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Query: UMLS:C0004134 (
ataxia
)
15,886
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Recent advances in the field of molecular myology have provided significant insight into the pathological mechanisms underlying a variety of neuromuscular disorders. Genetic abnormalities can now be linked to primary and secondary pathophysiological changes in muscle fibres which compromise structural, metabolic, regulatory or contractile mechanisms. Ion channel myopathies such as paramyotonia congenita, hyper- and hypokalaemic periodic paralysis, myotonia congenita, episodic
ataxia
and malignant hyperthermia were established as linked to mutations in genes encoding the sodium channel, dihydropyridine receptor, chloride channel, potassium channel and the
ryanodine receptor
calcium release channel, respectively. Metabolic disorders affecting skeletal muscle were found to be due to deficiencies in a variety of enzymes. Identification of defects in components belonging to the gigantic dystrophin-glycoprotein complex led to the discovery of the molecular pathogenesis of Duchenne muscular dystrophy and related disorders. Based on these molecular findings, it is now feasible to design and evaluate new techniques such as gene and myoblast transfer therapy in order to replace defective components in diseased muscle fibres.
...
PMID:[Molecular pathogenesis of muscular diseases]. 903 37
A fundamental question in brain development is how neurons make the precise topographic connections necessary for function. The hypothesis that transient expression of calcium (Ca2+) signaling molecules may have a role in this process was tested by studying human cerebella at midgestation. In addition, four adult brains, two controls and two from patients with
ataxia
, were studied as well. The temporal and spatial distribution of intracellular Ca2+ channel/receptors, inositol trisphosphate receptor type 1 (IP3R1) and
ryanodine receptor
(RyR) and three Ca2+ binding proteins were examined with immunocytochemical methods. A positive immune reaction with all markers of Ca2+ signaling was found in the Purkinje cell layer starting from 17 g.w. (gestational weeks), the youngest age studied. The immune reactions were not homogeneous throughout the extent of the Purkinje cell layer, but instead displayed a 'patchy' appearance in all intrauterine stages. In the adult cerebellum the expression of Ca2+ signaling molecules was homogenous. In the two cerebella obtained from patients suffering from
ataxia
, a several-fold reduction of immunostaining with IP3R1 was found. Our findings suggest that transient and differential mobilization of intracellular Ca2+ in seemingly homogenous neuronal types may play a role in development of highly organized projection maps of the cerebellar cortex. Moreover, lack of IP3R1 in the diseased brains suggests that internal stores of Ca2+ play an important role in normal function of the cerebellum.
...
PMID:Calcium signaling molecules in human cerebellum at midgestation and in ataxia. 1021 89
The calcium ion is one of the most versatile, ancient, and universal of biological signaling molecules, known to regulate physiological systems at every level from membrane potential and ion transporters to kinases and transcription factors. Disruptions of intracellular calcium homeostasis underlie a host of emerging diseases, the calciumopathies. Cytosolic calcium signals originate either as extracellular calcium enters through plasma membrane ion channels or from the release of an intracellular store in the endoplasmic reticulum (ER) via inositol triphosphate receptor and
ryanodine receptor
channels. Therefore, to a large extent, calciumopathies represent a subset of the channelopathies, but include regulatory pathways and the mitochondria, the major intracellular calcium repository that dynamically participates with the ER stores in calcium signaling, thereby integrating cellular energy metabolism into these pathways, a process of emerging importance in the analysis of the neurodegenerative and neuropsychiatric diseases. Many of the calciumopathies are common complex polygenic diseases, but leads to their understanding come most prominently from rare monogenic channelopathy paradigms. Monogenic forms of common neuronal disease phenotypes-such as seizures,
ataxia
, and migraine-produce a constitutionally hyperexcitable tissue that is susceptible to periodic decompensations. The gene families and genetic lesions underlying familial hemiplegic migraine, FHM1/CACNA1A, FHM2/ATP1A2, and FHM3/SCN1A, and monogenic mitochondrial migraine syndromes, provide a robust platform from which genes, such as CACNA1C, which encodes the calcium channel mutated in Timothy syndrome, can be evaluated for their role in autism and bipolar disease.
...
PMID:Genetic calcium signaling abnormalities in the central nervous system: seizures, migraine, and autism. 1915 21
