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Advanced Gene Delivery. (1999)

Rolland, Alain.

Lisse :Taylor & Francis Group,

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Keywords: Drug delivery systems. ; Drug targeting. ; Gene therapy. ; Genetic vectors. ; Electronic books.

Description / Table of Contents: 1. Present and Future Status of Gene Therapy 2. DNA Packaging in Non Viral Systems 3. Biological Barriers to Gene Transfer 4. Therapeutic Applications of Lipid-Based Gene Delivery Systems 5. Polycation-based Delivery Systems for Receptor-Mediated Gene Delivery 6. DNA Delivery Systems Based on Synthetic Peptides 7. Expression Plasmids for Non-Viral Gene Therapy 8. Gene Therapy Clinical Trials for Cystic Fibrosis 9. Polymeric Gene Delivery Systems for In Vivo Gene Therapy 10. Intravascular Delivery of Naked Plasmid DNA 11. Cationic Lipid-Based Gene Delivery Systems 12. Gene-based Vaccines 13. Gene Therapy for Cancer: Strategies and Review of Clinical Trials.

Type of Medium: Online Resource

Pages: 1 online resource (300 pages)

Edition: 1st ed.

ISBN: 9780203303818

URL: https://ebookcentral.proquest.com/lib/geomar/detail.action?docID=181550

DDC: 616.042

Language: English

Note: BOOK COVER -- HALF-TITLE -- TITLE -- COPYRIGHT -- DEDICATION -- CONTENTS -- PREFACE TO THE SERIES -- PREFACE -- CONTRIBUTORS -- 1. PRESENT AND FUTURE STATUS OF GENE THERAPY -- GENE THERAPY OR GENE DELIVERY? -- GENE THERAPY: A PARADIGM -- THE FUTURE OF GENE THERAPY -- A NOVEL WAY TO TREAT METABOLIC DISEASE -- RETROVIRAL VECTORS, A PROTOTYPIC GENE THERAPY SYSTEM -- DEFECTIVE VIRUSES AND TRANS-COMPLEMENTATION -- IMMUNE RESPONSES: THE BANE OF GENE THERAPY? -- A THIRD UNANTICIPATED PROBLEM: RECEPTOR EXPRESSION -- IMMUNE RESPONSES: A BOON FOR GENE THERAPY? -- WHAT FUTURE FOR GENE THERAPY? -- REFERENCES -- 2. EXPRESSION PLASMIDS FOR NON-VIRAL GENE THERAPY -- INTRODUCTION -- EXPRESSION PLASMID STRUCTURE -- Bacterial Elements -- Mammalian Transcription Unit -- Enhancer/Promoter -- 5′ Untranslated Region -- Intron -- Coding Sequence -- 3′ Untranslated Region -- Poly(A) Signal -- MULTIVALENT EXPRESSION PLASMIDS -- Multiple Transcription Units Per Plasmid -- Multicistronic mRNA (IRES-Dependent Translation) -- Alternative RNA Splicing -- IMMUNOSTIMULATORY SEQUENCES -- PERSISTENCE -- Preventing Promoter Attenuation -- Replication/Nuclear Retention -- Integration -- Immune Response -- TISSUE-SPECIFIC EXPRESSION -- Muscle -- Liver -- Lung -- Tumors -- Inducible Promoters -- DRUG-REGULATED EXPRESSION SYSTEMS -- Tetracycline System -- Rapamycin System -- Antiprogestin System -- CONCLUDING REMARKS -- REFERENCES -- 3. DNA PACKAGING IN NON-VIRAL SYSTEMS -- INTRODUCTION -- ASSEMBLY OF POLYAMINE-DNA COMPLEXES: DNA CONDENSATION -- The Morphology of Polyamine-DNA Complexes -- Phenomenological Models for DNA Condensation by Polyamines -- Quantitative Models for DNA Condensation by Polyamines -- Manning's Counterion Condensation Theory -- The Forces of DNA Condensation -- The Coil-Globule Transition as a Model for DNA Condensation -- A Kinetic Model for DNA Condensation. , DNA PACKAGING BY POLYMER CROWDING EFFECTS -- ASSEMBLY OF LIPID-DNA COMPLEXES -- Internal Model -- Electrostatic Model -- Coated Electrostatic Model -- Spaghetti