Wdr5-mediated H3K4me3 coordinately regulates cell differentiation, proliferation termination, and survival in digestive organogenesis

Zhang, Zhe; Yang, Chun; Wang, Zixu; Guo, Liwei; Xu, Yongpan; Gao, Ce; Sun, Yuhan; Zhang, Zhenhai; Peng, Jinrong; Hu, Minjie; Lo, Li Jan; Ma, Zuwei; Chen, Jun

doi:10.1038/s41420-023-01529-4

Cited by 2 publications

(1 citation statement)

References 63 publications

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“…H3K4me3 was also shown to promote the expression of anti-apoptotic genes which modulate P53 function to ensure differentiated cell survival. 46 …”

Section: Mainmentioning

confidence: 99%

The epigenetic landscape in intestinal stem cells and its deregulation in colorectal cancer

Larue,

Atlasi

2024

Stem Cells

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Epigenetic mechanisms play a pivotal role in controlling gene expression and cellular plasticity in both normal physiology and pathophysiological conditions. These mechanisms are particularly important in the regulation of stem cell self-renewal and differentiation, both in embryonic development and within adult tissues. A prime example of this finely tuned epigenetic control is observed in the gastrointestinal lining, where the small intestine undergoes renewal approximately every 3-5 days. How various epigenetic mechanisms modulate chromatin functions in intestinal stem cells (ISCs) is currently an active area of research. In this review, we discuss the main epigenetic mechanisms that control ISC differentiation under normal homeostasis. Furthermore, we explore the dysregulation of these mechanisms in the context of colorectal cancer (CRC) development. By outlining the main epigenetic mechanisms contributing to CRC, we highlight the recent therapeutics development and future directions for colorectal cancer research.

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“…H3K4me3 was also shown to promote the expression of anti-apoptotic genes which modulate P53 function to ensure differentiated cell survival. 46 …”

Section: Mainmentioning

confidence: 99%

The epigenetic landscape in intestinal stem cells and its deregulation in colorectal cancer

Larue,

Atlasi

2024

Stem Cells

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A UTP3-dependent nucleolar translocation pathway facilitates pre-rRNA 5′ETS processing

Bao,

Su,

Chen

et al. 2024

Nucleic Acids Research

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The ribosome small subunit (SSU) is assembled by the SSU processome which contains approximately 70 non-ribosomal protein factors. Whilst the biochemical mechanisms of the SSU processome in 18S rRNA processing and maturation have been extensively studied, how SSU processome components enter the nucleolus has yet to be systematically investigated. Here, in examining the nucleolar localization of 50 human SSU processome components, we found that UTP3, together with another 24 proteins, enter the nucleolus autonomously. For the remaining 25 proteins we found that UTP3/SAS10 assists the nucleolar localization of five proteins (MPP10, UTP25, EMG1 and the two UTP-B components UTP12 and UTP13), likely through its interaction with nuclear importin α. This ‘ferrying’ function of UTP3 was then confirmed as conserved in the zebrafish. We also found that knockdown of human UTP3 impairs cleavage at the A0-site while loss-of-function of either utp3/sas10 or utp13/tbl3 in zebrafish causes the accumulation of aberrantly processed 5′ETS products, which highlights the crucial role of UTP3 in mediating 5′ETS processing. Mechanistically, we found that UTP3 facilitates the degradation of processed 5′ETS by recruiting the RNA exosome component EXOSC10 to the nucleolus. These findings lay the groundwork for studying the mechanism of cytoplasm-to-nucleolus trafficking of SSU processome components.

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Wdr5-mediated H3K4me3 coordinately regulates cell differentiation, proliferation termination, and survival in digestive organogenesis

Cited by 2 publications

References 63 publications

The epigenetic landscape in intestinal stem cells and its deregulation in colorectal cancer

The epigenetic landscape in intestinal stem cells and its deregulation in colorectal cancer

A UTP3-dependent nucleolar translocation pathway facilitates pre-rRNA 5′ETS processing

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