Project description:Invasive malignant pleomorphic adenoma (IMPA) results from the malignant transformation of pleomorphic adenoma (PA). The former is a high-grade malignant tumor, whereas the latter is a benign opposite. Study on the molecular mechanism in the progression of PA to IMPA will be of benefit to elucidate the reasons for different biological behaviors among these salivary gland tumors with the same origin. But there is no valuable and non-invasive biomarker to screen IMPA currently. Studies showed many salivary molecules can detect several systemic diseases. We aimed to investigate whether salivary mRNAs (mRNA) can act as a biomarker to detect IMPA.

Project description:We identified transcriptional landscape in pleomorphic adenoma (PA).

Project description:Gene fusion detection of salivary gland pleomorphic adenoma

Project description:Here, we performed single cell RNA sequencing (scRNA-seq) analysis for 27, 810 cells from 2 donors with primary salivary gland pleomorphic adenoma

Project description:N6-methyladenosine (m6A) is one of the most popular RNA modifications, which is widely found in messenger RNAs (mRNAs) .In our study,we provide m6A profiles of human invasive malignant pleomorphic adenoma, which open an avenue for in-depth knowledge and understanding of m6A topology in invasive malignant pleomorphic adenoma.

Project description:Myoepithelioma, mixed tumor and parachordoma are rare soft tissue tumors thought to represent different morphologic variants of the same family of tumors, hereafter referred to as MMP tumors. The genetic basis of these neoplasms is poorly investigated. However, they morphologically resemble mixed tumor of the salivary glands (a.k.a. pleomorphic adenoma). This is the first study characterizing whole genome DNA copy number changes in MMP tumors and the genomic imbalances detected in four MMP tumors and one pleomorphic adenoma were diverse. The only recurrent aberration of known importance for tumor development was homo- and heterozygous deletions of the region in 9p21-22 which harbors the CDKN2A and CDKN2B genes. Defined by the deletion in case 3, the region 1.27-4.82 Mb on chromosome 19 was heterozygously lost in all cases, including the pleomorphic adenoma. A complex pattern of aberrations was seen in the primary tumor of case 2 with amplifications, interrupted by normal copy numbers and losses, of regions on chromosomes 6, 9, and 13. Keywords: comparative genomic hybridization, soft tissue myoepithelioma, mixed tumor, parachordoma, pleomorphic adenoma

Project description:Myoepithelioma, mixed tumor and parachordoma are rare soft tissue tumors thought to represent different morphologic variants of the same family of tumors, hereafter referred to as MMP tumors. The genetic basis of these neoplasms is poorly investigated. However, they morphologically resemble mixed tumor of the salivary glands (a.k.a. pleomorphic adenoma). This is the first study characterizing whole genome DNA copy number changes in MMP tumors and the genomic imbalances detected in four MMP tumors and one pleomorphic adenoma were diverse. The only recurrent aberration of known importance for tumor development was homo- and heterozygous deletions of the region in 9p21-22 which harbors the CDKN2A and CDKN2B genes. Defined by the deletion in case 3, the region 1.27-4.82 Mb on chromosome 19 was heterozygously lost in all cases, including the pleomorphic adenoma. A complex pattern of aberrations was seen in the primary tumor of case 2 with amplifications, interrupted by normal copy numbers and losses, of regions on chromosomes 6, 9, and 13. Keywords: comparative genomic hybridization, soft tissue myoepithelioma, mixed tumor, parachordoma, pleomorphic adenoma Cases 1-3 and 5-6 were analyzed using 32k array CGH and male genomic DNA (Promega) was used as reference.

Project description:Gene fusion detection of salivary gland pleomorphic adenoma

Project description:Analysis of mRNA expression in invasive malignant pleomorphic adenoma

Project description:Salivary gland myoepithelial tumors are relatively uncommon tumors with an unpredictable clinical course. More knowledge about their genetic profiles is necessary to identify novel predictors of disease. In this study, we subjected 27 primary tumors (15 myoepitheliomas and 12 myoepithelial carcinomas) to genome-wide microarray-based comparative genomic hybridization (array CGH). We set out to delineate known chromosomal aberrations in more detail and to unravel chromosomal differences between benign myoepitheliomas and myoepithelial carcinomas. Patterns of DNA copy number aberrations were analyzed by unsupervised hierarchical cluster analysis. Both benign and malignant tumors revealed a limited amount of chromosomal alterations (median of 5 and 7.5 respectively). In both tumor groups, high frequency gains (≥20%) were found mainly at loci of growth factors and growth factor receptors (e.g. PDGF, FGF(R)s, and EGFR). In myoepitheliomas, high frequency losses (≥20%) were detected at regions of proto-cadherins. Cluster analysis of the array CGH data identified three clusters. Differential copy numbers on chromosome arm 8q and chromosome 17 set the clusters apart. Cluster 1 contained a mixture of the two phenotypes (n=10), cluster 2 included mostly benign tumors (n=10), and cluster 3 only contained carcinomas (n=7). Supervised analysis between malignant and benign tumors revealed a 36 Mbp-region at 8q being more frequently gained in malignant tumors (p=0.007, FDR=0.05). This is the first study investigating genomic differences between benign and malignant myoepithelial tumors of the salivary glands at a genomic level. Both unsupervised and supervised analysis of the genomic profiles revealed chromosome arm 8q to be involved in the malignant phenotype of salivary gland myoepitheliomas.