Abstract
Packaging small-molecule drugs into nanoparticles improves their bio-availability, bio-compatibility and safety profiles. Multifunctional particles carrying large drug payloads for targeted transport, immune evasion and favourable drug release kinetics at the target site, require a certain minimum size usually 30-300 nm diameter, so are nanoparticles. Targeting particles to a disease site can signal the presence of the disease site, block a function there, or deliver a drug to it. Targeted nanocarriers must navigate through blood-tissue barriers, varying in strength between organs and highest in the brain, to reach target cells. They must enter target cells to contact cytoplasmic targets; specific endocytotic and transcytotic transport mechanisms can be used as trojan horses to ferry nanoparticles across cellular barriers. Specific ligands to cell surface receptors, antibodies and antibody fragments, and aptamers can all access such transport mechanisms to ferry nanoparticles to their targets. The pharmacokinetics and pharmacodynamics of the targeted drug-bearing particle depend critically on particle size, chemistry, surface charge and other parameters. Particle types for targeting include liposomes, polymer and protein nanoparticles, dendrimers, carbon-based nanoparticles e.g. fullerenes, and others. Immunotargeting by use of monoclonal antibodies, chimeric antibodies and humanized antibodies has now reached the stage of clinical application. High-quality targeting groups are emerging: antibody engineering enables generation of human/like antibody (fragments) and facilitates the search for clinically relevant biomarkers; conjugation of nanocarriers to specific ligands and to aptamers enables specific targeting with improved clinical efficacy. Future developments depend on identification of clinically relevant targets and on raising targeting efficiency of the multifunctional nanocarriers.
Keywords: Nanomedicine, nanoparticles, targeted drugs, immunotargeting, antibody fragments, aptamers, liposomes, tissue barriers
Current Pharmaceutical Design
Title: Targeted Drugs and Nanomedicine: Present and Future
Volume: 15 Issue: 2
Author(s): Paul Debbage
Affiliation:
Keywords: Nanomedicine, nanoparticles, targeted drugs, immunotargeting, antibody fragments, aptamers, liposomes, tissue barriers
Abstract: Packaging small-molecule drugs into nanoparticles improves their bio-availability, bio-compatibility and safety profiles. Multifunctional particles carrying large drug payloads for targeted transport, immune evasion and favourable drug release kinetics at the target site, require a certain minimum size usually 30-300 nm diameter, so are nanoparticles. Targeting particles to a disease site can signal the presence of the disease site, block a function there, or deliver a drug to it. Targeted nanocarriers must navigate through blood-tissue barriers, varying in strength between organs and highest in the brain, to reach target cells. They must enter target cells to contact cytoplasmic targets; specific endocytotic and transcytotic transport mechanisms can be used as trojan horses to ferry nanoparticles across cellular barriers. Specific ligands to cell surface receptors, antibodies and antibody fragments, and aptamers can all access such transport mechanisms to ferry nanoparticles to their targets. The pharmacokinetics and pharmacodynamics of the targeted drug-bearing particle depend critically on particle size, chemistry, surface charge and other parameters. Particle types for targeting include liposomes, polymer and protein nanoparticles, dendrimers, carbon-based nanoparticles e.g. fullerenes, and others. Immunotargeting by use of monoclonal antibodies, chimeric antibodies and humanized antibodies has now reached the stage of clinical application. High-quality targeting groups are emerging: antibody engineering enables generation of human/like antibody (fragments) and facilitates the search for clinically relevant biomarkers; conjugation of nanocarriers to specific ligands and to aptamers enables specific targeting with improved clinical efficacy. Future developments depend on identification of clinically relevant targets and on raising targeting efficiency of the multifunctional nanocarriers.
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Cite this article as:
Debbage Paul, Targeted Drugs and Nanomedicine: Present and Future, Current Pharmaceutical Design 2009; 15 (2) . https://dx.doi.org/10.2174/138161209787002870
DOI https://dx.doi.org/10.2174/138161209787002870 |
Print ISSN 1381-6128 |
Publisher Name Bentham Science Publisher |
Online ISSN 1873-4286 |
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