and Meatball Model -- Mixed Model -- Micellar Aggregate Model -- Hydrophobic Complex Model -- LINC (lipid interactive-non condensing) Structures -- DISCUSSION -- REFERENCES -- 4. BIOLOGICAL BARRIERS TO GENE TRANSFER -- INTRODUCTION -- INTRAVENOUS ADMINISTRATION AND BARRIERS TO EXTRAVASATION -- Biodistribution of Colloidal Systems -- Interactions with Blood Components -- Biodistribution of Gene Delivery Systems -- EPITHELIAL BARRIERS -- BIODISTRIBUTION WITHIN TISSUES -- CELLULAR INTERNALIZATION -- Ligand-mediated Uptake -- INTRACELLULAR BARRIERS -- Escape from the Degradative Pathway -- Transport within the Cytoplasm -- Delivery of DNA to the Nucleus -- REFERENCES -- 5. CATIONIC LIPID-BASED GENE DELIVERY SYSTEMS -- INTRODUCTION -- DNA PLASMID DESIGN, TRANSFECTION AND GENE EXPRESSION -- PHASE BEHAVIOR OF DNA -- CATIONIC LIPIDS AND THEIR PHASE BEHAVIOR -- INTERACTIONS OF CATIONIC LIPIDS AND DNA -- STRUCTURE OF THE COMPLEXES -- GENOSOME PREPARATION -- TRANSFECTION AND GENE EXPRESSION IN VITRO AND IN VIVO -- STRUCTURE ACTIVITY RELATIONSHIPS -- CONCLUSION -- REFERENCES -- 6. THERAPEUTIC APPLICATIONS OF LIPID-BASED GENE DELIVERY SYSTEMS -- INTRODUCTION -- REQUIREMENTS FOR OPTIMAL LIPID-BASED GENE TRANSFER -- Pharmacological Considerations -- Transport from the Site of Administration to Target Tissues or Cells -- Intracellular Factors Influencing Transgene Expression from Lipoplex -- EFFECTS OF FORMULATION OF LIPID-BASED DELIVERY SYSTEMS -- Influence of Formulation -- Biological Stability and Pharmacokinetics -- Organ Specificity of Transgene Expression -- Duration of Transgene Expression -- Toxicity -- SCALE UP CONSIDERATIONS OF LIPID PREPARATIONS -- Shelf Stability -- Preparation and Manufacturing. , THERAPEUTIC APPLICATIONS OF LIPID-BASED SYSTEMS -- CONCLUSION -- REFERENCES -- 7. POLYMERIC GENE DELIVERY SYSTEMS FOR IN VIVO GENE THERAPY -- INTRODUCTION -- POLYVINYLPYRIDINIUM-BASED POLYMERS -- CHITOSAN-BASED SYSTEMS -- HYDROXYLATED NYLONS -- POLYETHYLENIMINES -- DENDRIMERS -- METHACRYLATE-BASED POLYMERS -- PINC SYSTEMS -- GELATIN-BASED SYSTEMS -- SUSTAINED RELEASE POLYMERIC SYSTEMS -- OTHER POLYMERIC SYSTEMS -- CONCLUDING REMARKS -- REFERENCES -- 8. POLYCATION-BASED DELIVERY SYSTEMS FOR RECEPTOR-MEDIATED GENE DELIVERY -- POLYELECTROLYTE REACTION AND VECTOR SELF-ASSEMBLY -- Techniques for Determination of Complex Formation -- TARGETED DELIVERY OF POLYELECTROLYTE DNA COMPLEXES TO SPECIFIC CELLS -- Transferrin-mediated Targeting -- Targeting Using the Asialoglycoprotein Receptor -- Targeting Using Other Ligand Systems -- DELIVERY OF GENES FROM THE ENDOSOME/LYSOSOME INTO THE CYTOPLASM -- Chloroquine and Other Weak Bases -- Poly(ethylene imine) and Starburst™ Dendrimers -- Influenza Virus Hemagglutinin Peptides -- Synergistic Effects of Transfection Agents -- NUCLEAR DELIVERY AND EFFICIENCY OF TRANSCRIPTION -- Direct Intracytoplasmic Injection -- Direct Intranuclear Injection -- SYSTEMIC DELIVERY OF POLYELECTROLYTE COMPLEXES -- Barriers to Successful Systemic Gene Delivery -- Nuclease Degradation of DNA in the Bloodstream -- Activation of the Complement Cascade -- Interaction with Serum Proteins -- In Vitro Analysis of Protein Binding -- Oriented Self-assembly Using Block Copolymers to Inhibit Protein Binding -- CONCLUDING REMARKS -- REFERENCES -- 9. DNA DELIVERY SYSTEMS BASED ON SYNTHETIC PEPTIDES -- INTRODUCTION -- Itinerary of a Non-viral DNA Delivery System -- Why Synthetic Peptides? -- DNA CONDENSING PEPTIDES -- Poly-(L-Lysine) -- Synthetic Cationic Peptides -- Lipophilic Cationic Peptides -- ENDOSOMOLYTIC PEPTIDES. , Influenza HA Variants and JTS-1 -- GALA -- NUCLEAR LOCALIZATION SEQUENCES -- SUMMARY AND PERSPECTIVE -- ACKNOWLEDGEMENTS -- REFERENCES -- 10. GENE-BASED VACCINES -- WHAT ARE GENE-BASED VACCINES? -- OVERVIEW OF IMMUNE RESPONSES TO VACCINES -- WHAT ARE THE SHORTCOMINGS OF ANTIGEN-BASED VACCINES? -- ADVANTAGES OF GENE-BASED VACCINES -- DESIGN AND MECHANISM OF GENE-BASED VACCINES -- Basic Design of Plasmid DNA Vaccines -- Methods of DNA Vaccine Delivery -- Nature and Mechanism of Antigen Presentation and T-Cell Responses -- Nature and Mechanism of Humoral Responses -- POTENTIAL APPLICATIONS FOR GENE-BASED VACCINES -- Prophylactic Vaccination Against Infectious Diseases -- Immunotherapeutic Vaccination for Chronic Infections -- Immunotherapy for Cancer -- OTHER CONSIDERATIONS -- Safety and Regulatory Issues -- Implications for Gene Therapy -- Gene Vaccines as a Research Tool -- REFERENCES -- 11. INTRAVASCULAR DELIVERY OF NAKED PLASMID DNA -- INTRODUCTION -- INTERSTITIAL DELIVERY TO MUSCLE -- INTRAVASCULAR DELIVERY TO MUSCLE -- INTRAVASCULAR DELIVERY TO LIVER -- CONCLUSIONS -- REFERENCES -- 12. GENE THERAPY CLINICAL TRIALS FOR CYSTIC FIBROSIS: VIRAL AND NON-VIRAL APPROACHES -- INTRODUCTION -- THE GOALS OF CF GENE THERAPY -- CF AIRWAY BIOLOGY -- CELLULAR TARGETS IN CF GENE THERAPY -- GENE TRANSFER-HOW MUCH IS ENOUGH? -- IN VIVO PRECLINICAL STUDIES -- VIRAL VECTORS -- Adenovirus -- Adeno-associated Virus (AAV) -- NON-VIRAL DELIVERY SYSTEMS -- PHASE 1 CLINICAL TRIALS: VECTORS AND DOSAGES -- Viral -- Non Viral Delivery Systems -- CRITICAL REVIEW OF RESULTS AND DESIGN -- THE WAY FORWARD -- SUMMARY -- REFERENCE -- 13. GENE THERAPY FOR CANCER: STRATEGIES AND REVIEW OF CLINICAL TRIALS -- INTRODUCTION -- METHODS FOR GENE TRANSFER INTO SOLID TUMORS -- Non-viral or DNA-Mediated Gene Transfer into Solid Tumors -- Viral-Mediated Gene Transfer into Solid Tumors. , Retroviral Vectors -- Pseudotyped Retroviral Vectors -- Adenoviral Vectors -- Second Generation Adenoviral Vectors -- Adeno-associated Viral Vectors (AAV) -- Other Viral Vectors -- GENERAL APPROACHES FOR GENE THERAPY OF SOLID TUMORS -- GENE THERAPY STRATEGIES AND CLINICAL TRIALS FOR SOLID TUMORS -- Drug Sensitivity Genes and "Suicide Genes" -- Herpes Simplex Virus Thymidine Kinase Gene Therapy -- Cytosine Deaminase Gene Therapy -- Drug Sensitivity and Suicide Gene Therapy Clinical Trials -- Immunomodulation Using Gene Therapy -- Cytokine Genes -- Granulocyte-Monocyte Colony Stimulating Factor (GM-CSF) -- Interleukin-2 (IL-2) -- Interleukin-4 (IL4) -- Interleukin-7 (IL-7) -- Interleukin-12 (IL-12) -- Interferon-gamma (INF-g) -- Tumor Necrosis Factor (TNF) -- Introduction of Major Histocompatibility Complex (MHC) Genes -- Co-stimulatory Molecules -- Tumor-Specific Antigens -- Tumor Suppressor and Oncogene Inactivation Gene Therapy -- Oncogene-Targeted Antisense Clinical Trials -- p53 Gene Therapy Clinical Trials -- SUMMARY -- REFERENCES -- INDEX.

