For example, HNF4α and C/EBPα, two important regulators of miR-12

For example, HNF4α and C/EBPα, two important regulators of miR-122 identified in our studies, were not

found to be significant in their data. The physiological role of miR-122 in liver development is currently unknown, primarily because no appropriate targets have been identified. Understanding the molecular mechanisms that regulate cellular proliferation and differentiation is a central theme of developmental biology.9, 23 In this report, we identified that a group of genes involved in proliferation and differentiation regulation are miR-122 targets. Several target genes are considered key regulators of development, such as the two transcription factors (CUTL1 and CCCTC-binding factor [CTCF]) and two mitogen-activated protein kinase kinase kinase (MAP3K) members25, 30, 31 that have been shown to be targets of miRNA. Therefore,

our work this website is significant because it provides important clues for understanding the role of miR-122 during liver development. During the development of a multicellular organism, cells proliferate for a defined length of time before they begin functional differentiation.23 The process of differentiation of primitive cells into more specialized cells involves an increasing restriction in proliferative capacity, culminating in cell cycle exit.23 Precise regulation of terminal cell division is needed to ensure production of proper numbers of differentiated cells at the appropriate time.23 CUTL1, the target we focused on, is a conserved transcriptional repressor that regulates the balance between cell division and differentiation of multiple cell lineages during Selleck Apitolisib embryonic development.20, 25 CUTL1 knockout and transgenic

mouse models have confirmed this role.25 The majority of homozygous mice die at or shortly after birth due to severe hypoplasia, whereas transgenic mice constitutively expressing CUTL1 develop multiorgan organomegaly (including the heart, kidney, testis, spleen, seminal vesicle, and liver).25 In hepatomegaly, constitutively expressing CUTL1 results in an excessive increase in the number of immature hepatocytes.32 These studies suggest that CUTL1 is necessary for embryonic development at an early stage, whereas failure to turn off its activity leads to excessive proliferation, as well as differentiation blocking of primitive cells. Researchers have determined that CUTL1 activity (also known Etomidate as HiNF-D binding activity) is down-regulated during fetal liver development, coinciding with the exit from the cell cycle and terminal differentiation.33 However, the mechanism is unclear. Here, we show that CUTL1 expression is silenced posttranscriptionally during mouse liver development, likely due to repression by miR-122. Therefore, our study not only reveals the mechanism regulating CUTL1 during liver development, but also supports the role of miR-122 in the precise regulation of terminal cell division and differentiation of hepatocytes.

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