Big Pharmas R&D Strategy In Oncology & Leukemias & Lymphomas

Table of Contents

1 Executive Summary

2 Methodologies

3 Table of Contents

• 3.1 List of Tables
• 3.2 List of Boxes

4 Big Pharma' s R&D Position and Strategy in Oncology: A Summary

• 4.1 Bristol-Myers Squibb
• 4.2 GlaxoSmithKline
• 4.3 Hoffmann-La Roche
• 4.4 Novartis
• 4.5 Sanofi-Aventis

5 Last Five Years of Deals and Alliances in Oncology

• 5.1 Bristol Myers Squibb
  • 5.1.1 Discovery and Lead Molecule Improvements
  • 5.1.2 Adding Image Analysis to Support Clinical Trials and Early Diagnosis
  • 5.1.3 Bladder Cancer and Melanoma Registration Filings are Emminent
  • 5.1.4 The Human Kinome and Cell Cycle Inhibitors
  • 5.1.5 Strategic Priorities in Pipeline Development Leads to Divestments
  • 5.1.6 Erbitux Expansion is Set to Challenge Avastin
• 5.2 GlaxoSmithKline
  • 5.2.1 The Biopharmaceutical Strategy at GSK
  • 5.2.2 Out Goes Classes of Small Molecule Inhibitors
  • 5.2.3 Marketing and Manufacturing Collaborations
  • 5.2.4 Patient Selectionfo r GSK' s Targeted Cancer Therapies
  • 5.2.5 GSK Taping Into Knowledge Databases
  • 5.2.6 Increasing the Oral Bioavailability Cytotoxic Oncology Drugs
  • 5.2.7 Oxford University Helps GSK in India
  • 5.2.8 GSK is Set to Improve Medical Imaging
• 5.3 Hoffmann-La Roche
  • 5.3.1 Roche Builds Center of Excellence for RNAi Therapeutics Discovery
  • 5.3.2 A New Delivery Route for Avastin?
  • 5.3.3 Improving Antibody Drugs
  • 5.3.4 Roche Strengthens Presence in Genomics Research Market
  • 5.3.5 Target Validation
  • 5.3.6 Drug Discovery Collaborations
  • 5.3.7 Marketing
  • 5.3.8 Outlicensing
  • 5.3.9 Size Doesn' t Matter: Genentech' s Goal of Aggressively Pursuing Novel and Innovative Therapies
• 5.4 Novartis
  • 5.4.1 Novartis Acquisition of Chiron: A Major Biopharmaceutical Investment
  • 5.4.2 Protein Kinase Inhibitors
  • 5.4.3 Next Generation Oral Topoisomerase Inhibitor and Telomerase Promotors
  • 5.4.4 Novartis Sells of World-Wide Rights
  • 5.4.5 Biomarker and Proteomics Research
• 5.5 Sanofi-Aventis
  • 5.5.1 Target Screening and Validation
  • 5.5.2 Biologicals
  • 5.5.3 A Short Cut to Success?
  • 5.5.4 Aventis Divests Interest
  • 5.5.5 Recombine My Molecule

