Global ETD Search

11	Cutaneous Neoplasms Composed of Melanoma and Carcinoma: A Rare but Important Diagnostic Pitfall and Review of the Literature Mejbel, Haider A., Nelson, Kelly C., Pradhan, Dinesh, Ivan, Doina, Zaleski, Michael, Nagarajan, Priyadharsini, Tetzlaff, Michael T., Curry, Jonathan L., Torres-Cabala, Carlos A., Prieto, Victor G., Aung, Phyu P. 01 January 2020 (has links) We report two cases of combined cutaneous tumors composed of melanoma and carcinoma. The first tumor presented as a 5-mm pink-blue macule over the right zygomatic arch in an 85-year-old man. Shave biopsy and immunohistochemical studies revealed that the tumor was composed of melanoma (highlighted by SOX10 and MART-1, with high Ki-67 proliferative index) intermixed with nodular basal cell carcinoma (highlighted by pan-cytokeratin and Ber-EP4). The neoplastic melanocytes were confined to the basal cell carcinoma nodules, and a diagnosis of combined melanoma in situ and basal cell carcinoma was rendered. After therapeutic excision, the patient was disease-free at 9 months after the initial diagnosis. The second tumor presented as a 6-mm pink-brown crusted papule on the right forehead in an 89-year-old man. Shave biopsy and immunohistochemical studies revealed that the tumor was composed of malignant melanoma (MM) (highlighted by S100 and MART-1) intermixed with squamous cell carcinoma (SCC) (highlighted by cytokeratin and p63), and a diagnosis of combined MM-SCC was rendered. These two cases highlight the importance of recognizing these rare types of melanocytic-epithelial cutaneous neoplasms to arrive at an accurate diagnosis that may inform appropriate disease stage and therapy. basal cell carcinoma combined tumors melanoma squamous cell carcinoma
12	Invasão orbitária por carcinoma basocelular palpebral: epidemiologia, fatores clínicos, histopatologia e perfil imuno-histoquímico dos casos submetidos à exenteração em um hospital de referência / Orbital invasion by basal cell carcinoma of the eyelid: epidemiology, clinical factors, histopathology and immunohistochemical profile of cases submitted to exenteration in a reference hospital Cintra, Juliana de Andrade 30 August 2016 (has links) O carcinoma basocelular (CBC) é uma neoplasia cutânea maligna de baixo potencial metastatizante, originada das células da camada basal da epiderme. Sua importância clínico-epidemiológica pode ser constatada pelo fato de constituir a neoplasia maligna mais comum na espécie humana, cujo principal fator etiológico é a exposição à radiação ultravioleta. Apesar da baixa incidência de metástases, a neoplasia pode adotar um comportamento localmente agressivo, com comprometimento de estruturas profundas e de forte apelo estético, como ocorre na região periocular. Uma das complicações advindas de sua infiltração neste sítio anatômico consiste na invasão de tecidos orbitários cujo tratamento é a exenteração, conduta mutiladora que consiste na retirada do globo ocular e das partes moles da órbita acometida. O objetivo deste estudo foi avaliar os casos de CBC com invasão orbitária que foram submetidos à exenteração no Hospital de Clínicas de Ribeirão Preto, no período de 1992 a 2012, para a possível identificação de fatores clínicos e morfológicos que possam predizer uma evolução desfavorável da neoplasia. Foi realizada uma coleta de dados clínicos, epidemiológicos e histopatológicos dos casos submetidos à exenteração a partir dos prontuários médicos dos pacientes. As lâminas referentes aos exames anátomo-patológicos foram revistas e foi realizado estudo imuno-histoquimico para os marcadores p53, bcl-2, actina de músculo liso e metaloproteinase-1. O grupo controle foi composto por pacientes com diagnóstico da neoplasia em topografia periocular, sem sinais de invasão orbitária. Para os casos com invasão orbitária o número de casos positivos marcados para p53 (0,21) e para actina de músculo liso (0,21) foi significantemente menor que o número de casos positivos para bcl-2 (0,63) e MMP-1 (0,58) (p= 0,0331). Entretanto, o número de casos positivos para bcl-2 (0,63) foi significantemente maior que o número de casos marcados por MMP-1 (0,58) (p=0,0126). Para os tumores sem invasão orbitária, o número de casos positivos para p53 (0,31) e actina (0,31) foi significantemente menor que o número de casos positivos para bcl-2 (0,63) eMMP-1 (0,50) (p=0,0273). Os resultados indicam que a invasão orbitaria por carcinoma basocelular palpebral ocorre com maior frequência no sexo masculino, em pacientes com longa história clínica de múltiplas lesões e submetidos a múltiplos procedimentos. Além disso, os marcadores estudados aparentemente não podem predizer um comportamento mais agressivo do tumor. / Basal cell carcinoma (BCC) is a malignant skin cancer of low metastasizing potential originated from the basal cells of the epidermis. Its clinical and epidemiological importance is evidenced by the fact that it is the most common malignancy in humans and it has as the main etiological factor the exposure to ultraviolet radiation. Despite the low incidence of metastases, the cancer can adopt a locally aggressive behavior with involvement of deep structures and it can have a strong aesthetic appeal, as in the periocular region. One of the complications arising from its infiltration in this anatomical site consists of orbital tissue invasion whose treatment is exenteration, a mutilating procedure consisting of the removal of the eyeball and the soft tissue of the affected orbit. The aim of this study was to evaluate the cases of BCC with orbital invasion that underwent exenteration at the Clinics Hospital of Ribeirão Preto Medical School, University of Sao Paulo, from 1992 through 2012, for possible identification of clinical and morphological factors that can predict an unfavorable evolution of the tumor. The clinical data were obtained from the patients\' charts and we have reviewed all the slides from exenteration specimens and performed immunohistochemical studies with p53, bcl-2, smooth muscle actin and metalloproteinase-1(MMP-1). The control group consisted of age-matched patients with eyelid basal cell carcinomas without orbital invasion. For cases with orbital invasion the number of positive cases labeled for p53 (0.21) and actin (0.21) was significantly lower than the number of positive cases for bcl-2 (0.63) and MMP -1 (0.58) (p = 0.0331). However, the number of positive cases for bcl-2 (0.63) was significantly greater than the proportion of positive cases for MMP-1 (0.58) (p = 0.0126). For cases without orbital invasion the number of positive cases for p53 (0.31) and actin (0.31) was significantly lower than the number of positive cases for bcl-2 (0.63) and MMP-1 (0.50) (p = 0.0273), even though the number of positive cases marked for MMP-1 (0.50) was not significantly different from number of positive cases for bcl-2 (0.63) (p = 0.059). The results indicate that orbital invasion of basal cell carcinoma of the eyelid was more frequent in male sex and that the patients have usually a long history of multiple lesions and were submitted to several procedures. In addition, our results suggest these markers can not predict an aggressive behavior for basal cell carcinomas of the periocular region. Basal cell carcinoma Biomarcadores Biomarkers Carcinoma basocelular Epidemiologia Epidemiology Exenteração orbitária Orbital exenteration
