ABSTRACT
Introducción: La pandemia causada por SARS-CoV-2 ha impactado al mundo gravemente en diversos ámbitos y con ello ha surgido la necesidad de contar con herramientas con mayor relevancia fisiológica para investigar patologías complejas como el COVID-19. Los organoides son un modelo experimental con características únicas como la capacidad de autoformar una estructura tridimensional utilizando células en cultivo. Sobre esta base, surge la siguiente pregunta ¿son los organoides un modelo experimental factible para reflejar la fisiopatología del COVID-19 y evaluar la eficacia de fármacos que limiten su progresión? Metodología: Para abordar esta interrogante, esta revisión plantea el analizar la validez de los organoides como modelo experimental y verificar su utilidad en la evaluación de fármacos para el COVID-19. Para cumplir estos objetivos se realizó una revisión sistemática cualitativa de la literatura, a través de una búsqueda en PubMed con el término 'COVID-19 and stem cells and organoids' y también en un número especial de la revista Cell. Resultados: Se organizaron los resultados relevantes por sistema fisiológico y en la evaluación de fármacos. Los organoides más empleados para estudios de COVID-19 correspondieron a tejido respiratorio, nervioso y digestivo. Algunos resultados encontrados en la revisión fueron similares a aquellos obtenidos a partir de tejidos de pacientes COVID-19 o autopsias, encontrándose hallazgos relevantes como la posible disrupción de la barrera epitelial del sistema nervioso por infección del plexo coroideo. También se logró observar efectividad de fármacos que posteriormente pasaron a ser aprobados y utilizados exitosamente en pacientes. Conclusión: Los organoides se pueden componer a partir de diferentes tipos celulares y bajo diferentes protocolos experimentales, siendo relevante la lectura crítica de los artículos científicos para decidir si sus resultados son extrapolables a la fisiopatología de la enfermedad.
Introduction: The pandemic caused by SARS-CoV-2 has impacted the world severely in several aspects and has created the need for research tools to study the COVID-19 disease. Organoids are experimental models with unique characteristics, like the ability to self-assemble in a tridimensional structure. Based on this, the following question arises: are organoids an experimental model suitable to reflect the physiopathology of COVID-19 and to allow the evaluation of the efficacy of drugs that limit its progression? Methods: To approach this question, this review aimed to analyze the validity of organoids as an experimental model and verify their utility in COVID-19 drug evaluation. To resolve these objectives, a qualitative systematic review was done through a PubMed search with the terms 'COVID-19 and stem cells and organoids' and on a special issue of the Cell Journal. Results: The results were organized by physiologic system and therapeutic drug evaluation. The most utilized tissues for the COVID-19 study were respiratory, nervous, and digestive. Some results found in the review were like those obtained from COVID-19 patient tissue or autopsies, finding some relevant discoveries like the possibility of the choroid plexus disruption in the nervous system caused by the infection. Efficacy was also observed in approved drugs and used later in patients successfully. Conclusion: Organoids might be composed starting with different cell types and under a variety of experimental protocols, being relevant the critical reading of the scientific literature to decide whether their results can be extrapolated to the pathophysiology of the disease
ABSTRACT
BACKGROUND: Epanorin (EP) is a secondary metabolite of the Acarospora lichenic species. EP has been found in lichenic extracts with antimicrobial activity, and UV-absorption properties have been described for closely related molecules; however, its antiproliferative activity in cancer cells has not yet been explored. It has been hypothesized that EP inhibits cancer cell growth. MCF-7 breast cancer cells, normal fibroblasts, and the non-transformed HEK-293 cell line were exposed to increasing concentrations of EP, and proliferation was assessed by the sulforhodamine-B assay. RESULTS: MCF-7 cells exposed to EP were examined for cell cycle progression using flow cytometry, and DNA fragmentation was examined using the TUNEL assay. In addition, EP's mutagenic activity was assessed using the Salmonella typhimurium reverse mutation assay. The data showed that EP inhibits proliferation of MCF-7 cells, and it induces cell cycle arrest in G0/G1 through a DNA fragmentation-independent mechanism. Furthermore, EP's lack of overt cytotoxicity in the normal cell line HEK-293 and human fibroblasts in cell culture is supported by the absence of mutagenic activity of EP. CONCLUSION: EP emerges as a suitable molecule for further studies as a potential antineoplastic agent.
Subject(s)
Humans , Female , Breast Neoplasms/drug therapy , Apoptosis/drug effects , Cell Proliferation/drug effects , Lichens/chemistry , Antineoplastic Agents/therapeutic use , DNA Fragmentation , MCF-7 Cells , Flow Cytometry , Antineoplastic Agents/isolation & purificationABSTRACT
Cimicifuga foetida, an Asian Cimicifuga species, has been employed as a cooling and detoxification agent in traditional Chinese medicine since ancient times. For this herb, two cycloartane triterpene glycosides isolated from the rhizomes have demonstrated cytotoxicity on rat tumor and human cancer cell lines. Since human Hsp27 is increased in various human cancers and exhibits cytoprotective activity that affects tumorigenesis and the susceptibility of tumours to cancer treatment, the purpose of this research was to study the expression of this protein in MCF-7 breast cancer cells. To accomplish this aim, MCF-7 cells were exposed to different concentrations of Cimicifuga foetida extract showing a reduction in cell number measured by the sulforhodamine assay. In addition, the expression of Hsp-27 mRNA detected by RT-PCR and Hsp-27 protein detected by immnofluorescence was present in all conditions, except when using the highest concentration of Cimicifuga foetida extract (2,000 jig /L). We conclude that Hsp 27 expression at 2,000 jig /L Cimicifuga foetida extract is diminished. This is the first report showing the Hsp-27 expression after exposure to Cimicifuga foetida extract in MCF-7 cells.
Subject(s)
Adult , Animals , Cattle , Female , Humans , Antineoplastic Agents, Phytogenic/therapeutic use , Breast Neoplasms/drug therapy , Cimicifuga/chemistry , /metabolism , Phytotherapy , Plant Extracts/therapeutic use , Adenocarcinoma/drug therapy , Adenocarcinoma/metabolism , Antineoplastic Agents, Phytogenic/pharmacology , Apoptosis/drug effects , Blotting, Western , Breast Neoplasms/metabolism , Fluorescent Antibody Technique , Plant Extracts/analysis , Reverse Transcriptase Polymerase Chain ReactionABSTRACT
Gelatin, chitosan and hyaluronic acid are natural components used to prepare polymeric scaffold in tissue engineering. The physical properties of these materials confer an appropriate microenvironment for cells, which can be used as a regeneration system for skin and cartilage. In this work, we prepared and characterized a Gelatin/Chitosan/Hyaluronan lyophilized-polymer. Physical properties of lyophilized-polymer changed slightly with moisture, but when polymer was totally hydrated the elasticity changed significantly. Thermophysical characterisation indicated that temperatures higher than 30ºC could modify irreversibly the polymeric matrix probably due to protein denaturation. Besides, we used the polymer as scaffold to prepare a biosynthetic-skin, reporting biological behaviour and its mechanical properties.