|
|
Home > Healthcare > Biotechnology > General Biotech
Therapeutic Peptides in Oncology - Favorable Conditions But Where to Commercialize?
|
| Published Date:
May 2009
Published By:
BioSeeker Group AB
Page Count:
373
Order Code:
R474-343
|
|
|
|
- 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 The Competitive Advantage and Disadvantage of Peptide Drugs
- 5.3 Definitions
- 5.4 Abbreviations
- 6 Consider the Therapeutic Target for the Highest Therapeutic Outcome and Return on Investment
- 6.1.1 Chaperone Activity Targets
- 6.1.2 Chemokine Activity Targets
- 6.1.3 DNA Binding Targets
- 6.1.4 DNA topoisomerase activity Targets
- 6.1.5 G-protein Coupled Receptor Activity Targets
- 6.1.6 Growth Factor Activity Targets
- 6.1.7 Heat Shock Protein Activity Targets
- 6.1.8 Hormone Activity Targets
- 6.1.9 Kinase Activity Targets
- 6.1.10 Kinase Binding Targets
- 6.1.11 Kinase Regulator Activity Targets
- 6.1.12 Ligand-dependent Nuclear Receptor Activity Targets
- 6.1.13 Metallopeptidase Activity Targets
- 6.1.14 Molecular Function Unknown Targets
- 6.1.15 Oxidoreductase Activity Targets
- 6.1.16 Peptide Hormone Targets
- 6.1.17 Protease Inhibitor Activity Targets
- 6.1.18 Protein Binding Targets
- 6.1.19 Protein Serine/Threonine Kinase Activity Targets
- 6.1.20 Protein Tyrosine/Serine/Threonine Phosphatase Activity Targets
- 6.1.21 Protein-Tyrosine Kinase Activity Targets
- 6.1.22 Protein-Tyrosine Kinase Activity Targets
- 6.1.23 Receptor Activity Targets
- 6.1.24 Receptor Signaling Complex Scaffold Activity Targets
- 6.1.25 RNA Binding Targets
- 6.1.26 RNA-directed DNA Polymerase Activity Targets
- 6.1.27 Serine-type Peptidase Activity Targets
- 6.1.28 Structural Molecule Activity Targets
- 6.1.29 T cell Receptor Activity Targets
- 6.1.30 Transcription Factor Activity Targets
- 6.1.31 Transcription Regulator Activity Targets
- 6.1.32 Transferase Activity Targets
- 6.1.33 Transmembrane Receptor Activity Targets
- 6.1.34 Transmembrane Receptor Protein Tyrosine Kinase Activity Targets
- 6.1.35 Ubiquitin-specific Protease Activity Targets
- 6.2 The Cancer Genome Project and Peptide Drug Targets
- 6.2.1 Peptide Drug Targets Present in the Cancer Gene Census and in the Catalogue of Somatic Mutations in Cancer
- 6.3 Structure-based Drug Design of Anti-Cancer Peptides is Stimulated by Available Structure
- Data on Biological Targets
- 6.4 Target-Target Interactions among Identified Peptide Targets
- 6.5 The Drug-Target Interactome
- 6.6 Protein Expression Levels of Identified Drug Targets of Anti-Cancer Peptide Drugs
- 6.7 Pathway Analysis of Anti-Cancer Peptide Drug Targets
- 7 The Rise of New Products: How Mature, Unique and Clinically Validated are the Drug
- 7.1 Marketed: New and Unique Target Profiles in the Cancer Therapeutic Peptide Pipeline
- 7.2 Phase III Clinical Development: New and Unique Target Profiles in the Cancer
- Therapeutic Peptide Pipeline
- 7.3 Phase II Clinical Development: New and Unique Target Profiles in the Cancer Therapeutic
- Peptide Pipeline
- 7.4 Phase I Clinical Development: New and Unique Target Profiles in the Cancer Therapeutic
- Peptide Pipeline
- 7.5 Preclinical Development: New and Unique Target Profiles in the Cancer Therapeutic
- Peptide Pipeline
- 7.6 Development Stage Outline of All Cancer Therapeutic Peptides by Target Profiles
- 8 Selecting Cancer Indication for Therapeutic Peptides