13	Invasão orbitária por carcinoma basocelular palpebral: epidemiologia, fatores clínicos, histopatologia e perfil imuno-histoquímico dos casos submetidos à exenteração em um hospital de referência / Orbital invasion by basal cell carcinoma of the eyelid: epidemiology, clinical factors, histopathology and immunohistochemical profile of cases submitted to exenteration in a reference hospital Juliana de Andrade Cintra 30 August 2016 (has links) O carcinoma basocelular (CBC) é uma neoplasia cutânea maligna de baixo potencial metastatizante, originada das células da camada basal da epiderme. Sua importância clínico-epidemiológica pode ser constatada pelo fato de constituir a neoplasia maligna mais comum na espécie humana, cujo principal fator etiológico é a exposição à radiação ultravioleta. Apesar da baixa incidência de metástases, a neoplasia pode adotar um comportamento localmente agressivo, com comprometimento de estruturas profundas e de forte apelo estético, como ocorre na região periocular. Uma das complicações advindas de sua infiltração neste sítio anatômico consiste na invasão de tecidos orbitários cujo tratamento é a exenteração, conduta mutiladora que consiste na retirada do globo ocular e das partes moles da órbita acometida. O objetivo deste estudo foi avaliar os casos de CBC com invasão orbitária que foram submetidos à exenteração no Hospital de Clínicas de Ribeirão Preto, no período de 1992 a 2012, para a possível identificação de fatores clínicos e morfológicos que possam predizer uma evolução desfavorável da neoplasia. Foi realizada uma coleta de dados clínicos, epidemiológicos e histopatológicos dos casos submetidos à exenteração a partir dos prontuários médicos dos pacientes. As lâminas referentes aos exames anátomo-patológicos foram revistas e foi realizado estudo imuno-histoquimico para os marcadores p53, bcl-2, actina de músculo liso e metaloproteinase-1. O grupo controle foi composto por pacientes com diagnóstico da neoplasia em topografia periocular, sem sinais de invasão orbitária. Para os casos com invasão orbitária o número de casos positivos marcados para p53 (0,21) e para actina de músculo liso (0,21) foi significantemente menor que o número de casos positivos para bcl-2 (0,63) e MMP-1 (0,58) (p= 0,0331). Entretanto, o número de casos positivos para bcl-2 (0,63) foi significantemente maior que o número de casos marcados por MMP-1 (0,58) (p=0,0126). Para os tumores sem invasão orbitária, o número de casos positivos para p53 (0,31) e actina (0,31) foi significantemente menor que o número de casos positivos para bcl-2 (0,63) eMMP-1 (0,50) (p=0,0273). Os resultados indicam que a invasão orbitaria por carcinoma basocelular palpebral ocorre com maior frequência no sexo masculino, em pacientes com longa história clínica de múltiplas lesões e submetidos a múltiplos procedimentos. Além disso, os marcadores estudados aparentemente não podem predizer um comportamento mais agressivo do tumor. / Basal cell carcinoma (BCC) is a malignant skin cancer of low metastasizing potential originated from the basal cells of the epidermis. Its clinical and epidemiological importance is evidenced by the fact that it is the most common malignancy in humans and it has as the main etiological factor the exposure to ultraviolet radiation. Despite the low incidence of metastases, the cancer can adopt a locally aggressive behavior with involvement of deep structures and it can have a strong aesthetic appeal, as in the periocular region. One of the complications arising from its infiltration in this anatomical site consists of orbital tissue invasion whose treatment is exenteration, a mutilating procedure consisting of the removal of the eyeball and the soft tissue of the affected orbit. The aim of this study was to evaluate the cases of BCC with orbital invasion that underwent exenteration at the Clinics Hospital of Ribeirão Preto Medical School, University of Sao Paulo, from 1992 through 2012, for possible identification of clinical and morphological factors that can predict an unfavorable evolution of the tumor. The clinical data were obtained from the patients\' charts and we have reviewed all the slides from exenteration specimens and performed immunohistochemical studies with p53, bcl-2, smooth muscle actin and metalloproteinase-1(MMP-1). The control group consisted of age-matched patients with eyelid basal cell carcinomas without orbital invasion. For cases with orbital invasion the number of positive cases labeled for p53 (0.21) and actin (0.21) was significantly lower than the number of positive cases for bcl-2 (0.63) and MMP -1 (0.58) (p = 0.0331). However, the number of positive cases for bcl-2 (0.63) was significantly greater than the proportion of positive cases for MMP-1 (0.58) (p = 0.0126). For cases without orbital invasion the number of positive cases for p53 (0.31) and actin (0.31) was significantly lower than the number of positive cases for bcl-2 (0.63) and MMP-1 (0.50) (p = 0.0273), even though the number of positive cases marked for MMP-1 (0.50) was not significantly different from number of positive cases for bcl-2 (0.63) (p = 0.059). The results indicate that orbital invasion of basal cell carcinoma of the eyelid was more frequent in male sex and that the patients have usually a long history of multiple lesions and were submitted to several procedures. In addition, our results suggest these markers can not predict an aggressive behavior for basal cell carcinomas of the periocular region. Biomarcadores Carcinoma basocelular Epidemiologia Exenteração orbitária Basal cell carcinoma Biomarkers Epidemiology Orbital exenteration
