Your search keyword '"Toivanen R."' showing total 3 results

1. Patient-derived Models of Abiraterone- and Enzalutamide-resistant Prostate Cancer Reveal Sensitivity to Ribosome-directed Therapy.

Author

Pook D., Huglo A., Yang R., Henzler C., Li Y., Lopez-Campos F., Castro E., Toivanen R., Azad A., Bolton D., Goad J., Grummet J., Harewood L., Kourambas J., Lawrentschuk N., Moon D., Murphy D.G., Sengupta S., Snow R., Thorne H., Mitchell C., Pedersen J., Clouston D., Norden S., Ryan A., Dehm S.M., Tilley W.D., Pearson R.B., Hannan R.D., Frydenberg M., Furic L., Taylor R.A., Risbridger G.P., Porter L.H., Lister N., Hedwards S., Pezaro C.J., Goode D.L., Rebello R.J., Clark A.K., Van Gramberg J., Hanson A.R., Banks P., Wang H., Niranjan B., Keerthikumar S., Papargiris M., Lawrence M.G., Obinata D., Sandhu S., Selth L.A., Wong S.Q., Pook D., Huglo A., Yang R., Henzler C., Li Y., Lopez-Campos F., Castro E., Toivanen R., Azad A., Bolton D., Goad J., Grummet J., Harewood L., Kourambas J., Lawrentschuk N., Moon D., Murphy D.G., Sengupta S., Snow R., Thorne H., Mitchell C., Pedersen J., Clouston D., Norden S., Ryan A., Dehm S.M., Tilley W.D., Pearson R.B., Hannan R.D., Frydenberg M., Furic L., Taylor R.A., Risbridger G.P., Porter L.H., Lister N., Hedwards S., Pezaro C.J., Goode D.L., Rebello R.J., Clark A.K., Van Gramberg J., Hanson A.R., Banks P., Wang H., Niranjan B., Keerthikumar S., Papargiris M., Lawrence M.G., Obinata D., Sandhu S., Selth L.A., and Wong S.Q.

Abstract

Background: The intractability of castration-resistant prostate cancer (CRPC) is exacerbated by tumour heterogeneity, including diverse alterations to the androgen receptor (AR) axis and AR-independent phenotypes. The availability of additional models encompassing this heterogeneity would facilitate the identification of more effective therapies for CRPC. Objective(s): To discover therapeutic strategies by exploiting patient-derived models that exemplify the heterogeneity of CRPC. Design, setting, and participants: Four new patient-derived xenografts (PDXs) were established from independent metastases of two patients and characterised using integrative genomics. A panel of rationally selected drugs was tested using an innovative ex vivo PDX culture system. Intervention(s): The following drugs were evaluated: AR signalling inhibitors (enzalutamide and galeterone), a PARP inhibitor (talazoparib), a chemotherapeutic (cisplatin), a CDK4/6 inhibitor (ribociclib), bromodomain and extraterminal (BET) protein inhibitors (iBET151 and JQ1), and inhibitors of ribosome biogenesis/function (RNA polymerase I inhibitor CX-5461 and pan-PIM kinase inhibitor CX-6258). Outcome measurements and statistical analysis: Drug efficacy in ex vivo cultures of PDX tissues was evaluated using immunohistochemistry for Ki67 and cleaved caspase-3 levels. Candidate drugs were also tested for antitumour efficacy in vivo, with tumour volume being the primary endpoint. Two-tailed t tests were used to compare drug and control treatments. Results and limitations: Integrative genomics revealed that the new PDXs exhibited heterogeneous mechanisms of resistance, including known and novel AR mutations, genomic structural rearrangements of the AR gene, and a neuroendocrine-like AR-null phenotype. Despite their heterogeneity, all models were sensitive to the combination of ribosome-targeting agents CX-5461 and CX-6258. Conclusion(s): This study demonstrates that ribosome-targeting drugs may be effective again

Published

2018

2. 946 Identification of castrate-resistant cancer repopulating cells in localised prostate tumours

Author

Murphy, D.G., Toivanen, R., Frydenberg, M., Pedersen, J., Ryan, A., Pook, D., Berman, M., Taylor, R.A., and Risbridger, G.P.

Published

2013

3. Breaking through a roadblock in prostate cancer research: An update on human model systems

Author

Toivanen, R., Taylor, R.A., Pook, D.W., Ellem, S.J., and Risbridger, G.P.

Subjects

*PROSTATE cancer prevention, *CANCER research, *HUMAN experimentation, *MOLECULAR genetics, *CELL lines, *XENOGRAFTS

Abstract

Abstract: Prostate cancer is a prevalent disease that affects the aging male population. Whilst there have been significant advances of our biological understanding of the disease, clinical translation of promising agents continues to lag behind. In part, this is due to a paucity of relevant experimental and pre-clinical models required to further develop effective prevention and therapeutic strategies. Genetically modified cell lines fail to entirely represent the genetic and molecular diversity of primary human specimens, particularly from localised disease. Furthermore, primary prostate cancer tissues are extremely difficult to grow in the laboratory and virtually all human models, whether they grow as xenografts in immune-deficient animals or as cell cultures, are genetically modified by the investigator or derived from patients with advanced metastatic disease. In this review, we discuss the latest advances and improvements to current methods of xenografting human primary prostate cancer, and their potential application to translational research. This article is part of a Special Issue entitled ‘Steroids and cancer’. [Copyright &y& Elsevier]

Published

2012