K L Ford scite author profile

Cardiovascular disease is an enormous socioeconomic burden worldwide and remains a leading cause of mortality and disability despite significant efforts to improve treatments and personalize healthcare. Heart failure is the main manifestation of cardiovascular disease and has reached epidemic proportions. Heart failure follows a loss of cardiac homeostasis, which relies on a tight regulation of gene expression. This regulation is under the control of multiple types of RNA molecules, some encoding proteins (the so-called messenger RNAs) and others lacking protein-coding potential, named noncoding RNAs. In this review article, we aim to revisit the notion of regulatory RNA, which has been thus far mainly confined to noncoding RNA. Regulatory RNA, which we propose to abbreviate as regRNA, can include both protein-coding RNAs and noncoding RNAs, as long as they contribute, directly or indirectly, to the regulation of gene expression. We will address the regulation and functional role of messenger RNAs, microRNAs, long noncoding RNAs, and circular RNAs (ie, regRNAs) in heart failure. We will debate the utility of regRNAs to diagnose, prognosticate, and treat heart failure, and we will provide directions for future work.

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The Function and Therapeutic Potential of Long Non-coding RNAs in Cardiovascular Development and Disease

Gomes

Spencer

Ford

et al. 2017

Molecular Therapy - Nucleic Acids

100

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The popularization of genome-wide analyses and RNA sequencing led to the discovery that a large part of the human genome, while effectively transcribed, does not encode proteins. Long non-coding RNAs have emerged as critical regulators of gene expression in both normal and disease states. Studies of long non-coding RNAs expressed in the heart, in combination with gene association studies, revealed that these molecules are regulated during cardiovascular development and disease. Some long non-coding RNAs have been functionally implicated in cardiac pathophysiology and constitute potential therapeutic targets. Here, we review the current knowledge of the function of long non-coding RNAs in the cardiovascular system, with an emphasis on cardiovascular development and biology, focusing on hypertension, coronary artery disease, myocardial infarction, ischemia, and heart failure. We discuss potential therapeutic implications and the challenges of long non-coding RNA research, with directions for future research and translational focus.

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High resolution structural evidence suggests the Sarcoplasmic Reticulum forms microdomains with Acidic Stores (lysosomes) in the heart

Aston

Capel

Ford

et al. 2017

Sci Rep

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Nicotinic Acid Adenine Dinucleotide Phosphate (NAADP) stimulates calcium release from acidic stores such as lysosomes and is a highly potent calcium-mobilising second messenger. NAADP plays an important role in calcium signalling in the heart under basal conditions and following β-adrenergic stress. Nevertheless, the spatial interaction of acidic stores with other parts of the calcium signalling apparatus in cardiac myocytes is unknown. We present evidence that lysosomes are intimately associated with the sarcoplasmic reticulum (SR) in ventricular myocytes; a median separation of 20 nm in 2D electron microscopy and 3.3 nm in 3D electron tomography indicates a genuine signalling microdomain between these organelles. Fourier analysis of immunolabelled lysosomes suggests a sarcomeric pattern (dominant wavelength 1.80 μm). Furthermore, we show that lysosomes form close associations with mitochondria (median separation 6.2 nm in 3D studies) which may provide a basis for the recently-discovered role of NAADP in reperfusion-induced cell death. The trigger hypothesis for NAADP action proposes that calcium release from acidic stores subsequently acts to enhance calcium release from the SR. This work provides structural evidence in cardiac myocytes to indicate the formation of microdomains between acidic and SR calcium stores, supporting emerging interpretations of NAADP physiology and pharmacology in heart.

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The detection of potassic alteration by gamma‐ray spectrometry—Recognition of alteration related to mineralization

2000

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Intracellular tortuosity underlies slow cAMP diffusion in adult ventricular myocytes

