Publications by M J Hubal

Publications by authors named "M J Hubal"

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Sex-Specific Skeletal Muscle Gene Expression Responses to Exercise Reveal Novel Direct Mediators of Insulin Sensitivity Change.

S Ma M C Morris M J Hubal L M Ross K M Huffman

medRxiv

September 2024

Background: Understanding the causal pathways, systems, and mechanisms through which exercise impacts human health is complex. This study explores molecular signaling related to whole-body insulin sensitivity (Si) by examining changes in skeletal muscle gene expression. The analysis considers differences by biological sex, exercise amount, and exercise intensity to identify potential molecular targets for developing pharmacologic agents that replicate the health benefits of exercise.

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Genome-Wide Genetic Analysis of Dropout in a Controlled Exercise Intervention in Sedentary Adults With Overweight or Obesity and Cardiometabolic Disease.

Rong Jiang Katherine A Collins Kim M Huffman Elizabeth R Hauser Monica J Hubal

Ann Behav Med

April 2024

Article Synopsis

Many people struggle to maintain exercise habits despite knowing the benefits, leading to a dropout from exercise interventions.
The study aimed to find genetic variants linked to dropout rates in the STRRIDE trials, using a genome-wide association approach on 603 participants.
The analysis identified a specific genetic variant (rs722069) associated with dropout, suggesting that genetic factors influence exercise participation and may help develop personalized strategies for encouraging regular exercise.

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Acute Resistance Exercise Modifies Extracellular Vesicle miRNAs Targeting Anabolic Gene Pathways: A Prospective Cohort Study.

William R Conkright Chris K Kargl Monica J Hubal Dakota R Tiede Meaghan E Beckner

Med Sci Sports Exerc

July 2024

Article Synopsis

Resistance training offers health benefits linked to circulating factors, particularly through extracellular vesicles (EVs) that carry signaling molecules like microRNA (miRNA) to target cells.
A study with 10 participants analyzed changes in EV miRNAs after an acute heavy resistance exercise test, finding 34 differentially expressed miRNAs that influenced nearly 5,000 target messenger RNAs and involved many biological pathways.
The results suggest that acute resistance exercise impacts EV miRNAs related to growth, metabolism, and inflammation signaling, indicating that these circulating EVs play a crucial role in the body’s adaptive response to exercise.

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Common Markers of Muscle Damage Are Associated with Divergent Gene Expression Patterns after Eccentric Contractions.

Michael R Deyhle Dakota Tiede Ling Xin Robert D Hyldahl Monica J Hubal

Med Sci Sports Exerc

June 2024

Purpose: Unaccustomed eccentric (ECC) exercise evokes exercise-induced muscle damage (EIMD). Soreness, strength loss, and serum creatine kinase (CK) are often used to quantify EIMD severity. However, changes in these markers are not fully understood mechanistically.

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Angiogenic potential of skeletal muscle derived extracellular vesicles differs between oxidative and glycolytic muscle tissue in mice.

Christopher K Kargl Zhihao Jia Deborah A Shera Brian P Sullivan Lundon C Burton Monica J Hubal

Sci Rep

November 2023

Skeletal muscle fibers regulate surrounding endothelial cells (EC) via secretion of numerous angiogenic factors, including extracellular vesicles (SkM-EV). Muscle fibers are broadly classified as oxidative (OXI) or glycolytic (GLY) depending on their metabolic characteristics. OXI fibers secrete more pro-angiogenic factors and have greater capillary densities than GLY fibers.

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