Alex Staudacher

Adelaide Medical School

Faculty of Health and Medical Sciences

Dr Alex Staudacher
Postdoctoral Research Scientist, Translational Oncology Laboratory, SA Pathology.
In a bench to bedside effort, researchers in the Translational Oncology Laboratory are applying advances in immunotherapeutic technologies to the treatment of melanoma, ovarian, brain and lung cancers, which affect millions around the world. The two major technologies of interest are antibody therapies using antibody drug conjugates and radioimmunotherapy to target and kill cancer cells, and chimeric antigen receptors (CARs) for re-directing lymphocytes toward cancers.
We are developing pre-clinical and clinical approaches for the treatment of these cancers to aid in diagnosis, therapy monitoring and treatment. Much of our research is collaborative, working in association with the RAH Cancer Clinical Trials Unit and partnering with other laboratories within the Centre for Cancer Biology and SAHMRI as well as national and international collaborations.
Projects in our Laboratory cover the development of novel non-invasive imaging techniques to monitor responses to anti-cancer therapy, using radiolabelled antibodies to target and irradiate tumours from the inside out, identifying novel targets and payloads for antibody drug conjugate therapy and using the bodies own immune system to kill cancer cells through immunotherapy and CAR T-cell therapy.

My Research
Career
Publications
Supervision
Contact

Research Project 1

Title: Developing novel therapies for imaging and treating cancer

Project description:

Lung cancer and ovarian cancer are two cancer types with poor treatment outcomes. Antibodies, which specifically target tumour cells, can be harnessed for the detection and eradication of specific tumour cells. We are currently developing two novel antibodies which can be used as predictive markers of tumour response to treatment. We can also harness these antibodies to deliver potent drugs or radiation directly to the tumour site, resulting in greater tumour treatment with less off-target toxicity.

This project will focus on the in vitro and in vivo development of these two antibodies to firstly use them to predict treatment response to chemotherapy using live animal positron emission tomography (PET) and to then use these antibodies as a therapy to treat cancer as antibody drug conjugates or as radioimmunotherapy.

Research Project 2

Title: Non-invasive tracking of CAR T-cells to predict response to therapy

Project description: Chimeric antigen receptor (CAR) T-cells are immune cells which have been reprogrammed to target and kill cancer cells. Currently, there is no real-time, non-invasive method to track these cells when they are re-infused back into the patient to understand how well they target the tumour. For this reason, we are developing new ways to radiolabel CAR T-cells that will allow them to be non-invasively tracked in mouse tumour models through positron emission tomography (PET).

This project will involve the development of novel CAR T-cells for treating solid tumours, in vitro validation, radiolabelling CAR T-cells for in vivo tracking and testing the anti-tumour efficacy of these CAR T-cells in mouse tumour models.

Appointments

Date Position Institution name

2016 - ongoing Adjunct Research Associate University of South Australia

2014 - ongoing Affiliate Lecturer University of Adelaide
Education

Date Institution name Country Title

2007 - 2011 Flinders University Australia PhD

2003 - 2006 Flinders University Australia Bachelor of Science (Hons)
Research Interests

Cancer Diagnosis Cancer Therapy Radiation Therapy Radiology and Organ Imaging Cancer Biology and Clinical Oncology Innovative Therapeutics

Date	Position	Institution name
2016 - ongoing	Adjunct Research Associate	University of South Australia
2014 - ongoing	Affiliate Lecturer	University of Adelaide

Date	Institution name	Country	Title
2007 - 2011	Flinders University	Australia	PhD
2003 - 2006	Flinders University	Australia	Bachelor of Science (Hons)

