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Gommaar D'Hulst

Gommaar D'Hulst
ETH Zurich | ETH Zürich · Department of Health Sciences and Technology

PhD

About

33
Publications
17,137
Reads
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1,053
Citations
Additional affiliations
November 2010 - July 2016
KU Leuven
Position
  • PhD Student
Education
October 2010 - May 2016
KU Leuven
Field of study
  • Biomedical sciences
September 2006 - July 2010
KU Leuven
Field of study
  • Movement sciences

Publications

Publications (33)
Article
Full-text available
Objective: Exercise enhances the sensitivity of mammalian target of rapamycin complex 1 (mTORC1) to amino acids, in particular leucine. How long this enhanced sensitivity lasts, and which mechanisms control enhanced leucine-mediated mTORC1 activation following exercise is currently unknown. Methods: C57BL/6J mice were exercised for one night in...
Article
Full-text available
Genetic mutations in dystrophin manifest in Duchenne muscular dystrophy (DMD), the most commonly inherited muscle disease. Here, we report on reprogramming of fibroblasts from two DMD mouse models into induced myogenic progenitor cells (iMPCs) by MyoD overexpression in concert with small molecule treatment. DMD iMPCs proliferate extensively, while...
Article
Full-text available
Sleep plays an essential role in human life. While sleep is a state elicited by the brain, its vital role reaches beyond maintaining brain health. Unhealthy sleeping habits have been associated with increased risk for inflammation, obesity, or diabetes. Evidence is emerging that sleep guides processes playing an important role in promoting the regu...
Article
Full-text available
Increased amino acid availability acutely stimulates protein synthesis partially via activation of mechanistic target of rapamycin complex 1 (mTORC1). Plant-and insect-based protein sources matched for total protein and/or leucine to animal proteins induce a lower postprandial rise in amino acids, but their effects on mTOR activation in muscle are...
Article
Full-text available
Background: Satellite cells (SCs) are required for muscle repair following injury and are involved in muscle remodeling upon muscular contractions. Exercise stimulates SC accumulation and myonuclear accretion. To what extent exercise training at different mechanical loads drive SC contribution to myonuclei however is unknown. Results: By perform...
Preprint
Full-text available
Background Satellite cells (SCs) are required for muscle repair following injury and are involved in muscle remodeling upon muscular contractions. Exercise stimulates SC accumulation and myonuclear accretion. To what extent exercise training at different mechanical loads drive SC contribution to myonuclei however is unknown. Results By performing S...
Article
Full-text available
Endothelial cell (EC)-derived signals contribute to organ regeneration, but angiocrine metabolic communication is not described. We found that EC-specific loss of the glycolytic regulator pfkfb3 reduced ischemic hindlimb revascularization and impaired muscle regeneration. This was caused by the reduced ability of macrophages to adopt a proangiogeni...
Article
Full-text available
Background: Frailty is a geriatric syndrome characterized by increased susceptibility to adverse health outcomes. One major determinant thereof is the gradual weakening of the musculoskeletal system and the associated osteosarcopenia. To improve our understanding of the underlying pathophysiology and, more importantly, to test potential interventi...
Article
Satellite cells (SCs) are required for muscle repair following injury and are involved in muscle remodeling during exercise. Increased muscular activity stimulates SC accumulation and function, but to what extend alternations in mechanical load control SC fusion remains to be elucidated. To investigate SC contribution to myofibers during exercise t...
Preprint
Full-text available
Background Satellite cells (SCs) are required for muscle repair following injury and are involved in muscle remodeling upon muscular contractions. Exercise stimulates SC accumulation and myonuclear accretion. To what extent exercise training at different mechanical loads drive SC contribution to myonuclei however is unknown. Results By performing S...
Preprint
Full-text available
Background Satellite cells (SCs) are required for muscle repair following injury and are involved in muscle remodeling upon muscular contractions. Exercise stimulates SC accumulation and myonuclear accretion. To what extent exercise training at different mechanical loads drive SC contribution to myonuclei however is unknown. Results By performing S...
Preprint
Satellite cells (SCs) are required for muscle repair following injury and are involved in muscle remodeling upon muscular contractions. Exercise stimulates SC accumulation and myonuclear accretion. To what extent exercise training at different mechanical loads drive SC contribution to myonuclei however is unknown. By performing SC fate tracing expe...
Article
Full-text available
mTORC1 is an important regulator of muscle mass but how it is modulated by oxygen and nutrients is not completely understood. We show that loss of the prolyl hydroxylase domain isoform 1 oxygen sensor in mice (PHD1KO) reduces muscle mass. PHD1KO muscles show impaired mTORC1 activation in response to leucine whereas mTORC1 activation by growth facto...
Article
Full-text available
Long-term voluntary resistance running has been shown to be a valid model to induce muscle growth in rodents. Moreover, the mammalian target of rapamycin complex 1 (mTORC1) is a key signaling complex regulating exercise/nutrient-induced alterations in muscle protein synthesis. How acute resistance running affects mTORC1 signaling in muscle and if r...
Preprint