14	Molecular Analysis of Non-Melanoma Skin Cancer Carless, Melanie, n/a January 2004 (has links) Non-melanoma skin cancer (NMSC) is the most common cancer in the world with a lifetime risk for development as high as 2 in 3 in Queensland, Australia. Mortality is quite low, representing an approximate 360 deaths in Australia annually but cost of treatment is extremely high, estimated at $232 million each year. Squamous cell carcinoma (SCC) and basal cell carcinoma (BCC) are the two most common forms of NMSC. Although BCC generally do not have the propensity to metastasise, they are highly invasive and can be locally destructive. SCC on the other hand is invasive and has metastatic potential. SCC is generally derived from a precursor lesion, solar keratosis (SK), which is also considered to be a biomarker of BCC, SCC and malignant melanoma. According to one theory, SKs actually represent the first recognisable stage of SCC development and therefore may be indicative of the earliest stage of NMSC development. In addition to these common forms of NMSC, rarer forms such as keratoacanthoma (KA), which spontaneously regress, and SCC in situ, which rarely become invasive, may provide clues into protective mechanisms associated with prevention of development. Like all other cancers, NMSC arises from an accumulation of genetic abnormalities that result in severe cellular dysfunction. A number of genes have been proposed in the development of NMSC, including p53, CDKN2a, Bcl-2 and the Ras family of genes, which are typically associated with proliferative and differentiation processes. Also, a number of genetic disorders that predispose individuals to NMSC have also been identified. Genetic abnormalities in these genes may be a result of somatic mutations that may be promoted by environmental carcinogens. For NMSC, ultraviolet (UV) radiation is the primary environmental stimulus that acts upon skin to generate mutations. UV effects are 2-fold; the first being direct damage produced by UVB radiation and the second being indirect damage as a result of UVA-induced oxidative stress. In addition to mutations of genes that directly result in carcinogenesis, polymorphic variants of genes may also play a role in susceptibility to NMSC. These susceptibility genes may have immunogenic, detoxifying or transcriptional roles that could be involved in increased mutagenesis or activation of cancer causing genes. The purpose of this study was ultimately to identify further molecular based mechanisms associated with the development of non-melanoma skin cancer. Initially, this study aimed to examine the effects of aberrant chromosomal regions on NMSC development and also to identify candidate genes within these regions that may be implicated in the development and progression of NMSC. Also, based on chromosomal and functional implications, a number of candidate genes were assessed using association analysis to determine their involvement in susceptibility to the earliest stages of NMSC development. Implicated susceptibility genes were then further investigated to determine their response to UV radiation. Therefore the methodological approach of these studies was based on three broad technical applications of cytogenetic, association and expression analyses. Previous comparative genomic hybridisation (CGH) studies implicated the 18q chromosomal region in progression of SK to SCC and this region was therefore suspected of harbouring one or more tumour suppressor genes that were associated with a more malignant phenotype. Following on from this analysis, loss of heterozygosity (LOH) analysis was used for further delineation of this region and possibly to implicate candidate genes involved in progression. Additionally, CGH was used to investigate keratoacanthoma to determine aberrant regions that might be involved in progression and also regression of this NMSC. Genes that had potential functional roles in NMSC development and that were located in or near regions implicated by these cytogenetic analyses were further investigated using association analysis. Association analysis was performed using polymerase chain reaction and subsequent restriction enzyme digestion or GeneScan analysis to determine genotype and allele frequencies in an SK affected versus control population for polymorphisms within a number of candidate genes. This population was carefully phenotyped so that not only genotypic factors could be analysed but also their interaction with a number of phenotypic and environmental risk factors. Genes with polymorphisms that did show association with solar keratosis development were then examined functionally. Specifically, gene expression analysis was undertaken to investigate their response to UV radiation. Both UVA only and combined UVA/UVB treatments were used for short term irradiation and also for long term irradiation with recovery to determine differential effects of UV range and dose in human skin. Relative mRNA expression analysis of these genes was performed using quantitative real time reverse transcription polymerase chain reaction to determine if UV radiation imposed gene expression changes in the skin. A combination of these methodologies provided a wide basis for investigation of NMSC. Cytogenetic, association and expression analyses all allow for the identification of molecular risk factors that cause or are associated with NMSC development and progression. These analyses provided diverse results that implicated various molecular mechanisms in the development of NMSC. Cytogenetic analysis is a powerful technique, especially for the identification of a broad range of aberrations throughout the genome. This study employed LOH analysis to investigate an implicated region involved in progression to SCC and to attempt identification of candidate genes that may be involved in this process. LOH analysis was successfully performed on 9 SCCs, 5 SCCs in situ and 2 SKs using 8 microsatellite markers within the 18q region. Polymerase chain reaction (PCR) was used to amplify polymorphic regions of these markers and genotypic composition was determined for normal and cancerous tissue within the specimen. In heterozygote individuals, determined by analysis of normal tissue, the cancerous tissue was examined to determine if alleles within the implicated region had been lost. However, after analysis of multiple different samples, there was no LOH detected in any of the samples examined for this analysis. This does not necessarily reject a role for 18q, or genes within this region, as the localisation of candidate tumour suppressor genes within a small region may indicate a tighter region of involvement than was expected. As