Viola von Bohlen und Halbach scite author profile

Neurotrophins, including brain-derived neurotrophic factor (BDNF), are expressed in the hippocampus, as well as their precursors, the pro-neurotrophins. The neurotrophins signal through specific tyrosine kinase receptors and the low affinity receptor p75NTR. Moreover, the pro-neurotrophins are considered to be biologically active by signaling through specific receptors. The neurotrophins, especially BDNF, are involved in processes related to learning and memory. Furthermore, it is thought that BDNF also plays a crucial role in major depression. This points to a role of BDNF as a central regulator of neuronal plasticity within the postnatal hippocampus. Morphological correlates of neuronal plasticity are changes on the level of the dendritic spines and, at least in the dentate gyrus of the hippocampus, on the level of adult neurogenesis. Specific changes in dendritic spines as well as in adult hippocampal neurogenesis can be seen in the context of several forms of learning and memory, and it is known that depression is accompanied by declines in the rate of adult neurogenesis and in spine densities. The possible roles of BDNF in neuronal plasticity within the hippocampus are highlighted in this review by focusing on the morphological components of neuronal plasticity.

show abstract

Implications of p75NTR for dentate gyrus morphology and hippocampus-related behavior revisited

Dokter

Busch

Poser

et al. 2014

Brain Struct Funct

View full text Add to dashboard Cite

The pan-neurotrophin receptor p75NTR is expressed in the adult brain in a discrete pattern. Although numerous studies have addressed its implications for hippocampal functions, the generated sets of data are surprisingly conflicting. We have therefore set out to re-investigate the impact of a deletion of the full-length p75NTR receptor on several parameters of the dentate gyrus (DG), including neurogenesis and hippocampus-related behavior by using p75NTR(ExIII) knockout mice. Moreover, we investigated further parameters of the DG (cholinergic innervation, dendritic spines). In addition, we analyzed on the morphological level the impact of aging by comparing adult and aged p75NTR(ExIII) mice and their age-matched littermates. Adult (4-6 months old), but not aged (20 months old), p75NTR(ExIII) knockout mice display an enhanced volume of the DG. However, adult neurogenesis within the adult DG was unaffected in both adult and aged p75NTR(ExIII) knockout mice. We could further demonstrate that the change in the volume of the DG was accompanied by an increased cholinergic innervation and increased spine densities of granule cells in adult, but not aged p75NTR deficient mice. These morphological changes in the adult p75NTR deficient mice were accompanied by specific alterations in their behavior, including altered behavior in the Morris water maze test, indicating impairments in spatial memory retention.

show abstract

A mouse model for intellectual disability caused by mutations in the X-linked 2′‑O‑methyltransferase Ftsj1 gene

Jensen

Garrett

Hölter

et al. 2019

Biochimica et Biophysica Acta (BBA) - Molecular Basis of Diseas

View full text Add to dashboard Cite

Impact of a deletion of the full-length and short isoform of p75NTR on cholinergic innervation and the population of postmitotic doublecortin positive cells in the dentate gyrus

et al. 2015

View full text Add to dashboard Cite

Analyses of mice carrying a deletion of the pan-neurotrophin receptor p75NTR have allowed identifying p75NTR as an important structural regulator of the hippocampus. Most of the previous analyses were done using p75NTRExIII knockout mice which still express the short isoform of p75NTR. To scrutinize the role of p75NTR in the hippocampus, we analyzed adult and aged p75NTRExIV knockout mice, in which both, the short and the full-length isoform are deleted. Deletion of these isoforms induced morphological alterations in the adult dentate gyrus (DG), leading to an increase in the thickness of the molecular and granular layer. Based on these observations, we next determined the morphological substrates that might contribute to this phenotype. The cholinergic innervation of the molecular and granular layer of the DG was found to be significantly increased in the knockout mice. Furthermore, adult neurogenesis in the DG was found to be significantly altered with increased numbers of doublecortin (DCX) positive cells and reduced numbers of apoptotic cells in p75NTRExIV knockout mice. However, cell proliferation as measured by phosphohiston H3 (PH3) positive cell numbers was not affected. These morphological alterations (number of DCX-positive cells and increased cholinergic fiber densities) as well as reduced cell death in the DG are likely to contribute to the observed thickening of the granular layer in p75NTRExIV knockout mice. In addition, Sholl-analysis of DCX-positive neurons revealed a higher dendritic complexity and could thus be a possible morphological correlate for the increased thickness of the molecular layer in p75NTR deficient animals. Our data clearly demonstrate that deletion of both, the short and the full-length isoform of p75NTR affects DG morphology, due to alterations of the cholinergic system and an imbalance between neurogenesis and programmed cell death within the subgranular zone.

