Apoptotic Therapeutics in Oncology - Where to Commercialize?

Published by: BioSeeker Group AB

Published: Nov. 30, 2009 - 803 Pages

Table of Contents

1 Executive Summary

2 About Cancer Highlights

3 Methodologies

4 Table of Contents

4.1 List of Figures

4.2 List of Tables

5 Introduction

5.1 The Scope of this Report

5.2 Definitions

5.3 Abbreviations

6 Consider the Therapeutic Target for the Highest Therapeutic Outcome and Return on Investment

6.1 Drug Repositioning in Oncology

6.2 Introduction to Apoptotic Therapeutic Targets in Oncology

6.2.1 Auxiliary Transport Protein Activity Targets

6.2.2 Carboxy-lyase Activity Targets

6.2.3 Caspase Activator Activity Targets

6.2.4 Catalytic Activity Targets

6.2.5 Cell Adhesion Molecule Activity Targets

6.2.6 Cell Adhesion Molecule Activity Targets

6.2.7 Chaperone Activity Targets

6.2.8 Complement Activity Targets

6.2.9 Cysteine-type Peptidase Activity Targets

6.2.10 Cytokine Activity Targets

6.2.11 DNA Binding Targets

6.2.12 DNA topoisomerase Activity Targets

6.2.13 G-protein Coupled Receptor Activity Targets

6.2.14 Glutathione Transferase Activity Targets

6.2.15 Growth Factor Activity Targets

6.2.16 Growth Factor Binding Targets

6.2.17 GTPase Activity Targets

6.2.18 Hydrolase Activity Targets

6.2.19 Kinase Activity Targets

6.2.20 Kinase Regulator Activity Targets

6.2.21 Ligand-dependent Nuclear Receptor Activity Targets

6.2.22 Ligase Activity Targets

6.2.23 Lipid Kinase Activity Targets

6.2.24 Metallopeptidase Activity Targets

6.2.25 Molecular Function Unknown Targets

6.2.26 Motor Activity Targets

6.2.27 Oxidoreductase Activity Targets

6.2.28 Peptide Hormone Targets

6.2.29 Phosphoric Diester Hydrolase Activity Targets

6.2.30 Protein Binding Targets

6.2.31 Protein Serine/Threonine Kinase Activity Targets

6.2.32 Protein-Tyrosine Kinase Activity Targets

6.2.33 Receptor Activity Targets

6.2.34 Receptor Signaling Complex Scaffold Activity Targets

6.2.35 Receptor Signaling Protein Serine/Threonine Kinase Activity Targets

6.2.36 RNA Binding Targets

6.2.37 Serine-type Peptidase Activity Targets

6.2.38 Structural Constituent of Cytoskeleton Targets

6.2.39 Superoxide Dismutase Activity Targets

6.2.40 T cell Receptor Activity Targets

6.2.41 Transcription Factor Activity Targets

6.2.42 Transcription Regulator Activity Targets

6.2.43 Transferase Activity Targets

6.2.44 Translation Regulator Activity Targets

6.2.45 Transmembrane Receptor Activity Targets

6.2.46 Transmembrane Receptor Protein Tyrosine Kinase Activity Targets

6.2.47 Transporter Activity Targets

6.2.48 Ubiquitin-specific Protease Activity Targets

6.2.49 Other Drug Targets

6.3 The Cancer Genome Project and Apoptotic Therapeutic Targets in Oncology

6.3.1 Apoptotic Therapeutic Targets Present in the Cancer Gene Census and in the Catalogue of Somatic Mutations in Cancer

6.4 Structure-based Drug Design in Apoptotic Therapeutics is Stimulated by Available Structure Data on Biological Targets

6.5 Target-Target Interactions among Identified Apoptotic Therapeutics Targets in Oncology

6.6 The Drug-Target Interactome

6.7 Protein Expression Levels of Identified Apoptotic Therapeutic Targets in Oncology

6.8 Pathway Analysis of Cancer Apoptotic Therapeutic Targets

7 The Rise of New Products: How Mature, Unique and Clinically Validated are the Drug Target Profiles Identified in the Cancer Apoptotic Therapeutic Pipeline?