such, a more targeted study may further delineate this region and implicate candidate genes in progression of SK to the more malignant phenotype of SCC. Further CGH analysis of keratoacanthoma was also undertaken to identify aberrations associated with development and also regression of this skin cancer. CGH was performed using universal amplification and nick translation to incorporate a fluorescent dye. Differentially labelled normal and tumour DNA were then competitively hybridised to a normal metaphase spread and fluorescence emission indicated either amplification or deletion of specific chromosomal regions. In total, 6 KA samples were analysed, with 2 samples each from evolving, matured and regressing stages of KA development. In general, regressing KAs appeared to be more highly associated with deleted regions than evolving and matured KAs. Specifically, the 15q chromosomal region that was deleted in regressing KAs but amplified in evolving or matured KAs, may be significantly involved in the process of KA regression. Also various candidate genes that were being considered for analysis were located in or near some of these implicated regions, including GSTM1, GSTP1 and SSTR2. As such, these candidate genes were targeted for further investigation. A number of susceptibility genes that were located in or near aberrant regions implicated in NMSC development were investigated using association analysis. These genes included members of the somatostatin receptor family (SSTR1 and SSTR2), members of the glutathione-S-transferase (GST) family (GSTM1, GSTT1, GSTP1 and GSTZ1) and the vitamin D receptor (VDR). Studies detected a number of interesting interactions between genetic, environmental and phenotypic factors in the development of the early stages of non-melanoma skin cancer. Additionally, genes implicated in NMSC development were further investigated using expression analysis to determine response to UV radiation. Association analysis was initially performed on members of the somatostatin receptor family. Somatostatin is a growth inhibiting factor, amongst other things, that mediates its actions through the somatostatin receptors (SSTRs). The presence of these receptors (SSTR1-5) in tumour cells indicates a potential for somatostatin to bind and suppress growth, as well as allowing for therapeutic treatment with somatostatin analogues. Additionally, expression of these receptors in normal tissue, including skin, should allow for potential protection against tumour growth. The genes for SSTR1 and SSTR2 have been shown to contain dinucleotide repeat polymorphisms, and although these polymorphisms may not directly result in altered expression or binding potential, they may be linked to another functional polymorphism that does. Using association analysis the SSTR1 and SSTR2 genes were investigated to determine whether they play a role in the development of solar keratosis. Results showed that there were no significant differences between SSTR1 and SSTR2 polymorphism frequencies in the tested solar keratosis population (P = 0.10 and P = 0.883, respectively) as compared to an unaffected population. Hence, these studies do not support a role for the SSTR1 or SSTR2 genes in solar keratosis development. Further association analysis and subsequent expression analysis was also performed on members of the glutathione-S-transferase family. The GST enzymes play a role in the detoxification of a number of carcinogens and mutagens, including those produced by UV-induced oxidative stress. This study examined the role of GSTM1, GSTT1, GSTP1 and GSTZ1 gene polymorphisms in susceptibility to SK development. Association analysis was performed to detect allele and genotype frequency differences in SK affected and control populations using PCR and restriction enzyme digestion. No significant differences were detected in GSTP1 and GSTZ1 allele or genotype frequencies, however polymorphisms within both genes were found to be in linkage disequilibrium, as previously reported, and a new allelic variant of the GSTZ1 gene was identified. Significant associations between GSTM1 (P = 0.003) and GSTT1 (P = 0.039) genotypes and SK development were detected, with the null variants of both genes conferring an approximate 2-fold increase in risk for solar keratosis development (OR: 2.1; CI: 1.3-3.5 and OR: 2.3; CI: 1.0-5.0 for GSTM1 and GSTT1, respectively). For the GSTM1 gene, this risk was significantly higher in conjunction with high outdoor exposure (OR: 3.4; CI: 1.9-6.3) and although the GSTT1 gene showed a similar trend (OR: 2.9; CI: 1.1-7.7), this did not reach significance. The increased risk of SK development associated with these genes is likely due to a decreased ability of the skin to detoxify mutagenic compounds produced by UV-induced oxidative stress, and hence a decreased ability to protect against carcinogenesis. Implication of the GSTM1 and GSTT1 null variants in solar keratosis development prompted interest in analysis of gene expression changes in response to UV radiation. Due to the high homology of the GSTM1 gene with other GSTM genes, and therefore potential issues with primer specificity, the GSTT1 gene was focussed on for the expression studies. Real time reverse transcription PCR, incorporating SYBR green fluorescence and 18S as a comparative gene, was used to study GSTT1 gene expression changes in response to both UVA and combined UVA/UVB radiation. It was found that only short term UV radiation had an effect on GSTT1 expression changes, whereas no alteration of gene expression was seen after 4 and 12 hours of recovery from long term irradiation between irradiated and matched non-irradiated skin samples. This indicated that changes in gene expression for the GSTT1 gene apparently occur relatively quickly after exposure to UV radiation. Analysis of both UVA only and combined UVA/UVB short term irradiation indicated that an initial decrease in expression, followed by an increase was likely to represent translation into protein and subsequent transcription of mRNA, and in some cases a second decrease indicated further translation. Hence, it appears as though UV radiation does have a significant effect on the expression of at least one GST gene, and that UV radiation in combination with genetic variation of these genes may play a role in the development of NMSC. Finally, association and subsequent expression analysis was also performed on the vitamin D receptor. The hormonal form of vitamin D, 1a25 dihydroxyvitamin D3, has been shown to have numerous cancer-related effects, including