A transgenic model to study the role of oncogenes and tumour suppression genes in T cell lymphoma

Blyth, Karen

January 1996

No description available.

572.8

Tumourigenesis

Genetic pathology of non-small cell lung cancer

Sikkink, Stephen K.

January 2001

No description available.

616

Lung tumourigenesis

Crypt fission in the spread of muted clones in the intestinal epithelium

Park, Hyun-Sook

January 1997

No description available.

572.8

Colorectal tumourigenesis; Ulcer healing

Epstein Barr nuclear antigen 1 induced lymphoma in transgenic mice

Coy, Joanna Lucy

January 1997

No description available.

572.8

Determining the role of β-tubulin isotypes in drug resistance and tumourigenesis in lung cancer cells

Gan, Pei Pei, Children's Cancer Institute Australia for Medical Research, Faculty of Medicine, UNSW

January 2009

Non-small cell lung cancer (NSCLC) is the leading cause of cancer-related death worldwide and in its advanced stage, has a poor clinical outcome. Resistance to chemotherapeutic agents, either intrinsic or acquired, is the primary cause of treatment failure in NSCLC. Tubulin binding agents (TBAs), such as paclitaxel and vinorelbine are important components in the treatment of NSCLC. Upregulation of the neuronal specific class III β-tubulin (β-III-tubulin) is frequently found in drug resistant cancer cell lines and human tumours, lending support that βIII-tubulin might play a role in the development of drug resistance in cancer cells. However, to date, compelling evidence supporting its direct role in drug resistance and response has been lacking. To address its role in NSCLC, RNA interference (RNAi) was employed to knock down βIII-tubulin expression in two drug naive NSCLC cell lines, Calu-6 and H460. Specific knockdown of βIII-tubulin resulted in increased sensitivity to TBAs and DNA damaging agents, two classes of agents that are commonly used in the treatment of NSCLC. Increased sensitivity to TBAs and DNA damaging agents in the βIII-tubulin knockdown cells was due to an increased propensity of the cells to undergo apoptosis, suggesting that this tubulin isotype may be a cellular survival factor. Interestingly, specific knockdown of βII- or βIVb-tubulin hypersensitised the cells to Vinca alkaloids but not taxanes, demonstrating that each isotype is unique in terms of drug-target interactions. Moreover, the β-tubulin isotype composition of a cell can influence response, and therefore resistance to TBAs. To determine whether βIII-tubulin differentially regulates microtubule behaviour and influences cell proliferation via an effect on microtubule dynamics, siRNAs were used to knockdown βIII-tubulin expression in H460 cells stably expressing GFP-βI-tubulin and the dynamic instability behaviour of individual microtubules was measured by time-lapse microscopy. In the absence of drug, silencing of βIII tubulin alone did not significantly affect the dynamic instability of interphase microtubules. However, at the IC50 for proliferation of either paclitaxel or vincristine, the overall dynamicity was suppressed significantly in the βIII-tubulin silenced cells as compared to the control, indicating that βIII-tubulin knockdown induces paclitaxel or vincristine sensitivity by enhancing the ability of these agents to suppress microtubule dynamics. At a concentration of drug that represented the IC50 for mitotic arrest, for either paclitaxel or vincristine, increased apoptosis induction was found to play a dominant role in βIII-tubulin knockdown, further supporting a role for βIII-tubulin as a cellular survival factor. Collectively, when βIII-tubulin is overexpressed in tumours cells, it is highly likely to be promoting cellular survival and resistance to TBAs. In addition to its proposed role in drug resistance, high expression of βIII-tubulin in tumours of non-neuronal origin such as NSCLC, has been positively correlated with the degree of tumour aggressiveness. H460 cells are known to display substrate- independent growth in soft agar and tumourigenicity in nude mice and provided an ideal model to investigate the role of βIII-tubulin in tumourigenesis. To address the role of βIII-tubulin, H460 cells stably expressing βIII-tubulin shRNA were generated, validated and examined using both in vitro and in vivo methods of tumourigenesis. Colony formation of H460 cells stably expressing βIII-tubulin shRNA was dramatically reduced in soft agar and significantly delayed tumour growth and reduced tumour incidence of subcutaneous xenografted tumours in nude mice when compared to respective controls. These results provide new insights into the function of βIII-tubulin and suggest that βIII-tubulin may play an important role in tumour development and progression in lung cancer. In conclusion, β-tubulin isotype status can serve as a valuable molecular marker capable of distinguishing patients with differential sensitivity to TBAs. These results not only shed new light on the role of specific β-tubulin isotypes in the response to TBAs, but also the role of βIII-tubulin in the biology of cancer that will lead to new treatment strategies for NSCLC.

