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  1. Home
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Browsing by Subject "Motor neurons"

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    In search for a gold-standard procedure to count motor neurons in the spinal cord
    (Universidad de Murcia. Departamento de Biología Celular e Histología, 2018) Ferrucci, Michela; Lazzeri, Gloria; Flaibani, Marina; Biagioni, Francesca; Cantini, Federica; Madonna, Michele; Bucci, Domenico; Limanaqi, Fiona; Soldani, Paola; Fornai, Francesco
    Counting motor neurons within the spinal cord and brainstem represents a seminal step to comprehend the anatomy and physiology of the final common pathway sourcing from the CNS. Motor neuron loss allows to assess the severity of motor neuron disorders while providing a tool to assess disease modifying effects. Counting motor neurons at first implies gold standard identification methods. In fact, motor neurons may occur within mixed nuclei housing a considerable amount of neurons other than motor neurons. In the present review, we analyse various approaches to count motor neurons emphasizing both the benefits and bias of each protocol. A special emphasis is placed on discussing automated stereology. When automated stereology does not take into account sitespecificity and does not distinguish between heterogeneous neuronal populations, it may confound data making such a procedure a sort of “guide for the perplex”. Thus, if on the one hand automated stereology improves our ability to quantify neuronal populations, it may also hide false positives/negatives in neuronal counts. For instance, classic staining for antigens such as SMI-32, SMN and ChAT, which are routinely considered to be specific for motor neurons, may also occur in other neuronal types of the spinal cord. Even site specificity within Lamina IX may be misleading due to neuronal populations having a size and shape typical of motor neurons. This is the case of spinal border cells, which often surpass the border of Lamina VII and intermingle with motor neurons of Lamina IX. The present article discusses the need to join automated stereology with a dedicated knowledge of each specific neuroanatomical setting.
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    Role of skeletal muscle in the epigenetic shaping of motor neuron fate choices
    (Murcia : F. Hernández, 2009) Angka, Heather E.; Kablar, Boris
    We study the role of muscle in the epigenetic (N.B., we use this term with the broader and more integrative meaning) shaping of developing motor neuron fate choices employing an approach based on mouse mutagenesis and pathology. The developmental role of skeletal muscle is studied in the whole mouse embryo by knocking out myogenic regulatory factors Myf5 and MyoD, to obtain an embryo without any skeletal musculature (Rudnicki et al., 1993). Our goal is to find muscle-provided trigger(s) of motor neuron death relevant to motor neuron diseases such as amyotrophic lateral sclerosis. The reason for this kind of thinking is the fact that a complete absence of lower and upper motor neurons, which is the pathological definition of amyotrophic lateral sclerosis, is only achieved in the complete absence of the muscle (Kablar and Rudnicki, 1999). Mutual embryonic inductive interactions between different tissue types and organs, between individual cell types belonging to the same or different lineages, and between various kinds of molecular players, are only some examples of the complex machinery that operates to connect genotype and phenotype. So far, our studies indicate that some aspects of this interplay can indeed be studied as proposed in this review article, suggesting the role of skeletal muscle in the epigenetic shaping of motor neuron fate choices. We will therefore continue this investigation as outlined to gain more insight into the nature of the epigenetic events that lead to the emergent properties of a phenotype.
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    The extent of ultrastructural spinal cord pathology reflects disease severity in experimental autoimmune encephalomyelitis
    (F. Hernández y Juan F. Madrid. Universidad de Murcia. Departamento de Biología Celular e Histología, 2012) Gruppe, Traugott L.; Recks, Mascha S.; Addicks, Klaus; Kuerten, Stefanie
    Experimental autoimmune encephalomyelitis (EAE) has been studied for decades as an animal model for human multiple sclerosis (MS). Here we performed ultrastructural analysis of corticospinal tract (CST) and motor neuron pathology in myelin oligodendrocyte glycoprotein (MOG) peptide 35-55- and MP4-induced EAE of C57BL/6 mice. Both models were clinically characterized by ascending paralysis. Our data show that CST and motor neuron pathology differentially contributed to the disease. In both MOG peptide- and MP4-induced EAE pathological changes in the CST were evident. While the MP4 model also encompassed severe motor neuron degeneration in terms of rough endoplasmic reticulum alterations, the presence of intracytoplasmic vacuoles and nuclear dissolution, both models showed motor neuron atrophy. Features of axonal damage covered mitochondrial swelling, a decrease in nearest neighbor neurofilament distance (NNND) and an increase of the oligodendroglial cytoplasm inner tongue. The extent of CST and motor neuron pathology was reflective of the severity of clinical EAE in MOG peptide- and MP4-elicited EAE. Differential targeting of CNS gray and white matter are typical features of MS pathology. The MOG peptide and MP4 model may thus be valuable tools for downstream studies of the mechanisms underlying these morphological disease correlates

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