6 Competitive R&D Comparison on Oncology Drug Target Level

• 6.1 Target Overview
• 6.2 Head to Head Target Comparison by Molecular Function and Cancer Type
  • 6.2.1 Transmembrane Receptor Protein Tyrosine Kinase Activity Targets
  • 6.2.2 Receptor Activity Targets
  • 6.2.3 G-protein Coupled Receptor Activity Targets
  • 6.2.4 Protein Serine/Threonine Kinase Activity Targets
  • 6.2.5 Transcription Factor Activity Targets
  • 6.2.6 Transmembrane Receptor Activity Targets
  • 6.2.7 Catalytic Activity Targets
  • 6.2.8 Cytokine Activity Targets
  • 6.2.9 Protein-Tyrosine Kinase Activity Targets
  • 6.2.10 Kinase Activity Targets
  • 6.2.11 DNA Topoisomerase Activity Targets
  • 6.2.12 Growth Factor Activity Targets
  • 6.2.13 Ligase Activity Targets
  • 6.2.14 Motor Activity Targets
  • 6.2.15 Structural Constituent of Cytoskeleton Targets
  • 6.2.16 Transporter Activity Targets
  • 6.2.17 Targets According to Miscellaneous Molecular Function Groups
  • 6.2.18 Unclassified or Unknown Molecular Function of Targets
• 6.3 Drug Targets by Target Localization and Compound Type
• 6.4 Targets, Drugs and Cancer Indications Linked to Signaling Pathways
  • 6.4.1 Alpha6 Beta4 Integrin Signaling Pathway
  • 6.4.2 Androgen Receptor Signaling Pathway
  • 6.4.3 B Cell Receptor Signaling Pathway
  • 6.4.4 EGFR1 Signaling Pathway
  • 6.4.5 Hedgehog Signaling Pathway
  • 6.4.6 ID Signaling Pathway
  • 6.4.7 IL-1 Signaling Pathway
  • 6.4.8 IL-2 Signaling Pathway
  • 6.4.9 IL-3 Signaling Pathway
  • 6.4.10 IL-4 Signaling Pathway
  • 6.4.11 IL-5 Signaling Pathway
  • 6.4.12 IL-6 Signaling Pathway
  • 6.4.13 IL-9 Signaling Pathway
  • 6.4.14 Kit Receptor Signaling Pathway
  • 6.4.15 Notch Signaling Pathway
  • 6.4.16 T Cell Receptor Signaling Pathway
  • 6.4.17 TGF-beta Receptor Signaling Pathway
  • 6.4.18 TNF-alpha Signaling Pathway
  • 6.4.19 Wnt Signaling Pathway

7 Drug Compound Type Analysis

• 7.1 Deployment of Biological Based Compounds by Cancer Indications
• 7.2 Deployment of Chemical Based Compounds by Cancer Indications
• 7.3 Deployment of Natural Product Compounds by Cancer Indications

8 Drug Development in Oncology by Major Targeted Therapy Areas

• 8.1 Angiogenesis
• 8.2 Antibodies
• 8.3 Apoptosis
• 8.4 Protein Kinase Inhibitors
• 8.5 Vaccines

9 Cancer Indication Focus Analysis

• 9.1 Preclinical Stage Pipeline
• 9.2 Phase I Clinical Stage Pipeline
• 9.3 Phase II Clinical Stage Pipeline
• 9.4 Phase III Clinical Stage Pipeline
• 9.5 Drugs Soon to be on the Market
• 9.6 Approved Drugs

10 Leukemia: An Introduction

• 10.1 Leukemia Disease Definitions
  • 10.1.1 The Lymphoid Malignancies
  • 10.1.2 The Myeloid Malignancies
• 10.2 Etiology & Pathophysiology of Leukemia
  • 10.2.1 The Lymphoid Malignancies
  • 10.2.2 The Myeloid Malignancies
• 10.3 Epidemiology of Leukemia
• 10.4 Prognosis of Leukemia
  • 10.4.1 The Lymphoid Malignancies
  • 10.4.2 The Myeloid Malignancies

11 Current Treatment Strategies of Leukemia

• 11.1 The Lymphoid Malignancies
• 11.2 The Myeloid Malignancies

12 Progress in Current Leukemia Treatment Strategies

• 12.1 The Lymphoid Malignancies
• 12.2 The Myeloid Malignancies

13 Key Therapeutic Strategies for Future Leukemia Therapies

• 13.1 Therapeutic type, Targets & Mechanisms

14 Competitive Landscape in Leukemia Drug Development: The Late Stage Pipeline

• 14.1 The Lymphoid Malignancies
• 14.2 The Myeloid Malignancies

15 Current Leukemia Drug Development: The Early Stage Pipeline

16 The Myeloid Malignancies

• 16.1 The Lymphoid Malignancies

17 Lymphoma: An Introduction

• 17.1 Disease Definition
• 17.2 Etiology & Pathophysiology
• 17.3 Epidemiology

18 Current Lymphoma Treatment Strategies

• 18.1 Hodgkin' s Disease
  • 18.1.1 Radiation Therapy
  • 18.1.2 Chemotherapy
  • 18.1.3 Transplantation
  • 18.1.4 Treatment Option Overview
• 18.2 Non-Hodgkin' s Lymphoma
  • 18.2.1 Radiation Therapy
  • 18.2.2 Chemotherapy
  • 18.2.3 Immunotherapy
  • 18.2.4 Bone Marrow and Peripheral Blood Transplants Watch and Wait
  • 18.2.5 Treatment Option Overview
• 18.3 Prognosis
  • 18.3.1 Hodgkin' s Disease
  • 18.3.2 Non-Hodgkin

