Stem cells and cancer: treatment resistance and novel therapeutic targets Rob Clarke Manchester, UK Q-CROC, Montreal, 6 th November, 2010 Cancer.

Slides:

Advertisements

Similar presentations

Progress Against Breast Cancer

Advertisements

Website for lectures and course book: ~regobto/ ~regobto/

1Kitasato-Harvard Symposium 10/03/2002 New Monoclonal Antibody Approved for Advanced Breast Cancer Shin-ichi Nihira, Ph.D. Dept. Clinical Research 3 Chugai.

Triple negative breast cancer

Breast Cancer Systemic Therapy for Early Stage Disease

A trial for women with –‘Triple negative’ breast cancer (TNBC) –Localised to breast +/- lymph nodes –Recommended standard treatment involves NEPTUNE Taxane.

The Notch-  -Secretase Pathway. Notch activation involves the proteolytic cleavage of the Notch ligand/receptor complex by  -secretase to release the.

Stem Cells and Cell Signaling

Development of laboratory models to study Breast Cancer Deborah Holliday Breast Research Group Section of Pathology & Tumour Biology Section of Pathology.

Mesenchymal and Tissue-Specific Stem Cells ChemEng 590B: Tissue Engineering Lecture 4 January 31 st, 2013.

Novel Drug Design Modified Megestrol by Group II.

MiRNA-drug resistance mechanisms Summary Hypothesis: The interplay between miRNAs, signaling pathways and epigenetic and genetic alterations are responsible.

Notch1 and pre-T-cell Acute Lymphoblastic Leukemia (T-ALL) by Lindsey Wilfley.

Figure 11.14a The Biology of Cancer (© Garland Science 2007) Excise cancer from Breast Isolate Cancer cells No Tumor Inject mice 10 3 cells 10 4 cells.

Detection of Mutations in EGFR in Circulating Lung-Cancer Cells Colin Reisterer and Nick Swenson S. Maheswaran et al. The New England Journal of Medicine.

PCR Application: Can Breast Cancer be Cured?. Normal, Healthy Cells Cells can change or differentiate to become specialised according to the tissue that.

Gene therapy progress and prospects cancer. Gene Therapy Primary challenge for gene therapy – Successfully delivery an efficacious dose of a therapeutic.

Targeted Therapy: A Giant Step Forward

When mammalian cells are subjected to stress signals, oxygen deficiency, radiation, DNA damage, or Chemo- therapeutic drugs, p53 is activated, leading.

Understanding and Treating Triple-Negative Breast Cancer Elshami M. Elamin, MD Medical Oncologist Central Care Cancer Center Wichita,

Understanding and Optimizing Treatment of Triple Negative Breast Cancer Edith Peterson Mitchell, MD, FACP Clinical Professor of Medicine and Medical Oncology.

Metastatic Breast Cancer: One Size Does Not Fit All Clifford Hudis, M.D. Chief, Breast Cancer Medicine Service MSKCC.

2nd Quebec Conference on Therapeutic Resistance in Cancer Bienvenue !!!!!

CELLULAR BIOLOGY IN BREAST CANCER JESSE ELLMAN MD SEPT 2010 CLINICAL ASSISTANT PROFESSOR DEPT OB GYN AND WOMENS HEALTH WE MAY BE ENTERING A NEW PHASE.

Cancer stem cells IOSI Journal Club Giulia Poretti January 19, 2007.

Increased Radiation Resistance of Mouse Mammary Side Population Stem/Progenitor Cells: Role of Wnt/ ß -Catenin Signaling Wendy A. Woodward MD-PhD, Mercy.

Dysregulation of the miR-34a-SIRT1 axis inhibits breast cancer stemness Gary Xiao, Ph.D. Professor and Director School of Pharmaceutical Science & Technology.

Advanced Cancer Topics Journal Review 4/16/2009 AD.

Stem Cells In Clinical Practice: STELLA Experience Manolo D’Arcangelo Department of Oncology Ospedale Civile di Livorno.

Dr. Ziad W Jaradat Cancer Stem Cells. Recently biologically distinct and relatively rare populations of tumor-initiating cells have been identified in.

Lourdes Cortes-Dericks, PhD

MiR-19b/20a/92a regulates the self- renewal and proliferation of gastric cancer stem cells Journal of Cell Science (IF=5.325) 报告人：黄美玲

Lentiviral shRNA screen to test the validity of a gene signature of breast cancer stem cells using high throughput mammosphere assays Jenny Chang Lab.