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Synergistic Effect of Formulated Plasmid and Needle-Free Injection for Genetic Vaccines (1999)

Anwer, Khursheed ; Earle, Keith A. ; Shi, Mei ; [et al.]

Springer

Pharmaceutical research 16 (1999), S. 889-895

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ISSN: 1573-904X

Keywords: muscle ; genetic vaccines ; immune response ; polyvinylpyrrolidone ; growth hormone ; and needle-free injection device

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract Purpose. A plasmid-based gene expression system was complexed with protective, interactive, and non-condensing (PINC™) polymer system and administered with Medi-Jector™, a needle-free injection device (NFID), to achieve high and sustained levels of antigen-specific antibodies in blood circulation. Methods. Human growth hormone (hGH) or bacterial β-galactosidase gene expression plasmids driven by a cytomegalovirus (CMV) promoter were formulated in saline or complexed with a PINC polymer, polyvinylpyrrolidone (PVP), and intramuscularly or subcutaneously administered into dogs and pigs using a 22-gauge needle or a NFID. The hGH-specific IgG titers in serum were measured by an ELISA. β-galactosidase expression was measured in injected muscles by an enzymatic assay or immunohistochemistry. The effect of NFID on DNA stability and topology was assessed by gel electrophoresis. Results. Intramuscular (i.m.) or subcutaneous (s.c.) injection of a hGH expression plasmid pCMV-hGH (0.05-0.5 mg/kg) in dogs and pigs elicited antigen-specific IgG antibody titers to expressed hGH. With both routes of injection, pDNA delivery by a NFID was superior to pDNA injection by needle. The magnitude of hGH-specific IgG titers with NFID was 15−20-fold higher than needle injection when pDNA was complexed with PVP, and only 3−4-fold higher with pDNA in saline. The transfection efficiency in the injected muscle, as measured by β-galaclosidase expression, following i.m. injection of pCMV-β-galaclosidase/PVP, was not significantly different between needle and NFID-injected groups. Conclusions. These data demonstrate that the combination of pDNA/ PVP complexes and a NFID act synergistically to achieve high and sustained levels of antigen-specific IgG response to expressed antigen. This gene delivery approach may offer advantage over needle injection of naked DNA for the development of genetic vaccines.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1018834305079

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Polyvinyl Derivatives as Novel Interactive Polymers for Controlled Gene Delivery to Muscle (1996)

Mumper, Russell J. ; Duguid, John G. ; Anwer, Khursheed ; [et al.]

Springer

Pharmaceutical research 13 (1996), S. 701-709

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ISSN: 1573-904X

Keywords: muscle ; DNA plasmid ; gene delivery system ; polyvinyl pyrrolidone ; polyvinyl alcohol ; non-viral gene therapy ; gene expression system

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract Purpose. DNA plasmids (pDNA) can be taken up by and expressed in striated muscle after direct intramuscular injection. We have developed interactive polymeric gene delivery systems that increase pDNA bioavailability to muscle cells by both protecting pDNA from nucleases and controlling the dispersion and retention of pDNA in muscle tissue. Methods. A DNA plasmid, containing a CMV promoter and a β-galactosidase reporter gene (CMV-β-gal), was injected either in saline or formulated in polyvinyl pyrrolidone (PVP) and polyvinyl alcohol (PVA) solutions. Interactions between PVP and pDNA were assessed by dynamic dialysis, Isothermal Titration Calorimetry (ITC), and Fourier-Transformed Infra Red (FT-IR) spectroscopy. Formulations (50 µl) were injected into rat tibialis muscles after surgical exposure. Immuno-histochemistry for β-gal was used to visualize the sites of expression in muscle. Results. β-gal expression using pDNA in saline reached a plateau while β-gal expression using PVP formulations increased linearly in the dose range studied (12.5–150 µg pDNA injected) and resulted in an increase in the number and distribution of cells expressing β-gal. The interaction between PVP and pDNA was found to be an endothermic process governed largely by hydrogen-bonding and results in protection of pDNA from extracellular nucleases. Conclusions. Significant enhancement of gene expression using interactive polyvinyl-based delivery systems has been observed. The improved tissue dispersion and cellular uptake of pDNA using polyvinyl-based systems after direct injection into muscle is possibly due to osmotic effects.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1016039330870

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