Project description:The skin epidermis is constantly renewed throughout life1,2. Disruption of the balance between renewal and differentiation can lead to uncontrolled growth and tumour initiation3. Basal cell carcinoma (BCC) is the most frequent cancer in human4,5. Cell competition, the elimination of less fit cells by their neighboring winners, has been proposed to be important for tumour initiation6-10. Recent studies identified somatic mutations in cancer drivers in normal tissues lead to clonal expansion of these mutated cells11-16. However, the ways in which oncogenic mutations impact the balance between renewal and differentiation and lead to clonal expansion, cell competition, tissue colonization and tumour development is currently unknown. Using multidisciplinary approaches which combine lineage tracing, clonal analysis in living animals, single cell sequencing, quantitative proteomics, and functional experiments, we have investigated the mode of cell competition and the ability of oncogene-expressing cells to develop invasive BCC in different skin regions. The quantitative proteomics analysis of the ear and backskin dermis before and 6 weeks after oncogene expression was performed to investigate whether a different composition of the dermis in the ear and the backskin affects the ability of oncogene targeted cells to form BCC. To investigate whether a different composition of the dermis in the ear and the backskin affects the ability of oncogene targeted cells to form BCC, we performed an unbiased quantitative proteomics analysis of the ear and backskin dermis before and 6 weeks after oncogene expression. This analysis revealed that only very few proteins were more highly expressed in the backskin as compared to the ear and included Col1a1 and Col1a2 in WT conditions.

Project description:Basal cell carcinoma initiating cells undergo profound and rapid reprogramming into embryonic hair follicle progenitor like fate upon SmoM2 expression. Activation of Wnt/M-NM-2-catenin signaling pathways is required in a cell autonomous manner for the reprogramming of adult IFE progenitors into EHFP-like fate as well as for tumor initiation. We used MA to define the molecular changes that occur in basal cell carcinoma initiating cells form the first oncogenic hit to the development of invasive tumor and further on to investigate the role of Wnt/M-NM-2-catenin signaling activation in molecular changes occurring early during BCC development. Basal interfollicular cells expressing SmoM2 were FACS isolated at different stages of tumor development and in M-NM-2-catenin LOF condition for RNA extraction and hybridization on Affymetrix microarrays. By comparing the transcriptional profile of SmoM2 expressing cells with FACS-isolated cells from littermate control mice, we determined a list of genes differentially regulated by SmoM2 expression as specific SmoM2 signature.

Project description:Even though cutaneous atrophy is the major adverse effect of topical glucocorticoids, its molecular mechanisms are poorly understood. We found that glucocorticoids strongly increased the expression of REDD1 (regulated in development and DNA damage response 1), a stress-inducible inhibitor of mTOR, in mouse and human epidermis. We found that REDD1 knockout animals are partially resistant to glucocorticoid-induced epidermal and subcutaneous adipose atrophy which correlated with the protection of CD34+ follicular epithelial stem cells as well as p63+ keratinocyte progenitors in REDD1 knockout epidermis during chronic steroid treatment. At the same time, REDD1 knockout did not affect anti- inflammatory effect of glucocorticoids, as evaluated by ear edema test. Expression profiling revealed that ~ 50% of the glucocorticoid receptor (GR) target genes were not activated in epidermis of REDD1 knockouts, however, the negative effect of glucocorticoids on gene expression was similar to that in w.t. animals. Overall, our findings reveal a novel pathway in GR activation by its target gene/protein REDD1; and indicate an important role of REDD1 in glucocorticoid-induced skin atrophy, and maintenance of the epidermis and subcutaneous adipose. In addition, our findings form the foundation for the development of safer topical glucocorticoid treatment regimens by combining this therapy with REDD1 inhibitors. Seven wk old B6D2 females in the telogen stage of the hair cycle were shaved, and treated 3 days later. Glucocorticoid FA was applied topically (2 ug/animal) in 200 ul acetone to the back skin once or up to four applications every third day as described previously (Chebotaev et al., 2007b). Control animals were treated with acetone only. Skin was harvested 24 h after last FA application or 4-8 h after single FA application as indicated in Figure legends. To evaluate the anti-inflammatory effect of glucocorticoid FA in REDD1 KO and w.t. B6x129 mice, we used ear edema test (Schoepe et al., 2010; Schäcke et al., 2004; Park et al., 2006). Seven wk old female animals were pretreated with FA or vehicle applied to the back of the ear lobe one h before application of nonspecific contact irritant croton oil . Mice were sacrificed and ears were harvested nine hours after CO application, the time point at which we observed maximum ear edema in F1 C57Bl x 129 animals (data not shown). Four mm ear punch biopsies were immediately weighted to assess ear edema. Animals were injected i.p. with bromodeoxyuridine 1 hr before skin was harvested. Total RNA from murine epidermis and whole human skin was isolated with RiboPure kit (Ambion). Total RNA from murine s.c. adipose was isolated with RNeasy Lipid Tissue Kit (Qiagen). The RNA samples were treated with TURBOTM DNase (Ambion). Purity of RNA samples isolated from epidermis and s.c. fat was confirmed by the expression of adipose and keratinocyte cell markers.

