Neuroscience
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Neurons in the central nervous system regulate their intracellular pH using particular membrane proteins of which two, namely the Na+-dependent Cl-/HCO3- exchanger and the Na+/H+ exchanger, are essential. In this study we examined messenger RNA expression and distribution of Na+/H+ exchanger in the newborn rat central nervous system and with maturation using Northern blot analysis and in situ hybridization. Our study clearly shows that each Na+/H+ exchanger has a different expression pattern in the rat central nervous system. ⋯ The messenger RNA for Na+/H+ exchanger 3, however, increased its level with age in cerebellum. From our data we conclude that: i) the expression of the Na+/H+ exchanger is age-, region-, and subtype-specific, with Na+/H+ exchanger 1 being the most prevalent in the rat central nervous system; ii) specialization of groups of neurons with respect to the type of Na+/H+ exchanger is clearly illustrated by Na+/H+ exchanger 3 which is almost totally localized in cerebellar Purkinje cells; and iii) the developmental increase in the messenger RNA for Na+/H+ exchanger 1 in the cerebral cortex and hippocampus is consistent with our previous studies on intracellular pH physiology in neonatal and mature neurons. Together this study indicates that expression of each Na+/H+ exchanger messenger RNA is differentially regulated both during development and in the different regions of rat central nervous system.
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Impairment in energy metabolism is thought to be involved in the aetiology of Huntington's disease. In line with this hypothesis, chronic systemic administration of the mitochondrial toxin 3-nitropropionic acid to rats and monkeys produces selective striatal lesions similar to Huntington's disease. The present study examined whether rats treated with varying regimen of 3-nitropropionic acid could present motor abnormalities reminiscent of Huntington's disease symptomatology, correlated with Huntington's disease specific striatal symptomatology. ⋯ In these chronic animals, the degree of striatal neuronal loss was significantly correlated with the severity of spontaneous motor abnormalities, as is the case in Huntington's disease. The present study demonstrates that chronic low-dose 3-nitropropionic acid treatment in rats results in a valuable model of both the histological features and motor deficits which occur in Huntington's disease. Despite the interanimal variability in terms of response to 3-nitropropionic acid treatment, this rat model may be particularly useful for evaluating the functional benefits of new therapeutic strategies for Huntington's disease, particularly those aiming to reduce the severity of motor symptoms.