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https://hdl.handle.net/11000/30581
A Transcriptomic Analysis of T98G Human Glioblastoma Cells after Exposure to Cadmium-Selenium Quantum Dots Mainly Reveals Alterations in Neuroinflammation Processes and Hypothalamus Regulation
Título : A Transcriptomic Analysis of T98G Human Glioblastoma Cells after Exposure to Cadmium-Selenium Quantum Dots Mainly Reveals Alterations in Neuroinflammation Processes and Hypothalamus Regulation |
Autor : Fuster, Encarnación Candela, Héctor Estévez, Jorge Vilanova, Eugenio SOGORB, MIGUEL A |
Editor : MDPI |
Departamento: Departamentos de la UMH::Biología Aplicada |
Fecha de publicación: 2022-02-18 |
URI : https://hdl.handle.net/11000/30581 |
Resumen :
Quantum dots are nanoparticles with very promising biomedical applications. However,
before these applications can be authorized, a complete toxicological assessment of quantum dots
toxicity is needed. This work studied the effects of cadmium-selenium quantum dots on the tran scriptome of T98G human glioblastoma cells. It was found that 72-h exposure to 40 µg/mL (a dose
that reduces cell viability by less than 10%) alters the transcriptome of these cells in biological pro cesses and molecular pathways, which address mainly neuroinflammation and hormonal control
of hypothalamus via the gonadotropin-releasing hormone receptor. The biological significance of
neuroinflammation alterations is still to be determined because, unlike studies performed with other
nanomaterials, the expression of the genes encoding pro-inflammatory interleukins is down-regulated
rather than up-regulated. The hormonal control alterations of the hypothalamus pose a new concern
about a potential adverse effect of quantum dots on fertility. In any case, more studies are needed
to clarify the biological relevance of these findings, and especially to assess the real risk of toxicity
derived from quantum dots exposure appearing in physiologically relevant scenarios.
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Palabras clave/Materias: quantum dots nanoparticles neuroinflammation gonadotropin-releasing hormone receptor pathway T98G glioblastoma nanosafety in vitro |
Área de conocimiento : CDU: Ciencias puras y naturales: Biología |
Tipo de documento : info:eu-repo/semantics/article |
Derechos de acceso: info:eu-repo/semantics/openAccess |
DOI : https://doi.org/10.3390/ijms23042267 |
Aparece en las colecciones: Artículos Biología Aplicada
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La licencia se describe como: Atribución-NonComercial-NoDerivada 4.0 Internacional.