Richards¹,

Lomas²,

Jalink

et al. 2016

Cardiovasc Res

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Aims3′,5′-Cyclic adenosine monophosphate (cAMP) signals in the heart are often confined to concentration microdomains shaped by cAMP diffusion and enzymatic degradation. While the importance of phosphodiesterases (degradative enzymes) in sculpting cAMP microdomains is well established in cardiomyocytes, less is known about cAMP diffusivity (DcAMP) and factors affecting it. Many earlier studies have reported fast diffusivity, which argues against sharply defined microdomains.Methods and results[cAMP] dynamics in the cytoplasm of adult rat ventricular myocytes were imaged using a fourth generation genetically encoded FRET-based sensor. The [cAMP]-response to the addition and removal of isoproterenol (β-adrenoceptor agonist) quantified the rates of cAMP synthesis and degradation. To obtain a read out of DcAMP, a stable [cAMP] gradient was generated using a microfluidic device which delivered agonist to one half of the myocyte only. After accounting for phosphodiesterase activity, DcAMP was calculated to be 32 µm2/s; an order of magnitude lower than in water. Diffusivity was independent of the amount of cAMP produced. Saturating cAMP-binding sites with the analogue 6-Bnz-cAMP did not accelerate DcAMP, arguing against a role of buffering in restricting cAMP mobility. cAMP diffused at a comparable rate to chemically unrelated but similar sized molecules, arguing for a common physical cause of restricted diffusivity. Lower mitochondrial density and order in neonatal cardiac myocytes allowed for faster diffusion, demonstrating the importance of mitochondria as physical barriers to cAMP mobility.ConclusionIn adult cardiac myocytes, tortuosity due to physical barriers, notably mitochondria, restricts cAMP diffusion to levels that are more compatible with microdomain signalling.

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Dual Testing Algorithm of BED-CEIA and AxSYM Avidity Index Assays Performs Best in Identifying Recent HIV Infection in a Sample of Rwandan Sex Workers

et al. 2011

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BackgroundTo assess the performance of BED-CEIA (BED) and AxSYM Avidity Index (Ax-AI) assays in estimating HIV incidence among female sex workers (FSW) in Kigali, Rwanda.Methodology and FindingsEight hundred FSW of unknown HIV status were HIV tested; HIV-positive women had BED and Ax-AI testing at baseline and ≥12 months later to estimate assay false-recent rates (FRR). STARHS-based HIV incidence was estimated using the McWalter/Welte formula, and adjusted with locally derived FRR and CD4 results. HIV incidence and local assay window periods were estimated from a prospective cohort of FSW. At baseline, 190 HIV-positive women were BED and Ax-AI tested; 23 were classified as recent infection (RI). Assay FRR with 95% confidence intervals were: 3.6% (1.2–8.1) (BED); 10.6% (6.1–17.0) (Ax-AI); and 2.1% (0.4–6.1) (BED/Ax-AI combined). After FRR-adjustment, incidence estimates by BED, Ax-AI, and BED/Ax-AI were: 5.5/100 person-years (95% CI 2.2–8.7); 7.7 (3.2–12.3); and 4.4 (1.4–7.3). After CD4-adjustment, BED, Ax-AI, and BED/Ax-AI incidence estimates were: 5.6 (2.6–8.6); 9.7 (5.0–14.4); and 4.7 (2.0–7.5). HIV incidence rates in the first and second 6 months of the cohort were 4.6 (1.6–7.7) and 2.2 (0.1–4.4).ConclusionsAdjusted incidence estimates by BED/Ax-AI combined were similar to incidence in the first 6 months of the cohort. Furthermore, false-recent rate on the combined BED/Ax-AI algorithm was low and substantially lower than for either assay alone. Improved assay specificity with time since seroconversion suggests that specificity would be higher in population-based testing where more individuals have long-term infection.

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Facilitation by intracellular carbonic anhydrase of Na⁺–HCO₃⁻ co‐transport but not Na⁺/H⁺ exchange activity in the mammalian ventricular myocyte

Villafuerte

Swietach

Youm

et al. 2014

The Journal of Physiology

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Carbonic anhydrase enzymes (CAs) catalyse the reversible hydration of CO2 to H+ and HCO3− ions. This catalysis is proposed to be harnessed by acid/base transporters, to facilitate their transmembrane flux activity, either through direct protein–protein binding (a ‘transport metabolon’) or local functional interaction. Flux facilitation has previously been investigated by heterologous co-expression of relevant proteins in host cell lines/oocytes. Here, we examine the influence of intrinsic CA activity on membrane HCO3− or H+ transport via the native acid-extruding proteins, Na+–HCO3− cotransport (NBC) and Na+/H+ exchange (NHE), expressed in enzymically isolated mammalian ventricular myocytes. Effects of intracellular and extracellular (exofacial) CA (CAi and CAe) are distinguished using membrane-permeant and —impermeant pharmacological CA inhibitors, while measuring transporter activity in the intact cell using pH and Na+ fluorophores. We find that NBC, but not NHE flux is enhanced by catalytic CA activity, with facilitation being confined to CAi activity alone. Results are quantitatively consistent with a model where CAi catalyses local H+ ion delivery to the NBC protein, assisting the subsequent (uncatalysed) protonation and removal of imported HCO3− ions. In well-superfused myocytes, exofacial CA activity is superfluous, most likely because extracellular CO2/HCO3− buffer is clamped at equilibrium. The CAi insensitivity of NHE flux suggests that, in the native cell, intrinsic mobile buffer-shuttles supply sufficient intracellular H+ ions to this transporter, while intrinsic buffer access to NBC proteins is restricted. Our results demonstrate a selective CA facilitation of acid/base transporters in the ventricular myocyte, implying a specific role for the intracellular enzyme in HCO3− transport, and hence pHi regulation in the heart.