- 8.1 Acute Myelogenous Leukemia
- 8.2 Benign Prostatic Hyperplasia
- 8.3 Bladder Cancer
- 8.4 Brain Cancer
- 8.5 Breast Cancer
- 8.6 Carcinoid
- 8.7 Chronic Myelogenous Leukemia
- 8.8 Colorectal Cancer
- 8.9 Gastrointestinal Cancer (general)
- 8.10 Gastrointestinal Stomach Cancer
- 8.11 Head and Neck Cancer
- 8.12 Liver Cancer
- 8.13 Lung Cancer (general)
- 8.14 Lymphoma (general)
- 8.15 Melanoma
- 8.16 Mesothelioma
- 8.17 Myelodysplastic Syndrome
- 8.18 Myeloma
- 8.19 Myoma
- 8.20 Neuroblastoma
- 8.21 non-Hodgkin's Lymphoma
- 8.22 Non-small Cell Lung Cancer
- 8.23 Ovarian Cancer
- 8.24 Pancreatic Cancer
- 8.25 Prostate Cancer
- 8.26 Renal Cancer
- 8.27 Sarcoma (general)
- 8.28 Small Cell Lung Cancer
- 8.29 Soft Tissue Sarcoma
- 8.30 Unspecified Cancer Indication
- 9 Portfolio Planning: Competitive Benchmarking of Cancer Therapeutic Peptide Pipeline by Investigator
- 9.1 Abbott
- 9.2 Acceleron Pharma
- 9.3 Aeterna Zentaris
- 9.4 Affymax
- 9.5 Ambrilia Biopharma
- 9.6 AplaGen Biopharmaceuticals
- 9.7 ApopLogic Pharmaceuticals
- 9.8 Apthera
- 9.9 Ardana
- 9.10 Attenuon
- 9.11 AVI BioPharma
- 9.12 Baxter International
- 9.13 BioAlliance Pharma
- 9.14 Biokine Therapeutics
- 9.15 CanBas
- 9.16 Cancer Innovations
- 9.17 Cancer Research Technology
- 9.18 Celecure
- 9.19 Celldex Therapeutics
- 9.20 Chemokine Therapeutics
- 9.21 Compugen
- 9.22 Cyclacel
- 9.23 Dendreon
- 9.24 DOR BioPharma
- 9.25 Enkam Pharmaceuticals
- 9.26 EntreMed
- 9.27 GlaxoSmithKline
- 9.28 GP Pharm
- 9.29 ImmunoCellular Therapeutics
- 9.30 Immunotope
- 9.31 ImmuPharma
- 9.32 Indevus
- 9.33 Innovive
- 9.34 Johnson & Johnson
- 9.35 Mediolanum
- 9.36 MolMed
- 9.37 Nektar Therapeutics
- 9.38 Nemod Biotherapeutics
- 9.39 Nidus Laboratories
- 9.40 Norwood Abbey
- 9.41 Novartis
- 9.42 OncoTherapy Science
- 9.43 Oncothyreon
- 9.44 Pepscan Systems
- 9.45 PharmaGap
- 9.46 Pharmexa
- 9.47 QLT
- 9.48 Raptor Pharmaceutical
- 9.49 Receptor BioLogix
- 9.50 SciClone Pharmaceuticals
- 9.51 Shire
- 9.52 Spectrum Pharmaceuticals
- 9.53 Thallion Pharmaceuticals
- 9.54 Therion Biologics
- 9.55 Theryte
- 9.56 Tigris Pharmaceuticals
- 9.57 Unigene
- 9.58 United Biomedical
- 9.59 Vaxil BioTherapeutics
- 9.60 Vaxon Biotech
- 9.61 Voyager Pharmaceutical
- 9.62 Xigen
- 9.63 Zelos Therapeutics
- 9.64 Zensun
- 9.65 Non-Industrial sources
- 10 Disclaimer
- 11 Drug Index
- 12 Company Index
- 4.1 List of Figures
- Figure 1: Overall Breakdown of the Included Cancer Therapeutic Peptide Pipeline by Cancer Indication and
- Stage of Development
- Figure 2: Visualization of Target-Target Interactions Among Peptide Drug Targets
- Figure 3: The Drug-Protein Interactome of Peptide Drugs
- 4.2 List of Tables
- Table 1: Competitive Pressure Force Among Cancer Therapeutic Peptides
- Table 2: Overview of Drug Target Profile Themes
- Table 3: Drug Targets of Peptide Drugs Present in the Catalogue of Somatic Mutations in Cancer and in the
- Cancer Gene Census
- Table 4: Identity of Peptide Drug Targets with Available Biological Structures
- Table 5: Number of Target-Target Interactions among Peptide Drug Targets
- Table 6: Drug-Protein Interactome Clusters
- Table 7: Peptide Drug Targets with Available Protein Expression Profiles
- Table 8: Pathway Summary
- Table 9: Peptide Drug Targets without any Identified Assigned Pathways
- Table 10: Pathway Profile According to BioCarta of Peptide Drug Targets