7.1 Terminated Drug Target Profiles of Cancer Apoptotic Drugs

7.2 Pre-Registration: New and Unique Drug Target Profiles of Apoptotic Therapeutics in Oncology

7.3 Phase III Clinical Development: New and Unique Drug Target Profiles of Apoptotic Therapeutics in Oncology

7.4 Phase II Clinical Development: New and Unique Drug Target Profiles of Apoptotic Therapeutics in Oncology

7.5 Phase I Clinical Development: New and Unique Drug Target Profiles of Apoptotic Therapeutics in Oncology

7.6 Preclinical Development: New and Unique Drug Target Profiles of Apoptotic Therapeutics in Oncology

7.7 Development Profiles of All Apoptotic Drugs in Oncology

8 Compound Strategies at Work: Competitive Benchmarking of Apoptotic Drugs in Oncology by Compound Type

8.1 Small Molecules

8.1.1 Background

8.1.2 Target Profiles of Small Molecular Drugs

8.2 Peptide/Protein Drugs

8.2.1 Background

8.2.2 Target Profiles of Peptide and Protein Drugs

8.3 Antibodies and Antibody-like Structures

8.3.1 Background

8.3.2 Target Profiles of Antibody Drugs

8.4 Nucleic Acid Therapies

8.4.1 Background

8.4.2 Target Profiles of Nucleic Acid Drugs

8.5 Gene Therapy

8.5.1 Background

8.5.2 Target Profiles of Gene Therapy Drugs

8.6 Drug Delivery and Nanotechnology

8.6.1 Background

8.6.2 Target Profiles of Reformulated Drugs

8.7 The Competition Through Close Mechanistic Approximation of Apoptotic Cancer Therapeutics

8.8 Compound Strategies based on Sub-Cellular Localization of Apoptotic Drug Targets in Oncology

9 Selecting Cancer Indications for Apoptotic Therapeutics

9.1 Acute Lymphocytic Leukemia

9.2 Acute Myelogenous Leukemia

9.3 Adrenal Cancer

9.4 B-cell Lymphoma

9.5 Basal Cell Cancer

9.6 Biliary Cancer

9.7 Bladder Cancer

9.8 Bone Cancer

9.9 Brain Cancer

9.10 Breast Cancer

9.11 Carcinoid

9.12 Cervical Cancer

9.13 Chronic Lymphocytic Leukemia

9.14 Chronic Myelogenous Leukemia

9.15 Colorectal Cancer

9.16 Endometrial Cancer

9.17 Ewing's Sarcoma

9.18 Fallopian Tube Cancer

9.19 Fibro Sarcoma

9.20 Gastrointestinal Cancer (general)

9.21 Gastrointestinal Stomach Cancer

9.22 Gastrointestinal Stromal Cancer

9.23 Head and Neck Cancer

9.24 Hodgkin's Lymphoma

9.25 Leiomyo Sarcoma

9.26 Leukemia (general)

9.27 Lipo Sarcoma

9.28 Liver Cancer

9.29 Lung Cancer (general)

9.30 Lymphoma (general)

9.31 Melanoma

9.32 Mesothelioma

9.33 Myelodysplastic Syndrome

9.34 Myeloma

9.35 Nasopharyngeal Cancer

9.36 non-Hodgkin's Lymphoma

9.37 Non-Small Cell Lung Cancer

9.38 Oesophageal Cancer

9.39 Osteo Sarcoma

9.40 Ovarian Cancer

9.41 Pancreatic Cancer

9.42 Peritoneal Cancer

9.43 Prostate Cancer

9.44 Renal Cancer

9.45 Sarcoma (general)

9.46 Small Cell Lung Cancer

9.47 Soft Tissue Sarcoma

9.48 Squamous Cell Cancer

9.49 T-cell Lymphoma

9.50 Testicular Cancer

9.51 Thymoma Cancer

9.52 Thyroid Cancer

9.53 Unspecified Cancer Indication

10 Portfolio Planning: Competitive Benchmarking of Apoptotic Cancer Therapeutic Pipeline by Investigator

10.1 Abbott

10.2 AbGenomics

10.3 Access

10.4 Advanced Life Sciences

10.5 AEgera

10.6 Aeterna Zentaris

10.7 Aida Pharmaceuticals

10.8 Ambrilia Biopharma

10.9 Amgen

