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Gut bacteria are critical for optimal muscle function: a potential link with glucose homeostasis

Nay, Kevin ; Jollet, Maxence ; Goustard, Benedicte ; [et al.]

American Physiological Society ; 2019

In: American Journal of Physiology-Endocrinology and Metabolism Vol. 317, No. 1 ( 2019-07-01), p. E158-E171

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In: American Journal of Physiology-Endocrinology and Metabolism, American Physiological Society, Vol. 317, No. 1 ( 2019-07-01), p. E158-E171

Abstract: Gut microbiota is involved in the development of several chronic diseases, including diabetes, obesity, and cancer, through its interactions with the host organs. It has been suggested that the cross talk between gut microbiota and skeletal muscle plays a role in different pathological conditions, such as intestinal chronic inflammation and cachexia. However, it remains unclear whether gut microbiota directly influences skeletal muscle function. In this work, we studied the impact of gut microbiota modulation on mice skeletal muscle function and investigated the underlying mechanisms. We determined the consequences of gut microbiota depletion after treatment with a mixture of a broad spectrum of antibiotics for 21 days and after 10 days of natural reseeding. We found that, in gut microbiota-depleted mice, running endurance was decreased, as well as the extensor digitorum longus muscle fatigue index in an ex vivo contractile test. Importantly, the muscle endurance capacity was efficiently normalized by natural reseeding. These endurance changes were not related to variation in muscle mass, fiber typology, or mitochondrial function. However, several pertinent glucose metabolism markers, such as ileum gene expression of short fatty acid chain and glucose transporters G protein-coupled receptor 41 and sodium-glucose cotransporter 1 and muscle glycogen level, paralleled the muscle endurance changes observed after treatment with antibiotics for 21 days and reseeding. Because glycogen is a key energetic substrate for prolonged exercise, modulating its muscle availability via gut microbiota represents one potent mechanism that can contribute to the gut microbiota-skeletal muscle axis. Taken together, our results strongly support the hypothesis that gut bacteria are required for host optimal skeletal muscle function.

Type of Medium: Online Resource

ISSN: 0193-1849 , 1522-1555

URL: Article

DOI: 10.1152/ajpendo.00521.2018

Language: English

Publisher: American Physiological Society

Publication Date: 2019

detail.hit.zdb_id: 1477331-4

SSG: 12

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A survey of genetic and epigenetic variation affecting human gene expression

Pastinen, Tomi ; Sladek, Robert ; Gurd, Scott ; [et al.]

American Physiological Society ; 2004

In: Physiological Genomics Vol. 16, No. 2 ( 2004-01-15), p. 184-193

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In: Physiological Genomics, American Physiological Society, Vol. 16, No. 2 ( 2004-01-15), p. 184-193

Abstract: The identification of human sequence polymorphisms that regulate gene expression is key to understanding human genetic diseases. We report a survey of human genes that demonstrate allelic differences in gene expression, reflecting the presence of putative allele-specific cis-acting factors of either genetic or epigenetic nature. The expression of allelic transcripts in heterozygous samples is assessed directly by relative quantitation of intragenic marker alleles in messenger or heteronuclear RNA derived from cells or tissues. This survey used 193 single-nucleotide polymorphisms (SNPs) from 129 genes expressed in lymphoblastoid cell lines, to identify 23 genes (18%) with common allele-specific transcripts whose expression deviated from the expected equimolar ratio. A subset of these deviations, or “allelic imbalances,” can be observed in multiple samples derived from reference CEPH (“Centre d’Etude du Polymorphisme Humain”) pedigrees and demonstrate a spectrum of patterns of transmission, including cosegregation of allelic skewing across generations compatible with Mendelian inheritance as well as random monoallelic expression for three genes ( IL1A, HTR2A, and FGB). Additional studies for BTN3A2 provide evidence of SNPs and haplotypes in complete linkage disequilibrium with high- and low-expressing transcripts. The pipeline described herein offers tools for efficient identification and characterization of allelic expression allowing identification of regulatory sequence variants as well as epigenetic variation affecting human gene expression.

Type of Medium: Online Resource

ISSN: 1094-8341 , 1531-2267

URL: Article

DOI: 10.1152/physiolgenomics.00163.2003

Language: English

Publisher: American Physiological Society

Publication Date: 2004

detail.hit.zdb_id: 2031330-5

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Mast cells can modulate leukocyte accumulation and skeletal muscle function following hindlimb unloading

Dumont, Nicolas ; Lepage, Katherine ; Côté, Claude H. ; [et al.]

American Physiological Society ; 2007

In: Journal of Applied Physiology Vol. 103, No. 1 ( 2007-07), p. 97-104

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In: Journal of Applied Physiology, American Physiological Society, Vol. 103, No. 1 ( 2007-07), p. 97-104

Abstract: Rodent hindlimb suspension is widely used to induce inflammation and muscle impairment. We set out to define the role of mast cells in neutrophil and macrophage recruitment and muscle recovery after unloading-reloading. We hypothesized that mechanical perturbation would stimulate release of proinflammatory substances by mast cells, which would influence leukocyte recruitment and muscle function. Rats were suspended for 10 days and injected with a mast cell inhibitor (cromolyn) or stimulator (compound 48/80) or a placebo before reloading. Leukocyte accumulation and muscle function were assessed using immunohistological staining and measurements of contractile properties in vitro. Our results showed that mechanical loading activated mast cells, thereby influencing leukocyte recruitment in the early reloading periods. Indeed, the inhibition of mast cell degranulation significantly reduced the number of neutrophil cell profiles in reloaded soleus muscle, whereas mast cell activation provoked a significant increase in the number of neutrophil cell profiles in uninjured muscle. However, the inhibition of mast cell degranulation also led to a significant increase in the number of ED1 + macrophage cell profiles. These perturbations in the inflammatory response caused by mast cell inhibition induced a short protective effect on the loss of muscle force after 1 day of reloading but delayed the return to the normal contractile properties of muscles after 14 days of reloading. These results indicate that mechanical loading can induce mast cell degranulation, which can influence leukocyte influx and muscle function, and also highlighted the possibility that leukocytes may play a dual role in skeletal muscles.

Type of Medium: Online Resource

ISSN: 8750-7587 , 1522-1601

URL: Article

DOI: 10.1152/japplphysiol.01132.2006

RVK:

WA 15000

RVK:

XA 52094

Language: English

Publisher: American Physiological Society

Publication Date: 2007

detail.hit.zdb_id: 1404365-8

SSG: 12

SSG: 31

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