Journals

Year	Citation
2023	Wittwer, N. L., Staudacher, A. H., Liapis, V., Cardarelli, P., Warren, H., & Brown, M. P. (2023). An anti-mesothelin targeting antibody drug conjugate induces pyroptosis and ignites antitumor immunity in mouse models of cancer. Journal for ImmunoTherapy of Cancer, 11(3), 16 pages. DOI Scopus11 WoS1 Europe PMC8
2023	Wittwer, N. L., Brown, M. P., Liapis, V., & Staudacher, A. H. (2023). Antibody drug conjugates: hitting the mark in pancreatic cancer?. Journal of Experimental and Clinical Cancer Research, 42(1), 16 pages. DOI Scopus5 Europe PMC5
2022	Staudacher, A. H., Li, Y., Liapis, V., & Brown, M. P. (2022). The RNA-binding protein La/SSB associates with radiation-induced DNA double-strand breaks in lung cancer cell lines. Cancer Reports, 5(8), e1543-1-e1543-11. DOI Scopus2 WoS2 Europe PMC1
2022	Nazarizadeh, A., Staudacher, A. H., Wittwer, N. L., Turnbull, T., Brown, M. P., & Kempson, I. (2022). Aluminium Nanoparticles as Efficient Adjuvants Compared to Their Microparticle Counterparts: Current Progress and Perspectives. International Journal of Molecular Sciences, 23(9), 15 pages. DOI Scopus21 WoS8 Europe PMC6
2022	Staudacher, A. H., Liapis, V., Wittwer, N. L., Tieu, W., Lam, H. C., Leusen, J., & Brown, M. P. (2022). Fc gamma receptor is not required for in vivo processing of radio- and drug-conjugates of the dead tumor cell-targeting monoclonal antibody, APOMAB®. Biomedicine and Pharmacotherapy, 151, 113090-1-113090-10. DOI
2022	Hull, A., Li, Y., Bartholomeusz, D., Hsieh, W., Tieu, W., Pukala, T. L., . . . Bezak, E. (2022). Preliminary Development and Testing of C595 Radioimmunoconjugates for Targeting MUC1 Cancer Epitopes in Pancreatic Ductal Adenocarcinoma. Cells, 11(19), 18 pages. DOI Scopus3 WoS3 Europe PMC3
2021	MacGregor, M., Safizadeh Shirazi, H., Chan, K. M., Ostrikov, K., McNicholas, K., Jay, A., . . . Vasilev, K. (2021). Cancer cell detection device for the diagnosis of bladder cancer from urine. Biosensors and Bioelectronics, 171, 12 pages. DOI Scopus28 WoS16 Europe PMC10
2021	Liapis, V., Tieu, W., Wittwer, N. L., Gargett, T., Evdokiou, A., Takhar, P., . . . Staudacher, A. H. (2021). Positron emission tomographic imaging of tumor cell death using zirconium-89-labeled APOMAB® following cisplatin chemotherapy in lung and ovarian cancer xenograft models. Molecular Imaging and Biology, 23(6), 914-928. DOI Scopus6 WoS3 Europe PMC1
2021	Reid, P., Staudacher, A. H., Marcu, L. G., Olver, I., Moghaddasi, L., Brown, M. P., & Bezak, E. (2021). Characteristic differences in radiation-induced DNA damage response in human papillomavirus-negative and human papillomavirus-positive head and neck cancers with accumulation of fractional radiation dose. Head and Neck, 43(10), 3086-3096. DOI Scopus1 WoS1 Europe PMC1
2021	Liapis, V., Tieu, W., Wittwer, N. L., Gargett, T., Evdokiou, A., Takhar, P., . . . Staudacher, A. H. (2021). Correction to: Positron Emission Tomographic Imaging of Tumor Cell Death Using Zirconium-89-Labeled APOMAB® Following Cisplatin Chemotherapy in Lung and Ovarian Cancer Xenograft Models (Molecular Imaging and Biology, (2021), 23, 6, (914-928), 10.1007/s11307-021-01620-1). Molecular Imaging and Biology, 23(6), 929. DOI
2020	Liapis, V., Tieu, W., Wittwer, N., Gargett, T., Evdokiou, A., Takhar, P., . . . Staudacher, A. H. (2020). Positron Emission Tomographic imaging of tumor cell death using Zirconium-89-labeled APOMAB® Following Cisplatin Chemotherapy in Lung and Ovarian Cancer Xenograft Models. DOI
2020	Liapis, V., Tieu, W., Wittwer, N., Gargett, T., Evdokiou, A., Takhar, P., . . . Staudacher, A. H. (2020). Positron Emission Tomographic imaging of tumor cell death using Zirconium-89-labeled APOMAB® following cisplatin chemotherapy in lung and ovarian cancer xenograft models. DOI
2020	Reid, P., Staudacher, A. H., Marcu, L. G., Olver, I., Moghaddasi, L., Brown, M. P., & Bezak, E. (2020). Influence of the human papillomavirus on the radio-responsiveness of cancer stem cells in head and neck cancers. Scientific Reports, 10(1), 8 pages. DOI Scopus10 WoS7 Europe PMC7
2020	Reid, P., Staudacher, A. H., Marcu, L. G., Olver, I., Moghaddasi, L., Brown, M. P., . . . Bezak, E. (2020). Intrinsic Radiosensitivity Is Not the Determining Factor in Treatment Response Differences between HPV Negative and HPV Positive Head and Neck Cancers.. Cells, 9(8), 14 pages. DOI Scopus7 WoS6 Europe PMC4
2020	Staudacher, A. H., Liapis, V., Tieu, W., Wittwer, N., & Brown, M. P. (2020). Tumour-associated macrophages process drug and radio-conjugates of the dead tumour cell-targeting APOMAB® antibody. Journal of Controlled Release, 327, 779-787. DOI Scopus7 WoS6 Europe PMC6
2020	Liapis, V., Tieu, W., Rudd, S. E., Donnelly, P. S., Wittwer, N. L., Brown, M. P., & Staudacher, A. H. (2020). Improved non-invasive positron emission tomographic imaging of chemotherapy-induced tumor cell death using Zirconium-89-labeled APOMAB®. EJNMMI Radiopharmacy and Chemistry, 5(1), 27-1-27-15. DOI Scopus10 WoS9 Europe PMC4