10.10 Anadys Pharmaceuticals

10.11 Anavex Life Sciences

10.12 Antisoma

10.13 Aphios

10.14 Apogenix

10.15 ApopLogic Pharmaceuticals

10.16 Arno Therapeutics

10.17 ArQule

10.18 Ascenta Therapeutics

10.19 Attenuon

10.20 Basilea Pharmaceutica

10.21 Bayer

10.22 BioAxone

10.23 Biogen Idec

10.24 BioInvent

10.25 BioLineRx

10.26 Bionovo

10.27 BioVex

10.28 Cancer Research Technology

10.29 Cephalon

10.30 ChemoCentryx

10.31 Chlorogen

10.32 Chroma Therapeutics

10.33 Cleveland BioLabs

10.34 CombinatoRx

10.35 Coronado Biosciences

10.36 Critical Outcome Technologies

10.37 Curis

10.38 Cyclacel

10.39 Cylene Pharmaceuticals

10.40 Cytochroma

10.41 Daewoong

10.42 Daiichi Sankyo

10.43 Dainippon Sumitomo Pharma

10.44 Eisai

10.45 Eleos

10.46 Eli Lilly

10.47 EntreMed

10.48 Enzon

10.49 EpiCept

10.50 Exelixis

10.51 Genentech

10.52 Genta

10.53 Genzyme

10.54 Gerolymatos

10.55 Geron

10.56 GlycoGenesys

10.57 GPC Biotech

10.58 Hoffmann-La Roche

10.59 Hollis-Eden Pharmaceuticals

10.60 Human Genome Sciences

10.61 Idera Pharmaceuticals

10.62 Infinity Pharmaceuticals

10.63 InNexus Biotechnology

10.64 Insmed

10.65 Intradigm

10.66 Introgen Therapeutics

10.67 Isis Pharmaceuticals

10.68 ISU ABXIS

10.69 Johnson & Johnson

10.70 Kalypsys

10.71 Keryx Biopharmaceuticals

10.72 Kyowa Hakko Kirin

10.73 Lorus Therapeutics

10.74 Medisyn Technologies

10.75 Merck & Co

10.76 MethylGene

10.77 NeoPharm

10.78 NIH - The US National Institute of Health

10.79 Nippon Shinyaku

10.80 Non-industrial Sources

10.81 Novacea

10.82 Novartis

10.83 Novelix

10.84 Novogen

10.85 Onconova

10.86 OSI Pharmaceuticals

10.87 OXiGENE

10.88 PanaGin

10.89 Patrys

10.90 Pfizer

10.91 Pharmacyclics

10.92 PharmaMar

10.93 Pharminox

10.94 Phytomedics

10.95 Pierre Fabre

10.96 QLT

10.97 Reata Pharmaceuticals

10.98 Regulon

10.99 Rosetta Genomics

10.100 Sanofi-Aventis

10.101 Santaris Pharma

10.102 Semafore Pharmaceuticals

10.103 Senesco Technologies

10.104 Sigma-Tau

10.105 SRI International

10.106 SuperGen

10.107 Switch Pharma

10.108 Symbiotec

10.109 Taxolog

10.110 Telik

10.111 Thallion Pharmaceuticals

10.112 Tigris Pharmaceuticals

10.113 TopoTarget

10.114 Tracon Pharmaceuticals

10.115 Trubion

10.116 UMN Pharma

10.117 ValiRx

10.118 Vascular Biogenics

10.119 Vertex Pharmaceuticals

10.120 VioQuest

10.121 Viragen

10.122 Viralytics

10.123 ViroTarg

10.124 VM Discovery

10.125 ZymoGenetics

11 Disclaimer

12 Drug Index

13 Company Index

4.1 List of Figures

Figure 1: Visualization of Target-Target Interactions among Apoptotic Drug Targets in Oncology

Figure 2: The Drug-Protein Interactome of Apoptotic Drugs -Large Clusters

Figure 3: The Drug-Protein Interactome of Apoptotic Drugs - Small Clusters

Figure 4: Head-to-Head Targeting Interactome of Apoptotic Drugs

Figure 5: Distribution of Compound Types among Apoptotic Drugs in Oncology

Figure 6: Primary Sub-cellular Localization of Drug Targets

4.2 List of Tables

Table 1: Head to Head Competition among Apoptopic Drugs in Oncology

Table 2: Overall Breakdown of the Included Apoptotic Pipeline by Cancer Indication and Stage of Development