antiproliferative, differentiation, proapoptotic and antiangiogenic effects. These effects are mediated through the binding of 1a25 dihydroxyvitamin D3 to the vitamin D receptor and subsequent transcriptional pathways. Polymorphisms within the VDR are known to regulate its transcription and therefore expression, which is linked to the ability of 1a25 dihydroxyvitamin D3 to bind. Association analysis of a 5 initiation codon variant (Fok I) and two 3 variants (Apa I and Taq I) was performed in SK affected and control populations. Although the Fok I variant showed no association with SK development, both the Apa I and Taq I variants were found to be associated with SK development (P = 0.043 and P = 0.012, respectively). In particular, the Aa and Tt genotypes were associated with increased risk of SK. These results were however more complicated, as shown by further analysis. This showed that genotypes containing at least one allele that conferred decreased VDR transcription (ie. AA/Aa and Tt/tt) increased risk of SK development by 2-fold in fair skinned individuals (OR: 2.1; CI: 1.2-3.7 and OR: 1.7; CI: 1.1-2.7 for Apa I and Taq I variants, respectively) but also found to decrease the risk of SK development by 2-fold in medium skinned individuals (OR: 0.5; CI: 0.3-1.0 for Apa I variants). Additionally, genotypes containing 2 alleles conferring decreased transcription of the VDR gene were found to further increase the risk for SK development in fair skinned individuals (OR: 2.5; CI: 1.4-4.5 and OR: 2.4; CI: 1.2-5.0 for Apa I and Taq I variants, respectively), indicating a possible additive effect for the alleles. The highly differential association of the VDR gene polymorphisms amongst phenotypes may reflect a combination between the ability of an individual to synthesise 1a25 dihydroxyvitamin D3 with the binding availability of the VDR. To further investigate the role of VDR in NMSC, expression analysis of the VDR gene was undertaken using real time reverse transcription PCR, with SYBR green fluorescence and 18S as a comparative gene, to examine expression pattern changes associated with UV radiation. It was found that short term irradiation, as well as long term irradiation and recovery were associated with gene expression changes. Short term irradiation resulted in patterns indicative of translation and subsequent transcription, whereas long term irradiated samples resulted in reduction of VDR expression that was recovered after an extended period of time. Thus, VDR expression is clearly influenced by UV exposure. It would be very interesting to see more specifically if particular VDR genotypes, which appear to play a role in NMSC risk, also are affected differentially by UV exposure. It is possible that VDR expression is reduced to limit excessive binding of 1a25 dihydroxyvitamin D3, although since both UVA and UVB radiation affect VDR expression, this may not be mediated the effect of 1a25 dihydroxyvitamin D3 but rather a different pathway resulting from a general UV response. In summary, the detection of a number of susceptibility genes involved in SK development and their subsequent expression analysis in response to UV radiation has given further insight into the molecular changes associated with NMSC. In fact, both detoxification genes (GSTM1 and GSTT1) and a transcription related gene (VDR), were found to confer susceptibility to solar keratosis, an early stage skin lesion with tumourigenic potential. This suggests that even the earliest stages of skin cancer are mediated through a wide range of effects. Additionally, expression changes related to these genes indicate that they are associated with the well known environmental carcinogen of UV radiation and that their effects may be mediated through a wide range of pathways. Although implication of the 18q region in SCC progression was not confirmed in this study, it is still likely to play a role in malignant transformation. The implication of this region, as well as the implication of susceptibility genes has vastly increased knowledge into processes associated with NMSC. Although additional analysis can confirm and further implicate these molecular alterations, this study has resulted in a more comprehensive understanding of NMSC that may ultimately be of benefit in terms of prognosis and treatment. skin cancer non-melanoma skin cancer squamous cell carcinoma basal cell carcinoma molecular analysis
15	The Genetics of Basal Cell Carcinoma of the Skin de Zwaan, Sally Elizabeth January 2008 (has links) Doctor of Philosophy(PhD) / BCC is the commonest cancer in European-derived populations and Australia has the highest recorded incidence in the world, creating enormous individual and societal cost in management of this disease. The incidence of this cancer has been increasing internationally, with evidence of a 1 to 2% rise in incidence in Australia per year over the last two decades. The main four epidemiological risk factors for the development of BCC are ultraviolet radiation (UVR) exposure, increasing age, male sex, and inability to tan. The pattern and timing of UVR exposure is important to BCC risk, with childhood and intermittent UVR exposure both associated with an increased risk. The complex of inherited characteristics making up an individual’s ‘sun sensitivity’ is also important in determining BCC risk. Very little is known about population genetic susceptibility to BCC outside of the rare genodermatosis Gorlin syndrome. Mutations in the tumour suppressor gene patched (PTCH) are responsible for this BCC predisposition syndrome and the molecular pathway and target genes of this highly conserved pathway are well described. Derangments in this pathway occur in sporadic BCC development, and the PTCH gene is an obvious candidate to contribute to non-syndromic susceptibility to BCC. The melanocortin 1 receptor (MC1R) locus is known to be involved in pigmentary traits and the cutaneous response to UVR, and variants have been associated with skin cancer risk. Many other genes have been considered with respect to population BCC risk and include p53, HPV, GSTs, and HLAs. There is preliminary evidence for specific familial aggregation of BCC, but very little known about the causes. 