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  1. Article ; Online: Microgenomic analysis in skeletal muscle

    Francesco Chemello / Camilla Bean / Pasqua Cancellara / Paolo Laveder / Carlo Reggiani / Gerolamo Lanfranchi

    PLoS ONE, Vol 6, Iss 2, p e

    expression signatures of individual fast and slow myofibers.

    2011  Volume 16807

    Abstract: BACKGROUND: Skeletal muscle is a complex, versatile tissue composed of a variety of functionally diverse fiber types. Although the biochemical, structural and functional properties of myofibers have been the subject of intense investigation for the last ... ...

    Abstract BACKGROUND: Skeletal muscle is a complex, versatile tissue composed of a variety of functionally diverse fiber types. Although the biochemical, structural and functional properties of myofibers have been the subject of intense investigation for the last decades, understanding molecular processes regulating fiber type diversity is still complicated by the heterogeneity of cell types present in the whole muscle organ. METHODOLOGY/PRINCIPAL FINDINGS: We have produced a first catalogue of genes expressed in mouse slow-oxidative (type 1) and fast-glycolytic (type 2B) fibers through transcriptome analysis at the single fiber level (microgenomics). Individual fibers were obtained from murine soleus and EDL muscles and initially classified by myosin heavy chain isoform content. Gene expression profiling on high density DNA oligonucleotide microarrays showed that both qualitative and quantitative improvements were achieved, compared to results with standard muscle homogenate. First, myofiber profiles were virtually free from non-muscle transcriptional activity. Second, thousands of muscle-specific genes were identified, leading to a better definition of gene signatures in the two fiber types as well as the detection of metabolic and signaling pathways that are differentially activated in specific fiber types. Several regulatory proteins showed preferential expression in slow myofibers. Discriminant analysis revealed novel genes that could be useful for fiber type functional classification. CONCLUSIONS/SIGNIFICANCE: As gene expression analyses at the single fiber level significantly increased the resolution power, this innovative approach would allow a better understanding of the adaptive transcriptomic transitions occurring in myofibers under physiological and pathological conditions.
    Keywords Medicine ; R ; Science ; Q
    Subject code 572
    Language English
    Publishing date 2011-01-01T00:00:00Z
    Publisher Public Library of Science (PLoS)
    Document type Article ; Online
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

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  2. Article ; Online: Transcriptomic Analysis of Single Isolated Myofibers Identifies miR-27a-3p and miR-142-3p as Regulators of Metabolism in Skeletal Muscle

    Francesco Chemello / Francesca Grespi / Alessandra Zulian / Pasqua Cancellara / Etienne Hebert-Chatelain / Paolo Martini / Camilla Bean / Enrico Alessio / Lisa Buson / Martina Bazzega / Andrea Armani / Marco Sandri / Ruggero Ferrazza / Paolo Laveder / Graziano Guella / Carlo Reggiani / Chiara Romualdi / Paolo Bernardi / Luca Scorrano /
    Stefano Cagnin / Gerolamo Lanfranchi

    Cell Reports, Vol 26, Iss 13, Pp 3784-3797.e

    2019  Volume 8

    Abstract: Summary: Skeletal muscle is composed of different myofiber types that preferentially use glucose or lipids for ATP production. How fuel preference is regulated in these post-mitotic cells is largely unknown, making this issue a key question in the fields ...

    Abstract Summary: Skeletal muscle is composed of different myofiber types that preferentially use glucose or lipids for ATP production. How fuel preference is regulated in these post-mitotic cells is largely unknown, making this issue a key question in the fields of muscle and whole-body metabolism. Here, we show that microRNAs (miRNAs) play a role in defining myofiber metabolic profiles. mRNA and miRNA signatures of all myofiber types obtained at the single-cell level unveiled fiber-specific regulatory networks and identified two master miRNAs that coordinately control myofiber fuel preference and mitochondrial morphology. Our work provides a complete and integrated mouse myofiber type-specific catalog of gene and miRNA expression and establishes miR-27a-3p and miR-142-3p as regulators of lipid use in skeletal muscle. : Chemello et al. characterize coding mRNAs and non-coding microRNAs expressed by myofibers of hindlimb mouse muscles, identifying complex interactions between these molecules that modulate mitochondrial functions and muscle metabolism. They demonstrate that specific short non-coding RNAs influence the contractile fiber composition of skeletal muscles by modulating muscle metabolism. Keywords: single myofiber, skeletal muscle metabolism, mitochondria, miRNAs, lipids
    Keywords Biology (General) ; QH301-705.5
    Language English
    Publishing date 2019-03-01T00:00:00Z
    Publisher Elsevier
    Document type Article ; Online
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

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  3. Article ; Online: P6.20 ROLE OF ALTERED VASCULAR REACTIVITY IN THE PATHOPHYSIOLOGY OF ACUTE MOUNTAIN SICKNESS

    Rosa Maria Bruno* / Guido Giardini / Sandro Malacrida / Bruna Catuzzo / Sabina Armenia / Lorenzo Ghiadoni / Raffaele Brustia / Paolo Laveder / Paolo Salvi / Emmanuel Cauchy / Lorenza Pratali

    Artery Research, Vol

    2015  Volume 12

    Abstract: Purpose: The aim of this study is to explore the physiological vascular adaptation to exposure to high altitude and to test the hypothesis that its impairment might play a role in the pathophysiology of acute mountain sickness (AMS). Methods: 34 healthy ... ...

    Abstract Purpose: The aim of this study is to explore the physiological vascular adaptation to exposure to high altitude and to test the hypothesis that its impairment might play a role in the pathophysiology of acute mountain sickness (AMS). Methods: 34 healthy volunteers (age 38±11years, 13 women) were studied at the sea-level and after passive ascent to 3842 m (Aguille du Midi, France). Blood pressure (BP), O2 saturation (SO2), endothelial function (flow-mediated dilation, FMD), carotid distensibility coefficient (DC), carotid-femoral pulse wave velocity (PWV), peak systolic velocity in the middle cerebral artery (MCA-PSV) were performed at sea level (T0) and after 4-h hypobaric hypoxia (T1). AMS was defined as a Lake-Louise Score>5 after 24-h hypobaric hypoxia (T2). Results: At T2 12 individuals developed AMS (AMS+). AMS+ had a greater SO2 worsening at T1 as compared to AMS- (AMS+: 97.2±1.2 to 79.3±5.8%; AMS-: 97.3±1.2 to 83.1 ± 5.7%, p=0.03), with similar heart rate increase and unchanged BP. FMD was significantly reduced in AMS+ (5.75±3.01 to 3.27±1.87%, p=0.04), but not in AMS- (4.74±2.47 to 4.02±2.36%). Mean carotid diameter was increased at T1 in both groups. DC tended to be increased in AMS- but not in AMS+, while PWV was unchanged. MCA-PSV was increased in AMS-, but not in AMS+. Conclusions: In healthy asymptomatic individuals exposed to high altitude, conduit artery endothelial function is preserved in the cerebral district vasodilatation, increased elasticity and blood flow occurs. This compensatory response is early blunted in AMS+, before symptoms onset, thus suggesting a pathogenetic role.
    Keywords Specialties of internal medicine ; RC581-951 ; Diseases of the circulatory (Cardiovascular) system ; RC666-701
    Subject code 610
    Language English
    Publishing date 2015-11-01T00:00:00Z
    Publisher BMC
    Document type Article ; Online
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

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