Table 3: Overview of Drug Target Profile Themes

Table 4: Terminally Ceased Therapeutic Apoptotic Targets in Oncology

Table 5: Drug Targets of Apoptotic Drugs in Oncology Present in the Catalogue of Somatic Mutations in Cancer and in the Cancer Gene Census

Table 6: Identity of Apoptotic Drug Targets with Available Biological Structures

Table 7: Number of Target-Target Interactions among Apoptotic Drug Targets in Oncology

Table 8: Drug-Protein Interactome Clusters of Apoptotic Drugs in Oncology

Table 9: Apoptotic Drug Targets with Available Protein Expression Profiles

Table 10: Pathway Summary

Table 11: Drug Targets without any Identified Assigned Pathways

Table 12: Pathway Profiles According to BioCarta of Apoptotic Drug Targets in Oncology

Table 13: Pathway Profiles According to KEGG of Apoptotic Drug Targets in Oncology

Table 14: Pathway Profiles According to NetPath of Apoptotic Drug Targets in Oncology

Table 15: Number of Drug Target Profiles by their Highest Developmental Stage and Uniqueness

Table 16: Top Competitive Apoptotic Target Profiles in Oncology

Table 17: Terminated Drug Target Strategies of Apoptotic Drugs in Oncology

Table 18 New and Unique Apoptotic Target Strategies in Cancer Currently in Pre-Registration

Table 19: New and Unique Apoptotic Target Strategies in Cancer Currently in Phase III Clinical Development 290

Table 20: New and Unique Apoptotic Target Strategies in Cancer Currently in Phase II Clinical Development . 291

Table 21: The Competition Through Close Mechanistic Approximation Between Phase II Apoptotic Drugs in Oncology

Table 22 New and Unique Apoptotic Target Strategies in Cancer Currently in Phase I Clinical Development

Table 23: The Competition Through Close Mechanistic Approximation Between Phase I Apoptotic Drugs in Oncology

Table 24: New and Unique Apoptotic Target Strategies in Oncology Currently in Preclinical Development

Table 25: The Competition Through Close Mechanistic Approximation Between Preclinical Apoptotic Drugs in Oncology

Table 26: The Progression, Maturity and Competitive Comparison of Apoptotic Drug Target Profiles in Cancer Drug Development

Table 27: Overview of Compound Strategy Competition Among Apoptotic Drugs in Oncology

Table 28: Overview of the Competitive Landscape of Apoptotic Small Molecular Drugs in Oncology

Table 29: The Competition Through Close Mechanistic Approximation between Apoptotic Small Molecule Drugs

in Oncology

Table 30: Competitive Comparison of Target Profiles of Apoptotic Small Molecule Drugs in Oncology

Table 31: Overview of the Competitive Landscape of Peptide Based Apoptotic Drugs in Oncology

Table 32: The Competition Through Close Mechanistic Approximation between Apoptotic Peptide Based Drugs in Oncology

Table 33: Competitive Comparison of Target Profiles of Apoptotic Peptide Based Drugs in Oncology

Table 34: Overview of the Competitive Landscape of Apoptotic Protein Based Drugs in Oncology

Table 35: The Competition Through Close Mechanistic Approximation between Apoptotic Protein Based Drugs in Oncology

Table 36: Competitive Comparison of Apoptotic Protein Based Drugs in Oncology

Table 37: Overview of the Competitive Landscape of Apoptotic Antibody Drugs in Oncology

Table 38: The Competition Through Close Mechanistic Approximation between Apoptotic Antibody Drugs in

Oncology

Table 39: Competitive Comparison of Target Profiles of Apoptotic Antibody Drugs in Oncology

Table 40: Overview of the Competitive Landscape of Apoptotic Nucleic Acid Therapy Drugs in Oncology

Table 41: The Competition Through Close Mechanistic Approximation between Apoptotic Nucleic Acid Therapy

Drugs in Oncology

Table 42: Competitive Comparison of Target Profiles of Apoptotic Nucleic Acid Drugs in Oncology

Table 43: Vectors in Gene Therapy

Table 44: Overview of the Competitive Landscape of Apoptotic Gene Therapy Drugs in Oncology

