We have analyzed free chiral amino acids (aspartate and serine) in the human frontal cortex at different ontogenic stages (from 14 weeks of gestation to 101 years of age) by HPLC with fluorometric detection after derivatization with N-tert-butyl-oxycarbonyl-L-cysteine and o-phthaldialdehyde. Exceptionally high levels of free D-aspartate and D-serine were demonstrated in the fetal cortex at gestational week 14. The ratios of D-aspartate and of D-serine to the total corresponding amino acids were also high, at 0.63 and 0.27, respectively. The concentration of D-aspartate dramatically decreased to a trace level by gestational week 41 and then remained very low during all postnatal stages. In contrast, the frontal tip contained persistently high levels of D-serine throughout embryonic and postnatal life, whereas the D-amino acid content in adolescents and aged individuals was about half of that in the fetuses. Because D-aspartate and D-serine are known to have selective actions at the NMDA-type excitatory amino acid receptor, the present data suggest that these D-amino acids might play a pivotal role in cerebral development and functions that are related to the NMDA receptor.
Pelizaeus‐Merzbacher disease (PMD) is an X‐linked disorder characterized by dysmyelination of the central nervous system (CNS) caused by mutations involving the proteolipid protein gene (PLP). In addition to point and frameshift mutations in the coding region, duplications involving the entire PLP have been recognized recently as a major genetic abnormality causing PMD. We devised an interphase fluorescence in situ hybridization (FISH) assay to establish an efficient screening test for PLP duplication. Thirteen patients from 11 Japanese PMD families were determined to have PLP duplications. This molecular diagnostic FISH test also readily detected female carriers. Molecular analysis revealed that the size of the duplication and location of the breakpoints showed striking variation. Fiber FISH demonstrated that the duplication is tandem in nature. Haplotype analysis indicated an intrachromosomal origin for the duplication. These results suggest that an unequal sister chromatid exchange in male meiosis is likely to be the major mechanism leading to the formation of the duplication. Patients with the duplication commonly present with a mild PMD phenotype. Two patients with an exceptionally severe clinical phenotype carried large duplications, suggesting that either the larger duplicated segment incorporates additional dosage‐sensitive genes or that the location of the duplication junction may affect the phenotype. Ann Neurol 1999;45:624–632
ABSTRACT. Mental retardation and dementia characteristic of Down's syndrome (DS) have a complex pathogenesis. Golgi and immunohistochemical studies were done on DS patients and controls from foetuses and elderly adults. Golgi studies on the cerebral cortex revealed that the postsynaptic spines on the basal dendrites increase from neonate to 15 years of age and gradually decrease after 20 years in controls, but poorly increase in children and rapidly decrease in adults with DS. This deficient synaptogenesis and dendritic atrophy may be related to mental retardation. On the other hand, immunohistochem‐istry on proteins, whose genes are located on chromosome 21, revealed that c‐temiinal protein of beta‐amyloid appears in neurons of DS, S‐100‐positive glia increases in the hippocampus of neonates and adults, and membrane protein OK‐2 is expressed earlier and is more widespread in the DS brains. The overexpression and early appearance of gene products in DS brains may be related to the pathogenesis of or predisposition to mental disorders or to dendritic hypogenesis.
The clinical data and development of 8 cases with subependymal cysts detected on neurosonography in the neonatal period were studied, and the prognosis was found to vary. Also, clinico-pathological examination of 15 autopsied cases of congenital subependymal cysts (SEC) was performed, with immunohistochemical staining involving neuron-specific enolase in three cases, which revealed that congenital SEC are often complicated by various degrees of brain and heart anomalies, and suggested that SEC might occur in a wide gestational age range, with various causes. Therefore, it is important in the future to determine the agents which cause destruction of the subependymal germinal matrix.
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