Background Frailty is a geriatric syndrome characterized by increased susceptibility to adverse health outcomes. One major determinant thereof is the gradual weakening of the musculoskeletal system and the associated osteosarcopenia. To improve our understanding of the underlying pathophysiology and, more importantly, to test potential intervention...
Article
Full-text available
Purpose: The myocellular response to hypoxia is primarily regulated by hypoxia-inducible factors (HIFs). HIFs thus conceivably are implicated in muscular adaptation to altitude training. Therefore, we investigated the effect of hypoxic versus normoxic training during a period of prolonged hypoxia ('living high') on muscle HIF activation during acu...
Article
Full-text available
In the setting of “living high,” it is unclear whether high-intensity interval training (HIIT) should be performed “low” or “high” to stimulate muscular and performance adaptations. Therefore, 10 physically active males participated in a 5-week “live high-train low or high” program (TR), whilst eight subjects were not engaged in any altitude or tra...
Article
Exercise bypasses insulin resistance to increase glucose uptake in skeletal muscle and therefore represents an important alternative to stimulate glucose uptake in insulin-resistant muscle. Both Rac1 and AMPK have been shown to partly regulate contraction-stimulated muscle glucose uptake, but whether those two signaling pathways jointly account for...
Article
to the editor: We appreciate the numerous comments (see Ref. [4][1]) on our Viewpoint ([2][2]), which demonstrates the interest of muscle physiologists for the topic. A number of commentaries pointed toward the fact that our model did not sufficiently account for the high interindividual variability
Article
Full-text available
Hypoxia-inducible factor-1 (HIF-1) is a master regulator of myocellular adaptation to exercise and hypoxia. However, the role of genetic factors in regulation of HIF-1 responses to exercise and hypoxia is unknown. We hypothesized that hypoxia at rest and during exercise stimulates the HIF-1 pathway and its downstream targets in energy metabolism re...
Article
Aim: To determine whether repeated maximal-intensity hypoxic exercise induces larger beneficial adaptations on the hypoxia inducible factor-1α pathway and its target genes than similar normoxic exercise, when combined with chronic hypoxic exposure. Methods: Lowland elite male team-sport athletes underwent 14 days of passive normobaric hypoxic ex...
Article
Skeletal muscle wasting has been shown to be a mechanism by which humans are able to adapt to extreme altitude. Nonetheless, the literature is conflicting regarding the altitude or time point at which this phenomenon starts to occur. Using the metric recently suggested by Garvivan-Lewis et al. (8), we propose an hypoxic dose of 5000 km·h as the cut...
Article
Exercise has a potent insulin-sensitivity enhancing effect on skeletal muscle but the intracellular mechanisms that mediate this effect are not well understood. In muscle, Rac1 regulates both insulin- and contraction-stimulated glucose transport and is dysregulated in insulin resistant muscle. However, whether Rac1 is involved in mediating enhanced...
Article
Full-text available
Chronic hypoxia leads to muscle atrophy. The molecular mechanisms responsible for this phenomenon are not well defined in vivo. We sought to determine how chronic hypoxia regulates molecular markers of protein synthesis and degradation in human skeletal muscle and whether these regulations were related to the regulation of the hypoxia-inducible fac...
Conference Paper
Full-text available
Chronic hypoxia substantially decreases skeletal muscle in physiological and pathological states. We sought to determine how chronic hypoxia regulates Hypoxia-Inducible-Factors (HIF-1α and HIF-2α) and if these regulate mTORC1 and autophagy in human skeletal muscle. Eight young male subjects lived in a hypoxic hotel for 15 days at FiO2: 14.1%. Nutr...
Article
To investigate how acute environmental hypoxia regulates blood glucose and downstream intramuscular insulin signaling after a meal in healthy humans. Fifteen subjects were exposed for 4 h to normoxia (NOR) or to normobaric hypoxia (HYP, FiO2 = 0.11) in a randomized order 40 min after consumption of a high glycemic meal. A muscle biopsy from m. vast...
Article
Full-text available
Needle biopsies are being extensively used in clinical trials addressing muscular adaptation to exercise and diet. Still, the potential artifacts due to biopsy sampling are often overlooked. Healthy volunteers (n = 9) underwent two biopsies through a single skin incision in a pretest. Two days later (posttest) another biopsy was taken 3 cm proximal...
Article
Hypoxia‐induced muscle wasting is a phenomenon often described at high altitude, which has been attributed to an altered protein metabolism. We hypothesized that acute normobaric hypoxia would favour a negative net protein balance by repressing anabolic and activating proteolytic signaling pathways at rest and post‐exercise. Twenty‐two subjects par...
Article
Full-text available
Hypoxia-induced muscle wasting is a phenomenon often described with prolonged stays at high altitude, which has been attributed to altered protein metabolism. We hypothesized that acute normobaric hypoxia would induce a negative net protein balance by repressing anabolic and activating proteolytic signaling pathways at rest and postexercise and tha...
Article
Hypoxia-induced muscle wasting has been observed in several environmental and pathological conditions. However, the molecular mechanisms behind this loss of muscle mass are far from being completely elucidated, certainly in vivo. When studying the regulation of muscle mass by environmental hypoxia, many confounding factors have to be taken into acc...