56 individuals who developed BCC under the age of 40 in the year 2000 were recruited from the Skin and Cancer Foundation of Australia’s database. This represents the youngest 7 – 8% of Australians with BCC from a database that captures approximately 10% of Sydney’s BCCs. 212 of their first degree relatives were also recruited, including 89 parents and 123 siblings of these 56 probands. All subjects were interviewed with respect to their cancer history and all reports of cancer verified with histopathological reports where possible. The oldest unaffected sibling for each proband (where available) was designated as an intra-family control. All cases and control siblings filled out a questionnaire regarding their pigmentary and sun sensitivity factors and underwent a skin examination by a trained examiner. Peripheral blood was collected from these cases and controls for genotyping of PTCH. All the exons of PTCH for which mutations have been documented in Gorlin patients were amplified using PCR. PCR products were screened for mutations using dHPLC, and all detectable variants sequenced. Prevalence of BCC and SCC for the Australian population was estimated from incidence data using a novel statistical approach. Familial aggregation of BCC, SCC and MM occurred within the 56 families studied here. The majority of families with aggregation of skin cancer had a combination of SCC and BCC, however nearly one fifth of families in this study had aggregation of BCC to the exclusion of SCC or MM, suggesting that BCCspecific risk factors are also likely to be at work. Skin cancer risks for first-degree relatives of people with early onset BCC were calculated: sisters and mothers of people with early-onset BCC had a 2-fold increased risk of BCC; brothers had a 5-fold increased risk of BCC; and sisters and fathers of people with early-onset BCC had over four times the prevalence of SCC than that expected. For melanoma, the increased risk was significant for male relatives only, with a 10-fold increased risk for brothers of people with early-onset BCC and 3-fold for fathers. On skin examination of cases and controls, several phenotypic factors were significantly associated with BCC risk. These included increasing risk of BCC with having fair, easyburning skin (ie decreasing skin phototype), and with having signs of cumulative sun damage to the skin in the form of actinic keratoses. Signs reflecting the combination of pigmentary characteristics and sun exposure - in the form of arm freckling and solar lentigines - also gave subjects a significantly increased risk BCC. Constitutive red-green reflectance of the skin was associated with decreased risk of BCC, as measured by spectrophotometery. Other non-significant trends were seen that may become significant in larger studies including associations of BCC with propensity to burn, moderate tanning ability and an inability to tan. No convincing trend for risk of BCC was seen with the pigmentary variables of hair or eye colour, and a non-significant reduced risk of BCC was associated with increasing numbers of seborrhoeic keratoses. Twenty PTCH exons (exons 2, 3, 5 to 18, and 20 to 23) were screened, accounting for 97% of the coding regions with published mutations in PTCH. Nine of these 20 exons were found to harbour single nucleotide polymorphisms (SNPs), seen on dHPLC as variant melting curves and confirmed on direct sequencing. SNPs frequencies were not significantly different to published population frequencies, or to Australian general population frequencies where SNP database population data was unavailable. Assuming a Poisson distribution, and having observed no mutations in a sample of 56, we can be 97.5% confident that if there are any PTCH mutations contributing to early-onset BCC in the Australian population, then their prevalence is less than 5.1%. Overall, this study provides evidence that familial aggregation of BCC is occurring, that first-degree relatives are at increased risk of all three types of skin cancer, and that a combination of environmental and genetic risk factors are likely to be responsible. The PTCH gene is excluded as a major cause of this increased susceptibility to BCC in particular and skin cancer in general. The weaknesses of the study design are explored, the possible clinical relevance of the data is examined, and future directions for research into the genetics of basal cell carcinoma are discussed. Basal Cell Carcinoma Skin Cancer Patched Gene Genetics Risk Factors Epidemiology Familial aggregation Phenotype
16	Discovery of novel downstream target genes regulated by the hedgehog pathway Ingram, Wendy Jill Unknown Date (has links) Sonic hedgehog (Shh) is a secreted morphogen involved in patterning a wide range of structures in the developing embryo. When cells receive the Shh signal a cascade of effects begin which in turn regulate downstream target genes. The genes controlled by Sonic hedgehog provide messages instructing cells how to differentiate or when to divide. Disruption of the hedgehog signalling cascade leads to a number of developmental disorders and plays a key role in the formation of a range of human cancers. Patched, the receptor for Shh, acts as a tumour suppressor and is mutated in naevoid basal cell carcinoma syndrome (NBCCS). NBCCS patients display a susceptibility to tumour formation, particularly for basal cell carcinoma (BCC). The discovery of Patched mutations in sporadic BCCs and other tumour types further highlights the importance of this pathway to human cancer. The identification of genes regulated by hedgehog is crucial for understanding how disruption of this pathway leads to neoplastic transformation. It is assumed that the abnormal expression of such genes plays a large role in directing cells to divide at inappropriate times. Only a small number of genes controlled by Shh have been described in vertebrate tissues. In the work presented in this thesis a Sonic hedgehog responsive embryonic mouse cell line, C3H/10T1/2, was used as a model system for hedgehog target gene discovery. Known downstream target genes were profiled to determine their induction kinetics, building up a body of knowledge on the response to Shh for this cell type. During this work, it was discovered that C3H/10T1/2 cells do not become fully competent to respond to Shh stimulation until the cells reach a critical density, a factor that had to be taken into account when determining timepoints of interest for further investigation. Several techniques were employed to identify genes that show expression changes between Shh stimulated and control cells. In one of these techniques, RNA from cell cultures activated with Shh was used to interrogate cDNA microarrays, and this provided many insights into the downstream transcriptional consequences of hedgehog stimulation. Microarrays consist of thousands of spots of DNA of known sequence