Objectives: To establish a straightforward single-cell passaging cultivation method that enables high-quality maintenance of human induced pluripotent stem cells without the appearance of karyotypic abnormalities or loss of pluripotency. Methods: Cells were kept in culture for over 50 passages, following a structured chronogram of passage and monitoring cell growth by population doubling time calculation and cell confluence. Standard procedures for human induced pluripotent stem cells monitoring as embryonic body formation, karyotyping and pluripotency markers expression were evaluated in order to assess the cellular state in long-term culture. Cells that underwent these tests were then subjected to differentiation into keratinocytes, cardiomyocytes and definitive endoderm to evaluate its differentiation capacity. Results: Human induced pluripotent stem cells clones maintained its pluripotent capability as well as chromosomal integrity and were able to generate derivatives from the three germ layers at high passages by embryoid body formation and high-efficient direct differentiation into keratinocytes, cardiomyocytes and definitive endoderm. Conclusions: Our findings support the routine of human induced pluripotent stem cells single-cell passaging as a reliable procedure even after long-term cultivation, providing healthy human induced pluripotent stem cells to be used in drug discovery, toxicity, and disease modeling as well as for therapeutic approaches.
Oncostatin M (OSM) and leukemia inhibitory factor (LIF) signaling protects the heart after myocardial infarction (MI). In mice, oncostatin M receptor (OSMR) and leukemia inhibitory factor receptor (LIFR) are selectively activated by the respective cognate ligands while OSM activates both the OSMR and LIFR in humans, which prevents efficient translation of mouse data into potential clinical applications. We used an engineered human-like OSM (hlOSM) protein, capable to signal via both OSMR and LIFR, to evaluate beneficial effects on cardiomyocytes and hearts after MI in comparison to selective stimulation of either LIFR or OSMR. Cell viability assays, transcriptome and immunoblot analysis revealed increased survival of hypoxic cardiomyocytes by mLIF, mOSM and hlOSM stimulation, associated with increased activation of STAT3. Kinetic expression profiling of infarcted hearts further specified a transient increase of OSM and LIF during the early inflammatory phase of cardiac remodeling. A post-infarction delivery of hlOSM but not mOSM or mLIF within this time period combined with cardiac magnetic resonance imaging-based strain analysis uncovered a global cardioprotective effect on infarcted hearts. Our data conclusively suggest that a simultaneous and rapid activation of OSMR and LIFR after MI offers a therapeutic opportunity to preserve functional and structural integrity of the infarcted heart.
In spite of the great advance in human induced pluripotent stem cells knowledge, several nonconsensual protocols to cultivate this peculiar cell type can be found in the literature. Laboratories and companies worldwide have been trying to provide equivalent results regarding long-term cultivation of hiPSCs and their derivatives, so it is mandatory the establishment of reproducible pipelines for cell generation, cultivation, differentiation, etc. Here, we validated a straightforward single-cell passaging cultivation method that enabled high-quality maintenance of human induced pluripotent stem cells (hiPSCs) over 50 passages without the appearance of karyotypic abnormalities or loss of pluripotency. Further, the hiPSC clones were able to generate derivatives from the three germ layers at high passages by embryoid body formation and high-efficient direct differentiation into keratinocytes, cardiomyocytes and definitive endoderm (DE). Thus, our findings support the routine of hiPSCs single-cell passaging as a reliable procedure even after long-term cultivation, providing healthy PSCs to be used in high-standard cellular modeling research and therapeutic approaches.
Doenças cardiovasculares são responsáveis por quase um terço de todas as mortes globais anualmente, e por isto o sistema cardiovascular é amplamente estudado.Cardiomiócitos derivados a partir de células-tronco pluripotentes induzidas humanas (hiPSC-CM) emergiram como uma promissora tecnologia para modelagem de doenças cardíacas e terapia personalizada. No entanto, desafios acerca de sua maturação funcional e molecular ainda são enfrentados. Além disso, protocolos de diferenciação geralmente levam à obtenção de populações heterogêneas contendo células com fenótipos similares aos de cardiomiócitos nodais, atriais e ventriculares sendo, portanto, inapropriadas para fins terapêuticos. A bradicinina (BK) é um peptídio vasoativo que exerce importantes papeis fisiológicos no sistema cardiovascular, além de ter sido previamente descrita como importante para a diferenciação neuronal, de queratinócitos e de músculo esquelético. Este projeto foi realizado em colaboração com a empresa PluriCell Biotech, uma startup especializada na produção e diferenciação de hiPSC-CM, e buscou (1) caracterizar a expressão gênica e proteíca de marcadores moleculares de maturação e de especificação de subtipos cardíacos durante a diferenciação; (2) avaliar a funcionalidade elétrica de hiPSC-CM por meio da caracterização de seus potenciais de ação (PAs) e (3) Investigar se o progresso da diferenciação de hiPSC-CM é regulado por bradicinina por meio do receptor B2 (B2R). Nossos resultados validaram o modelo que propõe um switch na expressão das isoformas funcionais de troponina I esquelética (ssTnI) e cardíaca (cTnI), durante o desenvolvimento e diferenciação celular, pelo menos parcialmente. Além disso, tempo prolongado em cultura resultou em maiores níveis de expressão do marcador ventricular MLC2v, assim como maiores frequências de PAs com morfologias similares a de cardiomiócitos ventriculares. Análise eletrofisiológica de hiPSC-CM revelam a existência de uma população mista contendo PAs correspondentes aos subtipos nodais, atriais e ventriculares, assim como pronunciada automaticidade e outros atributos típicos de cardiomiócitos imaturos, como baixa amplitude e devagar velocidade de despolarização. Estes resultados são coerentes com os de outros grupos que ainda não foram totalmente bem-sucedidos em diferenciar células cardíacas maduras similares a cardiomiócitos nativos a partir de células-troncos pluripotentes. Após mostrar que as hiPSC-CM expressam receptores B2 funcionais e responsivos, submetemos o receptor a uma ativação crônica com BK 10µM e BK 1µM ou inibição crônica com Firazyr 5µM + BK. Apesar da modulação do B2R não ter interferido de forma negativa no rendimento da diferenciação ou na morfologia celular, análise de expressão gênica e proteica de ssTnI e cTnI e do marcador ventricular MLC2v não revelou resultados significativos em comparação aos controles não-tratados. Isto sugere que a BK não interfere na maturação e especificação de subtipos cardíacos em hiPSC-CM, apesar de não podermos ignorar o fato de que ela poderia estar ...
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.