2019	Staudacher, A. H., Li, Y., Liapis, V., Hou, J. J. C., Chin, D., Dolezal, O., . . . Brown, M. P. (2019). APOMAB antibody-drug conjugates targeting dead tumor cells are effective in vivo. Molecular Cancer Therapeutics, 18(2), 335-345. DOI Scopus15 WoS15 Europe PMC8
2019	Reid, P., Marcu, L. G., Olver, I., Moghaddasi, L., Staudacher, A. H., & Bezak, E. (2019). Diversity of cancer stem cells in head and neck carcinomas: The role of HPV in cancer stem cell heterogeneity, plasticity and treatment response. Radiotherapy and Oncology, 135, 1-12. DOI Scopus26 WoS19 Europe PMC16
2018	Staudacher, A. H., Liapis, V., & Brown, M. P. (2018). Therapeutic targeting of tumor hypoxia and necrosis with antibody α-radioconjugates. Antibody Therapeutics, 1(2), 55-63. DOI Scopus18
2018	Reid, P., Wilson, P., Li, Y., Marcu, L., Staudacher, A., Brown, M., & Bezak, E. (2018). Experimental investigation of radiobiology in head and neck cancer cell lines as a function of HPV status, by MTT assay. Scientific Reports, 8(1), 7 pages. DOI Scopus8 WoS8 Europe PMC2
2017	Reid, P., Wilson, P., Li, Y., Marcu, L. G., Staudacher, A. H., Brown, M. P., & Bezak, E. (2017). In vitro investigation of head and neck cancer stem cell proportions and their changes following X-ray irradiation as a function of HPV status. PLoS ONE, 12(10), 16 pages. DOI Scopus18 WoS17 Europe PMC12
2017	Staudacher, A. H., & Brown, M. P. (2017). Antibody drug conjugates and bystander killing: is antigen-dependent internalisation required?. British Journal of Cancer, 117(12), 1736-1742. DOI Scopus319 WoS215 Europe PMC184
2016	Ormsby, R., Staudacher, A., Blyth, B., Bezak, E., & Sykes, P. (2016). Temporal responses to X-radiation exposure in spleen in the pKZ1 mouse recombination assay. Radiation Research, 185(6), 623-629. DOI Scopus4 WoS3 Europe PMC2
2016	Al Darwish, R., Staudacher, A. H., Li, Y., Brown, M. P., & Bezak, E. (2016). Development of a transmission alpha particle dosimetry technique using A549 cells and a Ra-223 source for targeted alpha therapy. Medical Physics, 43(11), 6145-6153. DOI Scopus10 WoS9 Europe PMC7
2015	Al Darwish, R., Staudacher, A., Bezak, E., & Brown, M. (2015). Autoradiography imaging in targeted alpha therapy with Timepix detector. Computational and Mathematical Methods in Medicine, 2015, 612580-1-612580-7. DOI Scopus14 WoS7 Europe PMC6
2015	Pishas, K., Adwal, A., Neuhaus, S., Clayer, M., Farshid, G., Staudacher, A., & Callen, D. (2015). XI-006 induces potent p53-independent apoptosis in Ewing sarcoma. Scientific Reports, 5(1), 11465-1-11465-16. DOI Scopus21 WoS16 Europe PMC16
2015	Pishas, K. I., Adwal, A., Neuhaus, S. J., Clayer, M. T., Farshid, G., Staudacher, A. H., & Callen, D. F. (2015). Erratum: XI-006 induces potent p53-independent apoptosis in Ewing sarcoma (Scientific Reports (2015) 5:11465) doi: 10.1038/srep11465). Scientific Reports, 5(1), 1 page. DOI Scopus1 WoS1
2014	Penfold, S., Brown, M., Staudacher, A., & Bezak, E. (2014). Monte Carlo simulations of dose distributions with necrotic tumor targeted radioimmunotherapy. Applied Radiation and Isotopes, 90, 40-45. DOI Scopus8 WoS6 Europe PMC3
2014	Staudacher, A., Bezak, E., Borysenko, A., & Brown, M. (2014). Targeted [alpha]-therapy using 227Th-APOMAB and cross-fire antitumour effects: preliminary in-vivo evaluation. Nuclear Medicine Communications, 35(12), 1284-1290. DOI Scopus18 WoS17 Europe PMC11
2014	Brown, M., & Staudacher, A. (2014). Could bystander killing contribute significantly to the antitumor activity of brentuximab vedotin given with standard first-line chemotherapy for Hodgkin lymphoma?. Immunotherapy, 6(4), 371-375. DOI Scopus13 WoS9 Europe PMC9
2014	Al-Ejeh, F., Staudacher, A., Smyth, D., Darby, J., Denoyer, D., Tsopelas, C., . . . Brown, M. (2014). Postchemotherapy and tumor-selective targeting with the la-specific DAB4 monoclonal antibody relates to apoptotic cell clearance. Journal of Nuclear Medicine, 55(5), 772-779. DOI Scopus15 WoS14 Europe PMC8
2014	Staudacher, A., Al-ejeh, F., Fraser, C., Darby, J., Roder, D., Ruszkiewicz, A., . . . Brown, M. (2014). The La antigen is over-expressed in lung cancer and is a selective dead cancer cell target for radioimmunotherapy using the la-specific antibody APOMAB®. EJNMMI Research, 4(1), 2-1-2-13. DOI Scopus22 WoS20 Europe PMC13
2014	AL Darwish, R., Bezak, E., Staudacher, A., & Brown, M. (2014). EP-1839: Application of timepix for autoradiography imaging in targeted alpha therapy. Radiotherapy and Oncology, 111, S302-S303. DOI
2010	Staudacher, A., Blyth, B., Lawrence, M., Ormsby, R., Bezak, E., & Sykes, P. (2010). If bystander effects for apoptosis occur in spleen after low-dose irradiation in vivo then the magnitude of the effect falls within the range of normal homeostatic apoptosis. Radiation Research, 174(6), 727-731. DOI Scopus13 WoS11 Europe PMC6
2010	Blyth, B. J., Azzam, E. I., Howell, R. W., Ormsby, R. J., Staudacher, A. H., & Sykes, P. J. (2010). An adoptive transfer method to detect low-dose radiation-induced bystander effects in vivo. Radiation Research, 173(2), 125-137. DOI Scopus14 WoS14 Europe PMC9

