Project description:The molecular mechanisms that regulate breast cancer cell (BCC) metastasis and proliferation within the leptomeninges (LM) are poorly understood, limiting development of effective therapies. Here we show that BCCs in mice can invade the LM by abluminal migration along blood vessels that connect vertebral/calvarial bone marrow and meninges, bypassing the blood-brain barrier. To screen for signaling pathways in EO-LM2 cells that could support their survival or proliferation in the meningeal niche, we performed RNA-seq analysis of EO771-tdT-Parental and EO771-tdT-LM2 to compare their transcriptome expression differences.

Project description:The transcriptome expression differences between GDNF-treated and anti-NCAM1-treated EO771-tdT-LM2 cells under glucose-deprived media treatment

Project description:Comparing the transcriptome expression differences between breast cancer cells EO771-tdT-Parental and EO771-tdT-LM2 using high-throughput sequencing.

Project description:Basal cell carcinomas (BCCs) have relative genomic stability and relatively benign clinical behavior but whether these two are related causally is unknown. To investigate the effects of introducing genomic instability into murine BCCs, we have compared ionizing radiation-induced tumorigenesis in Ptch1+/- mice vs. that in Ptch1+/- mice carrying mutant Blm alleles. We found that BCCs in Ptch1+/- Blmtm3Brd/tm3Brd mice had a trend towards greater genomic instability as measured by array CGH and that these mice developed significantly more microscopic BCCs than did Ptch1+/- Blm+/tm3Brd or Ptch1+/- Blm+/+ mice. The mutant Blm alleles also markedly enhanced the formation of rhabdomyosarcomas (RMS), another cancer to which Ptch1+/- mice and PTCH1+/- (basal cell nevus syndrome) patients are susceptible. Highly recurrent but different copy number changes were associated with the two tumor types and included losses of chromosomes 4 and 10 in all BCCs and gain of chromosome 10 in 80% of RMSs. Loss of chromosome 11 and 13, including the Trp53 and Ptch1 loci respectively, occurred frequently in BCCs, suggesting tissue-specific selection for genes or pathways that collaborate with Ptch deficiency in tumorigenesis. Despite the quantitative differences, there was no dramatic qualitative difference in the BCC or RMS tumors associated with the mutant Blm genotype. We investigated the effect of Blm deficiency on ionizing radiation-induced basal cell carcinoma and rhabdomyosarcoma tumorigenesis in Ptch1+/- mice. Six BCC and five RMS samples were obtained from separate mice. Liver tissue from each mouse was used as the normal reference.

Project description:Non-melanoma skin cancers (NMSC) including basal cell carcinoma (BCC) and squamous cell carcinoma (SCC) are more common kinds of skin cancer. Although these tumors share common pathological and clinical features, their similarity and heterogeneity at molecular levels are not fully elaborated yet. Here, by performing comparative analysis of gene expression profiling of BCC, SCC, and normal skin tissues, we could classify the BCC into three subtypes of classical, SCC-like, and normal-like BCCs. Functional enrichment and pathway analyses revealed the molecular characteristics of each subtype. The analysis of gene expression profiling among non-melanoma skin cancer types

Project description:Non-melanoma skin cancers (NMSC) including basal cell carcinoma (BCC) and squamous cell carcinoma (SCC) are more common kinds of skin cancer. Although these tumors share common pathological and clinical features, their similarity and heterogeneity at molecular levels are not fully elaborated yet. Here, by performing comparative analysis of gene expression profiling of BCC, SCC, and normal skin tissues, we could classify the BCC into three subtypes of classical, SCC-like, and normal-like BCCs. Functional enrichment and pathway analyses revealed the molecular characteristics of each subtype.

Project description:Basal cell carcinoma (BCC) is the most frequently diagnosed skin cancer and the most common malignancy in humans. Different morphological subtypes of BCC are associated with low- or high-risk of recurrence and aggressiveness, but the underlying biology of how the individual subtypes arise remains largely unknown. Because the majority of BCCs appear to arise from mutations in the same pathway, we hypothesized that BCC development, growth and invasive potential is also influenced by the tumor microenvironment and in particular by cancer-associated fibroblasts (CAFs) and their secreted factors. In this work, we aimed to characterize the stroma of the different BCC subtypes with a focus on CAF populations. To investigate the stromal features of the different BCC subtypes, we applied laser-capture microdissection (LCM) followed by RNA sequencing. A cohort of 15 BCC samples from 5 different “pure” subtypes (superficial, nodular, micronodular, sclerosing and basosquamous; n=3 each) were selected and included in the analysis. Healthy skin was used as a control (n=6). We show that the stroma of the different BCC subtypes have distinct gene expression signatures. Nodular and micronodular seem to have the most similar signatures, while superficial and sclerosing the most different. By comparing low- and high-risk BCC subtypes, we observed that Collagen 10A1 (COL10A1) is overexpressed in the stroma of sclerosing/infiltrative and basosquamous but not micronodular high-risk subtypes. Those findings were confirmed by immunohistochemistry in a cohort of 89 different BCC and 13 healthy skin samples. Moreover, scRNAseq analysis of BCCs of two independent datasets showed that the COL10A1-expressing population of cells is associated with the stroma adjacent to invasive BCC and shows extracellular matrix remodeling features.

Project description:Dicer sequencing was performed on the Illumina MiSeq System in a total of 16 BCC samples (8 nodular BCCs / 8 sBCCs) and mapped against the human reference genome (hg19). Dicer sequencing was performed in all 16 BCC samples. Whole genome methylation profiling performed with Infinium MethylationEPIC BeadChips as well as RNA and smallRNA sequencing were performed in 5 sBCCs with the Illumina NextSeq500 next generation sequencing system. We identified a variety of Dicer mutations that could play a role in aberrant miRNA expression in BCC. The aforementioned RNA sequences should be further evaluated in functional studies towards their possible pathogenetic role in sBCC.

Project description:Dicer sequencing was performed on the Illumina MiSeq System in a total of 16 BCC samples (8 nodular BCCs / 8 sBCCs) and mapped against the human reference genome (hg19). Dicer sequencing was performed in all 16 BCC samples. Whole genome methylation profiling performed with Infinium MethylationEPIC BeadChips as well as RNA and smallRNA sequencing were performed in 5 sBCCs with the Illumina NextSeq500 next generation sequencing system. We identified a variety of Dicer mutations that could play a role in aberrant miRNA expression in BCC. The aforementioned RNA sequences should be further evaluated in functional studies towards their possible pathogenetic role in sBCC.

Project description:Dicer sequencing was performed on the Illumina MiSeq System in a total of 16 BCC samples (8 nodular BCCs / 8 sBCCs) and mapped against the human reference genome (hg19). Dicer sequencing was performed in all 16 BCC samples. Whole genome methylation profiling performed with Infinium MethylationEPIC BeadChips as well as RNA and smallRNA sequencing were performed in 5 sBCCs with the Illumina NextSeq500 next generation sequencing system. We identified a variety of Dicer mutations that could play a role in aberrant miRNA expression in BCC. The aforementioned RNA sequences should be further evaluated in functional studies towards their possible pathogenetic role in sBCC.