Kenton P. Arkill scite author profile

Aims/hypothesis Diabetic cardiomyopathy (DCM) is a serious and under-recognised complication of diabetes. The first sign is diastolic dysfunction, which progresses to heart failure. The pathophysiology of DCM is incompletely understood but microcirculatory changes are important. Endothelial glycocalyx (eGlx) plays multiple vital roles in the microcirculation, including in the regulation of vascular permeability, and is compromised in diabetes but has not previously been studied in the coronary microcirculation in diabetes. We hypothesised that eGlx damage in the coronary microcirculation contributes to increased microvascular permeability and hence to cardiac dysfunction. Methods We investigated eGlx damage and cardiomyopathy in mouse models of type 1 (streptozotocin-induced) and type 2 (db/db) diabetes. Cardiac dysfunction was determined by echocardiography. We obtained eGlx depth and coverage by transmission electron microscopy (TEM) on mouse hearts perfusion-fixed with glutaraldehyde and Alcian Blue. Perivascular oedema was assessed from TEM images by measuring the perivascular space area. Lectin-based fluorescence was developed to study eGlx in paraformaldehyde-fixed mouse and human tissues. The eGlx of human conditionally immortalised coronary microvascular endothelial cells (CMVECs) in culture was removed with eGlx-degrading enzymes before measurement of protein passage across the cell monolayer. The mechanism of eGlx damage in the diabetic heart was investigated by quantitative reverse transcription-PCR array and matrix metalloproteinase (MMP) activity assay. To directly demonstrate that eGlx damage disturbs cardiac function, isolated rat hearts were treated with enzymes in a Langendorff preparation. Angiopoietin 1 (Ang1) is known to restore eGlx and so was used to investigate whether eGlx restoration reverses diastolic dysfunction in mice with type 1 diabetes. Results In a mouse model of type 1 diabetes, diastolic dysfunction (confirmed by echocardiography) was associated with loss of eGlx from CMVECs and the development of perivascular oedema, suggesting increased microvascular permeability. We confirmed in vitro that eGlx removal increases CMVEC monolayer permeability. We identified increased MMP activity as a potential mechanism of eGlx damage and we observed loss of syndecan 4 consistent with MMP activity. In a mouse model of type 2 diabetes we found a similar loss of eGlx preceding the development of diastolic dysfunction. We used isolated rat hearts to demonstrate that eGlx damage (induced by enzymes) is sufficient to disturb cardiac function. Ang1 restored eGlx and this was associated with reduced perivascular oedema and amelioration of the diastolic dysfunction seen in mice with type 1 diabetes. Conclusions/interpretation The association of CMVEC glycocalyx damage with diastolic dysfunction in two diabetes models suggests that it may play a pathophysiological role and the enzyme studies confirm that eGlx damage is sufficient to impair cardiac function. Ang1 rapidly restores the CMVEC glycocalyx and improves diastolic function. Our work identifies CMVEC glycocalyx damage as a potential contributor to the development of DCM and therefore as a therapeutic target. Graphical abstract

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The Revised Starling Principle and Its Relevance to Perioperative Fluid Management

Michel¹,

Arkill²,

Curry³

2020

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Correlative light-electron microscopy using small gold nanoparticles as single probes

et al. 2023

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Correlative light-electron microscopy (CLEM) requires the availability of robust probes which are visible both in light and electron microscopy. Here we demonstrate a CLEM approach using small gold nanoparticles as a single probe. Individual gold nanoparticles bound to the epidermal growth factor protein were located with nanometric precision background-free in human cancer cells by light microscopy using resonant four-wave mixing (FWM), and were correlatively mapped with high accuracy to the corresponding transmission electron microscopy images. We used nanoparticles of 10 nm and 5 nm radius, and show a correlation accuracy below 60 nm over an area larger than 10 µm size, without the need for additional fiducial markers. Correlation accuracy was improved to below 40 nm by reducing systematic errors, while the localisation precision is below 10 nm. Polarisation-resolved FWM correlates with nanoparticle shapes, promising for multiplexing by shape recognition in future applications. Owing to the photostability of gold nanoparticles and the applicability of FWM microscopy to living cells, FWM-CLEM opens up a powerful alternative to fluorescence-based methods.

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Novel perspectives of sodium handling in type 2 diabetes mellitus

Hanson

Arkill

Merry

et al. 2022

Expert Review of Endocrinology & Metabolism

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Computational and experimental analysis of flow in lymphatic vessels

Macdonald¹,

Tabor²,

Winlove³

et al. 2006

Journal of Biomechanics

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The Functions of Endothelial Glycocalyx and Their Effects on Patient Outcomes During the Perioperative Period: A Review of Current Methods to Evaluate Structure-Function Relations in the Glycocalyx in Both Basic Research and Clinical Settings

Curry¹,

Arkill²,

Michel³

2020

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PBMC‐derived extracellular vesicles in a smoking‐related inflammatory disease model

et al. 2023

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Extracellular vesicles (EVs) function as mediators of intercellular communication and as such influence the recipient cell function. EVs derived from immune cells can carry out many of the same functions as their parental cells, as they carry costimulatory molecules, antigens, and antigen–MHC complexes. As a result, there is a strong interest in understanding the composition and origin of immune cell–derived EVs in order to understand their role in the pathogenesis of diseases. This study aimed to optimize methodologies to study immune cell–derived EVs. Peripheral blood mononuclear cell‐derived small EVs were isolated and observed using conventional transmission electron microscopy and sized by nanoparticle tracking analysis. They were then enumerated and profiled using imaging flow cytometry and were further characterized using a flow cytometric multiplex bead assay. These techniques were then applied to our current research, namely smoking‐related inflammatory disease. We present here a comprehensive approach to analyze PBMC‐derived small EVs in smoking‐related inflammatory disease following the Minimal Information for Studies of Extracellular Vesicle 2018 guidelines.

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Author response for "PBMC derived extracellular vesicles in a smoking‐related inflammatory disease model"

Gomez¹,

James²,

Arkill³

et al. 2023

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Kenton P. Arkill

Endothelial glycocalyx is damaged in diabetic cardiomyopathy: angiopoietin 1 restores glycocalyx and improves diastolic function in mice

The Revised Starling Principle and Its Relevance to Perioperative Fluid Management

Correlative light-electron microscopy using small gold nanoparticles as single probes

Novel perspectives of sodium handling in type 2 diabetes mellitus

Computational and experimental analysis of flow in lymphatic vessels

The Functions of Endothelial Glycocalyx and Their Effects on Patient Outcomes During the Perioperative Period: A Review of Current Methods to Evaluate Structure-Function Relations in the Glycocalyx in Both Basic Research and Clinical Settings

PBMC‐derived extracellular vesicles in a smoking‐related inflammatory disease model

Author response for "PBMC derived extracellular vesicles in a smoking‐related inflammatory disease model"

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