PAUPAR and PAX6 sequentially regulate human embryonic stem cell cortical differentiation

Long noncoding RNAs (lncRNAs) play a wide range of roles in the epigenetic regulation of crucial biological processes, but the functions of lncRNAs in cortical development are poorly understood. Using human embryonic stem cell (hESC)-based 2D neural differentiation approach and 3D cerebral organoid system, we identified that the lncRNA PAUPAR, which is adjacent to PAX6, plays essential roles in cortical differentiation by interacting with PAX6 to regulate the expression of a large number of neural genes. Mechanistic studies showed that PAUPAR confers PAX6 proper binding sites on the target neural genes by directly binding the genomic regions of these genes. Moreover, PAX6 recruits the histone methyltransferase NSD1 through its C-terminal PST enrichment domain, then regulate H3K36 methylation and the expression of target genes. Collectively, our data reveal that the PAUPAR/PAX6/NSD1 complex plays a critical role in the epigenetic regulation of hESC cortical differentiation and highlight the importance of PAUPAR as an intrinsic regulator of cortical differentiation.     

利用RIP-Seq技术鉴定HepG2细胞中与HuR蛋白结合的lncRNAs

长链非编码RNAs（long noncoding RNAs, lncRNAs）可在表观遗传水平、转录水平和转录后水平调节基因的表达,对细胞功能起着重要的调节作用。RNA结合蛋白可与很多的RNA结合,并在转录后水平发挥重要的调节作用。然而,RNA结合蛋白是否可以在细胞内广泛结合lncRNAs对其发挥调节作用,仍需进一步证实。本研究通过RNA结合蛋白免疫沉淀技术联合高通量测序（RNA binding protein immunoprecipitation-high throughput sequencing, RIP-Seq）的方法在人肝癌细胞株HepG2中,鉴定与人抗原R（human antigen R, HuR）蛋白相结合的lncRNA分子,并进行了初步的验证。首先,通过HuR-RIP实验分离与HuR蛋白结合的RNA分子,然后高通量测序及生物信息学分析。根据分析结果,鉴定出HepG2细胞中361条与HuR蛋白结合的lncRNAs分子,包括基因间lncRNA（large intergenic noncoding RNA, LincRNA）、内含子lncRNA、与编码基因正义链有重叠的lncRNA和与编码基因反义链有重叠lncRNA（antisense lncRNA）等。并进一步通过RIP-qPCR技术,对其中20条LincRNA分子进行了定量检测,验证测序结果。在HepG2细胞中敲低HuR基因表达,发现这些LincRNA分子中,11条LincRNA分子表达水平显著降低（P＜0.05）,2条LincRNA显著升高（P＜0.05）,剩余7条LincRNA表达量未发生变化（P＞0.05）。本研究结果说明,HuR在细胞内可以广泛结合lncRNA分子,并且可能对结合的lncRNA分子的表达量产生影响,这也为进一步研究这些lncRNA的功能和HuR调控网络的研究提供了基础。     

基因组印记中的长非编码RNA

长非编码RNA(lnc RNA)是长度大于200 bp的一类非编码蛋白的RNA,因其在基因组中含量巨大以及重要的生物学功能引起了学术界的广泛关注.基因组印记是一种表观遗传现象,lnc RNAs通过建立靶基因的印记而发挥重要的生物功能.基因组印记可以用来研究lnc RNAs在转录和转录后水平调控基因表达的分子机制.本文选取6个印记机制研究比较透彻的印记区域,包括Kcnq1/Cdkn1c、Igf2r/Airn、Prader-Willi(PWS)/Angelman(AS)、Snurf/Snrpn、Dlk1-Dio3和H19/Igf2.通过介绍包括基因间lnc RNAs(H19、Ipw和Meg3)、反义lnc RNAs(Kcnq1ot1、Airn、Ube3a-ATS)和增强子lnc RNAs(IG-DMR e RNAs)在内的3种类型lnc RNAs在印记调控中的作用,从而了解lnc RNAs通过顺式或(/和)反式作用多种机制调控亲本特异性靶基因的表达.了解印记基因簇中lnc RNAs的作用方式将有助于我们揭示lnc RNAs在整个基因组中的作用机制.     

LncKdm2b controls self‐renewal of embryonic stem cells via activating expression of transcription factor Zbtb3

Divergent long noncoding RNAs (lncRNAs) represent a major lncRNA biotype in mouse and human genomes. The biological and molecular functions of the divergent lncRNAs remain largely unknown. Here, we show that lncKdm2b, a divergent lncRNA for Kdm2b gene, is conserved among five mammalian species and highly expressed in embryonic stem cells (ESCs) and early embryos. LncKdm2b knockout impairs ESC self‐renewal and causes early embryonic lethality. LncKdm2b can activate Zbtb3 by promoting the assembly and ATPase activity of Snf2‐related CREBBP activator protein (SRCAP) complex in trans. Zbtb3 potentiates the ESC self‐renewal in a Nanog‐dependent manner. Finally, Zbtb3 deficiency impairs the ESC self‐renewal and early embryonic development. Therefore, our findings reveal that lncRNAs may represent an additional layer of the regulation of ESC self‐renewal and early embryogenesis.