Studies on Mechanisms of Skin Graft Rejection: Examination of Effector Cells and Molecules Required for Destruction of Epithelial Tumours

Mrs Rachel De Kluyver

Unknown Date

No description available.

Studies on Mechanisms of Skin Graft Rejection: Examination of Effector Cells and Molecules Required for Destruction of Epithelial Tumours

Mrs Rachel De Kluyver

Unknown Date

No description available.

Immunohistochemical profile of odontogenic epithelium of developing dog teeth (Canis Familiaris)

Nel, Sulette

14 October 2009

Similarities between the acanthomatous epulis and ameloblastomas resulted in debate regarding the nature and origin of the acanthomatous epulis found in dogs. In an attempt to elucidate the origin and character of the acanthomatous epulides, this study aimed to find suitable cell markers to identify odontogenic epithelium versus oral epithelium in developing dog teeth in order to use in future research on the pathogenesis and pathology of odontogenic neoplasms in dogs. As specific markers for odontogenic epithelium have not been described in dog tissue, proposed markers of odontogenic epithelium of human and rat tissues were tested on developing dog teeth. Keratin 14, keratin 19, amelogenin, p75 neurotrophin receptor and calretinin have been proposed as markers for inner enamel epithelium and/or ameloblasts in human and rat tissue and was therefore included in this study. Keratin 14 and keratin 19 can not be regarded as specific markers of odontogenic epithelium as various other types of epithelium also stained positive with these markers. Amelogenin could be a promising marker to distinguish between odontogenic tumours and non-odontogenic tumours as it was only detected in odontogenic tissues in this study. However, amelogenin has also been observed in other tissues in dogs and rats, and therefore further studies on this protein will be needed to elucidate the expression profile of amelogenin in odontogenic versus non-odontogenic tissues in dogs. p75 Neurotrophin receptor expression was restricted to certain regions of the inner enamel epithelium and no staining was observed in other epithelial cells. It therefore seems to be a promising marker to differentiate between odontogenic and non-odontogenic epithelium, but the widespread staining observed in the mesenchymal tissue makes differentiation between odontogenic and non-odontogenic stromal elements impossible. Calretinin staining was observed in the alveolar epithelial cells directly overlying the developing tooth germ, proposed as the oral epithelium where the dental lamina takes origin from, as well as the dental laminae and Serres rests. No staining was observed in the rest of the oral epithelium and it can therefore be proposed that calretinin could be a useful marker to distinguish between odontogenic and non-odontogenic epithelial cells. In light of the results found in this study on foetal tissue, the expression profile may be different in adult tissue. Odontogenic tumours in adult dogs may originate from remnants of odontogenic tissue like Serres rests and Malassez rests. It is therefore proposed that this study be repeated on adult dog tissue with specific reference to Serres rests, Malassez rests and the associated gingiva Copyright / Dissertation (MSc)--University of Pretoria, 2008. / Oral Pathology and Oral Biology / unrestricted

Keratin 19

Keratin 14

Calretinin

Canine

Dogs

Odontogenesis

Odontogenic epithelium

Amelogenin

P75 neurotrophin receptor

UCTD

MicroRNA-21 is an important downstream component of BMP signalling in epidermal keratinocytes

Ahmed, Mohammed I., Mardaryev, Andrei N., Lewis, Christopher J., Sharov, A.A., Botchkareva, Natalia V.

17 June 2011

Yes / Bone morphogenetic proteins (BMPs) play essential roles in the control of skin development, postnatal tissue remodelling and tumorigenesis. To explore whether some of the effects of BMP signalling are mediated by microRNAs, we performed genome-wide microRNA (miRNA) screening in primary mouse keratinocytes after BMP4 treatment. Microarray analysis revealed substantial BMP4-dependent changes in the expression of distinct miRNAs, including miR-21. Real-time PCR confirmed that BMP4 dramatically inhibits miR-21 expression in the keratinocytes. Consistently, significantly increased levels of miR-21 were observed in transgenic mice overexpressing the BMP antagonist noggin under control of the K14 promoter (K14-noggin). By in situ hybridization, miR-21 expression was observed in the epidermis and hair follicle epithelium in normal mouse skin. In K14-noggin skin, miR-21 was prominently expressed in the epidermis, as well as in the peripheral portion of trichofolliculoma-like hair follicle-derived tumours that contain proliferating and poorly differentiated cells. By transfecting keratinocytes with a miR-21 mimic, we identified the existence of two groups of the BMP target genes, which are differentially regulated by miR-21. These included selected BMP-dependent tumour-suppressor genes (Pten, Pdcd4, Timp3 and Tpm1) negatively regulated by miR-21, as well as miR-21-independent Id1, Id2, Id3 and Msx2 that predominantly mediate the effects of BMPs on cell differentiation. In primary keratinocytes and HaCaT cells, miR-21 prevented the inhibitory effects of BMP4 on cell proliferation and migration. Thus, our study establishes a novel mechanism for the regulation of BMP-induced effects in the skin and suggests miRNAs are important modulators of the effects of growth factor signalling pathways on skin development and tumorigenesis.

Animals

Bone morphogenetic protein 4

Carrier proteins

Cell transformation

Cells

Epidermis

Gene expression regulation

Neoplastic

Genes

Tumor suppressor

Genome-wide association study

Keratin-14

Keratinocytes

Mice

Inbred strains

Transgenic

MicroRNAs

Microarray analysis

Morphogenesis

Signal transduction

REF 2014