Micelles Formed by Polypeptide Containing Polymers Synthesized Via N-Carboxy Anhydrides and Their Application for Cancer Treatment

Micelles Formed by Polypeptide Containing Polymers Synthesized Via N-Carboxy Anhydrides and Their Application for Cancer Treatment

The development of multifunctional polymeric materials for biological applications is mainly guided by the goal of achieving the encapsulation of pharmaceutical compounds through a self-assembly process to form nanoconstructs that control the biodistribution of the active compounds, and therefore mi...

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Main Authors: Dimitrios Skoulas, Panagiotis Christakopoulos, Dimitra Stavroulaki, Konstantinos Santorinaios, Varvara Athanasiou, Hermis Iatrou
Format: Article
Language:English
Published: MDPI AG 2017-06-01
Series:Polymers
Subjects:
polypeptides
micelles
drug delivery
gene delivery
biomaterials
ring-opening polymerization of n-carboxy anhydrides
cancer
biomedical applications
Online Access:http://www.mdpi.com/2073-4360/9/6/208
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spelling doaj-67cf3dceca744c9ba22158a9a5b6d6952020-11-24T22:16:29ZengMDPI AGPolymers2073-43602017-06-019620810.3390/polym9060208polym9060208Micelles Formed by Polypeptide Containing Polymers Synthesized Via N-Carboxy Anhydrides and Their Application for Cancer TreatmentDimitrios Skoulas0Panagiotis Christakopoulos1Dimitra Stavroulaki2Konstantinos Santorinaios3Varvara Athanasiou4Hermis Iatrou5Department of Chemistry, University of Athens, Panepistimiopolis, Zografou, Athens 15771, GreeceDepartment of Chemistry, University of Athens, Panepistimiopolis, Zografou, Athens 15771, GreeceDepartment of Chemistry, University of Athens, Panepistimiopolis, Zografou, Athens 15771, GreeceDepartment of Chemistry, University of Athens, Panepistimiopolis, Zografou, Athens 15771, GreeceDepartment of Chemistry, University of Athens, Panepistimiopolis, Zografou, Athens 15771, GreeceDepartment of Chemistry, University of Athens, Panepistimiopolis, Zografou, Athens 15771, GreeceThe development of multifunctional polymeric materials for biological applications is mainly guided by the goal of achieving the encapsulation of pharmaceutical compounds through a self-assembly process to form nanoconstructs that control the biodistribution of the active compounds, and therefore minimize systemic side effects. Micelles are formed from amphiphilic polymers in a selective solvent. In biological applications, micelles are formed in water, and their cores are loaded with hydrophobic pharmaceutics, where they are solubilized and are usually delivered through the blood compartment. Even though a large number of polymeric materials that form nanocarrier delivery systems has been investigated, a surprisingly small subset of these technologies has demonstrated potentially curative preclinical results, and fewer have progressed towards commercialization. One of the most promising classes of polymeric materials for drug delivery applications is polypeptides, which combine the properties of the conventional polymers with the 3D structure of natural proteins, i.e., α-helices and β-sheets. In this article, the synthetic pathways followed to develop well-defined polymeric micelles based on polypeptides prepared through ring-opening polymerization (ROP) of N-carboxy anhydrides are reviewed. Among these works, we focus on studies performed on micellar delivery systems to treat cancer. The review is limited to systems presented from 2000–2017.http://www.mdpi.com/2073-4360/9/6/208polypeptidesmicellesdrug deliverygene deliverybiomaterialsring-opening polymerization of n-carboxy anhydridescancerbiomedical applications
collection DOAJ
language English
format Article
sources DOAJ
author Dimitrios Skoulas
Panagiotis Christakopoulos
Dimitra Stavroulaki
Konstantinos Santorinaios
Varvara Athanasiou
Hermis Iatrou
spellingShingle Dimitrios Skoulas
Panagiotis Christakopoulos
Dimitra Stavroulaki
Konstantinos Santorinaios
Varvara Athanasiou
Hermis Iatrou
Micelles Formed by Polypeptide Containing Polymers Synthesized Via N-Carboxy Anhydrides and Their Application for Cancer Treatment
Polymers
polypeptides
micelles
drug delivery
gene delivery
biomaterials
ring-opening polymerization of n-carboxy anhydrides
cancer
biomedical applications
author_facet Dimitrios Skoulas
Panagiotis Christakopoulos
Dimitra Stavroulaki
Konstantinos Santorinaios
Varvara Athanasiou
Hermis Iatrou
author_sort Dimitrios Skoulas
title Micelles Formed by Polypeptide Containing Polymers Synthesized Via N-Carboxy Anhydrides and Their Application for Cancer Treatment
title_short Micelles Formed by Polypeptide Containing Polymers Synthesized Via N-Carboxy Anhydrides and Their Application for Cancer Treatment
title_full Micelles Formed by Polypeptide Containing Polymers Synthesized Via N-Carboxy Anhydrides and Their Application for Cancer Treatment
title_fullStr Micelles Formed by Polypeptide Containing Polymers Synthesized Via N-Carboxy Anhydrides and Their Application for Cancer Treatment
title_full_unstemmed Micelles Formed by Polypeptide Containing Polymers Synthesized Via N-Carboxy Anhydrides and Their Application for Cancer Treatment
title_sort micelles formed by polypeptide containing polymers synthesized via n-carboxy anhydrides and their application for cancer treatment
publisher MDPI AG
series Polymers
issn 2073-4360
publishDate 2017-06-01
description The development of multifunctional polymeric materials for biological applications is mainly guided by the goal of achieving the encapsulation of pharmaceutical compounds through a self-assembly process to form nanoconstructs that control the biodistribution of the active compounds, and therefore minimize systemic side effects. Micelles are formed from amphiphilic polymers in a selective solvent. In biological applications, micelles are formed in water, and their cores are loaded with hydrophobic pharmaceutics, where they are solubilized and are usually delivered through the blood compartment. Even though a large number of polymeric materials that form nanocarrier delivery systems has been investigated, a surprisingly small subset of these technologies has demonstrated potentially curative preclinical results, and fewer have progressed towards commercialization. One of the most promising classes of polymeric materials for drug delivery applications is polypeptides, which combine the properties of the conventional polymers with the 3D structure of natural proteins, i.e., α-helices and β-sheets. In this article, the synthetic pathways followed to develop well-defined polymeric micelles based on polypeptides prepared through ring-opening polymerization (ROP) of N-carboxy anhydrides are reviewed. Among these works, we focus on studies performed on micellar delivery systems to treat cancer. The review is limited to systems presented from 2000–2017.
topic polypeptides
micelles
drug delivery
gene delivery
biomaterials
ring-opening polymerization of n-carboxy anhydrides
cancer
biomedical applications
url http://www.mdpi.com/2073-4360/9/6/208
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AT panagiotischristakopoulos micellesformedbypolypeptidecontainingpolymerssynthesizedviancarboxyanhydridesandtheirapplicationforcancertreatment
AT dimitrastavroulaki micellesformedbypolypeptidecontainingpolymerssynthesizedviancarboxyanhydridesandtheirapplicationforcancertreatment
AT konstantinossantorinaios micellesformedbypolypeptidecontainingpolymerssynthesizedviancarboxyanhydridesandtheirapplicationforcancertreatment
AT varvaraathanasiou micellesformedbypolypeptidecontainingpolymerssynthesizedviancarboxyanhydridesandtheirapplicationforcancertreatment
AT hermisiatrou micellesformedbypolypeptidecontainingpolymerssynthesizedviancarboxyanhydridesandtheirapplicationforcancertreatment
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