Project description:Sox9 is a transcription factor expressed in most solid tumors. However, the molecular mechanisms underlying Sox9 function during tumorigenesis remain unclear. Here, using a genetic mouse model of basal cell carcinoma (BCC), the most frequent cancer in human, we show that Sox9 is expressed from the earliest step of tumor formation in a Wnt/β-catenin dependent manner. Deletion of Sox9 together with the constitutive activation of Hedgehog (HH) signaling completely prevents BCC formation and leads to a progressive loss of oncogene expressing cells. Transcriptional profiling of oncogene expressing cells with Sox9 deletion, combined with in vivo ChIP-sequencing uncovers a cancer-specific gene network regulated by Sox9 that promotes stemness, extracellular matrix (ECM) deposition and cytoskeleton remodeling while repressing epidermal differentiation. Our study identifies the molecular mechanisms regulated by Sox9 that links tumor initiation and invasion. Sox9 ChIP-seq analysis in K14CreER SmoM2 cells.

Project description:Basal cell carcinoma initiating cells undergo profound and rapid reprogramming into embryonic hair follicle progenitor like fate upon SmoM2 expression. Activation of Wnt/β-catenin signaling pathways is required in a cell autonomous manner for the reprogramming of adult IFE progenitors into EHFP-like fate as well as for tumor initiation. We used MA to define the molecular changes that occur in basal cell carcinoma initiating cells form the first oncogenic hit to the development of invasive tumor and further on to investigate the role of Wnt/β-catenin signaling activation in molecular changes occurring early during BCC development.

Project description:The three major skin cancer types - squamous cell carcinoma (SCC), basal cell carcinoma (BCC), and melanoma - account for >70% of all cancer. Although these cancers all derive from the outer skin layer (epidermis), variability in cell type composition and interactions causes substantial cross-cancer differences in disease initiation and invasive and metastatic potential. A knowledgebase of cell type composition and cell-to-cell interactions within the three skin cancers is needed to aid the assessment of risks and prognosis upon patient presentation. Here we integrated six distinct yet complementary spatial single-cell technologies to build the largest cell atlas and interactome of SCC, BCC, and melanoma to date. First, we performed single-cell RNA sequencing (scRNAseq) on >50,000 cells from 11 paired healthy and SCC patient biopsies. GeoMx spatial proteomics data independently validated the presence of rare immune cell types defined by scRNAseq. Visium and CosMx transcriptomic analyses were performed for all three skin cancer types to map spatial neighbourhoods and construct a cell-to-cell interaction atlas. We independently validated two key LR interactions, PD1_PDL1 and IL34_CSF1R, using Opal Multiplex Polaris and RNAscope data. Downstream analysis of IL34_CSF1R signalling zones suggested enrichment of IL34-related antigen presenting pathways in melanoma. Overall, we present a valuable database and analysis approaches to reveal potential biomarkers of initiation and progression of the most lethal type (melanoma) and the most common types (SCC and BCC) of skin cancer.