- Table 11: Pathway Profile According to KEGG of Peptide Drug Targets
- Table 12: Pathway Profile According to NetPath of Peptide Drug Targets
- Table 13: Number of Drug Target Profiles of Peptide Drugs by the Highest Developmental Stage and
- Uniqueness
- Table 14: Terminally Ceased Drug Target Profiles of Cancer Therapeutic Peptides
- Table 15: Top 5 Competitive Peptide Drug Target Profiles
- Table 16 New and Unique Target Profiles of Peptide Drugs on the Market
- Table 17: New and Unique Target Profiles of Peptide Drugs in Phase III Clinical Development
- Table 18: New and Unique Target Profiles of Peptide Drugs in Phase II Clinical Development
- Table 19 New and Unique Target Profiles of Peptide Drugs in Phase I Clinical Development
- Table 20: New and Unique Target Profiles of Peptide Drugs in Preclinical Development
- Table 21: The Progression, Maturity and Competitive Comparison of Cancer Therapeutic Peptide Target Profiles
- in Development
- Table 22: Competitive Summary of Peptide Drugs by Cancer Indication
- Table 23: Drug Target Profiles of Peptides for the Treatment of Acute Myelogenous Leukemia According to
- Developmental Stage of Peptide
- Table 24: Drug Target Profiles of Peptides for the Treatment of Benign Prostatic Hyperplasia According to
- Developmental Stage of Peptide
- Table 25: Drug Target Profiles of Peptides for the Treatment of Bladder Cancer According to Developmental
- Stage of Peptide
- Table 26: Drug Target Profiles of Peptides for the Treatment of Brain Cancer According to Developmental Stage
- of Peptide
- Table 27: Drug Target Profiles of Peptides for the Treatment of Breast Cancer According to Developmental
- Stage of Peptide
- Table 28: Drug Target Profiles of Peptides for the Treatment of Carcinoid According to Developmental Stage of
- Peptide
- Table 29: Drug Target Profiles of Peptides for the Treatment of Chronic Myelogenous Leukemia According to
- Developmental Stage of Peptide
- Table 30: Drug Target Profiles of Peptides for the Treatment of Colorectal Cancer According to Developmental
- Stage of Peptide
- Table 31: Drug Target Profiles of Peptides for the Treatment of Gastrointestinal Cancer (general) According to
- Developmental Stage of Peptide
- Table 32: Drug Target Profiles of Peptides for the Treatment of Gastrointestinal Stomach Cancer According to
- Developmental Stage of Peptide
- Table 33: Drug Target Profiles of Peptides for the Treatment of Head and Neck Cancer According to
- Developmental Stage of Peptide
- Table 34: Drug Target Profiles of Peptides for the Treatment of Liver Cancer According to Developmental Stage
- of Peptide
- Table 35: Drug Target Profiles of Peptides for the Treatment of Lung Cancer (general) According to
- Developmental Stage of Peptide
- Table 36: Drug Target Profiles of Peptides for the Treatment of Lymphoma (general) According to
- Developmental Stage of Peptide
- Table 37: Drug Target Profiles of Peptides for the Treatment of Melanoma According to Developmental Stage
- of Peptide
- Table 38: Drug Target Profiles of Peptides for the Treatment of Mesothelioma According to Developmental
- Stage of Peptide
- Table 39: Drug Target Profiles of Peptides for the Treatment of Myelodysplastic Syndrome According to
- Developmental Stage of Peptide
- 4 Therapeutic Peptides in Oncology -Favorable Conditions But Where to
- Commercialize?
