Project description:MYB-NFIB fusion and NOTCH1 mutation are hallmark genetic events familiar in SACC that promote lung metastasis. However, abnormal expression of MYB and NOTCH1 was also observed in without MYB-NFIB fusion and NOTCH1 mutation. Here, through single-cell RNA sequencing (scRNA-seq) and exome target capture sequencing in two SACC patients without MYB-NFIB fusion and NOTCH1 mutation, we explore in-depth the molecular mechanisms of lung metastasis. Twenty-five types of cells in primary and metastatic tissues were identified via Seurat clustering and categorized into four main stages ranging from near normal to cancer state based on the normal tissue occupancy for each cell cluster. In this context, we identified the Notch signalling pathway enrichment in almost all cancer cells; trajectory and sub-clustering analyses investigated deeply cancer progenitor-like cell clusters in primary tumour-associated lung metastases, in which signature genes enriched in the ‘MYC_TARGETS_V2’ gene set. In vitro, we detected the complexes of the NICD1-MYB-MYC by Co-immunoprecipitation (Co-IP) and incidentally identified retinoic acid (RA) signalling as endogenous antagonists of the ‘MYC_TARGETS_V2’ gene set. Following this, we validate that all-trans retinoic acid (ATRA) reduces the lung metastasis in SACC via correcting erroneous cell differentiation mainly caused by aberrant NOTCH1 or MYB expression. Bioinformatic and immunohistochemical (IHC) analyses of four primary tissues and eleven metastatic lung tissues from patients with SACC suggested that RA system insufficiency partially promotes lung metastasis. These findings imply the value of diagnosis and treatment of the RA system.

Project description:MYB-NFIB fusion and NOTCH1 mutation are hallmark genetic events familiar in SACC that promote lung metastasis. However, abnormal expression of MYB and NOTCH1 was also observed in without MYB-NFIB fusion and NOTCH1 mutation. Here, through single-cell RNA sequencing (scRNA-seq) and exome target capture sequencing in two SACC patients without MYB-NFIB fusion and NOTCH1 mutation, we explore in-depth the molecular mechanisms of lung metastasis. Twenty-five types of cells in primary and metastatic tissues were identified via Seurat clustering and categorized into four main stages ranging from near normal to cancer state based on the normal tissue occupancy for each cell cluster. In this context, we identified the Notch signalling pathway enrichment in almost all cancer cells; trajectory and sub-clustering analyses investigated deeply cancer progenitor-like cell clusters in primary tumour-associated lung metastases, in which signature genes enriched in the ‘MYC_TARGETS_V2’ gene set. In vitro, we detected the complexes of the NICD1-MYB-MYC by Co-immunoprecipitation (Co-IP) and incidentally identified retinoic acid (RA) signalling as endogenous antagonists of the ‘MYC_TARGETS_V2’ gene set. Following this, we validate that all-trans retinoic acid (ATRA) reduces the lung metastasis in SACC via correcting erroneous cell differentiation mainly caused by aberrant NOTCH1 or MYB expression. Bioinformatic and immunohistochemical (IHC) analyses of four primary tissues and eleven metastatic lung tissues from patients with SACC suggested that RA system insufficiency partially promotes lung metastasis. These findings imply the value of diagnosis and treatment of the RA system.

Project description:MYB-NFIB fusion and NOTCH1 mutation are hallmark genetic events familiar in SACC that promote lung metastasis. However, abnormal expression of MYB and NOTCH1 was also observed in without MYB-NFIB fusion and NOTCH1 mutation. Here, through single-cell RNA sequencing (scRNA-seq) and exome target capture sequencing in two SACC patients without MYB-NFIB fusion and NOTCH1 mutation, we explore in-depth the molecular mechanisms of lung metastasis. Twenty-five types of cells in primary and metastatic tissues were identified via Seurat clustering and categorized into four main stages ranging from near normal to cancer state based on the normal tissue occupancy for each cell cluster. In this context, we identified the Notch signalling pathway enrichment in almost all cancer cells; trajectory and sub-clustering analyses investigated deeply cancer progenitor-like cell clusters in primary tumour-associated lung metastases, in which signature genes enriched in the ‘MYC_TARGETS_V2’ gene set. In vitro, we detected the complexes of the NICD1-MYB-MYC by Co-immunoprecipitation (Co-IP) and incidentally identified retinoic acid (RA) signalling as endogenous antagonists of the ‘MYC_TARGETS_V2’ gene set. Following this, we validate that all-trans retinoic acid (ATRA) reduces the lung metastasis in SACC via correcting erroneous cell differentiation mainly caused by aberrant NOTCH1 or MYB expression. Bioinformatic and immunohistochemical (IHC) analyses of four primary tissues and eleven metastatic lung tissues from patients with SACC suggested that RA system insufficiency partially promotes lung metastasis. These findings imply the value of diagnosis and treatment of the RA system.

