Your search keyword '"Lynch, Colleen E."' showing total 5 results

1. Adipose biopsy techniques for studies in human exercise physiology.

Author

Lynch, Colleen E., Brandt, Anna R., Vincenty, Caroline S., Robbins, Ethan, Skiles, Chad, Minchev, Kiril, Chambers, Toby L., Belangee, Alicia, Trappe, Todd A., and Trappe, Scott W.

Subjects

EXERCISE physiology, ADIPOKINES, HUMAN physiology, FORCEPS, NEEDLE biopsy, ADIPOSE tissues, BODY mass index, BIOPSY

Abstract

Adipose biopsy techniques are relatively undefined for exercise physiology research in individuals at or near normal weight. The purpose of this study was to compare the influence of two adipose biopsy techniques on tissue quality through measurements of adipocyte cell size, as well as mRNA and protein levels of select pro- and anti-inflammatory cytokines and adipokines. Thirteen participants (9 M, 4 W; 28 ± 4 yr; 27 ± 3 kg·m-2; VO2max: 3.3 ± 0.7 L·min-1) underwent subcutaneous adipose biopsies on either side of the umbilicus (incision: ~8 cm lateral, sampling area: ~5 cm lateral) using 1) a 6-mm Bergström biopsy needle and 2) a mini-liposuction approach with a 4-mm Mercedes biopsy needle that used prebiopsy tumescent delivery (~30 mL 0.9% NaCl solution) into the sampling area (i.e., 'wet' technique). Tissue obtained was processed identically for analysis and both techniques returned high-quality tissue for histology (similar % intact adipocytes), mRNA (RNA integrity numbers >7.0), and protein. Adipocyte size was similar (P > 0.05) between both techniques (Bergström: 6,116 ± 1,652 µm², 554-23,522 lm2; Mercedes: 6,517 ± 952 µm², 926-21,969 lm²). There were also no differences (P > 0.05) between the two techniques for the measured cytokines (pro- and anti-inflammatory) and adipokines at the mRNA and protein levels. Adipocyte size was positively correlated with body mass index and body fat percentage, and negatively correlated with V O2max (P < 0.05). These results suggest both adipose biopsy techniques used in the current investigation are appropriate for histological, transcriptional, and translational level measurements in exercise physiology studies of nonobese women and men. [ABSTRACT FROM AUTHOR]

Published

2024

2. Multitissue responses to exercise: a MoTrPAC feasibility study.

Author

Chambers, Toby L., Stroh, Andrew M., Chavez, Clarisa, Brandt, Anna R., Claiborne, Alex, Fountain, William A., Gries, Kevin J., Jones, Andrew M., Kuszmaul, Dillon J., Lee, Gary A., Lester, Bridget E., Lynch, Colleen E., Minchev, Kiril, Montenegro, Cristhian F., Naruse, Masatoshi, Raue, Ulrika, Trappe, Todd A., and Trappe, Scott

Subjects

RESISTANCE training, FREE fatty acids, SKELETAL muscle, VASTUS lateralis, FEASIBILITY studies

Abstract

We assessed the feasibility of the Molecular Transducers of Physical Activity Consortium (MoTrPAC) human adult clinical exercise protocols, while also documenting select cardiovascular, metabolic, and molecular responses to these protocols. After phenotyping and familiarization sessions, 20 subjects (25 ± 2 yr, 12 M, 8 W) completed an endurance exercise bout (n = 8, 40 min cycling at 70% V̇o2max), a resistance exercise bout (n = 6, ∼45 min, 3 sets of ∼10 repetition maximum, 8 exercises), or a resting control period (n = 6, 40 min rest). Blood samples were taken before, during, and after (10 min, 2 h, and 3.5 h) exercise or rest for levels of catecholamines, cortisol, glucagon, insulin, glucose, free fatty acids, and lactate. Heart rate was recorded throughout exercise (or rest). Skeletal muscle (vastus lateralis) and adipose (periumbilical) biopsies were taken before and ∼4 h following exercise or rest for mRNA levels of genes related to energy metabolism, growth, angiogenesis, and circadian processes. Coordination of the timing of procedural components (e.g., local anesthetic delivery, biopsy incisions, tumescent delivery, intravenous line flushes, sample collection and processing, exercise transitions, and team dynamics) was reasonable to orchestrate while considering subject burden and scientific objectives. The cardiovascular and metabolic alterations reflected a dynamic and unique response to endurance and resistance exercise, whereas skeletal muscle was transcriptionally more responsive than adipose 4 h postexercise. In summary, the current report provides the first evidence of protocol execution and feasibility of key components of the MoTrPAC human adult clinical exercise protocols. Scientists should consider designing exercise studies in various populations to interface with the MoTrPAC protocols and DataHub. NEW & NOTEWORTHY This study highlights the feasibility of key aspects of the MoTrPAC adult human clinical protocols. This initial preview of what can be expected from acute exercise trial data from MoTrPAC provides an impetus for scientists to design exercise studies to interlace with the rich phenotypic and -omics data that will populate the MoTrPAC DataHub at the completion of the parent protocol. [ABSTRACT FROM AUTHOR]

Published

2023

3. Human adipose and skeletal muscle tissue DNA, RNA, and protein content.

Author

Stroh, Andrew M., Lynch, Colleen E., Lester, Bridget E., Minchev, Kiril, Chambers, Toby L., Montenegro, Cristhian F., Martinez, Clarisa Chavez, Fountain, William A., Trappe, Todd A., and Trappe, Scott W.

