Antonio Musaro'

Pubblicazioni

Titolo Pubblicato in Anno
Measuring and modelling nonlinear elasticity of ex vivo mouse muscles JOURNAL OF HEALTHCARE ENGINEERING 2021
Optimal force evaluation for isotonic fatigue characterization in mouse Tibialis Anterior muscle IEEE Medical Measurements and Applications, MeMeA 2020 - Conference Proceedings 2020
FoxO maintains a genuine muscle stem-cell quiescent state until geriatric age NATURE CELL BIOLOGY 2020
Sam68 splicing regulation contributes to motor unit establishment in the postnatal skeletal muscle LIFE SCIENCE ALLIANCE 2020
Mechanisms Regulating Muscle Regeneration: Insights into the Interrelated and Time-Dependent Phases of Tissue Healing CELLS 2020
Muscle Homeostasis and Regeneration: From Molecular Mechanisms to Therapeutic Opportunities CELLS 2020
Neuromuscular magnetic stimulation counteracts muscle decline in ALS patients: results of a randomized, double-blind, controlled study SCIENTIFIC REPORTS 2019
Measuring the maximum power of an ex vivo engineered muscle tissue with isovelocity shortening technique IEEE TRANSACTIONS ON INSTRUMENTATION AND MEASUREMENT 2019
Effects of IGF-1 isoforms on muscle growth and sarcopenia AGING CELL 2019
nNOS/GSNOR interaction contributes to skeletal muscle differentiation and homeostasis CELL DEATH & DISEASE 2019
An overview about the biology of skeletal muscle satellite cells CURRENT GENOMICS 2019
Signals from the niche: insights into the role of IGF-1 and IL-6 in modulating skeletal muscle fibrosis CELLS 2019
Neuromuscular junction as an entity of nerve-muscle communication CELLS 2019
Elucidating the contribution of skeletal muscle ion channels to amyotrophic lateral sclerosis in search of new therapeutic options SCIENTIFIC REPORTS 2019
Detection of the strains induced in murine tibias by ex vivo uniaxial loading with different sensors SENSORS 2019
Increased Circulating Levels of Interleukin-6 Affect the Redox Balance in Skeletal Muscle OXIDATIVE MEDICINE AND CELLULAR LONGEVITY 2019
Chemotherapeutic agent 5-fluorouracil increases survival of SOD1 mouse model of ALS PLOS ONE 2019
Counteracting sarcopenia: The role of IGF-1 isoforms AGING 2019
The physiopathologic role of oxidative stress in skeletal muscle MECHANISMS OF AGEING AND DEVELOPMENT 2018
Muscle expression of SOD1(G93A) triggers the dismantlement of neuromuscular junction via PKC-theta ANTIOXIDANTS & REDOX SIGNALING 2018

ERC

  • LS3_1
  • LS3_12
  • LS3_13
  • LS3_14

KET

  • Life-science technologies & biotechnologies

Interessi di ricerca

The general aim of our projects involves the characterization of cellular, molecular and functional aspects of muscle homeostasis and regeneration.

Specifically, our research focuses in three areas:

(1) Define the signals from the niche to improve muscle regeneration.

Muscle tissue possesses a stem cell compartment; nevertheless it is not clear why it fails to regenerate under pathological conditions. Either the resident stem cells are too rare or intrinsically incapable of repairing major damage, or perhaps the injured/pathological tissue is a prohibitive environment for stem cell activation and function. Our project aims to address this critical issue in sarcopenic muscle and different muscle diseases.

(2) The physiopathologic interplay between muscle and nerve.

The effective connection between muscle and nerve is crucial to the capacity of both partners to survive and function adequately throughout life. A crucial system severely affected in several neuromuscular diseases is the loss of effective connection between muscle and nerve, leading to a pathological non-communication between the two tissues.  One of the best examples of impaired interplay between the nerve and muscle is observed in ALS. ALS is a disorder involving degeneration of motor neurons, muscle atrophy and paralysis. Whereas the steps leading to the pathological state are well characterized, several fundamental issues are still controversial: are the motor neurons the first and only targets of ALS? What is the contribution of muscle, if any, to the pathogenesis of ALS? These questions raised from the following considerations: i) ALS is a disease of genetic origin in which the contribution of cells and tissues other than neuronal cannot been excluded; ii) skeletal muscle, always considered just a target of the disease, is a relatively unexamined tissue that potentially directly contributes to ALS. Thus, analyzing the retrograde-talk muscle-to-nerve could be extremely important to determine if and to what degree muscle plays a role in the progression of the pathology and to develop alternative therapeutic approaches. 

(3) Muscle engineered in vitro model to study muscle homeostasis and differentiation

In our laboratory it has been recently developed a 3-dimensional skeletal muscle construct, called eX-vivo Muscle engineered Tissue (X-MET), which mimics the complex morphological properties of skeletal muscle tissue and it represents  an ideal in vitro model of skeletal muscle, simplifying the study of complex processes such as muscle homeostasis and response to drug treatment,  under physiologic and pathologic conditions.

Keywords

Adult stem cells
3D skeletal muscle models
NMJ
cardiac regeneration

Gruppi di ricerca

Gruppi di ricerca - Responsabile

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