Conference Papers

Year	Citation
2022	Staudacher, A. H., Liapis, V., Wittwer, N. L., Wheatcroft, M. P., & Brown, M. P. (2022). Clinical translation of the dead cancer cell-targeting antibody chimeric DAB4 (chDAB4) as a theranostic tool for diagnosing cancer treatment responses. In EUROPEAN JOURNAL OF NUCLEAR MEDICINE AND MOLECULAR IMAGING Vol. 49 (pp. S466). Barcelona, SPAIN: SPRINGER.
2016	Pishas, K., Neuhaus, S., Clayer, M., Farshid, G., Staudacher, A., & Callen, D. (2016). XI-006 induces potent p53-independent apoptosis in Ewing sarcoma. In CLINICAL CANCER RESEARCH Vol. 22 (pp. 2 pages). Salt Lake, UT: AMER ASSOC CANCER RESEARCH. DOI WoS1

Conference Items

Year	Citation
2013	Staudacher, A. H., & Brown, M. P. (2013). Synergistic anti-cancer response to chemotherapy and <SUP>177</SUP>Lu-labelled APOMAB<SUP>®</SUP> radioimmunotherapy in a preclinical model of lung cancer. Poster session presented at the meeting of EUROPEAN JOURNAL OF NUCLEAR MEDICINE AND MOLECULAR IMAGING. Lyon, FRANCE: SPRINGER.

Past Higher Degree by Research Supervision (University of Adelaide)

Date	Role	Research Topic	Program	Degree Type	Student Load	Student Name
2014 - 2017	Co-Supervisor	Investigation of Timepix Radiation Detector for Autoradiography and Microdosimetry in Targeted Alpha Therapy	Doctor of Philosophy	Doctorate	Full Time	Miss Ruqaya Omar G Al Darwish

Email: alex.staudacher@adelaide.edu.au

Alex Staudacher

Appointments

Education

Research Interests

Journals

Conference Papers

Conference Items

Past Higher Degree by Research Supervision (University of Adelaide)

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