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by Weian Zhao, Jeffrey M Karp
Micro- and Nanoengineering of the Cell Surface
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Title page
Copyright
Foreword
List of Contributors
Chapter 1. Cell Membrane Biology and Juxtacrine Signal Conversion
1.1 Introduction
1.2 Cell Membrane Biology—Early Milestones
1.3 Membrane Microdomains
1.4 Cell Membrane Emergence
1.5 Juxtacrine Signaling and Rewiring Cellular Networks
1.6 Protein Painting, Artificial Veto Cell Engineering
1.7 Trans Signal Conversion
1.8 Redirecting Juxtacrine Signals
1.9 Creating Auto-Signaling Loops
1.10 SCP Therapeutic Flexibility
1.11 The Cell Membrane Frontier
References
Chapter 2. Cell Surface Engineering by Chemical Reaction and Remodeling
2.1 Introduction
2.2 Methods and Technology of Covalent Cell Surface Reaction
2.3 Relevance of Covalent Cell Surface Modification
2.4 Future Perspectives
2.5 Conclusions
References
Chapter 3. Bioconjugation Reactions in Living Cells: Development, Advances, and Applications of Glycan-Specific Technologies
3.1 Introduction
3.2 Bioorthogonal Chemical Ligation Reactions for Glycan Labeling
3.3 Bioorthogonal Ligation Reactions: Exploitation in MOE-Based Applications
3.4 Concluding Comments
Acknowledgments
References
Chapter 4. Pushing the Bacterial Envelope: Strategies for Re-Engineering Bacterial Surfaces with Heterologous Proteins and Sugars
4.1 Bacterial Surface Display
4.2 Strategies for Re-Engineering Bacterial Surfaces with Heterologous Proteins
4.3 Applications of Bacteria Expressing Heterologous Surface Proteins
4.4 Strategies for Re-Engineering Bacterial Surfaces with Heterologous Sugars
4.5 Applications of Bacteria Expressing Heterologous Surface Sugars
4.6 Conclusion
Acknowledgment
References
Chapter 5. Noncovalent Functionalization of Cell Surface
5.1 Introduction
5.2 Methods of Cell Surface Engineering—Applications and Recent Developments
5.3 Electrostatic Interactions Mediated Cell Surface Modification
5.4 Advantages and Limitations of the Noncovalent Modification of the Cell Surface
5.5 Conclusions and Future Perspectives
Acknowledgments
References
Chapter 6. Lipid-Mediated Cell Surface Engineering
6.1 Introduction
6.2 One-Step Protein Transfer
6.3 Two-Step Protein Transfer
6.4 Summary
Acknowledgments
References
Chapter 7. Engineering the Surface of Cells Using Biotin–Avidin Chemistry
7.1 Introduction: Rationale for Engineering the Cell Surface
7.2 Biotin and Avidin: An Overview
7.3 Methods for Engineering Cell Surfaces with Avidin–Biotin Complexes
7.4 Applications of Cell Surface Engineering Using Avidin–Biotin Chemistry
7.5 Conclusion
References
Chapter 8. Construction and Computation with Nucleic Acids on the Cell Surface
8.1 Computation of Cell Identity
8.2 Targeted Transport of a Payload to a Cell Surface and Activation of Innate Cellular Response
8.3 DNA Channels and Pores Spanning Lipid Membrane
8.4 Advances in Microscopy
8.5 Conclusion
References
Chapter 9. Cell Surface Enzymatic Engineering-Based Approaches to Improve Cellular Therapies
9.1 Introduction
9.2 Use of Enzymes to Modify Cell Surface Carbohydrates on Proteins and Lipids to Enhance Migration to Tissues
9.3 Modification of Enzyme Activity Leads to Changes on Cell Surface Structures that Deter Migration and Metastasis
9.4 Use of Enzymes to Improve the Therapeutic Function of Cells Through Modification of the Cell Surface
9.5 Conclusion
References
Chapter 10. Cell Microencapsulation for Tissue Engineering and Regenerative Medicine
10.1 Introduction
10.2 Encapsulation Requirements and Strategies
10.3 Materials Used for Cell Encapsulation
10.4 Therapeutic Applications of Encapsulated Cells
10.5 Challenges and Future Perspectives
Acknowledgments
References
Chapter 11. Cell Engineering with Nanoparticles for Cell Imaging
11.1 Introduction
11.2 Imaging Modalities for NP Engineered Cells
11.3 Strategies for Cell Engineering with NPs
11.4 Challenges and Outlook
11.5 Conclusion
Acknowledgments
References
Chapter 12. Micro/Nano-Engineering of Cells for Delivery of Therapeutics
12.1 Cell Therapy—Success and Current Challenges
12.2 Cell Surface Engineering to Improve Cell Targeting
12.3 Cell-Based Drug Delivery
12.4 Concluding Remarks
References
Chapter 13. Molecular Engineering of Cell and Tissue Surfaces with Polymer Thin Films
13.1 Introduction
13.2 General Design Principles and Considerations
13.3 Cell Surface Engineering with Polymer Thin Films
13.4 Biomedical Applications
13.5 Conclusion
References
Chapter 14. Biofunctionalization of Hydrogels for Engineering the Cellular Microenvironment
14.1 The 3D Extracellular Milieu
14.2 Mimicking the ECM
14.3 Engineering Degradability into Hydrogels
14.4 Hydrogel Nanoparticles
14.5 Conclusion
List of Abbreviations
References
Chapter 15. Probe and Control of Cell–Cell Interactions Using Bioengineered Tools
15.1 Introduction
15.2 In Vitro Study of Cell–Cell Interactions Using Engineered Microdevices Study of Cell–Cell Interactions Using Engineered Microdevices
15.3 Probing and Manipulation of Cell–Cell Interactions Using Engineered Molecular Tools
15.4 Conclusions and Perspectives
References
Index
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