show abstract

A patient-specific induced pluripotent stem cell model for West syndrome caused by ST3GAL3 deficiency

et al. 2018

View full text Add to dashboard Cite

ST3GAL3 encodes the Golgi enzyme beta-galactoside-alpha-2,3-sialyltransferase-III that in humans forms, among others, the sialyl Lewis a (sLe) epitope on proteins. Functionally deleterious variants in this gene were previously identified in patients with either non-syndromic or syndromic intellectual disability such as West syndrome, an age-dependent epileptic encephalopathic syndrome associated with developmental arrest or regression. The aim of this study was to further elucidate the molecular and cellular mechanisms causing West syndrome by lack of ST3GAL3 function. For this purpose we generated induced pluripotent stem cell (iPSC) lines from fibroblasts obtained from a patient with West syndrome, carrying a variant in exon 12 (c.958G>C, p.(Ala320Pro)) of ST3GAL3, and a healthy sibling, using lentiviral reprogramming. iPSCs and cortical neurons derived thereof were analysed by lectin blots, mRNA sequencing, adherence assays, and FACS. While no significant difference was observed at stem cell or fibroblast level between patient and control cells, patient-derived cortical neurons displayed an altered lectin blot staining pattern, enhanced adherence to a poly-L-ornithine/laminin-coated surface and decreased levels of neurons expressing T-box transcription factor brain 1. Our results suggest that changes in the sialylation pattern on the surface of specific neuronal cell types affect adhesive interactions during development, which in turn may cause subtle changes in tissue composition that could result in the occurrence of epilepsy and might impair neural development to an extent that is detrimental to the development and maintenance of normal cognitive functions.

show abstract

Major sex differences in the development of myelination are prominent in song system nucleus HVC but not lMAN

Halbach¹,

Nixdorf-Bergweiler²

2004

Animal Biol

View full text Add to dashboard Cite

Myelination of axonal processes is an important feature for setting up the connectivity in the neuronal network. Processes of myelination are also indicatives for changes in neuronal plasticity. The primary objective of this paper was to determine the time course of myelination -expressed in the number of myelinated pro les and the overall coverage of myelinated pro les per unit area of tissue -in two well-known song nuclei (HVC and lMAN) that have been implicated in song recognition in both male and female birds. While large sex differences have been described for many aspects of morphology in HVC, lMAN is much less dimorphic. Therefore, we wanted to know: 1) whether these differences in the extent of sexual dimorphism are also re ected in the extent of myelination; and 2) whether spatial and temporal features of myelin appearance differ in these two song nuclei in males. We analysed toluidine blue-stained Epon-embedded semithin sections with high resolution light microscopy using a computer-based morphometric system. Myelination in HVC increases substantially in males at 60 days of age, whereas, in lMAN, myelination starts early in development with an additional increase between 60 days and adulthood. In contrast to female HVC, where no changes in myelination can be observed throughout development, myelination in female lMAN increases. This increase, however, is of a different dynamic and of lesser extent in comparison to males. Henceforth, myelination in males lasts until adulthood, indicating long lasting plastic changes in both song nuclei, HVC and lMAN, whereas in females myelination is only prominent in lMAN.

show abstract

ATP6AP2 over-expression causes morphological alterations in the hippocampus and in hippocampus-related behaviour

et al. 2018

View full text Add to dashboard Cite

The (pro)renin receptor [(P)RR], also known as ATP6AP2 [ATPase 6 accessory protein 2], is highly expressed in the brain. ATP6AP2 plays a role in early brain development, adult hippocampal neurogenesis and in cognitive functions. Lack of ATP6AP2 has deleterious effects, and mutations of ATP6AP2 in humans are associated with, e.g. X-linked intellectual disability. However, little is known about the effects of over-expression of ATP6AP2 in the adult brain. We hypothesized that mice over-expressing ATP6AP2 in the brain might exhibit altered neuroanatomical features and behavioural responses. To this end, we investigated heterozygous transgenic female mice and confirmed increased levels of ATP6AP2 in the brain. Our data show that over-expression of ATP6AP2 does not affect adult hippocampal neurogenesis, exercise-induced cell proliferation, or dendritic spine densities in the hippocampus. Only a reduced ventricular volume on the gross morphological level was found. However, ATP6AP2 over-expressing mice displayed altered exploratory behaviour with respect to the hole-board and novel object recognition tests. Moreover, primary adult hippocampal neural stem cells over-expressing ATP6AP2 exhibit a faster cell cycle progression and increased cell proliferation. Together, in contrast to the known deleterious effects of ATP6AP2 depletion, a moderate over-expression results in moderate behavioural changes and affects cell proliferation rate in vitro.

show abstract

Distribution of PCP4 protein in the forebrain of adult mice

Renelt

Halbach

2014

Acta Histochemica

View full text Add to dashboard Cite

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

hi@scite.ai

334 Leonard St

Brooklyn, NY 11211

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.