Mouse vaccination with dendritic cells loaded with prion protein peptides overcomes tolerance and delays scrapie.

Prion diseases are presumed to be caused by the accumulation in the brain of a pathological protein called prion protein (PrP) scrapie which results from the transconformation of cellular PrP, a ubiquitous glycoprotein expressed in all mammals. Since all isoforms of PrP are perceived as self by the host immune system, a major problem in designing efficient immunoprophylaxis or immunotherapy is to overcome tolerance. The present study was aimed at investigating whether bone-marrow-derived dendritic cells (DCs) loaded with peptides previously shown to be immunogenic in PrP-deficient mice, can overcome tolerance in PrP-proficient wild-type mice and protect them against scrapie. Results show that, in such mice, peptide-loaded DCs elicit both lymphokine release by T cells and antibody secretion against native cellular PrP. Repeated recalls with peptide-loaded DCs reduces the attack rate of 139A scrapie inoculated intraperitoneally and retards disease duration by 40 days. Most interestingly, survival time in individual mice appears to be correlated with the level of circulating antibody against native cellular PrP

Immunothérapie cellulaire adoptive des maladies à prions par transfert de lymphocytes T CD4+ TCR transgéniques

Les maladies à prions sont des affections neurodégénératives létales provoquées par la conversion posttraductionnelle d une protéine constitutive de l hôte, la PrPC en un isoforme conformationnelle pathogène, la PrPSc. La perspective de traiter ces affections par l immunothérapie, de même que la maladie d Alzheimer, suscite un espoir légitime. Elle laisse aussi entrevoir des difficultés dues à ce que l antigène cible, la PrPSc, est un constituant du soi, donc pas ou peu immunogène et que l action se situe dans le SNC, site peu accessible aux agents de l immunité et sous haut risque. Entre le transfert passif d anticorps et la vaccination par la PrP, deux stratégies qui ont jusqu à présent montré une efficacité relative, le transfert cellulaire adoptif apparaît comme une alternative intéressante. Les cellules persistent chez l hôte, elles peuvent être réactivées, elles franchissent sous certaines conditions la barrière hématoméningée et peuvent recruter d autres populations effectrices. Nous avons produit une souris Tg exprimant la chaîne d un TCR anti-PrP. Malgré des réarrangements libres, cette souris possède un répertoire CD4+ très enrichi en précurseurs d intérêt. Vues par immunoscope, les chaînes associées à la Tg sont quasi monoclonales. Une première étude a consisté à comprendre le devenir de ces lymphocytes anti-PrP après transfert dans un environnement PrP+ soumis à la tolérance. Ils sont capables de s activer et de proliférer en réponse au peptide d intérêt. Dans un second temps nous avons transféré ces CD4 Tg dans des souris déficientes en lymphocytes T infectées par une souche de prion. Ces transferts ont permis de retarder la maladiePARIS-BIUSJ-Physique recherche (751052113) / SudocSudocFranceF

Th2-polarised PrP-specific transgenic T-cells confer partial protection against murine scrapie.

Several hurdles must be overcome in order to achieve efficient and safe immunotherapy against conformational neurodegenerative diseases. In prion diseases, the main difficulty is that the prion protein is tolerated as a self protein, which prevents powerful immune responses. Passive antibody therapy is effective only during early, asymptomatic disease, well before diagnosis is made. If efficient immunotherapy of prion diseases is to be achieved, it is crucial to understand precisely how immune tolerance against the prion protein can be overcome and which effector pathways may delay disease progression. To this end, we generated a transgenic mouse that expresses the ß-chain of a T cell receptor recognizing a PrP epitope presented by the class II major histocompatibility complex. The fact that the constraint is applied to only one TCR chain allows adaptation of the other chain according to the presence or absence of tolerogenic PrP. We first show that transgene-bearing T cells, pairing with rearranged α-chains conferring anti-PrP specificity, are systematically eliminated during ontogeny in PrP+ mice, suggesting that precursors with good functional avidity are rare in a normal individual. Second, we show that transgene-bearing T cells with anti-PrP specificity are not suppressed when transferred into PrP+ recipients and proliferate more extensively in a prion-infected host. Finally, such T cells provide protection through a cell-mediated pathway involving IL-4 production. These findings support the idea that cell-mediated immunity in neurodegenerative conditions may not be necessarily detrimental and may even contribute, when properly controlled, to the resolution of pathological processes

Adoptive Transfer of T Lymphocytes Sensitized against the Prion Protein Attenuates Prion Invasion in Scrapie-Infected Mice

There is to date no effective way of preventing or curing neurodegenerative diseases such as Alzheimer disease or transmissible spongiform encephalopathies. The idea of treating those conditions by immunological approaches has progressively emerged over the last ten years. Encouraging results have been reported in Alzheimer disease and in peripheral forms of mouse prion diseases following passive injection of Abs or active immunization against the peptides or proteins presumably at the origin of those disorders. Still, major difficulties persist due to some characteristics of those conditions such as slow evolution, brain location, uncertainties regarding precise pathogenic pathways, and, above all, the fact that the target Ag is self, meaning that it is poorly immunogenic and potentially harmful if tolerance was transgressed. To analyze some of those difficulties, we are developing adoptive cell transfer approaches. In this study, lymphocytes sensitized against the prion protein in nontolerant Prnp mice were transferred into histocompatible wild-type recipients which were partly or totally devoid of their own lymphocytes. Under such conditions, we found that the engrafted T lymphocytes resisted peripheral tolerance, remained reactive for several months against epitopes of the prion protein, and significantly attenuated the progression of prions in secondary lymphoid organs with subsequent delay in the evolution of the neurological disease. Interestingly, those protective T lymphocytes secreted lymphokines and migrated more readily into the host CNS but did not appear to be engaged in cooperation with host B cells for Ab production