gridded onto glass slides. Experiments using this technology allow the expression level of thousands of genes to be measured simultaneously. Independent stimulation methods combined with northern blotting were used to investigate individual genes of interest, allowing genuine targets to be confirmed and false positives eliminated. This resulted in the identification of eleven target genes. Seven of these are induced by Sonic hedgehog (Thrombomodulin (Thbd), Glucocorticoid induced leucine zipper (Gilz), Brain factor 2 (Bf2), Nuclear receptor subfamily 4, group A, member 1 (Nr4a1), Insulin-like growth factor 2 (Igf2), Peripheral myelin protein 22 (Pmp22), Lim and SH3 Protein 1 (Lasp1)), and four are repressed (Secreted frizzled related proteins 1 and 2 (Sfrp1 and Sfrp2), Macrophage inflammatory protein-1 gamma (Mip-1?), and Anti-mullerian hormone (Amh)). The majority of these represent novel downstream genes not previously reported as targets of Shh. The new target genes have a diverse range of functions, and include transcriptional regulators and molecules known to be involved in regulating cell growth or apoptosis. The corroboration of genes previously implicated in hedgehog signalling, along with the finding of novel targets, demonstrates both the validity and power of the C3H/10T1/2 system for Shh target gene discovery. The identification of novel Sonic hedgehog responsive genes provides candidates whose abnormal expression may be decisive in initiating tumour formation and future studies will investigate their role in development and disease. It is expected that such findings will provide vital clues to the aetiology of various human cancers, and that an understanding of their roles may ultimately provide greater opportunities in the future design of anti-tumour therapies. cancer hedgehog patched sonic hedgehog C3H/10T1/2 10T1/2 basal cell carcinoma BCC microarray microarrays
17	Molecular Analysis of Normal Human Skin and Basal Cell Carcinoma Using Microdissection Based Methods Asplund, Anna January 2005 (has links) <p>The aim of this thesis was to gain further insight into the biology of normal human skin and basal cell carcinoma (BCC). Morphology in combination with microdissection was used as primary tool for sampling.</p><p>Using the X-chromosome inactivation assay, we found normal human skin to consist of a mosaic of cells, with either the maternal or the paternal X-chromosome inactivated. We believe that each tile is made up of several epidermal proliferative units with identical X-chromosome inactivation patterns. Using the same method, we found BCC to be a monoclonal neoplasm imbedded in polyclonal stroma. However, one tumor displayed clear evidence of being composed of two intermingled monoclonal tumors.</p><p>To better enable molecular analysis of defined cells from tissue sections, we investigated a zinc-based fixative as alternative to neutral-buffered formalin. Zinc-based fixative preserves good quality of genomic DNA, with only slight impairment of morphology. In addition, it partly abrogates the need for antigen retrieval.</p><p>The patched gene is involved in BCC development. We analyzed the distribution of a coding polymorphism (Pro/Leu) at codon 1315 in populations with different skin types. We found a reduced Pro/Pro genotype frequency in populations with lighter pigmentation. This in combination with genotype analyses of patients with multiple BCCs, showed that failure to lose the Pro allele during a shift towards lighter pigmented skin may be associated with an increased risk of developing BCC.</p><p>We compared the expression profile of BCC cells with putative progenitor cells in the basal layer of epidermis. In addition to discovering several unknown genes, we found the Wnt signaling pathway to upregulated. Furthermore, differentiation markers were downregulated together with proteins important for scavenging of oxygen radicals.</p><p>In conclusion, the combination of morphology, microdissection and subsequent molecular applications provided valid information deepening our understanding of normal skin and BCC.</p> Pathology skin basal cell carcinoma microdissection X-chromosome inactivation Patologi Pathology Patologi
18	Molecular Analysis of Normal Human Skin and Basal Cell Carcinoma Using Microdissection Based Methods Asplund, Anna January 2005 (has links) The aim of this thesis was to gain further insight into the biology of normal human skin and basal cell carcinoma (BCC). Morphology in combination with microdissection was used as primary tool for sampling. Using the X-chromosome inactivation assay, we found normal human skin to consist of a mosaic of cells, with either the maternal or the paternal X-chromosome inactivated. We believe that each tile is made up of several epidermal proliferative units with identical X-chromosome inactivation patterns. Using the same method, we found BCC to be a monoclonal neoplasm imbedded in polyclonal stroma. However, one tumor displayed clear evidence of being composed of two intermingled monoclonal tumors. To better enable molecular analysis of defined cells from tissue sections, we investigated a zinc-based fixative as alternative to neutral-buffered formalin. Zinc-based fixative preserves good quality of genomic DNA, with only slight impairment of morphology. In addition, it partly abrogates the need for antigen retrieval. The patched gene is involved in BCC development. We analyzed the distribution of a coding polymorphism (Pro/Leu) at codon 1315 in populations with different skin types. We found a reduced Pro/Pro genotype frequency in populations with lighter pigmentation. This in combination with genotype analyses of patients with multiple BCCs, showed that failure to lose the Pro allele during a shift towards lighter pigmented skin may be associated with an increased risk of developing BCC. We compared the expression profile of BCC cells with putative progenitor cells in the basal layer of epidermis. In addition to discovering several unknown genes, we found the Wnt signaling pathway to upregulated. Furthermore, differentiation markers were downregulated together with proteins important for scavenging of oxygen radicals. In conclusion, the combination of morphology, microdissection and subsequent molecular applications provided valid information deepening our understanding of normal skin and BCC. Pathology skin basal cell carcinoma microdissection X-chromosome inactivation Patologi Pathology Patologi
