Project description:The newest WHO classification suggests eliminating cases with BRAF and NRAS mutations from the categories of Spitz tumors (ST) and Spitz melanoma (SM). We aimed to better characterize the genomics of Spitz neoplasms and assess whether integrating genomic data with morphologic diagnosis improves classification and prognostication. We performed DNA and RNA sequencing on 80 STs, 26 SMs, and 22 melanomas with Spitzoid features (MSF). NGS data was used to reclassify tumors by moving BRAF/NRAS-mutated cases to MSF. Eighty-one percent of STs harbored kinase fusions/truncations. Of SMs, 77% had fusions/truncations, 8 involving MAP3K8. Novel fusions identified were MYO5A-FGFR1, MYO5A-ERBB4, and PRKDC-CTNNB1. The majority of MSFs (84%) had BRAF, NRAS, or NF1 mutations, and 62% had TERT promoter mutations. Only after reclassification, the following was observed: 1) mRNA expression showed distinct clustering of MSF; 2) 6/7 cases with recurrence and all distant metastases were MSFs; 3) RFS was worse in MSF than ST and SM groups (p=0.0073); 4) classification incorporating genomic data was highly predictive of recurrence (OR 13.20, p=0.0197). The majority of STs and SMs have kinase fusions as primary initiating genomic events. Eliminating BRAF/NRAS-mutated neoplasms from these categories results in improved classification and prognostication of melanocytic neoplasms with Spitzoid cytomorphology.

Project description:The newest WHO classification suggests eliminating cases with BRAF and NRAS mutations from the categories of Spitz tumors (ST) and Spitz melanoma (SM). We aimed to better characterize the genomics of Spitz neoplasms and assess whether integrating genomic data with morphologic diagnosis improves classification and prognostication. We performed DNA and RNA sequencing on 80 STs, 26 SMs, and 22 melanomas with Spitzoid features (MSF). NGS data was used to reclassify tumors by moving BRAF/NRAS-mutated cases to MSF. Eighty-one percent of STs harbored kinase fusions/truncations. Of SMs, 77% had fusions/truncations, 8 involving MAP3K8. Novel fusions identified were MYO5A-FGFR1, MYO5A-ERBB4, and PRKDC-CTNNB1. The majority of MSFs (84%) had BRAF, NRAS, or NF1 mutations, and 62% had TERT promoter mutations. Only after reclassification, the following was observed: 1) mRNA expression showed distinct clustering of MSF; 2) 6/7 cases with recurrence and all distant metastases were MSFs; 3) RFS was worse in MSF than ST and SM groups (p=0.0073); 4) classification incorporating genomic data was highly predictive of recurrence (OR 13.20, p=0.0197). The majority of STs and SMs have kinase fusions as primary initiating genomic events. Eliminating BRAF/NRAS-mutated neoplasms from these categories results in improved classification and prognostication of melanocytic neoplasms with Spitzoid cytomorphology.

Project description:Cutaneous, acral and mucosal subtypes of melanoma were evaluated by whole-genome sequencing, revealing genes affected by novel recurrent mutations to the promoter (TERT, DPH3, OXNAD1, RPL13A, RALY, RPL18A, AP2A1), 5’-UTR (HNRNPUL1, CCDC77, PES1), and 3’-UTR (DYNAP, CHIT1, FUT9, CCDC141, CDH9, PTPRT) regions. TERT promoter mutations had the highest frequency of any mutation, but neither they nor ATRX mutations, associated with the alternative telomere lengthening mechanism, were correlated with greater telomere length. Genomic landscapes largely reflected ultraviolet radiation mutagenesis in cutaneous melanoma and provided novel insights into melanoma pathogenesis. In contrast, acral and mucosal melanomas exhibited predominantly structural changes, and mutation signatures of unknown aetiology not previously identified in melanoma. The majority of melanomas had potentially actionable mutations, most of which were in components of the mitogen-activated protein kinase and phosphoinositol kinase pathways.

Project description:<p>Desmoplastic melanoma is an infrequent variant of melanoma with sarcomatous histology, distinct clinical behavior, and unknown pathogenesis. We performed low-coverage genome and high-coverage exome sequencing of 20 desmoplastic melanomas, followed by targeted sequencing of 293 genes to validate candidate genes. A high mutation burden (median 62 mutations/Mb) ranked desmoplastic melanoma among the most highly mutated cancers. Mutation patterns strongly implicate UV-radiation as the dominant mutagen, indicating a superficially located cell of origin. Novel alterations included recurrent promoter mutations of NF-kappa B inhibitor epsilon, NFKBIE (IkB&#949;) in 14.5% of samples. Commonly mutated oncogenes in melanomas, in particular BRAF(V600E) and NRAS(Q61K/R), were absent. Instead, other genetic alterations known to activate the MAPK and PI3K signaling cascades were identified in 73% of samples, affecting NF1, CBL, ERBB2, MAP2K1, MAP3K1, BRAF, EGFR, PTPN11, MET, RAC1, SOS2, NRAS, and PIK3CA, some of which being candidates for targeted therapies.</p> <p><i>Reprinted from:</i><br/> Shain, A. H. et al. Exome sequencing of desmoplastic melanoma identifies recurrent NFKBIE promoter mutations and diverse activating mutations in the MAPK pathway. <i>Nat. Genet. <br/> With permission from Nature Genetics</i> </p>

