Project description:Neurotropic infiltrative growth and distant metastasis are the main causes of death in salivary adenoid cystic carcinoma (SACC) patients. Long noncoding RNAs (lncRNAs) are involved in many human neoplasms, however their potential roles in SACC are unclear. In our study, we found that ADAMTS9-AS2 was significantly upregulated in SACC patients with metastasis and SACC -LM cells. Moreover, ADAMTS9-AS2 expression was closely associated with the prognosis and distant metastasis in SACC patients. Next, we found that c-myc could specifically bind to the promoter of ADAMTS9-AS2 and activated its transcription. Knockdown of ADAMTS9-AS2 significantly inhibited migration and invasion of SACC cells in vitro and distant lung metastasis in vivo. Furthermore, ADAMTS9-AS2 which mainly expressed in the cytoplasm shared miRNA response elements with ITGA6. Overexpression of ADAMTS9-AS2 competitively bound to miR-143-3p that inhibited ITGA6 from miRNA-mediated degradation, thus activated the activity of PI3K/Akt and MEK/Erk signaling and facilitated SACC metastasis. In summary, ADAMTS9-AS2 promotes migration and invasion in SACC by competing with miR-143-3p. This sheds a new insight into the regulation mechanism of ADAMTS9-AS2 and provides a possible application for the SACC treatment.

Project description:AS1 and AS2 encode MYB related protein and AS2-domain containing protein, respectively and may regulate transcription. These genes are involved in the determination of axes of leaves of Arabidopsis thaliana. To know the gene regulation in the leaf development, expression profile among wild-type, as1 and as2 mutants and AS2 overexpression plants were compaired. shoot apices from as1-1, as2-1, AS2 overexpressing, and wild type embryos

Project description:AS2 encode AS2-domain containing protein and may regulate transcription. AS2 is involved in the determination of axes of leaves of Arabidopsis thaliana. Type IB DNA topoisomerase (TOP1α) gene has genetic interaction with AS1 and AS2 and is involved in repression of leaf polarity genes. To know the gene regulation in the leaf development, expression profile among wild-type and as2 mutant treated with and without 10-hydroxyl substituted camptothecin (10H-CPT), a specific TOP1 inhibitor, were compared

Project description:AS1 and AS2 encode MYB related protein and AS2-domain containing protein, respectively and may regulate transcription. These genes are involved in the determination of axes of leaves of Arabidopsis thaliana. To know the gene regulation in the leaf development, expression profile among wild-type, as1 and as2 mutants and AS2 overexpression plants were compaired.

Project description:In our study, we valided the important oncogeneic roles of KIMAT1 and HIF1A-As2 in non-small cell lung cancer. We used custom designed GapmeRs to silence the KIMAT1 and HIF1A-As2 in H1299 and performed RNA-seq. 11389 and 7767 genes were regulated by KIMAT1 and HIF1A-As2, respectively.

Project description:In our study, we valided the important oncogeneic roles of KIMAT1 and HIF1A-As2 in non-small cell lung cancer. We used custom designed GapmeRs to silence the KIMAT1 and HIF1A-As2 in H1299 and performed small RNA-seq. 214 and 233 microRNAs were regulated by KIMAT1 and HIF1A-As2, respectively.

Project description:Intratumoral hypoxia causes the formation of dysfunctional blood vessels which contribute to tumor metastasis. Blood vessels are embedded in the tumor stroma where cancer-associated fibroblasts (CAFs) constitute the most prominent cellular component. We found that hypoxic human mammary CAFs promote blood vessel growth in CAF-endothelial cell co-cultures in vitro. Mass spectrometry-based proteomic analysis of CAF secretome unravels how hypoxic CAFs contribute to blood vessel abnormalities by altering the secretion of a multitude of pro- and anti-angiogenic factors. Hypoxia induces pronounced remodeling of the CAF proteome, including proteins that have not been previously related to this process. Amongst those, the uncharacterized antisense gene protein NCBP2-AS2 is one of the most transcriptionally upregulated proteins in the proteome and secretome of hypoxic CAFs. Silencing of NCBP2-AS2 abrogates the pro-angiogenic function acquired by hypoxic CAFs through decreasing VEGF expression levels to the levels found in normoxic CAFs.

Project description:AS2 encodes a protein containing AS2 domain and epigenetically regulate transcription. RH10 encodes an ortholog of human DEAD-box RNA helicase DDX47. These genes are involved in the formation of axes of leaves of Arabidopsis thaliana. To know the gene regulation in the leaf development, expression profile among wild-type, as2, rh10 and as2 rh10 double mutant plants were compared.

Project description:Stenotrophomonas sp. AS2 Genome sequencing

Project description:Glioblastoma multiform account for about half of all gliomas and are the most deadly and aggressive forms. Its therapeutic resistance and tumor relapse rely on a subpopulation of cells, the so-called Glioma-stem Cells (GSCs). Here, we investigated for the role of the long non-coding RNA HOXA-AS2 in GSC biology by conducting descriptive and functional analyses of glioma samples classified according to their isocitrate dehydrogenase (IDH1) gene mutation status, and of glioma stem cells. We found that HOXA-AS2 is overexpressed only in aggressive (IDHwt) glioma and GSC. Sh-RNA-based depletion of HOXA-AS2 affects GSC both at the cellular and molecular levels with a decrease in proliferation and altered expression of several hundreds of their genes. Integrative analysis revealed that these changes is expression are not associated to changes in DNA methylation or chromatin signature at the promoter of most deregulated genes following HOXA-AS2 silencing in GSC, supporting a post-transcriptional regulation. In addition, transcription factor motif enrichment and correlation analyses sustained that HOXA-AS2 affect, directly or indirectly, expression of key transcription factors of GCS biology, including E2F8, E2F1, STAT1 and ATF3 to, in fine, contributes to their pathological status by promoting proliferation and modulating the inflammation pathway of Glioma Stem Cell.