Abstract

The purpose of this project was to provide a profile of DNA, RNA, and protein content in adipose tissue, which is relatively understudied in humans, to gain more insight into the amount of tissue that may be required for various analyses. Skeletal muscle tissue was also investigated to provide a direct comparison into potential differences between these two highly metabolically active tissues. Basal adipose and skeletal muscle tissue samples were obtained from 10 (7 M, 3 W) recreationally active participants [25 ± 1 yr; 84 ± 3 kg, maximal oxygen consumption (VO2max) 3.5 ± 0.2 L/min, body fat: 29 ± 2%]. DNA, RNA, and protein were extracted and subsequently analyzed for quantity and quality. DNA content of adipose and skeletal muscle tissue was 52 ± 14 and 189 ± 44 ng DNA·mg tissue1 , respectively (P < 0.05). RNA content of adipose and skeletal muscle tissue was 46 ± 14 and 537 ± 72 ng RNA·mg tissue1 , respectively (P < 0.05). Protein content of adipose and skeletal muscle tissue was 4 ± 1 and 177 ± 10mg protein·mg tissue1 , respectively (P < 0.05). In summary, human adipose had 28% of the DNA, 9% of the RNA, and 2% of the protein found in skeletal muscle per mg of tissue. This information should be useful across a wide range of human clinical investigation designs and various laboratory analyses. NEW & NOTEWORTHY This investigation studied DNA, RNA, and protein contents of adipose and skeletal muscle tissues from young active individuals. A series of optimization steps were investigated to aid in determining the optimal approach to extract high-yield and high-quality biomolecules. These findings contribute to the knowledge gap in adipose tissue requirements for molecular biology assays, which is of increasing importance due to the growing interest in adipose tissue research involving human exercise physiology research. [ABSTRACT FROM AUTHOR]

Published

2021

4. Influence of low‐dose aspirin, resistance exercise, and sex on human skeletal muscle PGE2/COX pathway activity.

Author

Naruse, Masatoshi, Fountain, William A., Claiborne, Alex, Chambers, Toby L., Jones, Andrew M., Stroh, Andrew M., Montenegro, Cristhian F., Lynch, Colleen E., Minchev, Kiril, Trappe, Scott, and Trappe, Todd A.

Subjects

ISOMETRIC exercise, SKELETAL muscle, ASPIRIN, VASTUS lateralis, PRODUCTION control, PROSTAGLANDINS

Abstract

Prostaglandin (PG) E2 has been linked to increased inflammation and attenuated resistance exercise adaptations in skeletal muscle. Nonaspirin cyclooxygenase (COX) inhibitors have been shown to reduce these effects. This study examined the effect of low‐dose aspirin on skeletal muscle COX production of PGE2 at rest and following resistance exercise. Skeletal muscle (vastus lateralis) biopsies were taken from six individuals (4 M/2 W) before and 3.5 hr after a single bout of resistance exercise for ex vivo PGE2 production under control and low (10 μM)‐ or standard (100 μM)‐dose aspirin conditions. Sex‐specific effects of aspirin were also examined by combining the current findings with our previous similar ex vivo skeletal muscle investigations (n = 20, 10 M/10 W). Low‐dose aspirin inhibited skeletal muscle PGE2 production (p < 0.05). This inhibition was similar to standard‐dose aspirin (p > 0.05) and was not influenced by resistance exercise (p > 0.05) (overall effect: −18 ± 5%). Men and women had similar uninhibited skeletal muscle PGE2 production at rest (men: 1.97 ± 0.33, women: 1.96 ± 0.29 pg/mg wet weight/min; p > 0.05). However, skeletal muscle of men was 60% more sensitive to aspirin inhibition than women (p < 0.05). In summary, the current findings 1) confirm low‐dose aspirin inhibits the PGE2/COX pathway in human skeletal muscle, 2) show that resistance exercise does not alter aspirin inhibitory efficacy, and 3) suggest the skeletal muscle of men and women could respond differently to long‐term consumption of low‐dose aspirin, one of the most common chronically consumed drugs in the world. [ABSTRACT FROM AUTHOR]

Published

2021

5. Influence Of Muscle Action On Energy Expenditure: Concentric Vs. Eccentric Vs. Both: 3309 Board #178 June 2 9:30 AM - 11:00 AM.

Author

Meister, Ben M., Valenti, Zackary J., Lynch, Colleen E., Revel, Cody B., Schwartz, Alison C., Quarantillo, Michael E., Guarnera, Samantha R., Fountain, William A., Carlini, Nicholas A., Lynch, Kerry E., Lindner, Nicole C., Naboulsi, Amar L., Paco, Paola J., and Mazzetti, Scott A.

Published

2018