Project description:Macrophages have plasticity to adapt microenvironment. In joint tissue, synovial macrophages (SM) and synovial fibroblasts (SF) are maintained in the homeostasis. In Rheumatoid arthritis, crosstalk between SM and SF via inflammatory response induce abnormal activation in respective cells and contribute to disease progression. However, the activation mechanisms in SM which are encouraged by SF are largely unclear. Here, we demonstrated metabolic reprogramming and immunological activation in SM by secretary stimulations from SF using primary culture synovial cell derived from arthritis model mice. To analyze interaction between SM and SF, primary culture of murine synovial cells was performed, respectively. RNA-seq analysis showed SF express abundant secretion-related gene. Thus, we investigated whether conditioned medium from SF (SF-CM) affects biological activity in SM. As the results, SF-CM condition induced both glycolysis and mitochondrial respiration to SM with increased uptake of glucose and glutamine at least, accompanied with cell survival. In addition, several inflammation markers were also upregulated in SM by SF-CM condition. Taken together, these results suggest that metabolic reprogramming were induced in SM by secretory stimulations from SF, followed by activated inflammatory response and long-live. These indicate that such phenotypes of SM may contribute to chronic inflammation in Rheumatoid arthritis

Project description:Point mutations within the TERT promoter are the most common recurrent somatic non-coding mutation identified across different cancer types, including glioblastoma, melanoma, hepatocellular carcinoma and bladder cancer. They are most abundant at C146T and C124T and more rare at A57C, with the latter originally described as a familial case but subsequently shown also to occur somatically. All three mutations create de novo ETS (E-twenty-six specific) binding sites and result in the reactivation of the TERT gene, allowing cancer cells to achieve replicative immortality. Here, we employed a systematic proteomics screen to identify transcription factors preferentially binding to the C146T, C124T and A57C mutations. While we confirmed binding of multiple ETS factors to the mutant C146T and C124T sequences, we identified E4F1 a an A57C-specific binder and ZNF148 as a TERT WT binder that is excluded from the TERT promoter by the C124T allele. Both proteins are activating transcription factors that bind specifically to the A57C and wildtype (at position 124) TERT promoter sequence in corresponding cell lines and upregulate TERT transcription and telomerase activity.

Project description:Activating mutations of FGFR3 are found in a high proportion of bladder tumours. The molecular consequences of FGFR3 mutation in urothelial cells and the mechanisms by which mutant FGFR3 may drive bladder tumourigenesis are largely unknown. We used expression arrays to identify downstream targets of mutant FGFR3 signalling in normal urothelial cells. TERT-immortalized normal urothelial cells stably transduced to express the most common FGFR3 mutation (S249C) were compared with control cells transduced with the empty vector (pFB).

Project description:Background: Syringomyelia (SM) is a common condition affecting brachycephalic toy breed dogs and is characterized by the development of fluid-filled cavities within the spinal cord. It is often concurrent with a complex developmental malformation of the skull and craniocervical vertebrae called Chiari-like malformation (CM) characterized by a conformational change and overcrowding of the brain and cervical spinal cord particularly at the craniocervical junction. CM and SM have a polygenic mode of inheritance with variable penetrance.

Project description:Severe malaria (SM) is a life-threatening condition caused by Plasmodium falciparum and the most severe presentation is cerebral malaria (CM) mostly affecting children under five years old. The comprehensive understanding of the complex mechanisms driving the pathophysiology of CM, which encompasses both host and parasite factors, remains insufficiently elucidated. This study analyzed clinical isolates from Beninese children using liquid chromatography-mass spectrometry to identify differentially expressed proteins in SM compared to uncomplicated malaria (UM) patients. We showed a down-regulation of proteins involved in ubiquitination and proteasomal protein degradation in infected erythrocytes from CM patients. In plasma we observed that proteasome 20S components were more abundant in SM patients, which could potentially be useful as a severity biomarker. Furthermore, transferrin receptor protein 1 was specifically upregulated in CM infected erythrocyte isolates which raises the hypothesis that parasites causing CM could preferably infect reticulocytes or erythroid precursors. Consistently with this hypothesis we also found that parasite proteins implicated in distinct biosynthesis pathways were upregulated in CM. Moreover, functional analysis showed deregulated iron metabolism and ferroptosis pathways associated with CM presentation. Further investigations are required to confirm these findings and determine their potential for clinical application.

Project description:We investigated copy number alterations in melanomas from two cohorts of Braf mutant mice (UV exposed and no UV exposure) by comparing tumour DNA to germline DNA by array CGH