Fabienne Goepfert scite author profile

The pathological role of ApoE4 in Alzheimer's disease (AD) is not fully elucidated yet but there is strong evidence that ApoE is involved in Abeta deposition, which is an early hallmark of AD neuropathology. Overexpression of ApoE in neuroblastoma cells (Neuro2a) leads to the generation of an intracellular 13 kDa carboxy-terminal fragment of ApoE comparable to fragments seen in brains of AD patients. ApoE4 generates more of this fragment than ApoE2 and E3 suggesting a potential pathological role of these fragments in Alzheimer's disease. Analysis of this intracellular ApoE4 fragment by protease digest followed by MALDI-TOF mass spectrometry showed the proteolytic cleavage site close to residue 187 of ApoE. We have engineered and expressed the corresponding ApoE fragments in vitro. The recombinant 13 kDa carboxy-terminal fragment inhibited fibril formation of Abeta; this contrasts with the full-length ApoE and the corresponding amino-terminal ApoE fragment. Moreover, we show that the 13 kDa carboxy-terminal fragment of ApoE stabilizes the formation of Abeta hexamers. Complexes of Abeta with the 13 kDa carboxy-terminal ApoE fragment show toxicity in PC12 cells comparable to Abeta fibrils. These data suggest that cleavage of ApoE, leading to the generation of this fragment, contributes to the pathogenic effect of ApoE4 in AD.

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Neonatal hypoxia‐ischemia in rat increases doublecortin concentration in the cerebrospinal fluid

Brégère

Fisch

Sailer

et al. 2017

Eur J of Neuroscience

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Doublecortin (DCX) is a microtubule-associated protein widely used as an indicator of neurogenesis in immunohistochemical analyses of the postmortem adult brain. A recent study reported that DCX can be quantified in the cerebrospinal fluid (CSF) from healthy rats between postnatal day 0 (P0) and P30. However, it is currently unclear whether the concentration of DCX in the CSF (CSF-DCX) may represent a measure of endogenous neurogenesis. To address this question, this study examined the impact of a neonatal hypoxic-ischemic (HI) brain injury, known to induce neurogenesis, on CSF-DCX. HI was elicited at P7 in Sprague-Dawley rat neonates, and CSF was collected serially from the cisterna magna at P5 and P10, or at P10 and P15. A sandwich immunoassay was used to measure CSF-DCX. Brains from P10 neonates were analyzed immunohistochemically for neurogenesis and cell death markers. Mean CSF-DCX was significantly higher in HI- than in sham-exposed animals, at both P10 and P15. In the HI group at P10, CSF-DCX and stroke severity correlated positively. DCX immunoreactivity was increased in the ipsilateral neurogenic niches from the P10 HI brains in comparison with that of shams. The number of proliferative DCX-positive cells was higher in the ipsilateral hippocampal subgranular zone (SGZ) than in the HI contralateral or sham SGZ. Thus, neonatal HI brain injury disrupts the developmental time-course of DCX levels in the CSF. Our data suggest that the increased concentration of DCX in the CSF after neonatal HI is the result of both cellular injury and increased neurogenesis.

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Effect of metabotropic glutamate receptor activation on receptor-mediated cyclic AMP responses in primary cultures of rat striatal neurones

et al. 1998

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Expression and Intracellular Localisation of Odorant Receptors in Mammalian Cell Lines Using Semliki Forest Virus Vectors

Monastyrskaia

Goepfert²,

Hochstrasser³

et al. 1999

Journal of Receptors and Signal Transduction

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Odorant receptors are members of the G protein-coupled receptor superfamily. They are expressed on the surface of cilia of olfactory neurons, where they bind ligand (odorant). Studies of the molecular mechanisms of olfaction are complicated by the extremely large number of receptor genes, and difficulties in pairing a particular mammalian receptor to a specific odorant ligand in vivo. Here we report expression and localisation studies of two rat odorant receptor genes (17 and OR5), and C. elegans odr-10, using the Semliki Forest virus (SFV) system. All receptors were epitope-tagged at the N- or C-terminus in order to facilitate their detection in infected cells, and determine the localisation and membrane-orientation of recombinant proteins. The immortalised mouse olfactory neuronal cell line OLF 442, rat cortical and striatal primary neuron cultures, and the baby hamster kidney (BHK) cells, were infected and tested. Immunofluorescence and confocal microscopy studies performed on permeabilised, non-permeabilised and native cells revealed that in BHK cells the rat receptors 17 and OR5 were not targeted to the plasma membrane and remained in the endoplasmic reticulum. In contrast, in the mouse olfactory cell line OLF 442 both rat receptors were correctly inserted into the plasma membrane. Similar results were obtained using primary neurons, indicating that like mature neurons, the immortalised OLF 442 cells are capable of providing for correct odorant receptor processing and targeting.

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