Table 45: The Competition Through Close Mechanistic Approximation between Apoptotic Gene Therapy Drugs

in Oncology

Table 46: Competitive Comparison of Target Profiles of Apoptotic Gene Therapy Based Drugs in Oncology

Table 47:Overview of the Competitive Landscape of Reformulated Apoptotic Drugs in Oncology

Table 48: Competitive Comparison of Target Profiles of Reformulated Apoptotic Drugs in Oncology

Table 49: The Competition Through Close Mechanistic Approximation Among All Apoptotic Drugs in Oncology

Table 50: Compound Strategies based on Sub-Cellular Localization of Apoptotic Drug Targets in Oncology

Table 51: Competitive Summary of Apoptotic Drugs by Cancer Indication

Table 52: Drug Target Profiles of Apoptotic Drugs for the Treatment of Acute Lymphocytic Leukemia

Table 53: Drug Target Profiles of Apoptotic Drugs for the Treatment of Acute Myelogenous Leukemia

Table 54: The Competition through Close Mechanistic Approximation between Acute Myelogenous Drugs

Table 55: Drug Target Profiles of Apoptotic Drugs for the Treatment of Adrenal Cancer

Table 56: Drug Target Profiles of Apoptotic Drugs for the Treatment of B-cell Lymphoma

Table 57: The Competition through Close Mechanistic Approximation between B-cell Lymphoma Drugs

Table 58: Drug Target Profiles of Apoptotic Drugs for the Treatment of Basal Cell Cancer

Table 59: Drug Target Profiles of Apoptotic Drugs for the Treatment of Biliary Cancer

Table 60: Drug Target Profiles of Apoptotic Drugs for the Treatment of Bladder Cancer

Table 61: Drug Target Profiles of Apoptotic Drugs for the Treatment of Bone Cancer

Table 62: Drug Target Profiles of Apoptotic Drugs for the Treatment of Brain Cancer

Table 63: Drug Target Profiles of Apoptotic Drugs for the Treatment of Breast Cancer

Table 64: The Competition through Close Mechanistic Approximation between Breast Cancer Drugs

Table 65: Drug Target Profiles of Apoptotic Drugs for the Treatment of Carcinoid

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Table 66: Drug Target Profiles of Apoptotic Drugs for the Treatment of Cervical Cancer

Table 67: Drug Target Profiles of Apoptotic Drugs for the Treatment of Chronic Lymphocytic Leukemia

Table 68: The Competition through Close Mechanistic Approximation between Chronic Lymphocytic Leukemia

Drugs

Table 69: Drug Target Profiles of Apoptotic Drugs for the Treatment of Chronic Myelogenous Leukemia

Table 70: The Competition through Close Mechanistic Approximation between Chronic Myelogenous Leukemia

Drugs

Table 71: Drug Target Profiles of Apoptotic Drugs for the Treatment of Colorectal Cancer

Table 72: The Competition through Close Mechanistic Approximation between Colorectal Cancer Drugs

Table 73: Drug Target Profiles of Apoptotic Drugs for the Treatment of Endometrial Cancer

Table 74: Drug Target Profiles of Apoptotic Drugs for the Treatment of Ewing's Sarcoma

Table 75: Drug Target Profiles of Apoptotic Drugs for the Treatment of Fallopian Tube Cancer

Table 76: Drug Target Profiles of Apoptotic Drugs for the Treatment of Fibro Sarcoma

Table 77: Drug Target Profiles of Apoptotic Drugs for the Treatment of Gastrointestinal Cancer (general)

Table 78: Drug Target Profiles of Apoptotic Drugs for the Treatment of Gastrointestinal Stomach Cancer

Table 79: Drug Target Profiles of Apoptotic Drugs for the Treatment of Gastrointestinal Stromal Cancer

Table 80: Drug Target Profiles of Apoptotic Drugs for the Treatment of Head and Neck Cancer

Table 81: Drug Target Profiles of Apoptotic Drugs for the Treatment of Hodgkin's Lymphoma

Table 82: Drug Target Profiles of Apoptotic Drugs for the Treatment of Leiomyo Sarcoma

Table 83: Drug Target Profiles of Apoptotic Drugs for the Treatment of Leukemia (general)

