Project description:Clinical outcomes for patients with glioblastoma (GBM) are extremely poor due to inevitable tumor recurrence even after extensive treatments. These recurrences are thought to manifest from cells located within the tumor edge. Despite this, the precise molecular mechanism governing GBM spatial phenotypic heterogeneity (e.g. edge vs. core) and subsequent tumor recurrence remains poorly elucidated. Here, using patient-derived GBM core and edge tissues, we analyzed transcriptional and metabolic signatures in an effort to determine how GBM facilitates the edge phenotype and its associated recurrence-initiating cells (RICs). In so doing, we unexpectedly identified CD38 as an essential protein in the formation of the edge phenotype and found a CD38-driven interaction between edge GBM cells and neighboring astrocytes that communally develops a GBM edge that is unresectable by surgery and retains RICs.

Project description:Gene Expression in d5 wound-edge tissues of MFG-E8 WT and MFG-E8 KO mice Affymetrix GeneChip® Mouse Genome 430 array was used to study the gene expression in d5 wound-edge tissues of MFG-E8 WT and MFG-E8 KO mice Gene Expression in d5 wound-edge tissues of MFG-E8 WT and MFG-E8 KO mice

Project description:Intratumor spatial heterogeneity facilitates therapeutic resistance in glioblastoma (GBM). Nonetheless, understanding of GBM is limited to the resectable tumor core lesion while the seeds for recurrence reside in the unresectable tumor edge. In this study, stratification of GBM to core and edge demonstrated clinically relevant surgical sequelae. We establish regionally derived models of GBM edge and core that retain their spatial identity in a cell autonomous manner. Edge cells show a higher capacity for infiltrative growth, while core cells demonstrate greater therapy resistance. Investigation of intercellular signaling between these two cell populations uncovered the paracrine crosstalk from tumor core that provokes malignancy and therapy resistance of edge cells. These phenotypic alterations were initiated by HDAC1 in GBM core cells which subsequently affect edge cells by secreting the soluble form of CD109 protein. Our data reveal the role of intracellular communication between regionally different populations of GBM cells in tumor recurrence.

Project description:Purpose: Primary cutaneous squamous cell carcinoma (SCC) can be an invasive cancer in skin and has the potential to metastasize. We aimed to define the cancer related molecular changes that distinguish non-invasive from invasive SCC. Experimental design: We used laser capture microdissection technique in combination with cDNA microarray analysis in order to determine molecular changes that associate with SCC progression. Results: We defined invasion-associated genes as those udifferentially regulated only in SCC invasive nests, but not in actinic keratosis-like dysplasia or SCC in situ regions, compared to normal epidermis. We designated these genes as “invasion signature gene set of cutaneous SCC”. Overall we found 383 up- and 354 down-regulated probe-sets that constitute the invasion signature gene set. As part of this profile, SCC invasion is associated with aberrant gene expression changes of numerous MMPs including MMP7 (FCH=5.43, FDR<0.01) and MMP13 (FCH=12.53, FDR<0.01). IL-24 is also up-regulated in the leading invasive edge of SCC (FCH=6.74, FDR<0.01). IL-24 enhanced mRNA expression of both MMP7 and MMP13 in a human SCC cell line. Laminin332, which is one of the target molecules of MMP7, had altered expression at the leading edge of SCC invasion nests at both the genomic and protein level. Conclusions: We defined the distribution of MMPs within human cutaneous SCC tissue showing distinct expression with progression from normal skin to actinic keratosis to SCC in situ to invasive carcinoma. We further suggest a potential role for IL-24 in progression to invasion via MMP7 and MMP13. Laser capture microdissection was performed on 5 cases of actinic keratosis, 5 cases of in situ SCC, and 5 cases of invasive SCC.

Project description:Gene Expression in d5 wound-edge tissues of MFG-E8 WT and MFG-E8 KO mice Affymetrix GeneChip® Mouse Genome 430 array was used to study the gene expression in d5 wound-edge tissues of MFG-E8 WT and MFG-E8 KO mice

Project description:OSCC is associated with substantial mortality and morbidity. In this study, we built on our previous molecular work to identify and validate a prognostic 13-gene signature that showed a higher ability than tumor stage in predicting survival for patients with HPV-negative oral squamous cell carcinoma (OSCC). We previously reported 131 genes to be associated with survival in OSCC patients. In this study, we applied L1/L2-penalized Cox regression models to the Affymetrix array data from 97 HPV-negative OSCC patients on the 131 gene to identify a model for prediction of OSCC-specific survival. We then tested the model in an independent dataset and compared to tumor stage.

Project description:Purpose: Primary cutaneous squamous cell carcinoma (SCC) can be an invasive cancer in skin and has the potential to metastasize. We aimed to define the cancer related molecular changes that distinguish non-invasive from invasive SCC. Experimental design: We used laser capture microdissection technique in combination with cDNA microarray analysis in order to determine molecular changes that associate with SCC progression. Results: We defined invasion-associated genes as those udifferentially regulated only in SCC invasive nests, but not in actinic keratosis-like dysplasia or SCC in situ regions, compared to normal epidermis. We designated these genes as “invasion signature gene set of cutaneous SCC”. Overall we found 383 up- and 354 down-regulated probe-sets that constitute the invasion signature gene set. As part of this profile, SCC invasion is associated with aberrant gene expression changes of numerous MMPs including MMP7 (FCH=5.43, FDR<0.01) and MMP13 (FCH=12.53, FDR<0.01). IL-24 is also up-regulated in the leading invasive edge of SCC (FCH=6.74, FDR<0.01). IL-24 enhanced mRNA expression of both MMP7 and MMP13 in a human SCC cell line. Laminin332, which is one of the target molecules of MMP7, had altered expression at the leading edge of SCC invasion nests at both the genomic and protein level. Conclusions: We defined the distribution of MMPs within human cutaneous SCC tissue showing distinct expression with progression from normal skin to actinic keratosis to SCC in situ to invasive carcinoma. We further suggest a potential role for IL-24 in progression to invasion via MMP7 and MMP13.

Project description:McMurdo Ice Edge Time Series 2014-2015 Metagenome

Project description:Crosstalk with astrocytes establishes tumor edge in glioblastoma

Project description:In order to aid the development of patient-tailored diagnostics and therapeutics, we attempted to identify a genetic signature associated with disease prognosis in OSCC. A genome-wide analysis of transcription with the Affymetrix GeneChip Human Gene 1.0 ST Array was conducted. In this dataset, we include the expression data obtained from 57 specimens from patients with OSCC and 22 oral tissues from normal persons. 79 samples were analyzed. We compared gene expression levels between patients with and without OSCC. In addition, among 57 patients with OSCC, we also compared the expression levels between patients with and without amplicons scattered in chromosome 8q22.2~24.3.