- 16 Cancer Highlights No 8 Vol 8 2009| BioSeeker Group AB ©
- Table 40: Drug Target Profiles of Peptides for the Treatment of Myeloma According to Developmental Stage of
- Peptide
- Table 41: Drug Target Profiles of Peptides for the Treatment of Myoma According to Developmental Stage of
- Peptide
- Table 42: Drug Target Profiles of Peptides for the Treatment of Neuroblastoma According to Developmental
- Stage of Peptide
- Table 43: Drug Target Profiles of Peptides for the Treatment of non-Hodgkin's Lymphoma According to
- Developmental Stage of Peptide
- Table 44: Drug Target Profiles of Peptides for the Treatment of Non-small Cell Lung Cancer According to
- Developmental Stage of Peptide
- Table 45: Drug Target Profiles of Peptides for the Treatment of Ovarian Cancer According to Developmental
- Stage of Peptide
- Table 46: Drug Target Profiles of Peptides for the Treatment of Pancreatic Cancer According to Developmental
- Stage of Peptide
- Table 47: Drug Target Profiles of Peptides for the Treatment of Prostate Cancer According to Developmental
- Stage of Peptide
- Table 48: Drug Target Profiles of Peptides for the Treatment of Renal Cancer According to Developmental Stage
- of Peptide
- Table 49: Drug Target Profiles of Peptides for the Treatment of Sarcoma (general) According to Developmental
- Stage of Peptide
- Table 50: Drug Target Profiles of Peptides for the Treatment of Small Cell Lung Cancer According to
- Developmental Stage of Peptide
- Table 51: Drug Target Profiles of Peptides for the Treatment of Soft Tissue Sarcoma According to
- Developmental Stage of Peptide
- Table 52: Drug Target Profiles of Peptides for the Treatment of Not Specified Cancer Indication According to
- Developmental Stage of Peptide
- Table 53: Abbott's Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-Out
- Table 54: Acceleron Pharma's Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-
- Out
- Table 55: Aeterna Zentaris’ Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-Out
- Table 56: Affymax's Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-Out
- Table 57: Ambrilia Biopharma's Included Cancer Therapeutic Peptide Pipeline Composition and Competitive
- Fall-Out
- Table 58: AplaGen Biopharmaceuticals’ Included Cancer Therapeutic Peptide Pipeline Composition and
- Competitive Fall-Out
- Table of Contents
- BioSeeker Group AB © 2009 | www.bioseeker.com
- Table 59: ApopLogic Pharmaceuticals’ Included Cancer Therapeutic Peptide Pipeline Composition and
- Competitive Fall-Out
- Table 60: Apthera's Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-Out
- Table 61: Ardana's Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-Out
- Table 62: Attenuon's Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-Out
- Table 63: AVI BioPharma's Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-Out
- Table 64: Baxter International's Included Cancer Therapeutic Peptide Pipeline Composition and Competitive
- Fall-Out
- Table 65: BioAlliance Pharma's Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-
- Out
- Table 66: Biokine Therapeutics’ Included Cancer Therapeutic Peptide Pipeline Composition and Competitive
- Fall-Out
- Table 67: CanBas’ Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-Out
- Table 68: Cancer Innovations’ Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-
- Out
- Table 69: Cancer Research Technology's Included Cancer Therapeutic Peptide Pipeline Composition and
- Competitive Fall-Out
- Table 70: Celecure's Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-Out
- Table 71: Celldex Therapeutics’ Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-
- Out
- Table 72: Chemokine Therapeutics’ Included Cancer Therapeutic Peptide Pipeline Composition and Competitive
- Fall-Out
- Table 73: Compugen's Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-Out .
- Table 74: Cyclacel's Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-Out
- Table 75: Dendreon's Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-Out
- Table 76: DOR BioPharma's Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-
- Out
- Table 77: Enkam Pharmaceuticals’ Included Cancer Therapeutic Peptide Pipeline Composition and Competitive
- Fall-Out
- Table 78: EntreMed's Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-Out
- Table 79: GlaxoSmithKline's Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-
- Out
- Table 80: GP Pharm's Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-Out
- Table 81: ImmunoCellular Therapeutics’ Included Cancer Therapeutic Peptide Pipeline Composition and
- Competitive Fall-Out
- 4 Therapeutic Peptides in Oncology -Favorable Conditions But Where to
- Commercialize?