Table 84: Drug Target Profiles of Apoptotic Drugs for the Treatment of Lipo Sarcoma

Table 85: Drug Target Profiles of Apoptotic Drugs for the Treatment of Liver Cancer

Table 86: Drug Target Profiles of Apoptotic Drugs for the Treatment of Lung Cancer (general)

Table 87: Drug Target Profiles of Apoptotic Drugs for the Treatment of Lymphoma (general)

Table 88: Drug Target Profiles of Apoptotic Drugs for the Treatment of Melanoma

Table 89: The Competition through Close Mechanistic Approximation between Melanoma Cancer Drugs

Table 90: Drug Target Profiles of Apoptotic Drugs for the Treatment of Mesothelioma

Table 91: Drug Target Profiles of Apoptotic Drugs for the Treatment of Myelodysplastic Syndrome

Table 92: The Competition through Close Mechanistic Approximation between Myelodysplastic Syndrome Drugs

Table 93: Drug Target Profiles of Apoptotic Drugs for the Treatment of Myeloma

Table 94: The Competition through Close Mechanistic Approximation between Myeloma Drugs

Table 95: Drug Target Profiles of Apoptotic Drugs for the Treatment of Nasopharyngeal Cancer

Table 96: Drug Target Profiles of Apoptotic Drugs for the Treatment of non-Hodgkin's Lymphoma

Table 97: The Competition through Close Mechanistic Approximation between non-Hodgkin’s Lymphoma Drugs

Table 98: Drug Target Profiles of Apoptotic Drugs for the Treatment of Non-Small Cell Lung Cancer

Table 99: The Competition through Close Mechanistic Approximation between Non-Small Cell Lung Cancer Drugs

Table 100: Drug Target Profiles of Apoptotic Drugs for the Treatment of Oesophageal Cancer

Table 101: Drug Target Profiles of Apoptotic Drugs for the Treatment of Osteo Sarcoma

Table 102: Drug Target Profiles of Apoptotic Drugs for the Treatment of Ovarian Cancer

Table 103: The Competition through Close Mechanistic Approximation between Ovarian Cancer Drugs

Table 104: Drug Target Profiles of Apoptotic Drugs for the Treatment of Pancreatic Cancer

Table 105: The Competition through Close Mechanistic Approximation between Pancreatic Cancer Drugs

Table 106: Drug Target Profiles of Apoptotic Drugs for the Treatment of Peritoneal Cancer

Table 107: Drug Target Profiles of Apoptotic Drugs for the Treatment of Prostate Cancer

Table 108: The Competition through Close Mechanistic Approximation between Prostate Cancer Drugs

Table 109: Drug Target Profiles of Apoptotic Drugs for the Treatment of Renal Cancer

Table 110: The Competition through Close Mechanistic Approximation between Renal Cancer Drugs

Table 111: Drug Target Profiles of Apoptotic Drugs for the Treatment of Sarcoma (general)

Table 112: The Competition through Close Mechanistic Approximation between Sarcoma (general) Drugs

Table 113: Drug Target Profiles of Apoptotic Drugs for the Treatment of Small Cell Lung Cancer

Table 114: The Competition through Close Mechanistic Approximation between Small Cell Lung Cancer Drugs

Table 115: Drug Target Profiles of Apoptotic Drugs for the Treatment of Soft Tissue Sarcoma

Table 116: Drug Target Profiles of Apoptotic Drugs for the Treatment of Squamous Cell Cancer

Table 117: Drug Target Profiles of Apoptotic Drugs for the Treatment of T-cell Lymphoma

Table 118: Drug Target Profiles of Apoptotic Drugs for the Treatment of T-cell Lymphoma

Table 119: Drug Target Profiles of Apoptotic Drugs for the Treatment of Testicular Cancer

Table 120: Drug Target Profiles of Apoptotic Drugs for the Treatment of Thymoma Cancer

Table 121: Drug Target Profiles of Apoptotic Drugs for the Treatment of Thyroid Cancer

Table 122: Drug Target Profiles of Apoptotic Drugs for the Treatment of Unspecified Cancer Indication

Table 123: The Competition through Close Mechanistic Approximation between Unspecified Cancer Indication Drugs