Tumourigenesis.

β-tubulin.

Drug resistance.

The role of c-Myb in mammary gland development and tumourigenesis

Miao, Yu Rebecca

January 2009

c-Myb/MYB is an established and key player in hematopoietic malignancies but more recently a strong case for c-Myb as an oncogene in breast cancer has emerged. c-Myb and its transcriptional target genes have direct bearing on tumour initiation and progression and thus this has opened new opportunities to the development of therapeutic approaches in a range of cancer types with the aim of treating cancer at its various stages. In this study, the requirement of c-Myb during mammary gland tumourigenesis is being examined. In addition a direct therapeutic approach to targeting c-Myb-driven gene grp78/GRP78 in the context of primary and metastatic breast cancer was assessed. / The first aim of this study is to examine the expression of c-Myb during normal mammary gland development. The expression of c-Myb is extensively characterised in a temporal and spatial fashion. Nuclear staining of c-Myb by immunohistochemisty was found to be most elaborately expressed in the ductal epithelium during early mammary gland development. Mouse mammary gland lacking c-myb showed disorganised ductal structure in virgin mice, but did not affect subsequent pregnancy and lactation. / To extend the view that c-Myb is involved in mammary tumourigenesis c-myb-transduced immortalised mammary epithelial cells and two mammary tumour prone transgenic mouse models were examined. NMuMG cells transduced with c-myb showed enhanced proliferation and reduced Annexin V staining consistent with the protection from apoptosis. This reduced apoptosis is consistent with, and perhaps contingent upon, the elevated expression observed for bcl-2 and grp78. The data assembled by expression studies raised the possibility that c-Myb is essential for the establishment of mammary gland tumor in both MMTV-Neu and MMTV-PyMT spontaneous mammary gland tumor models. Loss of c-Myb expression in these models significantly delayed and in most instances completely abolished the onset of mammary gland tumours in both models. Preliminary evidence also indicated that Stat3 phosphorylation may underpin the elevated c-Myb expression in mouse mammary tumour cells. / The focus of my thesis then shifted to examining ways to exploit elevated c-Myb target gene GRP78 expression on the cell surface of mammary tumour cells. To do this I employed a GRP78 binding pro-apoptotic chimera peptide that specifically binds to GRP78 where I examined its efficacy against primary and metastatic breast cancer models. My results demonstrated the anti-tumour activity of the GRP78-chimera peptide both in vitro and in vivo. More importantly, the peptide is also effective at prolonging disease-free survival in mice with established metastatic disease. / Evidence obtained within these studies suggests that c-Myb plays an important role in mammary gland development and tumourgenesis. Although it may be difficult to directly target c-Myb in malignant disease, alternative anti-tumoural therapy may be developed against c-Myb-regulated target genes that are also implicated in mammary tumours. Collectively my thesis studies have advanced our understanding of c-Myb in mammary cancer initiation, progression and as a direct or indirect therapeutic target.

mammary gland, c-Myb, tumourigenesis

Determining the role of β-tubulin isotypes in drug resistance and tumourigenesis in lung cancer cells

Gan, Pei Pei, Children's Cancer Institute Australia for Medical Research, Faculty of Medicine, UNSW

