Lipossomas funcionalizados com peptídeos de transdução de membrana para administração intranasal de insulina no tratamento do diabetes mellitus /

Von Zuben, Eliete de Souza

January 2019

Orientador: Marlus Chorilli / Resumo: O diabetes mellitus (DM) é uma síndrome metabólica caracterizada por deficiência na produção/secreção pancreática de insulina e/ou resistência à ação do hormônio nos tecidos alvo, resultando em hiperglicemia. Diversas pesquisas têm desencadeado o desenvolvimento de novos sistemas de administração de insulina que possibilitem a utilização de vias alternativas à parenteral, com destaque à administração de insulina por via nasal. Esta via tem-se mostrado promissora, pois pode promover uma rápida absorção do fármaco e aumentar a sua biodisponibilidade. Entretanto, existem mecanismos de depuração mucociliar que limitam a administração de fármacos, além da baixa permeabilidade do epitélio nasal, o qual dificulta a absorção de fármacos com alto massa molar. Uma estratégia para vencer tais barreiras é a utilização de sistemas nanoestruturados (lipossomas), pois são amplamente utilizados para o aperfeiçoamento da potencialização da ação terapêutica de fármacos. Além disso estes lipossomas foram funcionalizados com peptídeos de transdução de membrana (CPPs), tais como os peptídeos TAT e Penetratin (PNT), que atuam como promotores da penetração e absorção do fármaco, com posterior dispersão em hidrogel de hidroxietilcelulose. O objetivo deste trabalho foi desenvolver e caracterizar lipossomas contendo solução de insulina, funcionalizados com CPPs (TAT e PNT) e dispersos em hidrogel, avaliar o potencial pela via nasal, in vivo, para a melhora dos níveis séricos e efeito hipoglicemiante d... (Resumo completo, clicar acesso eletrônico abaixo) / Doutor

Diabetes mellitus.

Insulina.

Lipossomas.

Peptídeos de transdução de membrana

Sistemas nanoestruturados

Administração nasal

Insulin

Liposomes

Cell-penetrating peptides (CPPs)

Protein transduction domain (PTDs)

Nanostructured systems

Nasal administration

Conception et étude de nouveaux peptides vecteurs cycliques / Design and study of new cyclic cell-penetrating peptides

Amoura, Mehdi

08 December 2015

Les peptides vecteurs ou CPP sont de petits peptides, en général de taille inférieure à 30 acides aminés. Parmi les nombreux CPP décrits dans la littérature, les peptides riches en arginine ont fait l'objet d'une attention particulière. Plusieurs modifications chimiques du squelette peptidique conduisant à une distribution spatiale différente des groupes fonctionnels, ou encore l'introduction de chaînes aliphatiques ont été effectuées pour accroitre la capacité du peptide à traverser la membrane de la cellule. L'objectif de ce travail a été le développement de nouveaux peptides vecteurs cycliques contenant un domaine cationique minimal et pouvant être acylés par une chaîne aliphatique. Quinze nouveaux transporteurs cycliques, dont les peptides vecteurs classiques Pénétratine et R6W3ont été synthétisés. La cyclisation tête-queue par ligation chimique native a été rendue possible par l'introduction d'un résidu cystéine et d'une fonction thioester (ou précurseur) respectivement aux extrémités N et C-terminales des différentes séquences de CPP. Leur aptitude à transporter le peptide bioactif PKCi dans des cellules CHO a été évaluée par quantification de la cargaison internalisée en utilisant la spectrométrie de masse MALDI-TOF. Les résultats indiquent une meilleure internalisation essentiellement par voie d'endocytose dépendante des glycosaminoglycanes, suite à la cyclisation des CPP comparés à leur version linéaire. De toute la série des lipopeptides testés dans ce projet, deux séquences se distinguent par leur capacité remarquable à franchir les membranes cellulaire : les CPP [C12-R4] et [C12-R7]. / Cell-penetrating peptides (CPPs) are short, cationic or amphipatic peptides, usually containing less than 30 amino acids, which are able to deliver various bioactive cargoes inside cells. Among the many CPPs described in the literature, the arginine-rich peptides have attracted particular attention. Several chemical modifications of the peptide backbone leading to different spatial distributions of the CPP functional groups, or the introduction of aliphatic chains have been made to enhance their internalization efficiency. The aim of this work was the synthesis of new cyclic CPPs containing a minimal cationic domain and their functionalisation with an aliphatic chain. We have synthesised a small library of fifteen new cyclic carriers including the classical CPPs Penetratin and R6W3 using native chemical ligation (NCL) in solution. The introduction of an N-terminal Cys residue and of a C-terminal thioester (or precursor) in the initial linear peptide sequence allowed the head-to-tail cyclisation. The efficiency of cargo delivery in CHO cells was measured by MALDI-TOF mass spectrometry. We found that cyclisation of CPPs improved their internalisation efficiency mostly by glycosaminoglycan-dependent endocytosis. Among the whole series of lipopeptides tested in this project, two sequences are distinguished by their remarkable ability to cross cellular membranes: the peptides [C12-R4] and [C12-R7].

Peptides vecteurs (CPP)

Lipopeptides

Ligation chimique native

Peptides thioester

Alpha-méthyle cystéine

Spectrométrie de masse MALDI-TOF

Cell-penetrating peptides (CPPs)

Native chemical ligation

MALDI-TOF mass spectrometry

572.65

Biophysical Characterization of Cell-Penetrating Peptides for Cargo Delivery or Lipid-Sensing

Vinay K. Menon (15295864)

13 June 2023

<p>Peptides, specifically cell-penetrating peptides (CPP), have become wonderful research tools due to their enhanced stability, solubility, and ease of synthesis. They have been used for a wide range of biomedical applications, from insecticides to biosensors and drug-delivery scaffolds. The work presented in this dissertation characterizes the biophysical properties of two different CPPs. The first is the cationic amphiphilic polyproline helix (CAPH) peptide, P14LRR. In addition to cell penetration, this CPP has demonstrated broad spectrum antibacterial properties. Fluorescence polarization (FP) and SEC-MALS were conducted to understand the dissociation constant (KD) and oligomerization effects of P14LRR with respect to its putative molecular target in Staphylococcus aureus (S. aureus). A biotinylated derivative of this peptide was also used as a drug-delivery scaffold to transport fluorescently conjugated streptavidin into mammalian cells. A second CPP, DAN13, was also developed as a biosensor for phosphoinositide lipids, specifically PI(4,5)P2. This was effected through careful calibration using stacked supported lipid bilayers (SSLB) in combination with total internal reflection fluorescence (TIRF) microscopy. This was then used to determine the absolute densities and spatial distribution of PIP2 in live KRas mutant cells.</p>

Receptors and membrane biology

Proteins and peptides

Cell-penetrating peptides (CPPs)

Antimicrobial peptides (AMPs)

PI(4,5)P2

supported lipid bilayer (SLB)

KRas4B

Biophysical characterizations