Investigación > Neurociencias

Patología neuromuscular experimental

Número de publicaciones
46
Buscador de publicaciones
  • Altés, G; Olomí, A; Perramon-Guell, A; Hernandez, S; CASANOVAS, A; Perez, A; Diaz-Tocados, JM; Valdivielso, JM; Megino, C; Navaridas, R; Matias-Guiu, X; Klein, OD; Egea, J; Dolcet, X; Yeramian, A; Encinas, M

    Multiple endocrine defects in adult-onset Sprouty1/2/4 triple knockout mice

    SCIENTIFIC REPORTS 14 -. .

    [doi:10.1038/s41598-024-70529-w]

  • Hernández, S; Salvany, S; CASANOVAS, A; PIEDRAFITA, L; Soto-Bernardini, MC; Tarabal, O; Blasco, A; Gras, S; Gatius, A; Schwab, MH; Calderó, J; ESQUERDA, JE

    Persistent NRG1 Type III Overexpression in Spinal Motor Neurons Has No Therapeutic Effect on ALS-Related Pathology in SOD1G93A Mice

    NEUROTHERAPEUTICS 20 1820-1834. .

    [doi:10.1007/s13311-023-01424-x]

  • Corral-Pujol, M; Arpa, B; Rosell-Mases, E; Egia-Mendikute, L; Mora, C; Stratmann, T; Sanchez, A; Casanovas, A; Esquerda, JE; Mauricio, D; Vives-Pi, M; Verdaguer, J

    NOD mouse dorsal root ganglia display morphological and gene expression defects before and during autoimmune diabetes development.

    Frontiers in Endocrinology 14 1176566-1176566. .

    [doi:10.3389/fendo.2023.1176566]

  • Sansa, A; Miralles, MP; Beltran, M; Celma-Nos, F; Caldero, J; Garcera, A; Soler, RM

    ERK MAPK signaling pathway inhibition as a potential target to prevent autophagy alterations in Spinal Muscular Atrophy motoneurons.

    Cell Death Discovery 9 113-113. .

    [doi:10.1038/s41420-023-01409-x]

  • Salvany, S; Casanovas, A; Piedrafita, L; Gras, S; Caldero, J; Esquerda, JE

    Accumulation of misfolded SOD1 outlines distinct patterns of motor neuron pathology and death during disease progression in a SOD1(G93A) mouse model of amyotrophic lateral sclerosis.

    BRAIN PATHOLOGY 32 -. .

    [doi:10.1111/bpa.13078]

  • Franco-Espin, J; Gatius, A; Armengol, JA; Arumugam, S; Moradi, M; Sendtner, M; Caldero, J; Tabares, L

    SMN Is Physiologically Downregulated at Wild-Type Motor Nerve Terminals but Aggregates Together with Neurofilaments in SMA Mouse Models.

    Biomolecules 12 -. .

    [doi:10.3390/biom12101524]

  • Gras S; Blasco A; Modol-Caballero, G; Tarabal O; Casanovas A; Piedrafita L; Barranco A; Das T; Rueda R; Pereira SL; Navarro X; Esquerda JE; Calderó J

    Beneficial effects of dietary supplementation with green tea catechins and cocoa flavanols on aging-related regressive changes in the mouse neuromuscular system

    Aging-US 13 18051-18093. .

    [doi:10.18632/aging.203336]

  • Gras, S; Blasco, A; Modol-Caballero, G; Tarabal, O; CASANOVAS, A; PIEDRAFITA, L; Barranco, A; Das, T; Salvany, S; Gatius, A; Pereira, SL; Navarro, X; Rueda, R; ESQUERDA, JE; CALDERO, J

    Motoneuron deafferentation and neuroinflammation in association with aging in the spinal cord of C57BL/6J mice.

    Glia 69 474-475. .

  • Salvany, S; CASANOVAS, A; PIEDRAFITA, L; Gras, S; Blasco, A; Gatius, A; Tarabal, O; Hernandez, S; CALDERO, J; ESQUERDA, JE

    Necroptosis and microglial phagocytosis of extracellular vesicles as an early mechanisms involved in the disruption of afferent synaptic terminals on spinal cord motor neurons after acute peripheral nerve injury

    Glia 69 317-318. .

  • Salvany S; Casanovas A; Piedrafita L; Tarabal O; Hernández S; Calderó J; Esquerda JE

    Microglial recruitment and mechanisms involved in the disruption of afferent synaptic terminals on spinal cord motor neurons after acute peripheral nerve injury.

    Glia 69 1216-1240. .

    [doi:10.1002/glia.23959]

  • Blasco, A; Gras, S; Mòdol-Caballero G; Tarabal, O; Casanovas, A; Piedrafita, L; Barranco, A; Das, T; Pereira, SL; Navarro, X; Rueda, R; Esquerda, JE; Caldero, J

    Motoneuron deafferentation and gliosis occur in association with neuromuscular regressive changes during ageing in mice.

    Journal of Cachexia Sarcopenia and Muscle 11 1628-1660. .

    [doi:10.1002/jcsm.12599]

  • Berciano, MT; Puente-Bedia, A; Medina-Samame, A; Rodriguez-Rey, JC; Caldero, J; Lafarga, M; Tapia, O

    Nusinersen ameliorates motor function and prevents motoneuron Cajal body disassembly and abnormal poly(A) RNA distribution in a SMA mouse model.

    SCIENTIFIC REPORTS 10 10738-10738. .

    [doi:10.1038/s41598-020-67569-3]