Autor/Autorin: Joshua Anthony
Dr Anthony Joshua graduated in medicine from the University of New South Wales, Sydney, Australia and completed his internal medicine and medical oncology training at the Royal Prince Alfred Hospital. This thesis was defended in the Department of Medical Biophysics, University of Toronto, Canada where he continues as a clinician- scientist.
The evolution of prostate cancer from normal epithelium via prostatic intraepithelial neoplasia to invasive carcinoma is characterised by particular genomic abnormalities that are predominantly generated in the preneoplastic phase. Telomere dysfunction is thought to be a major contributor to the cause of these alterations. This thesis clarifies the association of telomere dysfunction with markers of genomic instability such as abnormalities of chromosome 8, PTEN deletions and TMPRSSS2-ERG aberrations as well as HPIN outcome. A previously unrecognised association between the telomere length in various types of prostatic epithelia and adjacent stroma is defined, suggesting evidence of a micro-environmental field effect. Therefore there are important avenues for further research to determine the nature of barriers to the evolution of prostatic carcinogenesis such as oncogene- and telomere-induced senescence that may be exploited for therapeutic gain. These understandings may also help tailor management for prostate cancer such as risk stratification for men with HPIN and the use of targeted agents.
The evolution of prostate cancer from normal epithelium via prostatic intraepithelial neoplasia to invasive carcinoma is characterised by particular genomic abnormalities that are predominantly generated in the preneoplastic phase. Telomere dysfunction is thought to be a major contributor to the cause of these alterations. This thesis clarifies the association of telomere dysfunction with markers of genomic instability such as abnormalities of chromosome 8, PTEN deletions and TMPRSSS2-ERG aberrations as well as HPIN outcome. A previously unrecognised association between the telomere length in various types of prostatic epithelia and adjacent stroma is defined, suggesting evidence of a micro-environmental field effect. Therefore there are important avenues for further research to determine the nature of barriers to the evolution of prostatic carcinogenesis such as oncogene- and telomere-induced senescence that may be exploited for therapeutic gain. These understandings may also help tailor management for prostate cancer such as risk stratification for men with HPIN and the use of targeted agents.
Dr Anthony Joshua graduated in medicine from the University of New South Wales, Sydney, Australia and completed his internal medicine and medical oncology training at the Royal Prince Alfred Hospital. This thesis was defended in the Department of Medical Biophysics, University of Toronto, Canada where he continues as a clinician- scientist.
Über den Autor
Dr. Anthony Joshua studeerde af in de geneeskunde aan de Universiteit van New South Wales, Sydney, Australië en voltooide zijn opleiding interne geneeskunde en medische oncologie in het Royal Prince Alfred Hospital. Dit proefschrift werd verdedigd in de afdeling Medische Biofysica van de Universiteit van Toronto, Canada, waar hij verder gaat als clinicus-wetenschapper.
Klappentext
The evolution of prostate cancer from normal epithelium via prostatic intraepithelial neoplasia to invasive carcinoma is characterised by particular genomic abnormalities that are predominantly generated in the preneoplastic phase. Telomere dysfunction is thought to be a major contributor to the cause of these alterations. This thesis clarifies the association of telomere dysfunction with markers of genomic instability such as abnormalities of chromosome 8, PTEN deletions and TMPRSSS2-ERG aberrations as well as HPIN outcome. A previously unrecognised association between the telomere length in various types of prostatic epithelia and adjacent stroma is defined, suggesting evidence of a micro-environmental field effect. Therefore there are important avenues for further research to determine the nature of barriers to the evolution of prostatic carcinogenesis such as oncogene- and telomere-induced senescence that may be exploited for therapeutic gain. These understandings may also help tailor management for prostate cancer such as risk stratification for men with HPIN and the use of targeted agents.
