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: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:Single-cell RNA Sequencing Reveals Tumor Subtypes Within Salivary Gland Pleomorphic Adenoma

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

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:Pleomorphic adenoma (PA), the most common benign salivary gland tumor, presents unpredictable risks of recurrence and malignant transformation into carcinoma ex pleomorphic adenoma (CXPA), posing significant clinical challenges. To better delineate the tumor progression trajectory, we performed single-cell RNA sequencing on normal salivary glands, primary PA, recurrent PA (rPA), and CXPA, integrating cell trajectory reconstruction, differential gene expression analysis, and key gene network exploration to uncover molecular transitions and intercellular crosstalk underlying PA recurrence and malignant transformation. Our findings revealed GALNT13⁺ myoepithelial cells as CXPA-specific malignant progenitors, marking early malignant conversion, while MIF⁺ myoepithelial cells exhibited enhanced tissue-destructive capabilities. Fibroblasts played dual roles, enforcing fibrotic restraint in primary PA and promoting extracellular matrix degradation in CXPA. The tumor microenvironment demonstrated stage-specific adaptations, with CXPA favoring pro-inflammatory MIF–CD74/CD44 signaling, whereas rPA adopted immunosuppressive characteristics. Together, stromal reprogramming and immune-editing dynamics orchestrated microenvironmental adaptation, linking cellular heterogeneity to clinical aggressiveness. This study presents the first comprehensive molecular atlas of PA progression, highlighting the malignant specialization of myoepithelial subpopulations, fibroblast-mediated stromal remodeling, and immune-driven microenvironmental evolution, offering a valuable framework for precision stratification of malignant potential and future microenvironment-targeted therapeutic strategies.

Project description:Analysis of mRNA expression in pleomorphic adenoma

Project description:Supposed risk of malignant transformation of salivary gland pleomorphic adenoma (SGPA) is an important reason for aggressive retreatment in recurrent pleomorphic adenoma (RPA). However, although the diagnostic category 'carcinoma ex-pleomorphic adenoma' suggests that malignant transformation of a pleomorphic adenoma is a regular event, this has to date not been shown to occur in sequential lesions of one patient. Here, we show the molecular events in transformation to malignancy of a pleomorphic adenoma of the parotid gland. Detailed molecular analysis revealed an LIFR/PLAG1 translocation characteristic for pleomorphic adenoma and, next to this, a PIK3R1 frameshift mutation and several allelic imbalances. In subsequent malignant recurrences, the same LIFR/PLAG1 translocation, PIK3R1 frameshift mutation, and allelic imbalances were present in addition to TP53 mutations. Thus, this case not only shows malignant transformation of SGPA, but also demonstrates that molecular analysis can be of help in recognising malignancy in the rare instance of RPA.

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