19	Impaired reparative processes in particular related to hyaluronan in various cutaneous disorders : a structural analysis Bertheim, Ulf January 2004 (has links) Cutaneous reparative processes, including wound healing, are highly developed procedures in which a chain of actions occurs to reconstitute the function of the wounded tissue. To prevent a delayed or excessive reparative process it is important to understand how this procedure develops and is maintained. One of the major extracellular matrix components of the skin is the glycosaminoglycan hyaluronan (HA). HA contributes to an extracellular environment, which is permissive for cell motility and proliferation, features that may account for HA’s unique properties observed in scarless foetal wound healing. The molecule is found at high concentration whenever proliferation, regeneration and repair of tissue occur. The aims of the present studies were to analyse the distribution of HA and to investigate its possible role in various cutaneous conditions associated with an impaired reparative process like in scar tissue formation in healing wounds, changed skin characteristics in diabetes mellitus and proliferating activity in basal cell carcinomas. Tissue biopsies were obtained from healthy human skin, type-I diabetic skin and various scar tissues. The samples were analysed in the light microscope with a hyaluronan-binding-probe, antibodies for collagen I, III, PCNA and Ki-67. Ultrastructural analyses were performed on the same tissue samples. In normal skin HA was present mainly in the papillary dermis. In epidermis HA was located in between the keratinocytes in the spinous layer. In the different scar tissues the localization of HA varied, with an HA distribution in mature scar type resembling that in normal skin. In keloids the papillary dermis lacked HA, but the thickened epidermis contained more HA than the other scar types. Ultrastructural studies of keloids revealed an altered collagen structure in the dermal layers, with an abundance of thin collagen fibers in the reticular dermis and thicker collagen fibers in the papillary dermis. Furthermore, the keloids displayed epidermal changes, which involved the basement membrane (BM), exhibiting fewer hemidesmosomes, and an altered shape of desmosomes in the entire enlarged spinous layer. These alterations in epidermis are suggested to influence the hydrodynamic and cell regulatory properties of the wounded skin. In diabetic patients, a reduced HA staining in the basement membrane zone was seen. The staining intensity of HA correlated to the physical properties of the skin reflected by their grades of limited joint mobility (LJM). Furthermore, the HA staining correlated with serum concentration of the HbA1c. In basal cell carcinomas (BCC), HA occurred predominantly in the tumour stroma. The distribution was most intense in the highly developed superficial BCC type, and resembled that of the papillary dermis of normal skin. In contrast, in the infiltrative BCC type, the tumour stroma stained weakly in the infiltrative part of the tumour. Moreover, the surrounding dermal layer was deranged and devoid of HA. The findings suggest that the tumour stroma in superficial BCC causes a slow, well-regulated cell growth in which the tumour cells do not substantially disturb the normal skin function. In the infiltrative BCC type, the tumour cells cause a disintegration of the tumour stroma as well as the normal surrounding dermis, which permits further spreading of the tumour. In fact, the behaviour of the infiltrative BCC tumour, growing beyond its boundaries, resembles that of the keloid. The mapping of the distribution of HA could be a useful tool for prognostic information, for evaluating the degree of progress and for deciding the choice of treatment in various diseases of the skin. In skin malignancies such as BCC it can be used to determine the radicality at the surgical excision of the tumour. Keywords: Hyaluronan, scar tissue, diabetes mellitus, basal cell carcinoma, skin, wound healing hyaluronan scar tissue diabetes mellitus basal cell carcinoma skin wound healing
20	Hyaluronsäurestoffwechsel von Stromafibroblasten um Basalzellkarzinome innerhalb und außerhalb der embryonalen Fusionszone des Mittelgesichts Kratzsch, Johanna Maria 05 April 2011 (has links) (PDF) Das Basalzellkarzinom (BZK) der Haut gilt als einer der häufigsten semimalignen Tumoren. Trotz der niedrigen Metastasierungsrate von < 0,1 % können BZK schwerwiegende Infiltrationen und Destruktionen knorpeliger sowie knöcherner Strukturen verursachen. Für die Tumorentstehung ist vor allem die kumulative UVB-Dosis in Kindheit und Adoleszenz bedeutsam. Aber auch die Embryonalentwicklung scheint eine Rolle in der Pathogenese von Tumoren zu spielen. Die so genannte embryonale Fusionszone (eFZ) entsteht zwischen der 5-10 Entwicklungswoche durch die Verschmelzung der fünf Gesichtswülste. Es konnte gezeigt werden, dass BZK innerhalb dieses Kompartiments nicht nur gehäuft auftreten sondern auch durch ein ausgeprägtes Tiefenwachstum charakterisiert sind. Als mögliche Ursache für das verstärkt invasive Wachstum von BZK innerhalb der eFZ wurden Änderungen im Hyaluronsäure (HA)-Stoffwechsel der Stromazellen angenommen. Neben der Bedeutung in der Embryonalentwicklung und bei der Geweberegeneration zeigten verschiedene Studien zudem die essentielle Rolle von HA im Rahmen von malignen Zelltransformationen. Vermehrte HA-Ablagerungen in der Tumorumgebung oder erhöhte HA-Serumkonzentrationen wurden bei einer Vielzahl von Tumoren als Zeichen einer fortschreitenden Tumorprogression beschrieben. Um den HA-Stoffwechsel von Stromafibroblasten um BZK gezielt zu untersuchen, wurden der HA-Gehalt, die HA-Größe und die exprimierten Enzyme des HA-Stoffwechsels in Abhängigkeit von ihrer Lokalisationen miteinander verglichen. Dabei zeigte sich, dass sowohl innerhalb als auch außerhalb der eFZ vergleichbare Mengen und Polymergrößen von HA sezerniert werden. Molekularbiologische Untersuchungen an expandierten Fibroblasten aus Biopsien verschiedener Lokalisationen zeigten ebenfalls keine Unterschiede in der Expression von mRNA der HA Stoffwechselenzyme nach Herkunft der Fibroblasten. Somit wird geschlussfolgert, dass HA zwar auch im Stroma von BZK gebildet wird, der HA-Stoffwechsel von Stromafibroblasten jedoch kein Merkmal ist, das mit dem vermehrten Auftreten und invasiven Wachstum von BZK im Bereich der embryonalen Fusionszone des Mittelgesichts korreliert. embryonale Fusionszone Basalzellkarzinom Hyaluronsäure embryonic fusion plane basal cell carcinoma hyaluronan ddc:610

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