FUNCTIONAL GENOMICS REVEAL THAT THE SERINE SYNTHESIS PATHWAY IS ESSENTIAL IN BREAST CANCER Introduction: Tim Butler Spellman Lab.

Kyoto University, Japan

SC121 Unit Three Karma Pace, MS AIM: kpacemcduffy.

When will the diagnosis of Circulating tumor cells (CTC) help to patients? Martin Pešta, Ondřej Topolčan Department of Internal Medicine II, Faculty of.

IGF-1R: A key linker between chemoresistance and cancer stem cells in epithelial ovarian cancer cells Ram Kumar Singh, Ankit Jinager, Ajit Dhadwe, Abhijit.

Michael Birrer Ian McNeish New Developments in Biology and Targets of Epithelial Ovarian Cancer.

Computational biology of cancer cell pathways Modelling of cancer cell function and response to therapy.

Neoadjuvant Endocrine Treatment in Breast Cancer Giorgio Mustacchi Centro Oncologico Università di Trieste.

Dr. Sheila Singh’s Laboratory Lab overview Operating since August 2007 Located at the Stem Cell & Cancer Research Institute at McMaster Main Campus Research.

Breast Cancer and BRCA2. 1 million women worldwide diagnosed. 1 out of 12 women in Western Europe and the United States 30% mortality rate Highest cause.

Prognostic and Predictive Factors: Current Evidence for Individualized Therapy Predictive Molecular Markers: Hormone Receptor Status Presented by Kathleen.

Personalized Lung Cancer Treatment: Targeting Stem Cell Pathways David M. Jablons, M.D. Professor and Chief Thoracic Surgery Ada Distinguished Professor.

PET in Sarcoma Imaging Treatment Response CTOS 2004 Montreal J.F. Eary, M.D. University of Washington.

Speaker:郭庭維戴郁亭 Date:104/05/26

Adjuvant systemic therapy in breast cancer Targeted therapies Update R. Paridaens Belgian Breast Meeting

S1207: Phase III Randomized, Placebo-Controlled Clinical Trial Evaluating the Use of Adjuvant Endocrine Therapy +/- One Year of Everolimus in Patients.

Meredith Baker, MD PI: Bo Lu, MD – Radiation Oncology May 29th, 2014

Mothaffar F. Rimawi, Ingrid A. Mayer, Andres Forero, Rita Nanda, Matthew P. Goetz, Angel A. Rodriguez, Anne C. Pavlick, Tao Wang, Susan G. Hilsenbeck,

Molecular Biomarkers & Targets an overview Michael Messenger NIHR Diagnostic Evidence Co-Operative & Leeds Cancer Research UK Centre.

Identification of Cancer Stem Cells using Flow Cytometry Analysis تعيين الخلايا الجذعية السرطانية باستخدام تحليل التدفق الخلوي Dr. Ayat Al-Ghafari Biochemistry.

How Do We Treat HR positive Breast Cancer in Postmenopausal Women?

Cancer stem cells in solid tumors Laurie E Ailles and Irving L Weissman Stanford University School of Medicine Current opinion in biotechnology 2007,

Cancer Stem Cell Xie Li & Li Rutian. Beginning of the Cancer Stem Cell Concept  1937: Jacob Furth and Morton Kahn: a single leukaemic cell was able.

Challenges for the treatment of breast cancer

Lung Cancer Stem Cell: Fancy Conceptual Model of Tumor Biology or Cornerstone of a Forthcoming Therapeutic Breakthrough? Tony Sourisseau, PhD, Khaled.

Fig. 4. Effect of FTY720 on brain tumor stem cell (BTSC) invasiveness

Chemotherapy and Cancer Stem Cells

Metastatic HER2+ Breast Cancer: Resistance

Carlos L. Arteaga, Jeffrey A. Engelman Cancer Cell

Volume 5, Issue 2, Pages (August 2009)

Cancer stem cells and their application into targeted therapy for cancer Mol. Bio. Lab Park Ji Won Supervisor ; Dae Youn Hwang.

Volume 12, Issue 12, Pages (September 2015)

The Cancer Stem-Cell Hypothesis: Its Emerging Role in Lung Cancer Biology and Its Relevance for Future Therapy John D. O’Flaherty, MB, BCh, BAO, Martin.

Notes: Regulating the Cell Cycle

Lung Cancer Stem Cell: Fancy Conceptual Model of Tumor Biology or Cornerstone of a Forthcoming Therapeutic Breakthrough? Tony Sourisseau, PhD, Khaled.

