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      Coupling the Antimalarial Cell Penetrating Peptide TP10 to Classical Antimalarial Drugs Primaquine and Chloroquine Produces Strongly Hemolytic Conjugates

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          Abstract

          Recently, we disclosed primaquine cell penetrating peptide conjugates that were more potent than parent primaquine against liver stage Plasmodium parasites and non-toxic to hepatocytes. The same strategy was now applied to the blood-stage antimalarial chloroquine, using a wide set of peptides, including TP10, a cell penetrating peptide with intrinsic antiplasmodial activity. Chloroquine-TP10 conjugates displaying higher antiplasmodial activity than the parent TP10 peptide were identified, at the cost of an increased hemolytic activity, which was further confirmed for their primaquine analogues. Fluorescence microscopy and flow cytometry suggest that these drug-peptide conjugates strongly bind, and likely destroy, erythrocyte membranes. Taken together, the results herein reported put forward that coupling antimalarial aminoquinolines to cell penetrating peptides delivers hemolytic conjugates. Hence, despite their widely reported advantages as carriers for many different types of cargo, from small drugs to biomacromolecules, cell penetrating peptides seem unsuitable for safe intracellular delivery of antimalarial aminoquinolines due to hemolysis issues. This highlights the relevance of paying attention to hemolytic effects of cell penetrating peptide-drug conjugates.

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          Cell-Penetrating Peptides: From Basic Research to Clinics.

          Giulia Guidotti, Liliana Brambilla, Daniela Rossi (2017)
          The presence of cell and tissue barriers together with the low biomembrane permeability of various therapeutics often hampers systemic drug distribution; thus, most of the available molecules are of limited therapeutic value. Opportunities to increase medicament concentrations in areas that are difficult to access now exist with the advent of cell-penetrating peptides (CPPs), which can transport into the cell a wide variety of biologically active conjugates (cargoes). Numerous preclinical evaluations with CPP-derived therapeutics have provided promising results in various disease models that, in some cases, prompted clinical trials. The outcome of these investigations has thus opened new perspectives for CPP application in the development of unprecedented human therapies that are well tolerated and directed to intracellular targets.
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            Cell-penetrating peptides: 20 years later, where do we stand?

            Chérine Bechara, Sandrine Sagan (2013)
            Twenty years ago, the discovery of peptides able to cross cellular membranes launched a novel field in molecular delivery based on these non-invasive vectors, most commonly called cell-penetrating peptides (CPPs) or protein transduction domains (PTDs). These peptides were shown to efficiently transport various biologically active molecules inside living cells, and thus are considered promising devices for medical and biotechnological developments. Moreover, CPPs emerged as potential tools to study the prime mechanisms of cellular entry across the plasma membrane. This review is dedicated to CPP fundamentals, with an emphasis on the molecular requirements and mechanism of their entry into eukaryotic cells. Copyright © 2013 Federation of European Biochemical Societies. Published by Elsevier B.V. All rights reserved.
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              Chloroquine-resistant malaria.

              T Wellems, C Plowe (2001)
              The development of chloroquine as an antimalarial drug and the subsequent evolution of drug-resistant Plasmodium strains had major impacts on global public health in the 20th century. In P. falciparum, the cause of the most lethal human malaria, chloroquine resistance is linked to multiple mutations in PfCRT, a protein that likely functions as a transporter in the parasite's digestive vacuole membrane. Rapid diagnostic assays for PfCRT mutations are already employed as surveillance tools for drug resistance. Here, we review recent field studies that support the central role of PfCRT mutations in chloroquine resistance. These studies suggest chloroquine resistance arose in > or = 4 distinct geographic foci and substantiate an important role of immunity in the outcomes of resistant infections after chloroquine treatment. P. vivax, which also causes human malaria, appears to differ from P. falciparum in its mechanism of chloroquine resistance. Investigation of the resistance mechanisms and of the role of immunity in therapeutic outcomes will support new approaches to drugs that can take the place of chloroquine or augment its efficiency.
              Article 0 comments Cited 210 times – based on 0 reviews     Review now
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                Author and article information