January 2009

Non-small cell lung cancer (NSCLC) is the leading cause of cancer-related death worldwide and in its advanced stage, has a poor clinical outcome. Resistance to chemotherapeutic agents, either intrinsic or acquired, is the primary cause of treatment failure in NSCLC. Tubulin binding agents (TBAs), such as paclitaxel and vinorelbine are important components in the treatment of NSCLC. Upregulation of the neuronal specific class III β-tubulin (β-III-tubulin) is frequently found in drug resistant cancer cell lines and human tumours, lending support that βIII-tubulin might play a role in the development of drug resistance in cancer cells. However, to date, compelling evidence supporting its direct role in drug resistance and response has been lacking. To address its role in NSCLC, RNA interference (RNAi) was employed to knock down βIII-tubulin expression in two drug naive NSCLC cell lines, Calu-6 and H460. Specific knockdown of βIII-tubulin resulted in increased sensitivity to TBAs and DNA damaging agents, two classes of agents that are commonly used in the treatment of NSCLC. Increased sensitivity to TBAs and DNA damaging agents in the βIII-tubulin knockdown cells was due to an increased propensity of the cells to undergo apoptosis, suggesting that this tubulin isotype may be a cellular survival factor. Interestingly, specific knockdown of βII- or βIVb-tubulin hypersensitised the cells to Vinca alkaloids but not taxanes, demonstrating that each isotype is unique in terms of drug-target interactions. Moreover, the β-tubulin isotype composition of a cell can influence response, and therefore resistance to TBAs. To determine whether βIII-tubulin differentially regulates microtubule behaviour and influences cell proliferation via an effect on microtubule dynamics, siRNAs were used to knockdown βIII-tubulin expression in H460 cells stably expressing GFP-βI-tubulin and the dynamic instability behaviour of individual microtubules was measured by time-lapse microscopy. In the absence of drug, silencing of βIII tubulin alone did not significantly affect the dynamic instability of interphase microtubules. However, at the IC50 for proliferation of either paclitaxel or vincristine, the overall dynamicity was suppressed significantly in the βIII-tubulin silenced cells as compared to the control, indicating that βIII-tubulin knockdown induces paclitaxel or vincristine sensitivity by enhancing the ability of these agents to suppress microtubule dynamics. At a concentration of drug that represented the IC50 for mitotic arrest, for either paclitaxel or vincristine, increased apoptosis induction was found to play a dominant role in βIII-tubulin knockdown, further supporting a role for βIII-tubulin as a cellular survival factor. Collectively, when βIII-tubulin is overexpressed in tumours cells, it is highly likely to be promoting cellular survival and resistance to TBAs. In addition to its proposed role in drug resistance, high expression of βIII-tubulin in tumours of non-neuronal origin such as NSCLC, has been positively correlated with the degree of tumour aggressiveness. H460 cells are known to display substrate- independent growth in soft agar and tumourigenicity in nude mice and provided an ideal model to investigate the role of βIII-tubulin in tumourigenesis. To address the role of βIII-tubulin, H460 cells stably expressing βIII-tubulin shRNA were generated, validated and examined using both in vitro and in vivo methods of tumourigenesis. Colony formation of H460 cells stably expressing βIII-tubulin shRNA was dramatically reduced in soft agar and significantly delayed tumour growth and reduced tumour incidence of subcutaneous xenografted tumours in nude mice when compared to respective controls. These results provide new insights into the function of βIII-tubulin and suggest that βIII-tubulin may play an important role in tumour development and progression in lung cancer. In conclusion, β-tubulin isotype status can serve as a valuable molecular marker capable of distinguishing patients with differential sensitivity to TBAs. These results not only shed new light on the role of specific β-tubulin isotypes in the response to TBAs, but also the role of βIII-tubulin in the biology of cancer that will lead to new treatment strategies for NSCLC.

Tumourigenesis.

β-tubulin.

Drug resistance.

Studies on the E5 and E7 proteins of genital human papillomaviruses

Kell, Barbara

January 1997

No description available.

579

The cellular roles of MDM2 and its alternatively spliced variants

Suaeyun, Ratchada

January 2001

No description available.

572.8

Genetic control of tumour susceptibility in mouse skin carcinogenesis

Wu, Xuemei

January 2000

No description available.

610