Prof Matt Smalley, Director

Mohammed Charbat.

Presentation transcript:

Stem cells and cancer: treatment resistance and novel therapeutic targets Rob Clarke Manchester, UK Q-CROC, Montreal, 6 th November, 2010 Cancer

Potential conflict of interests Paid consultant for Epistem, AstraZeneca, Vertex and Pfizer PhD studentship part-sponsored by Vertex Pharmaceuticals

Outline Identification of cancer stem cells (CSCs) CSCs and resistance to current therapies Potential new therapies for targetting CSCs Are cancer stem cells ready for the clinic?

Tumour recurrence Current modelCancer stem cell model No tumour recurrence CSC CSC inhibitors THERAPY Tumour models

Cancer stem-like cells (CSCs or tumour-initiating cells) ‘Gold standard’ is growth of human tumours in immune-deficient mice from cancer stem cell-enriched population isolated using flow cytometry with antibodies against cell surface CD proteins Human breast cancer: CD44+/CD24 lo Al-Hajj et al., PNAS, 2003 Human brain & colon cancer: CD133+ Singh et al., Nature, 2004 Ricci-Vitiani et al., Nature, 2007 O’Brien et al., Nature, 2007 Self-renewal Proliferation Stem cell Sphere colonies grow in vitro from cancer stem-like cells

Analogous to neurospheres that enrich for brain stem cells Undifferentiated cells survive anoikis (apoptosis), self-renew and form mammospheres (Dontu et al., 2003) Primary human breast cells: Mammosphere culture

Hannah Harrison Ciara O’Brien Gillian Farnie

CD44 + /CD24 -/low cells (P1) are enriched for Mammosphere Forming Units (MFU) P1 = CD44+/CD24-/low Harrison et al, 2010, Cancer Res, 70, 709–18 P2-4 = CD44- or CD24+

Breast cancer stem cell activity can be measured using: i.Proportion of CD44 + CD24 -/low cells ii.Mammosphere colonies in vitro iii.Tumour formation in vivo Stem cell summary

Breast tumour resistance: Opportunities to improve therapy Hormone Receptor Positive (ER &/or PR+ve) 70-80% HER2 +ve (eligible for Herceptin) 10-15% Triple Negative (ER/PR/HER2-ve) 10-15% 5 year DFS*87%75%64% Overall Survival34 mo 60%Response rate EARLY DISEASE ADVANCED DISEASE 33%37% 24 mo31 mo Breast Cancer Subtype TREATMENT Endocrine +/- chemotherapy Herceptin + chemotherapy Chemotherapy

Question Are breast cancer stem-like cells responsible for resistance to therapy? i.Radiotherapy ii.Chemotherapy iii.Endocrine therapy

Question Are breast cancer stem-like cells responsible for resistance to therapy? i.Radiotherapy ii.Chemotherapy iii.Endocrine therapy

Mammosphere-initiating cells preferentially survive 6Gy irradiation All cells % Mammosphere survival after 6Gy Pre-invasive treatment naive cancer Advanced invasive cancer Gillian Farnie Mammosphere -forming cells Mammosphere -forming cells All cells

Question Are breast cancer stem-like cells responsible for resistance to therapy? i.Radiotherapy ii.Chemotherapy iii.Endocrine therapy

Cancer stem cells are relatively chemo- resistant in human tumours in vivo Human breast cancer biopsies assayed after neoadjuvant chemotherapy (docetaxel or doxorubicin and cyclophosphamide) CD44+/CD24 -low No. of MS/10,000 cells Initial Week 3Week 12 Initial Week 3Week 12 Li et al, JNCI, 2008 P <0.001

Question Are breast cancer stem-like cells responsible for resistance to therapy? i.Radiotherapy ii.Chemotherapy iii.Endocrine therapy

Breast cancer stem cells (CSC) and endocrine resistance CSCs in ER+ BC may respond indirectly to or function independently of estrogen. ER- breast CSCs represent a novel mechanism of resistance to endocrine therapy. Cancer stem cell (CSC) ER - ER+ ER+ breast cancer TAMOXIFEN Cancer stem cell (CSC)

Experimental overview Day 1 Estradiol and tumour cell implant Tumour growth Day days Treatment Day 104 In vivo assay of stem cell activity in primary breast cancer xenografts after 14 days tamoxifen or vehicle control treatment Ciara O’Brien 1.Mammosphere assay 2.CD44/CD24/ESA cell sorting 3.Limiting dilution secondary transplants HARVEST TUMOUR FOR:

p = BB7 * placebo tamoxifen BB9 placebotamoxifen p = * Tamoxifen treatment of ER+ primary breast cancer xenografts enriches for CSC activity 14 days treatment of tumour xenograft in vivo 0 1 Mammosphere Formation (%) Mammosphere Formation (%) Ciara O’Brien