Project description:Analysis of skin lesions from adult mice with epidermal conditional deletion of heterotrimeric G protein Galpha s in cytokeratin 14 positive cells, compared with control mouse skin. Epidermal Gnas ablation leads to skin defects, including basal cell carcinoma (BCC). Results provide insight into role of Galpha s in the regulation of stem cells from the skin. Changes in gene expression following Gnas deletion from the mouse epidermis were analyzed. Skin from four independent mice of each wild type (control) and Gnas epidermal knockout (Gnas eKO) were analyzed.

Project description:Gene expression signatures induced by transient ROS production were characterized in both mouse back skin and tail epidermis samples. A transient in situ ROS production in the tissue was activated by an adapted photodynamic treatment, using methyl aminolevulinate as a metabolic precursor of endogenous Protoporphyrin IX. Gene expression in skin samples was measured 48 h after the photodynamic treatment. Experimental groups included: [1] Back skin control group (n=3 animals); [2] Back skin treated group (n=3 animals); [3] Tail skin control group (n=3 animals); and [4] Tail skin treated group (n=3 animals).

Project description:Background; Basal cell carcinoma (BCC) is the most common cancer in humans. The pathogenesis of BCC is associated with the sonic hedgehog (SHH) signaling pathway. Vismodegib, a smoothened inhibitor, that targets this pathway is now in clinical use for advanced BCC patients, but its efficacy is limited. Therefore, new therapeutic options for this cancer are required. Methods; We studied gene expression profiling of BCC tumour tissue coupled with laser capture microdissection to identify tumor specific receptor tyrosine kinase expression that can be targeted by small molecule inhibitors. The expression of selected molecules was confirmed by quantitative RT-PCR (qRT-PCR) and by immunohistochemistry. The action of kinase inhibitors was examined on primary normal human epidermal keratinocytes. Results; We found a >250 fold change increase (false discovery rate <10-4) of the oncogene, anaplastic lymphoma kinase (ALK) as well as its ligands, pleiotrophin and midkine in BCC compared to microdissected normal epidermis. qRT-PCR confirmed increased expression of ALK (p<0.05). Stronger staining of phosphorylated ALK in BCC tumour nests than normal skin was observed by immunohistochemistry. Additionally, Crizotinib, an FDA-approved ALK inhibitor, reduced keratinocyte proliferation in culture, whereas a c-Met, another receptor tyrosine kinase, inhibitor did not. Crizotinib significantly reduced the expression of GLI1 and CCND2 mRNA by approximately 60% and 20%, respectively (p<0.05). Conclusions; Our data suggest that ALK may increase GLI1 expression in parallel with the conventional SHH-pathway and promotes keratinocyte proliferation. Furthermore, an ALK inhibitor alone or in combination with targeting SHH-pathway molecules may be a potential treatment for BCC patients. Laser capture microdissection was performed on 5 cases of nodular/superficial BCC, 5 cases of infiltrative BCC.

Project description:Gene expression in self-renewing epithelial tissues is controlled by cis- and trans-activating regulatory factors that mediate responses to exogenous agents capable of causing tissue damage, infection, inflammation, or tumorigenesis. We used network construction methods to analyze the genetic architecture of gene expression in normal mouse skin in a cross between tumor-susceptible Mus musculus and tumor-resistant Mus spretus. We demonstrate that gene expression motifs representing different constituent cell types within the skin such as hair follicle cells, haematopoietic cells, and melanocytes are under separate genetic control. Motifs associated with inflammation, epidermal barrier function and proliferation are differentially regulated in mice susceptible or resistant to tumor development. The intestinal stem cell marker Lgr5 is identified as a candidate master regulator of hair follicle gene expression, and the Vitamin D receptor (Vdr) links epidermal barrier function, inflammation, and tumor susceptibility. Keywords: Expression Quantitative Trait Loci A backcross was generated using male Mus spretus and female FVB/N mice; female F1 hybrids were mated with male FVB/N mice. Seventy-one backcross mice (8-12 weeks old) received a single dose of DMBA (25 µg per mouse in 200 µl acetone). Starting one week after the initiation tumors were promoted with TPA (200 µl of 10-4 M solution in acetone) twice weekly for 20 weeks. Initiation and promotion were performed on doral back skin. Normal tail skin was snap frozen when the animals were sacrificed. Tail epidermis from completely untreated Spretus, FVB, and Spretus x FVB F1 mice was also analyzed.