Abstract
Peptides of natural and synthetic sources are compounds operating in a wide range of biological interactions. They play a key role in biotechnological applications as both therapeutic and diagnostic tools. They are easily synthesized thanks to solid-phase peptide devices where the amino acid sequence can be exactly selected at molecular levels, by tuning the basic units. Recently, peptides achieved resounding success in drug delivery and in nanomedicine smart applications. These applications are the most significant challenge of recent decades: they can selectively deliver drugs to only pathological tissues whilst saving the other districts of the body. This specific feature allows a reduction in the drug side effects and increases the drug efficacy. In this context, peptide-based aggregates present many advantages, including biocompatibility, high drug loading capacities, chemical diversity, specific targeting, and stimuli responsive drug delivery. A dual behavior is observed: on the one hand they can fulfill a structural and bioactive role. In this review, we focus on the design and the characterization of drug delivery systems using peptide-based carriers; moreover, we will also highlight the peptide ability to self-assemble and to actively address nanosystems toward specific targets.
Highlights
Peptides of natural and synthetic origin are compounds involved in a wide variety of biological roles
Inaddition, addition,we we report report recent recent examples examples of of peptides peptides employed employed as nanosystems delivery systems of anticancer drugs and/or contrast agents for the imaging of tumor pathologies
We have reported the most recent evidence on peptide-based drug-delivery systems in biotechnological applications
Summary
Peptides of natural and synthetic origin are compounds involved in a wide variety of biological roles. Peptides play an essential role in biotechnological applications as therapeutic and diagnostic agents Their advantages depend on the strategy applied to produce them and include biocompatibility, low cost, tunable bioactivity, chemical variety, and specific targeting. They are synthesized, for example, by using solid-phase peptide methodologies where the amino acid sequence can be exactly selected at the molecular level by tuning the basic units [1]. In peptide-containing aggregates, peptide sequence can fulfill structural or aor a bioactive bioactive role. Inaddition, addition,we we report report recent recent examples examples of of peptides peptides employed employed as nanosystems delivery systems of anticancer drugs and/or contrast agents for the imaging of tumor pathologies.
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