- 18 Cancer Highlights No 8 Vol 8 2009| BioSeeker Group AB ©
- Table 82: Immunotope's Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-Out
- Table 83: ImmuPharma's Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-Out
- Table 84: Indevus’ Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-Out
- Table 85: Innovive's Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-Out
- Table 86: Johnson & Johnson's Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-
- Out
- Table 87: Mediolanum's Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-Out
- Table 88: MolMed's Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-Out
- Table 89: Nektar Therapeutics’ Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-
- Out
- Table 90: Nemod Biotherapeutics’ Included Cancer Therapeutic Peptide Pipeline Composition and Competitive
- Fall-Out
- Table 91: Nidus Laboratories’ Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-
- Out
- Table 92: Norwood Abbey's Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-Out
- Table 93: Novartis’ Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-Out
- Table 94: OncoTherapy Science's Included Cancer Therapeutic Peptide Pipeline Composition and Competitive
- Fall-Out
- Table 95: Oncothyreon's Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-Out
- Table 96: Pepscan Systems’ Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-Out
- Table 97: PharmaGap's Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-Out
- Table 98: Pharmexa's Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-Out ..
- Table 99: QLT's Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-Out
- Table 100: Raptor Pharmaceutical's Included Cancer Therapeutic Peptide Pipeline Composition and Competitive
- Fall-Out
- Table 101: Receptor BioLogix's Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-
- Out
- Table 102: SciClone Pharmaceuticals’ Included Cancer Therapeutic Peptide Pipeline Composition and
- Competitive Fall-Out
- Table 103: Shire's Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-Out
- Table of Contents
- BioSeeker Group AB © 2009 | www.bioseeker.com
- Table 104: Spectrum Pharmaceuticals’ Included Cancer Therapeutic Peptide Pipeline Composition and
- Competitive Fall-Out
- Table 105: Thallion Pharmaceuticals’ Included Cancer Therapeutic Peptide Pipeline Composition and
- Competitive Fall-Out
- Table 106: Therion Biologics’ Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-
- Out
- Table 107: Theryte's Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-Out
- Table 108: Tigris Pharmaceuticals’ Included Cancer Therapeutic Peptide Pipeline Composition and Competitive
- Fall-Out
- Table 109: Unigene's Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-Out
- Table 110: United Biomedical's Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-
- Out
- Table 111: Vaxil BioTherapeutics’ Included Cancer Therapeutic Peptide Pipeline Composition and Competitive
- Fall-Out
- Table 112: Vaxon Biotech's Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-Out
- Table 113: Voyager Pharmaceutical's Included Cancer Therapeutic Peptide Pipeline Composition and
- Competitive Fall-Out
- Table 114: Xigen's Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-Out
- Table 115: Zelos Therapeutics’ Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-
- Out
- Table 116: Zensun's Included Cancer Therapeutic Peptide Pipeline Composition and Competitive Fall-Out
- Table 117: Non-industrial source's Included Cancer Therapeutic Peptide Pipeline Composition and Competitive
- Fall-Out
|
Similar Products
• Opportunities in Human Embryonic Stem Cell (hESC) Products
Published Nov 2009 by BioInformant Worldwide, L.L.C.
• Global Stem Cell and Advanced Technologies Market
Published Nov 2009 by MarketsandMarkets
• Biotechnology (Pharmaceuticals) Report
Published Nov 2009 by Plimsoll Publishing Ltd.
• Algae For Fuel, Algal Oil, Biofuels, Biodiesel, Ethanol And The Future Of Petroleum And Green Energy
Published Nov 2009 by Amadee & Company
• Protein Kinase Therapeutics in Oncology - Where to Commercialize?
Published Oct 2009 by BioSeeker Group AB
• Acorda Therapeutics, Inc. - SWOT Analysis
Published Oct 2009 by Datamonitor
• Future of Green Biotechnology in China
Published Oct 2009 by CCM International Limited
• Scientific Research in Australia - Industry Risk Rating Report
Published Oct 2009 by IBISWorld
• Biotechnology in Australia - Industry Risk Rating Report
Published Oct 2009 by IBISWorld
• Biotechnology in the US - Industry Risk Rating Report
Published Oct 2009 by IBISWorld
|
|
|
|
0 items