19 Progress in Current Lymphoma Treatment Strategies

• 19.1 HODGKIN
• 19.2 NON-HODGKIN
• 19.3 Rituxan
• 19.4 Bexxar
• 19.5 Zevalin

20 Key Therapeutic Lymphoma Strategies

• 20.1 Antibodies & Immunostimulation
• 20.2 Small molecules: Apoptosis inducers & Kinase inhibitors

21 Competitive Landscape in Lymphoma Drug Development: The Late Stage Pipeline

22 Current Lymphoma Drug Development: The Early Stage Pipeline

23 Appendix I: Antibody Targets by Companies

24 Appendix II: Drugs Approved for the Treatment of Leukemia: A Historical Perspective

25 Appendix III: Selected Companies - Anticancer Pipelines

• Accentia BioPharmaceuticals
• Biogen Idec
• Cell Therapeutics
• Cephalon
• Chiron Corporation (Now Novartis)
• Eli Lilly
• Favrille
• Genentech
• Genitope Corporation
• Genmab
• Genta
• GlaxoSmithKline
• Immunomedics
• Inex Pharmaceuticals
• Millennium Pharmaceuticals
• Protein Design Labs
• Roche
• Sanofi-Aventis
• Seattle Genetics
• Wyeth

26 Disclaimer

27 Drug Index

28 Company Index

List of Tables

• Table 1: How to Navigate the Report
• Table 2: Number of Pursued Oncology Drugs Targets by Company
• Table 3: Pursued Oncology Drugs Targets by Molecular Function
• Table 4: Drug Target Expression Profiles in Humans
• Table 5: Identified Targets By Cancer Indications
• Table 6: Head to Head Comparison of Drugs with Transmembrane Receptor Protein Tyrosine Kinase Activity Targets
• Table 7: Head to Head Comparison of Drugs with Receptor Activity Targets
• Table 8: Head to Head Comparison of Drugs with G-protein Coupled Receptor Activity
• Table 9: Head to Head Comparison of Drugs with Protein Serine/Threonine Kinase Activity
• Table 10: Head to Head Comparison of Drugs with Transcription Factor Activity Targets
• Table 11: Head to Head Comparison of Drugs with Transmembrane Receptor Activity Targets
• Table 12: Head to Head Comparison of Drugs with Catalytic Activity Targets
• Table 13: Head to Head Comparison of Drugs with Cytokine Activity Targets
• Table 14: Head to Head Comparison of Drugs with Protein-Tyrosine Kinase Activity Targets
• Table 15: Head to Head Comparison of Drugs with Kinase Activity Targets
• Table 16: Head to Head Comparison of Drugs with DNA Topoisomerase Activity Targets
• Table 17: Head to Head Comparison of Drugs with Growth Factor Activity Targets
• Table 18: Head to Head Comparison of Drugs with Ligase Activity Targets
• Table 19: Head to Head Comparison of Drugs with Motor Activity Targets
• Table 20: Head to Head Comparison of Drugs with Structural Constituent of Cytoskeleton Targets
• Table 21: Head to Head Comparison of Drugs with Transporter Activity Targets
• Table 22: Head to Head Comparison of Drugs with Targets According to Miscellaneous Molecular Function Groups
• Table 23: Head to Head Comparison of Drugs with Unclassified or Unknown Molecular Function Targets
• Table 24: Drug Target Comparison by Target Localization and Compound Type
• Table 25: Targeting Signaling Pathways: An Overview
• Table 26: Targeted Signaling Pathway Profiles of Big Pharma
• Table 27: Targets, Drugs and Cancer Indications Linked to the Alpha6 Beta4 Integrin Signaling Pathway
• Table 28: Targets, Drugs and Cancer Indications Linked to the Androgen Receptor Signaling Pathway
• Table 29: Targets, Drugs and Cancer Indications Linked to the B Cell Receptor Signaling Pathway
• Table 30: Targets, Drugs and Cancer Indications Linked to the EGFR1 Signaling Pathway
• Table 31: Targets, Drugs and Cancer Indications Linked to the Hedgehog Signaling Pathway
• Table 32: Targets, Drugs and Cancer Indications Linked to the ID Signaling Pathway
• Table 33: Targets, Drugs and Cancer Indications Linked to the IL-1 Signaling Pathway
• Table 34: Targets, Drugs and Cancer Indications Linked to the IL-3 Signaling Pathway
• Table 35: Targets, Drugs and Cancer Indications Linked to the IL-4 Signaling Pathway
• Table 36: Targets, Drugs and Cancer Indications Linked to the IL-5 Signaling Pathway
• Table 37: Targets, Drugs and Cancer Indications Linked to the IL-6 Signaling Pathway
• Table 38: Targets, Drugs and Cancer Indications Linked to the Kit Receptor Signaling Pathway
• Table 39: Targets, Drugs and Cancer Indications Linked to the Notch Signaling Pathway
• Table 40: Targets, Drugs and Cancer Indications Linked to the T Cell Receptor Signaling Pathway
• Table 41: Targets, Drugs and Cancer Indications Linked to the TGF-beta Receptor Signaling Pathway
• Table 42: Targets, Drugs and Cancer Indications Linked to the TNF-alpha Signaling Pathway
• Table 43: Targets, Drugs and Cancer Indications Linked to the Wnt Signaling Pathway
• Table 44: Deployment of Biological Based Compounds by Cancer Indications
