Sonja Kinna scite author profile

Sonja Kinna

5Publications

57Citation Statements Received

93Citation Statements Given

How they've been cited

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166

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University of Cambridge

Publications

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Controlling the bioactivity of a peptide hormone in vivo by reversible self-assembly

Ouberaï

Santos²,

Kinna

et al. 2017

Nat Commun

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The use of peptides as therapeutic agents is undergoing a renaissance with the expectation of new drugs with enhanced levels of efficacy and safety. Their clinical potential will be only fully realised once their physicochemical and pharmacokinetic properties have been precisely controlled. Here we demonstrate a reversible peptide self-assembly strategy to control and prolong the bioactivity of a native peptide hormone in vivo. We show that oxyntomodulin, a peptide with potential to treat obesity and diabetes, self-assembles into a stable nanofibril formulation which subsequently dissociates to release active peptide and produces a pharmacological effect in vivo. The subcutaneous administration of the nanofibrils in rats results in greatly prolonged exposure, with a constant oxyntomodulin bioactivity detectable in serum for at least 5 days as compared to free oxyntomodulin which is undetectable after only 4 h. Such an approach is simple, cost-efficient and generic in addressing the limitations of peptide therapeutics.

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Polymeric nanobiotics as a novel treatment for mycobacterial infections

Batalha

Bernut

Schiebler

et al. 2019

Journal of Controlled Release

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Thermo-Responsive self-assembly of a dual glucagon-like peptide and glucagon receptor agonist

Kinna

Ouberaï

Sonzini

et al. 2021

International Journal of Pharmaceutics

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Self-assembled peptide as a long-acting drug formulation

Kinna¹

2019

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Self-assembled GLP-1/glucagon peptide nanofibrils prolong inhibition of food intake

et al. 2023

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IntroductionOxyntomodulin (Oxm) hormone peptide has a number of beneficial effects on nutrition and metabolism including increased energy expenditure and reduced body weight gain. Despite its many advantages as a potential therapeutic agent, Oxm is subjected to rapid renal clearance and protease degradation limiting its clinical application. Previously, we have shown that subcutaneous administration of a fibrillar Oxm formulation can significantly prolong its bioactivity in vivo from a few hours to a few days.MethodsWe used a protease resistant analogue of Oxm, Aib2-Oxm, to form nanfibrils depot and improve serum stability of released peptide. The nanofibrils and monomeric peptide in solution were characterized by spectroscopic, microscopic techniques, potency assay, QCM-D and in vivo studies.ResultsWe show that in comparison to Oxm, Aib2-Oxm fibrils display a slower elongation rate requiring higher ionic strength solutions, and a higher propensity to dissociate. Upon subcutaneous administration of fibrillar Aib2-Oxm in rodents, a 5-fold increase in bioactivity relative to fibrillar Oxm and a significantly longer bioactivity than free Aib2-Oxm were characterized. Importantly, a decrease in food intake was observed up to 72-hour post-administration, which was not seen for free Aib2-Oxm.ConclusionOur findings provides compelling evidence for the development of long-lasting peptide fibrillar formulations that yield extended plasma exposure and enhanced in vivo pharmacological response.

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Sonja Kinna

Controlling the bioactivity of a peptide hormone in vivo by reversible self-assembly

Polymeric nanobiotics as a novel treatment for mycobacterial infections

Thermo-Responsive self-assembly of a dual glucagon-like peptide and glucagon receptor agonist

Self-assembled peptide as a long-acting drug formulation

Self-assembled GLP-1/glucagon peptide nanofibrils prolong inhibition of food intake

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