Cancer stem cells are enriched for by radio-, chemo- and endocrine therapies What are the treatment options for targeting cancer stem cells? Current therapy Relapse Loss of tumour bulk CSC re-grows tumour Cancer Stem Cell Differentiated Tumour Cell Endothelium Fibroblast Collagen Fibres Potential resistance mechanisms: Radio and chemo: Efficient DNA damage repair Chemo: Drug efflux pumps Endocrine: Lack of ER in stem cells

1) Targeting cancer stem cell resistance Cure Loss of CSC and differentiated cancer cells Tumour shrinkage with current therapy Targeting CSC resistance alongside current therapy Cancer Stem Cell Differentiated Tumour Cell Endothelium Fibroblast Collagen Fibres Potential stem cell resistance pathways: DNA damage response enzymes, ie. Chk1/2, DNA-PK, PARP p53/p63 checkpoint proteins Drug efflux pumps

2) Targeting cancer stem cell self-renewal Targeting CSC self-renewal alongside current therapy Cure Differentiation of CSC Tumour shrinkage with current therapy Cancer Stem Cell Differentiated Tumour Cell Endothelium Fibroblast Collagen Fibres Potential stem cell self-renewal pathways: Notch receptor Hedgehog Wnt CD44

Notch Self-Renewal & Survival Stem Cell Stem cell signalling pathway First described nearly 100 years ago as a wing mutant in Drosophila Common integration site for mouse mammary tumour virus (MMTV) Viral integration produces a truncated form of Notch, which leads to mammary cancer

Notch Receptor Signalling Pathway 5 ligands: Jagged1/2 and Delta-like (DLL) 1/3/4 4 receptors: Notch1-4 RBPJk CoR NICD Hes Hey MAML  -Secretase  -secretase inhibitors DAPT or DBZ Notch or DLL antibodies DLL/JAG NOTCH ADAM10 Cell 1 Cell 2

Notch activation (NICD) protects normal breast cells from chemotherapy Stylianou et al, 2006, Cancer Res (Notch Intra-Cellular Domain) MCF10A

Notch inhibition using the  -secretase inhibitor DAPT sensitises breast cancer cells to chemotherapy Meurette et al, 2009, Cancer Res Melphelan  -secretase inhibitor

Notch inactivation using  -secretase inhibitor (DAPT) reduces mammosphere formation PE – pleural effusion IDC – invasive ductal carcinoma Harrison et al, Cancer Res, 2010

Notch 4 activation is highest in the breast CSC-enriched population (P1) P1 = CD44+/CD24lo = breast CSC-enriched Harrison et al, 2010, Cancer Res

Notch4 but not Notch1 inhibition prevents tumour initiation in nude mice Notch 1 shRNA Notch 4 shRNA X Harrison et al, Cancer Res, 2010

Model of Notch signalling in breast cancer Harrison et al, Cancer Res, 2010

Are cancer stem cells ready for the clinic?

Is the clinic ready for breast cancer stem cells? Standard clinical trial end-points: Tumour volume, metastases and survival CSC-related clinical end-points: Relapse after treatment and minimal residual disease CSC-focused end points: Tumourigenic activity and presence of CSC surface markers

Blood Samples Identify CSC population Gene profiling CSC markers In vitro: In vivo: IHC FACS Microarray RT-PCR Tumour formation Serial transplantation Colony formation 3D 2D Clinical biomarker endpoints for novel cancer stem cell (CSC) therapies Advanced cancer trial Tissue Biopsies Neoadjuvant trial CSC Expression CSC Function

Summary Cancer stem cells may be the root cause of resistance Potential for targeting stem cell pathways such as Notch Clinical trial endpoints must include stem cell biomarkers in order to measure efficacy of CSC therapies

Thanks to: BREAST BIOLOGY GROUP Kath Spence Ciara O’Brien Matt Ablett Jagdeep Singh André Vieira Angelica Gomez-Santiago CANCER STEM CELL RESEARCH Gillian Farnie Pam Willans MOLECULAR PATHOLOGY Hannah Harrison MEDICAL ONCOLOGY Sacha Howell LIFE SCIENCES Keith Brennan SURGERY Nigel Bundred UNIVERSITY OF OXFORD Adrian Harris