas y de la Salud España
                [01] Madrid orgnameUniversidad San Pablo-CEU orgdiv1Instituto de Medicina Aplicada orgdiv2Facultad de Medicina España
                Article
                S1889-836X2020000300005 S1889-836X(20)01200300005
                10.4321/s1889-836x2020000300005
                bcefc2dd-a2e9-4cad-8d0d-d479433badc8

                This work is licensed under a Creative Commons Attribution-NonCommercial 3.0 International License.

                History
                : 24 November 2020
                : 07 September 2020
                Page count
                Figures: 0, Tables: 0, Equations: 0, References: 49, Pages: 7
                Product

                SciELO Spain

                Categories
                Originales

                pleiotrofina,murine model,homeostasis ósea,bone homeostasis,pleiotrophin,modelo murino

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