Project description:MYB-NFIB fusion and NOTCH1 mutation are hallmark genetic events familiar in SACC that promote lung metastasis. However, abnormal expression of MYB and NOTCH1 was also observed in without MYB-NFIB fusion and NOTCH1 mutation. Here, through single-cell RNA sequencing (scRNA-seq) and exome target capture sequencing in two SACC patients without MYB-NFIB fusion and NOTCH1 mutation, we explore in-depth the molecular mechanisms of lung metastasis. Twenty-five types of cells in primary and metastatic tissues were identified via Seurat clustering and categorized into four main stages ranging from near normal to cancer state based on the normal tissue occupancy for each cell cluster. In this context, we identified the Notch signalling pathway enrichment in almost all cancer cells; trajectory and sub-clustering analyses investigated deeply cancer progenitor-like cell clusters in primary tumour-associated lung metastases, in which signature genes enriched in the ‘MYC_TARGETS_V2’ gene set. In vitro, we detected the complexes of the NICD1-MYB-MYC by Co-immunoprecipitation (Co-IP) and incidentally identified retinoic acid (RA) signalling as endogenous antagonists of the ‘MYC_TARGETS_V2’ gene set. Following this, we validate that all-trans retinoic acid (ATRA) reduces the lung metastasis in SACC via correcting erroneous cell differentiation mainly caused by aberrant NOTCH1 or MYB expression. Bioinformatic and immunohistochemical (IHC) analyses of four primary tissues and eleven metastatic lung tissues from patients with SACC suggested that RA system insufficiency partially promotes lung metastasis. These findings imply the value of diagnosis and treatment of the RA system. Cells from fresh tumour tissues were isolated for the preparation of single-cell suspensions via the ChromiumTM Single Cell 3’ Solution technique and analysed by BioMiao Biological Technology (Beijing) Co., Ltd.

Project description:The MYB-NFIB gene is a driver-mutation in the majority of adenoid cystic carcinomas (ACCs) and believed to control a large number of genes involved in tumorigenesis. This experiment investigates the effects on gene expression after siRNA knock-down of MYB-NFIB and/or inhibition of IGF1R/INSR signaling in ACC cells.

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:Lung metastasis is a major factor affecting long-term survival in adenoid cystic carcinoma patients. Here, we report the long noncoding RNA (lncRNA) MRPL23 antisense RNA 1 (MRPL23-AS1), which exhibited remarkably upregulated expression and was correlated with lung metastasis and overall survival in salivary adenoid cystic carcinoma (SACC) patients. To further study which biological process MRPL23-AS1 may be involved in, SACC-LM cells treated with si-control or si-MRPL23-AS1 were subjected to an mRNA microarray. GO analysis was used to identify the significant biological functions of differentially expressed mRNAs.

Project description:Lung metastasis is a major factor affecting long-term survival in adenoid cystic carcinoma patients. Here, we report the long noncoding RNA (lncRNA) MRPL23 antisense RNA 1 (MRPL23-AS1), which exhibited remarkably upregulated expression and was correlated with lung metastasis and overall survival in salivary adenoid cystic carcinoma (SACC) patients. To further study which biological process MRPL23-AS1 may be involved in, SACC-83 cells treated with the control vector or MRPL23-AS1-overexpressing vector were subjected to an mRNA microarray. GO analysis was used to identify the significant biological functions of differentially expressed mRNAs.

Project description:Metastasis accounts for most of cancer-related deaths. Paracrine signaling between tumor cells and the stroma induces changes in the tumor microenvironment required for metastasis. Transcription factor c-Myb was associated with breast cancer (BC) progression but its role in metastasis remains unclear. Here we show that increased c-Myb expression in BC cells inhibits spontaneous lung metastasis through impaired tumor cell extravasation. On contrary, BC cells with increased lung metastatic capacity exhibited low c-Myb levels. We identified a specific inflammatory signature, including Ccl2 chemokine; that was expressed in lung metastatic cells but was suppressed in tumor cells with higher c-Myb levels. Tumor cell-derived Ccl2 expression facilitated lung metastasis and rescued trans-endothelial migration of c-Myb overexpressing cells. Clinical data show that the identified inflammatory signature, together with a MYB expression, predicts lung metastasis relapse in BC patients. These results demonstrate that the c-Myb-regulated transcriptional program in BCs results in a blunted inflammatory response and consequently suppresses lung metastasis.

Project description:Adenoid cystic carcinoma (ACC) is one of the most common malignancies that arise in the salivary glands, with an incidence of 4.5 per 1,000,000. It can also arise in glandular tissue closely related to salivary glands in the lacrimal gland, nasal passages and tracheobronchial tree, as well as in glands of the breast and vulva. At all of these sites, it is characterized by a distinctive histology of basaloid epithelial cells arranged in cribriform or tubular patterns, usually demonstrating abundant hyaline extracellular matrix secretion and some degree of myoepithelial differentiation. ACC is generally a slow-growing tumor characterized by a protracted clinical course, usually well over 5 years in duration, marked by regional recurrence, distant metastasis and/or spread along peripheral nerves. A recurrent chromosomal translocation, t(6;9)(q23;p21), has been identified in ACC, and recently it has been discovered that in a majority of ACC the MYB gene on chromosome 6 is fused to the 3’ terminus of the NFIB gene on chromosome 9, creating a fusion gene product resulting in increased MYB-related transcriptional activation. Recently it has been determined that most cell lines with attribution of ACC derivation are either contaminants of other cell lines or do not have the characteristic MYB-NFIB translocation. Also, there are no animal models of this histologically and genetically defined tumor type. To address the paucity of experimental and pre-clinical models systems of ACC, we have for several years been establishing xenograft tumor lines from clinical samples of ACC. We describe our experience with these models and their characterization here. Analysis of 12 xenografts of human adenoid cystic carcinoma (ACC) along with 10 samples of ACC directly from humans. Note, that 12 of these samples are paired primary ACC & xenograft ACC from the same individual (6 pairs in total).