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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Effect of thyroid hormones on apoptosis and mitosis in the pituitary gland

Kavanagh, Emma January 1997 (has links)
No description available.
2

A CXCR1/CXCR2 and heterologous GPCR antagonism in melanoma development

2015 May 1900 (has links)
Being the most aggressive human skin cancers, melanoma has always occurred with a poor prognosis. It is responsible for 80% of skin cancer. Treatments for melanoma include surgical removal, and radio- and chemotherapy, which are not effective toward the advanced stages of the disease. Only three chemotherapy drugs, hydroxyurea, dacarbazine and interleukin-2, are currently approved by the Food and Drug Administration for metastatic melanoma, and the therapeutic response rate is only 5%-20%. Thus, there is a need for novel therapies that can target tumours, especially when the tumour cells become refractory to chemotherapy. ELR–CXC chemokines with a Glutamine – leucine – arginine (ELR) motif (for example, interleukin-8/CXCL8) are able to chemoattract neutrophils during inflammation responses via their receptors, CXCR1 and CXCR2, which can be expressed by human malignant tumour cells, keratinocytes, endothelial cells, and fibroblasts. CXCR1 and CXCR2 play very important roles in melanoma by promoting tumour cell proliferation, angiogenesis, and metastasis. They are also involved in the tumour’s becoming refractory to chemotherapy. An ELR–CXC chemokine antagonist developed by our lab, CXCL8(3-72)K11R/G31P (G31P), effectively blocks CXCR1- and CXCR2- induced inflammatory responses, and further antagonizes the functions of heterologous G protein–coupled receptor’s (GPCR). The tumour–associated GPCRs, along with ELR–CXC chemokines and their receptors, have been shown to simultaneously increase in several tumour models, including melanoma. Thus, given the knowledge regarding the importance of the ELR-CXC chemokines and heterologous GPCRs’ in melanoma and G31P’s ability to block ELR-CXC chemokines and at least some heterologous GPCRs, we hypothesize that G31P is a viable therapeutic option for melanoma cancers by virtue of its success in blocking tumour progression in mouse models. Our data indicated that ELR-CXC chemokine antagonism with G31P had no significant impact on tumour growth or tumour-induced angiogenesis, which suggested that blockade of CXCR1 and CXCR2 alone was insufficient to block tumour development in this melanoma mouse model. Evaluation of other tumour-related parameters (e.g., angiogenic patterns and stress protein level) are recommended as a means of determining what parameters beyond CXCR1 and CXCR2 signaling are important in tumour progression in our matrigel model.
3

Cloning of the SYT and SSX genes involved in the t(X;18) translocation found in synovial sarcomas

Clark, Jeremy Paul January 1999 (has links)
No description available.
4

Synthesis of L-fucose analogues

Smelt, Kathryn Helena January 1997 (has links)
No description available.
5

Role of the bone morphogenetic protein signalling in skin carcinogenesis : effect of transgenic overexpression of BMP antognist Noggin on skin tumour development : molecular mechanisms underlying tumour suppressive role of the BMP signalling in skin

Mardaryev, Andrei N. January 2009 (has links)
Bone morphogenetic protein (BMP) signalling plays key roles in skin development and also possesses a potent anti-tumour activity in postnatal skin. To study mechanisms of the tumour-suppressive role of BMPs in the skin, a transgenic (TG) mouse model was utilized, in which a transgenic expression of the BMP antagonist Noggin was targeted to the epidermis and hair follicles (HFs) via Keratin 14 promoter. K14-Noggin mice developed spontaneous HF-derived tumours, which resembled human trichofolliculoma. Initiation of the tumours was associated with a marked increase in cell proliferation and an expansion of the hair follicle stem/early progenitor cells. In addition, the TG mice showed hyperplastic changes in the sebaceous glands and the interfollicular epidermis. The epidermal hyperplasia was associated with an increase in the susceptibility to chemically-induced carcinogenesis and earlier malignant transformation of chemically-induced papillomas. Global gene expression profiling revealed that development of the trichofolliculomas was associated with an increase in the expression of the components of several pro-oncogenic signalling pathways (Wnt, Shh, PDGF, Ras, etc.). Specifically, expression of the Wnt ligands and (β-catenin/Lef1) markedly increased at the initiation stage of tumour formation. In contrast, expression of components of the Shh pathway was markedly increased in the fully developed tumours, compared to the tumour placodes. Pharmacological treatment of the TG mice with the Wnt and Shh antagonists resulted in the stage-dependent inhibition of the tumour initiation and progression, respectively. Further studies revealed that BMP signalling antagonizes the activity of the Wnt and Shh pathways via distinct mechanisms, which include direct regulation of the expression of the tumour suppressor Wnt inhibitory factor 1 (Wif1) and indirect effects on the Shh expression. Thus, tumour suppressor activity of the BMPs in skin epithelium depends on the local concentrations of Noggin and is mediated, at least in part, via stage-dependent antagonizing of the Wnt and Shh signalling pathways.
6

Role of the bone morphogenetic protein signalling in skin carcinogenesis. Effect of transgenic overexpression of BMP antognist Noggin on skin tumour development; molecular mechanisms underlying tumour suppressive role of the BMP signalling in skin.

Mardaryev, Andrei N. January 2009 (has links)
Bone morphogenetic protein (BMP) signalling plays key roles in skin development and also possesses a potent anti-tumour activity in postnatal skin. To study mechanisms of the tumour-suppressive role of BMPs in the skin, a transgenic (TG) mouse model was utilized, in which a transgenic expression of the BMP antagonist Noggin was targeted to the epidermis and hair follicles (HFs) via Keratin 14 promoter. K14-Noggin mice developed spontaneous HF-derived tumours, which resembled human trichofolliculoma. Initiation of the tumours was associated with a marked increase in cell proliferation and an expansion of the hair follicle stem/early progenitor cells. In addition, the TG mice showed hyperplastic changes in the sebaceous glands and the interfollicular epidermis. The epidermal hyperplasia was associated with an increase in the susceptibility to chemically-induced carcinogenesis and earlier malignant transformation of chemically-induced papillomas. Global gene expression profiling revealed that development of the trichofolliculomas was associated with an increase in the expression of the components of several pro-oncogenic signalling pathways (Wnt, Shh, PDGF, Ras, etc.). Specifically, expression of the Wnt ligands and (¿-catenin/Lef1 markedly increased at the initiation stage of tumour formation. In contrast, expression of components of the Shh pathway was markedly increased in the fully developed tumours, compared to the tumour placodes. Pharmacological treatment of the TG mice with the Wnt and Shh antagonists resulted in the stage-dependent inhibition of the tumour initiation and progression, respectively. Further studies revealed that BMP signalling antagonizes the activity of the Wnt and Shh pathways via distinct mechanisms, which include direct regulation of the expression of the tumour suppressor Wnt inhibitory factor 1 (Wif1) and indirect effects on the Shh expression. Thus, tumour suppressor activity of the BMPs in skin epithelium depends on the local concentrations of Noggin and is mediated, at least in part, via stage-dependent antagonizing of the Wnt and Shh signalling pathways. / University of Bradford, NIH and BBSRC.

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