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Skills for support: personal assistants and people with learning disabilities

Williams

Ponting

Ford

et al. 2010

Brit J Learn Disabil

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Accessible summary This paper is about how people get good support. This can happen when you have a direct payment, and you have your own personal assistant (PA). But you need to have a good PA, who knows how to communicate well. Two people with learning disabilities worked in the research team on this project. The team made videos of people with learning disabilities working with their PAs. It is important that the PA knows how to support you well. For instance, they should treat you with respect. This means that you can tell them what to do. They should talk to you like an adult, and listen to what you want. They should not rush you. A good PA will remind you that you’ve got a choice. They will help you be in control of your choices, but they won’t force you to make a choice. PAs sometimes have to give you advice. But that should be on your terms. It’s good to have a friendly relationship with your PA. It’s a bit like team work. People with learning disabilities can help to train their own PAs. This project made a training pack, with a DVD. Summary For people with learning disabilities to have control over their lives, the quality of their support staff matters. This paper reports on an inclusive research study, which used video analysis to study the communication skills of personal assistants (PAs) who worked with people with learning disabilities. The findings reveal some of the fine detail in the strategies these PAs used, to show respect, support choices, and give advice. They were able to step back, to listen and observe the person with learning disabilities, and to use good, open body language. They also gave people time, built up a close relationship based on shared interests and activities, and they talked with people in a friendly, adult way. It is difficult to support people to manage their lives, and team work is important. People with learning disabilities also have to play their role in the relationship. This research produced training materials that will help people with learning disabilities to train and support their own PAs.

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K L Ford

Regulatory RNAs in Heart Failure

The Function and Therapeutic Potential of Long Non-coding RNAs in Cardiovascular Development and Disease

High resolution structural evidence suggests the Sarcoplasmic Reticulum forms microdomains with Acidic Stores (lysosomes) in the heart

The detection of potassic alteration by gamma‐ray spectrometry—Recognition of alteration related to mineralization

Intracellular tortuosity underlies slow cAMP diffusion in adult ventricular myocytes

Dual Testing Algorithm of BED-CEIA and AxSYM Avidity Index Assays Performs Best in Identifying Recent HIV Infection in a Sample of Rwandan Sex Workers

Facilitation by intracellular carbonic anhydrase of Na⁺–HCO₃⁻ co‐transport but not Na⁺/H⁺ exchange activity in the mammalian ventricular myocyte

Skills for support: personal assistants and people with learning disabilities

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Resources

About

K L Ford

Regulatory RNAs in Heart Failure

The Function and Therapeutic Potential of Long Non-coding RNAs in Cardiovascular Development and Disease

High resolution structural evidence suggests the Sarcoplasmic Reticulum forms microdomains with Acidic Stores (lysosomes) in the heart

The detection of potassic alteration by gamma‐ray spectrometry—Recognition of alteration related to mineralization

Intracellular tortuosity underlies slow cAMP diffusion in adult ventricular myocytes

Dual Testing Algorithm of BED-CEIA and AxSYM Avidity Index Assays Performs Best in Identifying Recent HIV Infection in a Sample of Rwandan Sex Workers

Facilitation by intracellular carbonic anhydrase of Na+–HCO3− co‐transport but not Na+/H+ exchange activity in the mammalian ventricular myocyte

Skills for support: personal assistants and people with learning disabilities

Contact Info

Product

Resources

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Facilitation by intracellular carbonic anhydrase of Na⁺–HCO₃⁻ co‐transport but not Na⁺/H⁺ exchange activity in the mammalian ventricular myocyte