Questions

Questions (18)
Question
I want to do L-Glutamine injections in mice to check mTORC1 activation in muscle. I cannot find dose-response or time-course studies in literature. Could anyone help me out?
Question
We are doing some experiments with L-Leucine stimulation on cells. In the last two weeks, we are experiencing some problems. So does anyone know if L-Leucine (as you buy it from the company) degrades over time (at room temp?).
Question
I was wondering if there was an antibody available yet (commercially) for phospho-sestrin2 (Thr 232, Ser249 or Ser279). According to the paper attached Sestrin2 should be able to get phosphorylated, but I don't find any antibodies. Can anyone help?
Question
Does anyone have good reference papers looking at the increase in leucine concentration after a standard meal (leucine gavage) in humans and mice?
Question
All the housekeeping genes we use are changing after ischiadicus cut (severe muscle atrophy).
Question
We know that FSR plateaus at around 20g of whey (1.1 g leucine) in human skeletal muscle, but does anyone know this dose response for mTOR signaling?
Question
Pharmacological, not siRNA or others.
Question
The venous samples have been taken in normal EDTA tubes, centrifuged and then stored in -80°C. They have not been DE-proteined by perchloric acid.
Question
I've tried the novus #NB100-122, got a lot of (aspecific) bands.
Question
We want to measure MCT1 and 4 on human muscle samples by the use of western blot. On which exact kDa appears the band? Is this a little higher than the expected 42 kDa (eg 49). Information is much appreciated.
Question
What is the best way to quantify 4E-BP1 phosphorylation? We have the pThr37/46 AB, but I've also seen papers where they quantify the upper (of three bands (gamma)) band of the total form of the protein. Due to the different migration of phosphorylated isoforms.
What is the best?
Question
We recently put a couple of ML of TRIzol in plastic tubes. RNA extraction afterwards yielded contaminated RNA, indicated by a >2,4 260/280 ratio.
Is it possible that the storage of TRIzol in plastic contaminated the substance?

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