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1.
Chem Sci ; 12(11): 4057-4062, 2021 Feb 04.
Artigo em Inglês | MEDLINE | ID: mdl-34163676

RESUMO

Vasopressin (VP) and oxytocin (OT) are cyclic neuropeptides that regulate fundamental physiological functions via four G protein-coupled receptors, V1aR, V1bR, V2R, and OTR. Ligand development remains challenging for these receptors due to complex structure-activity relationships. Here, we investigated dimerization as a strategy for developing ligands with novel pharmacology. We regioselectively synthesised and systematically studied parallel, antiparallel and N- to C-terminal cyclized homo- and heterodimer constructs of VP, OT and dVDAVP (1-deamino-4-valine-8-d-arginine-VP). All disulfide-linked dimers, except for the head-to-tail cyclized constructs, retained nanomolar potency despite the structural implications of dimerization. Our results support a single chain interaction for receptor activation. Dimer orientation had little impact on activity, except for the dVDAVP homodimers, where an antagonist to agonist switch was observed at the V1aR. This study provides novel insights into the structural requirements of VP/OT receptor activation and spotlights dimerization as a strategy to modulate pharmacology, a concept also frequently observed in nature.

2.
Mar Drugs ; 17(1)2019 Jan 19.
Artigo em Inglês | MEDLINE | ID: mdl-30669426

RESUMO

Articular cartilage is an avascular, non-innervated connective tissue with limited ability to regenerate. Articular degenerative processes arising from trauma, inflammation or due to aging are thus irreversible and may induce the loss of the joint function. To repair cartilaginous defects, tissue engineering approaches are under intense development. Association of cells and signalling proteins, such as growth factors, with biocompatible hydrogel matrix may lead to the regeneration of the healthy tissue. One current strategy to enhance both growth factor bioactivity and bioavailability is based on the delivery of these signalling proteins in microcarriers. In this context, the aim of the present study was to develop microcarriers by encapsulating Transforming Growth Factor-ß1 (TGF-ß1) into microparticles based on marine exopolysaccharide (EPS), namely GY785 EPS, for further applications in cartilage engineering. Using a capillary microfluidic approach, two microcarriers were prepared. The growth factor was either encapsulated directly within the microparticles based on slightly sulphated derivative or complexed firstly with the highly sulphated derivative before being incorporated within the microparticles. TGF-ß1 release, studied under in vitro model conditions, revealed that the majority of the growth factor was retained inside the microparticles. Bioactivity of released TGF-ß1 was particularly enhanced in the presence of highly sulphated derivative. It comes out from this study that GY785 EPS based microcarriers may constitute TGF-ß1 reservoirs spatially retaining the growth factor for a variety of tissue engineering applications and in particular cartilage regeneration, where the growth factor needs to remain in the target location long enough to induce robust regenerative responses.


Assuntos
Alteromonas/química , Portadores de Fármacos/química , Polissacarídeos/química , Fator de Crescimento Transformador beta1/administração & dosagem , Disponibilidade Biológica , Cartilagem Articular/efeitos dos fármacos , Cartilagem Articular/fisiologia , Linhagem Celular , Preparações de Ação Retardada/administração & dosagem , Preparações de Ação Retardada/farmacocinética , Portadores de Fármacos/isolamento & purificação , Composição de Medicamentos/métodos , Implantes de Medicamento , Liberação Controlada de Fármacos , Humanos , Fontes Hidrotermais/microbiologia , Microfluídica , Polissacarídeos/isolamento & purificação , Regeneração/efeitos dos fármacos , Alicerces Teciduais/química , Fator de Crescimento Transformador beta1/farmacocinética
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