• Table 45: Deployment of Chemical Based Compounds by Cancer Indications
• Table 46: Deployment of Natural Product Based Compounds by Cancer Indications
• Table 47: Comparative Presentation of Targeted Therapy Areas in Oncology
• Table 48: The Angiogenesis Pipeline by Cancer Type and Developmental Stage
• Table 49: The Antibody Pipeline by Cancer Type and Developmental Stage
• Table 50: The Apoptosis Pipeline by Cancer Type and Developmental Stage
• Table 51: The Protein Kinase Inhibitor Pipeline by Cancer Type and Developmental Stage
• Table 52: The Cancer Vaccine Pipeline by Cancer Type and Developmental Stage
• Table 53: Summary of Big Pharma' s Preclinical Stage Pipeline
• Table 54: Preclinical Stage Pipeline by Cancer Indications
• Table 55: Summary of Big Pharma' s Phase I Clinical Stage Pipeline
• Table 56: : Phase I Clinical Stage Pipeline by Cancer Indications
• Table 57: Summary of Big Pharma' s Phase II Clinical Stage Pipeline
• Table 58: Phase II Clinical Stage Pipeline by Cancer Indications
• Table 59: Summary of Big Pharma' s Phase III Clinical Stage Pipeline
• Table 60: Phase III Clinical Stage Pipeline by Cancer Indications
• Table 61: Oncology Drugs Soon to be on the Market
• Table 62: Summary of Big Pharma' s Approved Oncology Drugs
• Table 63: Approved Drugs by Cancer Indications
• Table 105: ALL Classification
• Table 106: Latest Approved Drugs for the Treatment of Leukemia
• Table 107: Kinase Inhibitors in Development for the Treatment of Leukemia
• Table 108: Near Term Progress Rituximab
• Table 109: Near Term Progress Oblimersen
• Table 110: Near Term Progress Alvocidib
• Table 111: Near Term Progress ATRA
• Table 112: Near Term Progress GVAX
• Table 113: Near Tearm Progress HuM195
• Table 114: Near Term Progress Zarnestra
• Table 115: Near Term Progress Sorafenib
• Table 116: Near Term Progress Valspodar
• Table 117: Summary of Current Late Stage Pipeline
• Table 118: Near Term Progress CEP-701
• Table 119: Near Term Progress PKC412
• Table 120: Near Term Progress SU5416
• Table 121: Near Term Progress PTK787
• Table 122: Near Term Progress VNP40101M
• Table 123: Near Term Progress Troxacitabine
• Table 124: Near Term Progress Decitabine
• Table 125: Near Term Progress Bortezomib
• Table 126: Near Term Progress AG-858
• Table 127: Near Term Progress bevacizumab
• Table 128: Near Term Progress OSI-461
• Table 129: Near Term Progress Xcytrin
• Table 130: Near Term Progress AP23573
• Table 131: Summary of Current Early Stage Pipeline
• Table 132: Drugs used in the treatment of lymphoma.
• Table 133: Summary of Strategies Enhancing Antibody Function
• Table 134: Cancer immunotherapy strategies.
• Table 135: Protein Kinase Targets in Clinical Trials for Lymphoma
• Table 136: Recent published studies Aldesleukin
• Table 137: Recent published studies Arsenic trioxide
• Table 138: Recent published studies BiovaxID
• Table 139: Recent published studies Bortezomib
• Table 140: Recent published studies epratuzumab
• Table 141: Recent published studies FavId
• Table 142: Recent published studies MyVax
• Table 143: Recent published studies Nelarabine
• Table 144: Recent published studies Genasense
• Table 145: Recent published studies Pixantrone
• Table 146: Recent published studies temsirolimus
• Table 147: Recent published studies Zanolimumab
• Table 148: Recent published studies Flavopiridol
• Table 149: Recent published studies bevacizumab
• Table 150: Recent published studies CMC-544
• Table 151: Recent published studies galiximab
• Table 152: Recent published studies LY317615
• Table 153: Recent published studies SGN-40
• Table 154: Recent published studies Apolizumab
• Table 155: Recent published studies SGN-30
• Table 156: Accentia BioPharmaceuticals' Anticancer Pipeline
• Table 157: Biogen-Idec' s Anticancer Pipeline
• Table 158: Cell Therapeutics' Anticancer Pipeline
• Table 159: Cephalon' s Anticancer Pipeline
• Table 160: Chiron' s Anticancer Pipeline
• Table 161: Eli Lilly' s Anticancer Pipeline
• Table 162: Favrille anticancer pipeline
• Table 163: Genentech' s Anticancer Pipeline
• Table 164: Genitope' s Anticancer Pipeline
• Table 165: Genmab' s Anticancer Pipeline
• Table 166: Genta' s Anticancer Pipeline
• Table 167: GlaxoSmithKline' s Anticancer Pipeline
• Table 168: Immunomedics' Anticancer Pipeline
• Table 169: Inex Pharmaceuticals' Anticancer Pipeline
• Table 170: Millennium Pharmaceuticals' Anticancer Pipeline
• Table 171: Protein Design Labs' Anticancer Pipeline
• Table 172: Roche' s Anticancer Pipeline
• Table 173: Sanofi-Aventis anticancer pipeline
• Table 174: Seattle Genetics' Anticancer Pipeline
• Table 175: Wyeth' s Anticancer Pipeline

