Dendritic arborization is one of the key determinants of precise circuits for information processing in neurons. Unraveling the molecular mechanisms underlying dendrite morphogenesis is critical to understanding the establishment of neuronal connections. Here, using gain-and loss-of-function approaches, we defined the chromodomain protein and transcription corepressor chromodomain Y-like (CDYL) protein as a negative regulator of dendrite morphogenesis in rat/mouse hippocampal neurons both in vitro and in vivo. Overexpressing CDYL decreased, whereas knocking it down increased, the dendritic complexity of the primary cultured rat neurons. Highthroughput DNA microarray screening identified a number of CDYL downstream target genes, including the brain-derived neurotrophic factor (BDNF). Knock-down of CDYL in neuronal cells led to increased expression of BDNF, which is primarily responsible for CDYL's effects on dendrite patterns. Mechanistically, CDYL interacts with EZH2, the catalytic subunit of Polycomb Repressive Complex 2 (PRC2), directly and recruits the H3K27 methyltransferase activity to the promoter region of the BDNF gene. In doing so, CDYL and EZH2 coordinately restrict dendrite morphogenesis in an interdependent manner. Finally, we found that neural activity increased dendritic complexity through degradation of CDYL protein to unleash its inhibition on BDNF. These results link, for the first time, the epigenetic regulators CDYL and EZH2 to dendrite morphogenesis and might shed new light on our understanding of the regulation of the neurodevelopment.
Background Gut microbiota (GM) of patients with liver cancer is disordered, and syet no study reported the GM distribution of liver cirrhosis‐induced HCC (LC‐HCC) and nonliver cirrhosis‐induced HCC (NLC‐HCC). In this study, we aimed to characterize gut dysbiosis of LC‐HCC and NLC‐HCC to elucidate the role of GM in the pathogenesis of HCC. Methods A consecutive series of fecal samples of patients with hepatitis (24 patients), liver cirrhosis (24 patients), HCC (75 patients: 35 infected by HBV, 25 infected by HCV, and 15 with alcoholic liver disease), and healthy controls (20 patients) were obtained and sequenced on the Illumina Hiseq platform. The HCC group contains 52 LC‐HCC and 23 NLC‐HCC. Bioinformatic analysis of the intestinal microbiota was performed with QIIME and MicrobiomeAnalyst. Results Alpha‐diversity analysis showed that fecal microbial diversity was significantly decreased in the LC group, and there were significant differences in 3 phyla and 27 genera in the LC group vs the other groups (the healthy, hepatitis, and HCC groups). Beta‐diversity analysis showed that there were large differences between LC and the others. Gut microbial diversity was significantly increased from LC to HCC. Characterizing the fecal microbiota of LC‐HCC and NLC‐HCC, we found that microbial diversity was increased from LC to LC‐HCC rather than NLC‐HCC. Thirteen genera were discovered to be associated with the tumor size of HCC. Three biomarkers (Enterococcus, Limnobacter, and Phyllobacterium) could be used for precision diagnosis. We also found that HBV infection, HCV infection, or ALD (alcoholic liver disease) was not associated with intestinal microbial dysbiosis in HCC. Conclusion Our results suggest that GM disorders are more common in patients with LC‐HCC. The butyrate‐producing genera were decreased, while genera producing‐lipopolysaccharide (LPS) were increased in LC‐HCC patients. Further studies of GM disorders may achieve early diagnosis and new therapeutic approaches for HCC patients.
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