Table 124: Abbott's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 125: AbGenomics’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 126: Access’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 127: Advanced Life Sciences’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 128: AEgera's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 129: Aeterna Zentaris’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 130: Aida Pharmaceuticals’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 131: Ambrilia Biopharma's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 132: Amgen's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 133: Anadys Pharmaceuticals’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out 472

Table 134: Anavex Life Sciences’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 135: Antisoma's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 136: Aphios’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 137: Apogenix's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 138: ApopLogic Pharmaceuticals’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 139: Arno Therapeutics’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 140: ArQule's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 141: Ascenta Therapeutics’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 142: Attenuon's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 143: Basilea Pharmaceutica's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out . 501

Table 144: Bayer's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 145: BioAxone's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 146: Biogen Idec's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 147: BioInvent's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 148: BioLineRx's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 149: Bionovo's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 150: BioVex's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 151: Cancer Research Technology's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 152: Cephalon's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 153: ChemoCentryx's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 154: Chlorogen's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 155: Chroma Therapeutics’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 156: Cleveland BioLabs’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 157: CombinatoRx's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 158: Coronado Biosciences’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 159: Critical Outcome Technologies’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 160: Curis’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 161: Cyclacel's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 162: Cylene Pharmaceuticals’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out . 546

Table 163: Cytochroma's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 164: Daewoong's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 165: Daiichi Sankyo's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 166: Dainippon Sumitomo Pharma's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 167: Eisai's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 168: Eleos’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 169: Eli Lilly's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 170: EntreMed's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 171: Enzon's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 172: EpiCept's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 173: Exelixis’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 174: Genentech's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 175: Genta's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 176: Genzyme's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 177: Gerolymatos’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 178: Geron's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 179: GlycoGenesys’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 180: GPC Biotech's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 181: Hoffmann-La Roche's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 182: Hollis-Eden Pharmaceuticals’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 183: Human Genome Sciences’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 184: Idera Pharmaceuticals’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 185: Infinity Pharmaceuticals’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out 615

Table 186: InNexus Biotechnology's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out . 618

Table 187: Insmed's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 188: Intradigm's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 189: Introgen Therapeutics’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 190: Isis Pharmaceuticals’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 191: ISU ABXIS’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 192: Johnson & Johnson's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 193: Kalypsys’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 194: Keryx Biopharmaceuticals’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 195: Kyowa Hakko Kirin's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 196: Lorus Therapeutics’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 197: Medisyn Technologies’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 198: Merck & Co's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

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Table 199: MethylGene's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 200: NeoPharm's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 201: NIH's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 202: Nippon Shinyaku's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 203: Non-industrial source's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 204: Novacea's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 205: Novartis’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 206: Novelix's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 207: Novogen's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 208: Onconova's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 209: OSI Pharmaceuticals’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 210: OXiGENE's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 211: PanaGin's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 212: Patrys’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 213: Pfizer's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 214: Pharmacyclics’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 215: PharmaMar's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 216: Pharminox's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 217: Phytomedics’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 218: Pierre Fabre's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 219: QLT's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 220: Reata Pharmaceuticals’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out .. 713

Table 221: Regulon's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 222: Rosetta Genomics’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 223: Sanofi-Aventis’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 224: Santaris Pharma's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 225: Semafore Pharmaceuticals’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 226: Senesco Technologies’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 227: Sigma-Tau's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 228: SRI International's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 229: SuperGen's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 230: Switch Pharma's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 231: Symbiotec's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 232: Taxolog's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 233: Telik's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

4 Apoptotic Therapeutics In Oncology - Where to Commercialize?

26 Cancer Highlights No 4 Vol 9 2009| BioSeeker Group AB © 2009

Table 234: Thallion Pharmaceuticals’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 235: Tigris Pharmaceuticals’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 236: TopoTarget's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 237: Tracon Pharmaceuticals’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out 760

Table 238: Trubion's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 239: UMN Pharma's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 240: ValiRx's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 241: Vascular Biogenics’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 242: Vertex Pharmaceuticals’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out . 772

Table 243: VioQuest's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 244: Viragen's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 245: Viralytics’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 246: ViroTarg's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 247: VM Discovery's Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Table 248: ZymoGenetics’ Included Apoptotic Drug Pipeline in Oncology and Competitive Fall-Out

Abstract

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