List of Boxes

• Box 1: Major treatment regimes
• Box 2: CLL staging system
• Box 3: Updated REAL/WHO Classification for B-Cell Neoplasms
• Box 4: Quick Facts - Clofarabine
• Box 5: Quick Facts - Alemtuzumab
• Box 6: Quick Facts - Gemtuzumab
• Box 7: Quick Facts - Imatinib
• Box 8: Quick Facts - Rituximab
• Box 9: Quick Facts - Genasense
• Box 10: Quick Facts - Flavopiridol
• Box 11: Quick Facts - Atra
• Box 12: Quick Facts - Gvax
• Box 13: Quick Facts - Zarnestra
• Box 14: Quick Facts - BAY 43-9006
• Box 15: Quick Facts - Ceplene
• Box 16: Quick Facts - Valspodar
• Box 17: Quick Facts - CEP-701
• Box 18: Quick Facts - PKC412
• Box 19: Quick Facts - SU5416
• Box 20: Quick Facts - PTK787
• Box 21: Quick Facts - Cloretazine
• Box 22: Company statement on progress
• Box 23: Quick Facts - Troxacitabine
• Box 24: Quick Facts - FK228
• Box 25: Quick Facts - Decitabine
• Box 26: Quick Facts - VELCADE
• Box 27: Velcade sales 2005
• Box 28: Quick Facts - AG-858
• Box 29: Quick Facts - Avastin
• Box 30: Quick Facts - OSI-461
• Box 31: Quick Facts - Xcytrin
• Box 32: Quick Facts - AP23573
• Box 33: Possible Complications of Treatment
• Box 34: Updated REAL/WHO Classification for B-Cell Neoplasms
• Box 35: Subclassification of Stage
• Box 36: Updated REAL/WHO Classification for B-Cell Neoplasms
• Box 37: Updated REAL/WHO Classification for T-Cell and Putative NK-Cell Neoplasms
• Box 38: Staging subclassification system
• Box 39: Study details