                Contributors
                Steven L. Cobb: Role: Academic Editor
                Journal
                Journal ID (nlm-ta): Molecules
                Journal ID (iso-abbrev): Molecules
                Journal ID (publisher-id): molecules
                Title: Molecules
                Publisher: MDPI
                ISSN (Electronic): 1420-3049
                Publication date (Electronic): 12 December 2019
                Publication date Collection: December 2019
                Volume: 24
                Issue: 24
                Electronic Location Identifier: 4559
                Affiliations
                [1 ]LAQV-REQUIMTE, Departamento de Química e Bioquímica, Faculdade de Ciências, Universidade do Porto, 4169-007 Porto, Portugal; luisa.aguiarts@ 123456gmail.com
                [2 ]Barcelona Institute for Global Health (ISGlobal, Hospital Clínic-Universitat de Barcelona), Rosselló 149-153, 08036 Barcelona, Spain; abiosca@ 123456ibecbarcelona.eu (A.B.); elantero@ 123456ibecbarcelona.eu (E.L.); xfernandez_busquets@ 123456ub.edu (X.F.-B.)
                [3 ]Nanomalaria Group, Institute for Bioengineering of Catalonia (IBEC), The Barcelona Institute of Science and Technology, Baldiri Reixac 10-12, 08028 Barcelona, Spain
                [4 ]School of Medicine, University of California at San Francisco, 1001 Potrero Avenue, San Francisco, San Francisco, CA 94110, USA; jiri.gut@ 123456ucsf.edu (J.G.); Philip.Rosenthal@ 123456ucsf.edu (P.J.R.)
                [5 ]Departamento de Farmacologia, Departamento de Ciências do Medicamento, Faculdade de Farmácia da Universidade do Porto, Rua de Jorge Viterbo Ferreira 228, 4050-313 Porto, Portugal; nuno.vale@ 123456ff.up.pt
                [6 ]IPATIMUP—Instituto de Patologia e Imunologia Molecular da Universidade do Porto, Rua Júlio Amaral de Carvalho 45, 4200-135 Porto, Portugal
                [7 ]i3S, Instituto de Investigação e Inovação em Saúde, Rua Alfredo Allen 208, 4200-135 Porto, Portugal
                [8 ]Global Health and Tropical Medicine, Instituto de Higiene e Medicina Tropical, Universidade Nova de Lisboa, 1349-008 Lisbon, Portugal; FNogueira@ 123456ihmt.unl.pt
                [9 ]Department of Experimental and Health Sciences, Pompeu Fabra University, Barcelona Biomedical Research Park, Dr. Aiguader 88, 08003 Barcelona, Spain; david.andreu@ 123456upf.edu
                [10 ]Nanoscience and Nanotechnology Institute (IN2UB), University of Barcelona, Martí i Franquès 1, 08028 Barcelona, Spain
                Author notes
                [* ]Correspondence: pgomes@ 123456fc.up.pt
                Author information
                https://orcid.org/0000-0002-3047-8991
                https://orcid.org/0000-0002-1283-1042
                https://orcid.org/0000-0002-7953-7622
                https://orcid.org/0000-0003-0313-0778
                https://orcid.org/0000-0002-4622-9631
                https://orcid.org/0000-0002-6018-4724
                Article
                Publisher ID: molecules-24-04559
                DOI: 10.3390/molecules24244559
                PMC ID: 6943437
                PubMed ID: 31842498
                SO-VID: df085cef-ce6d-439b-b3e1-9a40a93415b3
                Copyright © © 2019 by the authors.
                License:

                Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license ( http://creativecommons.org/licenses/by/4.0/).

                History
                Date received : 25 October 2019
                Date accepted : 10 December 2019
                Categories
                Subject: Article

                Keywords: antimalarial,cell penetrating peptide,chloroquine,erythrocyte fluorescence,flow cytometry,hemolysis,microscopy,plasmodium,primaquine,red blood cell
                Data availability:
                Keywords: antimalarial, cell penetrating peptide, chloroquine, erythrocyte fluorescence, flow cytometry, hemolysis, microscopy, plasmodium, primaquine, red blood cell

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