Přehled o publikaci
2023
MicroRNA Profiling of Self-Renewing Human Neural Stem Cells Reveals Novel Sets of Differentially Expressed microRNAs During Neural Differentiation In Vitro
FEDOROVÁ, Veronika; Kateřina AMRUZ ČERNÁ; Jan OPPELT; Veronika POSPÍŠILOVÁ; Tomáš BÁRTA et al.Basic information
Original name
MicroRNA Profiling of Self-Renewing Human Neural Stem Cells Reveals Novel Sets of Differentially Expressed microRNAs During Neural Differentiation In Vitro
Authors
FEDOROVÁ, Veronika; Kateřina AMRUZ ČERNÁ; Jan OPPELT; Veronika POSPÍŠILOVÁ; Tomáš BÁRTA; Marek MRÁZ and Dáša BOHAČIAKOVÁ
Edition
Stem Cell Reviews and Reports, NEW YORK, SPRINGER, 2023, 2629-3269
Other information
Language
English
Type of outcome
Article in a journal
Country of publisher
United States of America
Confidentiality degree
is not subject to a state or trade secret
References:
Marked to be transferred to RIV
Yes
RIV identification code
RIV/00216224:14110/23:00130666
Organization
Lékařská fakulta – Repository – Repository
UT WoS
EID Scopus
Keywords in English
Neural stem cells; microRNA; miRNA sequencing; Cell cycle; Human pluripotent stem cells
Links
EF17_043/0009632, research and development project. EF19_073/0016943, research and development project. GA21-21510S, research and development project. GJ18-25429Y, research and development project. LX22NPO5102, research and development project. LX22NPO5107, research and development project. MUNI/A/1301/2022, interní kód Repo. MUNI/IGA/1273/2021, interní kód Repo. MUNI/R/1321/2021, interní kód Repo. MUNI/R/1697/2020, interní kód Repo. 857560, interní kód Repo. Czech-BioImaging II, large research infrastructures. NCMG III, large research infrastructures.
Changed: 16/10/2024 00:50, RNDr. Daniel Jakubík
Abstract
In the original language
The involvement of microRNAs (miRNAs) in orchestrating self-renewal and differentiation of stem cells has been revealed in a number of recent studies. And while in human pluripotent stem cells, miRNAs have been directly linked to the core pluripotency network, including the cell cycle regulation and the maintenance of the self-renewing capacity, their role in the onset of differentiation in other contexts, such as determination of neural cell fate, remains poorly described. To bridge this gap, we used three model cell types to study miRNA expression patterns: human embryonic stem cells (hESCs), hESCs-derived self-renewing neural stem cells (NSCs), and differentiating NSCs. The comprehensive miRNA profiling presented here reveals novel sets of miRNAs differentially expressed during human neural cell fate determination in vitro. Furthermore, we report a miRNA expression profile of self-renewing human NSCs, which has been lacking to this date. Our data also indicates that miRNA clusters enriched in NSCs share the target-determining seed sequence with cell cycle regulatory miRNAs expressed in pluripotent hESCs. Lastly, our mechanistic experiments confirmed that cluster miR-17-92, one of the NSCs-enriched clusters, is directly transcriptionally regulated by transcription factor c-MYC.
