Your search keyword '"Lee, Jen Y."' showing total 3 results

1. Quadriceps miR-542-3p and -5p are elevated in COPD and reduce function by inhibiting ribosomal and protein synthesis.

Author

Farre-Garros, Roser, Lee, Jen Y., Natanek, S. Amanda, Connolly, Martin, Sayer, Avan A., Patel, Harnish, Cooper, Cyrus, Polkey, Michael I., and Kemp, Paul R.

Subjects

PROTEIN synthesis, OBSTRUCTIVE lung diseases, QUADRICEPS muscle, RIBOSOMAL proteins, MUSCLE mass, MITOCHONDRIAL proteins

Abstract

Reduced physical performance reduces quality of life in patients with chronic obstructive pulmonary disease (COPD). Impaired physical performance is, in part, a consequence of reduced muscle mass and function, which is accompanied by mitochondrial dysfunction. We recently showed that miR-542-3p and miR-542-5p were elevated in a small cohort of COPD patients and more markedly in critical care patients. In mice, these microRNAs (miRNAs) promoted mitochondrial dysfunction suggesting that they would affect physical performance in patients with COPD, but we did not explore the association of these miRNAs with disease severity or physical performance further. We therefore quantified miR-542-3p/5p and mitochondrial rRNA expression in RNA extracted from quadriceps muscle of patients with COPD and determined their association with physical performance. As miR-542-3p inhibits ribosomal protein synthesis its ability to inhibit protein synthesis was also determined in vitro. Both miR-542-3p expression and -5p expression were elevated in patients with COPD (5-fold P < 0.001) and the degree of elevation associated with impaired lung function (transfer capacity of the lung for CO in % and forced expiratory volume in 1 s in %) and physical performance (6-min walk distance in %). In COPD patients, the ratio of 12S rRNA to 16S rRNA was suppressed suggesting mitochondrial ribosomal stress and mitochondrial dysfunction and miR-542-3p/5p expression was inversely associated with mitochondrial gene expression and positively associated with p53 activity. miR-542-3p suppressed RPS23 expression and maximal protein synthesis in vitro. Our data show that miR-542-3p and -5p expression is elevated in COPD patients and may suppress physical performance at least in part by inhibiting mitochondrial and cytoplasmic ribosome synthesis and suppressing protein synthesis. NEW & NOTEWORTHY miR-542-3p and -5p are elevated in the quadriceps muscle of patients with chronic obstructive pulmonary disease (COPD) in proportion to the severity of their lung disease. These microRNAs inhibit mitochondrial and cytoplasmic protein synthesis suggesting that they contribute to impaired exercise performance in COPD. [ABSTRACT FROM AUTHOR]

Published

2019

2. Using laser capture microdissection to study fiber specific signaling in locomotor muscle in COPD: A pilot study.

Author

Mohan, Divya, Lewis, Amy, Patel, Mehul S., Curtis, Katrina J., Lee, Jen Y., Hopkinson, Nicholas S., Wilkinson, Ian B., Kemp, Paul R., and Polkey, Michael I.

Subjects

MUSCLE protein metabolism, ENZYME metabolism, COLLECTION & preservation of biological specimens, CELLULAR signal transduction, ENZYMES, GENES, OBSTRUCTIVE lung diseases, MUSCLE proteins, NONPARAMETRIC statistics, RESEARCH funding, TRANSFERASES, PILOT projects, CASE-control method, SKELETAL muscle, SIGNAL peptides

Abstract

Introduction: Quadriceps dysfunction is important in chronic obstructive pulmonary disease (COPD), with an associated increased proportion of type II fibers. Investigation of protein synthesis and degradation has yielded conflicting results, possibly due to study of whole biopsy samples, whereas signaling may be fiber-specific. Our objective was to develop a method for fiber-specific gene expression analysis.Methods: 12 COPD and 6 healthy subjects underwent quadriceps biopsy. Cryosections were immunostained for type II fibers, which were separated using laser capture microdissection (LCM). Whole muscle and different fiber populations were subject to quantitative polymerase chain reaction.Results: Levels of muscle-RING-finger-protein-1 and Atrogin-1 were lower in type II fibers of COPD versus healthy subjects (P = 0.02 and P = 0.03, respectively), but differences were not apparent in whole muscle or type I fibers.Conclusions: We describe a novel method for studying fiber-specific gene expression in optimum cutting temperature compound-embedded muscle specimens. LCM offers a more sensitive way to identify molecular changes in COPD muscle. Muscle Nerve 55: 902-912, 2017. [ABSTRACT FROM AUTHOR]

Published

2017

3. A Randomized Controlled Trial of Angiotensin-Converting Enzyme Inhibition for Skeletal Muscle Dysfunction in COPD.

Author

Shrikrishna, Dinesh, Tanner, Rebecca J., Lee, Jen Y., Natanek, Amanda, Lewis, Amy, Murphy, Patrick B., Hart, Nicholas, Moxham, John, Montgomery, Hugh E., Kemp, Paul R., Polkey, Michael I., and Hopkinson, Nicholas S.

Subjects

PLACEBOS, RANDOMIZED controlled trials, ACE inhibitors, OBSTRUCTIVE lung diseases, PHYSICAL fitness, EXERCISE

Abstract

The article discusses a randomized placebo-controlled trial aimed at evaluating the potential effectiveness of an angiotensin-converting enzyme (ACE) inhibitor known as fosinopril in enhancing quadriceps endurance among chronic obstructive pulmonary disease (COPD) patients with weakened quadriceps function. It reported that no significant difference in quadriceps endurance and exercise performance was found between the placebo patient group and the group treated with fosinopril.

Published

2014