Newseater - Adult Edition

Brain Res, Vol. 535, No. 2. (10 December 1990), pp. 195-204.

The distribution of granule cells in the dentate gyrus of the hippocampal formation was studied in control autopsy and temporal lobe epilepsy (TLE) specimens. In control tissue, the granule cell somata were closely approximated and formed a narrow lamina with a distinct, regular border with the molecular layer. In 11 of 15 TLE specimens, the granule cell somata were dispersed and formed a wider than normal granule cell layer. The granule cell somata extended into the molecular layer to varying extents, creating an irregular boundary between the lamina. The dispersed granule cells were frequently aligned in columns, and many of these neurons displayed elongated bipolar forms. The extent of granule cell dispersion appeared to be related to the amount of cell loss in the polymorph layer of the dentate gyrus. Granule cell dispersion was not consistently associated with granule cell loss although 5 of the 11 specimens with granule cell dispersion also showed moderate to marked granule cell loss. The most common features in the histories of the TLE cases with granule cell dispersion were severe febrile seizures or seizures associated with meningitis or encephalitis during the first 4 years of life. The dispersion of the granule cells suggests that there has been some alteration in the patterns of cell migration in a subpopulation of cases with severe TLE. The resultant ectopic positions of the granule cells could lead to changes in both the afferent and efferent connections of these neurons and, thus, contribute to the altered circuitry of the hippocampal formation in TLE.

Original post by CR Houser

Physiology (Bethesda), Vol. 19 (October 2004), pp. 253-261.

The functional relevance of adult hippocampal neurogenesis has long been a matter of intense experimentation and debate, but the precise role of new neurons has not been sufficiently elaborated. Here we propose a hypothesis in which specific features of newly generated neurons contribute to hippocampal plasticity and function and discuss the most recent and relevant findings in the context of the proposed hypothesis.

Original post by AF Schinder

The Modern Language Journal, Vol. 79, No. 1. (1995), pp. 15-28.

How do adult second language (L2) learners approach the task of vocabulary learning and what mnemonic procedures do they use to help themselves retain the lexical items that they are learning in their L2? These questions were first investigated in an exploratory study with 50 beginning and advanced English as a Second Language (ESL) learners then through four case studies of ESL learners and eight case studies of French as a Second Language learners. The research identified two distinct approaches to vocabulary learning in an L2, a structured and an unstructured approach that differed in five aspects: (a) the extent to which learners engaged in independent study, (b) the range of self-initiated learning activities in which learners engaged, (c) the extent to which learners recorded the lexical items they were learning, (d) the extent to which learners reviewed such records, and (e) the extent to which they practised using vocabulary items outside their L2 course.

Original post by Razika Sanaoui

Glia, Vol. 52, No. 4. (December 2005), pp. 289-300.

Human glial fibrillary acidic protein-delta (GFAP-delta) is a GFAP protein isoform that is encoded by an alternative splice variant of the GFAP-gene. As a result, GFAP-delta protein differs from the predominant splice form, GFAP-alpha, by its C-terminal protein sequence. In this study, we show that GFAP-delta protein is not expressed by all GFAP-expressing astrocytes but specifically by a subpopulation located in the subpial zone of the cerebral cortex, the subgranular zone of the hippocampus, and, most intensely, by a ribbon of astrocytes following the ependymal layer of the cerebral ventricles. Therefore, at least in the sub ventricular zone (SVZ), GFAP-delta specifically marks the population of astrocytes that contain the neural stem cells in the adult human brain. Interestingly, the SVZ astrocytes actively splice GFAP-delta transcripts, in contrast to astrocytes adjacent to this layer. Furthermore, we show that GFAP-delta protein, unlike GFAP-alpha, is not upregulated in astrogliosis. Our data therefore indicate a different functional role for GFAP-delta in astrocyte physiology. Finally, transfection studies showed that GFAP-delta protein expression has a negative effect on GFAP filament formation, and therefore could be important for modulating intermediate filament cytoskeletal properties, possibly facilitating astrocyte motility. Further studies on GFAP-delta and the cells that express it are important for gaining insights into its function during differentiation, migration and during health and disease.

Original post by RF Roelofs

Addictive Behaviors, Vol. 31, No. 1. (January 2006), pp. 187-190.

Accumulated studies have demonstrated that there are serious negative consequences of drug abuse, especially the impairment of central nervous system (CNS) function. The simple reaction time (SRT) is the simplest model of measuring the function of the CNS. The purpose of the present study is to examine whether the SRT is affected by heroin abuse and whether such drug effect, if exists, is gender related. We found significant slowing of the SRT in both male and female heroin dependent patients at 1-3 months from withdrawal. However, the SRT slowing remitted after 3 months of abstinence in heroin dependent males but not in females. Our results suggested that the SRT is slowed by heroin abuse and such slowing is gender related.

Original post by Ning Liu