Pierre-Henri Moreau scite author profile

A poorly understood feature of the tauopathies is their very different clinical presentations. The frontotemporal lobar degeneration (FTLD) spectrum is dominated by motor and emotional/psychiatric abnormalities, whereas cognitive and memory deficits are prominent in the early stages of Alzheimer’s disease (AD). We report two novel mouse models overexpressing different human tau protein constructs. One is a full-length tau carrying a double mutation [P301S/G335D; line 66 (L66)] and the second is a truncated 3-repeat tau fragment which constitutes the bulk of the PHF core in AD corresponding to residues 296–390 fused with a signal sequence targeting it to the endoplasmic reticulum membrane (line 1; L1). L66 has abundant tau pathology widely distributed throughout the brain, with particularly high counts of affected neurons in hippocampus and entorhinal cortex. The pathology is neuroanatomically static and declines with age. Behaviourally, the model is devoid of a higher cognitive phenotype but presents with sensorimotor impairments and motor learning phenotypes. L1 displays a much weaker histopathological phenotype, but shows evidence of neuroanatomical spread and amplification with age that resembles the Braak staging of AD. Behaviourally, the model has minimal motor deficits but shows severe cognitive impairments affecting particularly the rodent equivalent of episodic memory which progresses with advancing age. In both models, tau aggregation can be dissociated from abnormal phosphorylation. The two models make possible the demonstration of two distinct but nevertheless convergent pathways of tau molecular pathogenesis. L1 appears to be useful for modelling the cognitive impairment of AD, whereas L66 appears to be more useful for modelling the motor features of the FTLD spectrum. Differences in clinical presentation of AD-like and FTLD syndromes are therefore likely to be inherent to the respective underlying tauopathy, and are not dependent on presence or absence of concomitant APP pathology.

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Neuroanatomical and behavioral effects of a novel version of the cholinergic immunotoxin mu p75‐saporin in mice

Moreau¹,

Cosquer²,

Jeltsch³

et al. 2008

Hippocampus

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The selective lesion of basal forebrain cholinergic neurons (BFCNs) is an unestimable tool to study the implication of these neurons in cognition, an interest widely motivated by their degeneration in Alzheimer's disease. Here we evaluated the histochemical and behavioral effects of a selective lesion of BFCNs in C57BL/6J mice treated intracerebroventricularly (ICV) with a novel version of the immunotoxin mu p75-saporin (0.4 mug/mouse). There was a 100% postsurgical survival rate, no abnormal loss of weight, no disruption of sensorimotor coordination, and no noncognitive bias in a water-maze test. This immunotoxin induced a loss of choline acetyltransferase-positive neurons in the medial septum (-82%) and in the nucleus basalis (-55%). Preserved parvalbumine-immunostaining suggests that the lesion was specific to BFCNs. Septo-hippocampal and basalo-cortical projections of BFCNs degenerated as suggested by massive loss of acetylcholinesterase-positive staining in the hippocampus and the cortical mantle. Moreover, anticalbindin immunostaining showed no damage to cerebellar Purkinje cells. Lesioned mice displayed increased diurnal and nocturnal locomotor activity. Their spatial learning/memory performances in a water maze and in a Barnes maze were significantly impaired: learning was substantially slowed down, although not obliterated, and memory retention was altered. These behavioral consequences are comparable, with fewer side effects, to those reported after ICV 192 IgG-saporin in rats. In conclusion, the new version of mu p75-saporin provides a safe and powerful tool for BFCN lesion in mice.

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A single-shot Lassa vaccine induces long-term immunity and protects cynomolgus monkeys against heterologous strains

et al. 2021

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A safe and protective Lassa virus vaccine is crucially needed in Western Africa to stem the recurrent outbreaks of Lassa virus infections in Nigeria and the emergence of Lassa virus in previously unaffected countries, such as Benin and Togo. Major challenges in developing a Lassa virus vaccine include the high diversity of circulating strains and their reemergence from 1 year to another. To address each of these challenges, we immunized cynomolgus monkeys with a measles virus vector expressing the Lassa virus glycoprotein and nucleoprotein of the prototypic Lassa virus strain Josiah (MeV-NP). To evaluate vaccine efficacy against heterologous strains of Lassa virus, we challenged the monkeys a month later with heterologous strains from lineage II or lineage VII, finding that the vaccine was protective against these strains. A second cohort of monkeys was challenged 1 year later with the homologous Josiah strain, finding that a single dose of MeV-NP was sufficient to protect all vaccinated monkeys. These studies demonstrate that MeV-NP can generate both long-lasting immune responses and responses that are able to protect against diverse strains of Lassa virus.

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