Joanna Pankiewicz scite author profile

Alzheimer's disease (AD) is associated with accumulation of beta-amyloid (Abeta). A major genetic risk factor for sporadic AD is inheritance of the apolipoprotein (apo) E4 allele. ApoE can act as a pathological chaperone of Abeta, promoting its conformational transformation from soluble Abeta into toxic aggregates. We determined if blocking the apoE/Abeta interaction reduces Abeta load in transgenic (Tg) AD mice. The binding site of apoE on Abeta corresponds to residues 12 to 28. To block binding, we synthesized a peptide containing these residues, but substituted valine at position 18 to proline (Abeta12-28P). This changed the peptide's properties, making it non-fibrillogenic and non-toxic. Abeta12-28P competitively blocks binding of full-length Abeta to apoE (IC50 = 36.7 nmol). Furthermore, Abeta12-28P reduces Abeta fibrillogenesis in the presence of apoE, and Abeta/apoE toxicity in cell culture. Abeta12-28P is blood-brain barrier-permeable and in AD Tg mice inhibits Abeta deposition. Tg mice treated with Abeta12-28P for 1 month had a 63.3% reduction in Abeta load in the cortex (P = 0.0043) and a 59.5% (P = 0.0087) reduction in the hippocampus comparing to age-matched control Tg mice. Antibodies against Abeta were not detected in sera of treated mice; therefore the observed therapeutic effect of Abeta12-28P cannot be attributed to an antibody clearance response. Our experiments demonstrate that compounds blocking the interaction between Abeta and its pathological chaperones may be beneficial for treatment of beta-amyloid deposition in AD.

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Blocking the apolipoprotein E/amyloid-β interaction as a potential therapeutic approach for Alzheimer's disease

Sadowski¹,

Pankiewicz²,

Scholtzova³

et al. 2006

Proc. Natl. Acad. Sci. U.S.A.

150

149

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The amyloid-␤ (A␤) cascade hypothesis of Alzheimer's disease (AD) maintains that accumulation of A␤ peptide constitutes a critical event in the early disease pathogenesis. The direct binding between A␤ and apolipoprotein E (apoE) is an important factor implicated in both A␤ clearance and its deposition in the brain's parenchyma and the walls of meningoencephalic vessels as cerebral amyloid angiopathy. With the aim of testing the effect of blocking the apoE/A␤ interaction in vivo as a potential novel therapeutic target for AD pharmacotherapy, we have developed A␤12-28P, which is a blood-brain-barrier-permeable nontoxic, and nonfibrillogenic synthetic peptide homologous to the apoE binding site on the full-length A␤. A␤12-28P binds with high affinity to apoE, preventing its binding to A␤, but has no direct effect on A␤ aggregation. A␤12-28P shows a strong pharmacological effect in vivo. Its systemic administration resulted in a significant reduction of A␤ plaques and cerebral amyloid angiopathy burden and a reduction of the total brain level of A␤ in two AD transgenic mice models. The treatment did not affect the levels of soluble A␤ fraction or A␤ oligomers, indicating that inhibition of the apoE/A␤ interaction in vivo has a net effect of increasing A␤ clearance over deposition and at the same time does not create conditions favoring formation of toxic oligomers. Furthermore, behavioral studies demonstrated that treatment with A␤12-28P prevents a memory deficit in transgenic animals. These findings provide evidence of another therapeutic approach for AD.Alzheimer's pathology ͉ memory loss prevention ͉ peptide ͉ transgenic mice ͉ treatment A lzheimer's disease (AD) is the most common neurodegenerative disease worldwide, characterized by a progressive dysfunction in multiple cognitive domains and complex neuropathological features that include accumulation of amyloid-␤ (A␤) followed by synaptic dysfunction, formation of neurofibrillary tangles, and neuronal loss. With the expected increase in AD prevalence, as a function of the population aging, effective treatment for AD is critically needed. Multiple lines of evidence indicate that a disturbance of A␤ homeostasis is a paramount event in early disease pathogenesis (1). A␤ is a hydrophobic 39-to 43-aa peptide, which is derived from cleavage of a larger, synaptic transmembrane protein, the amyloid precursor protein (APP) (2). The accumulation of A␤ in the brain is determined by the rate of its generation versus in situ proteolytic degradation and clearance across the blood-brain-barrier [BBB; for review see Tanzi et al. (3)]. In the setting of increased concentration, A␤ monomers assemble into oligomers and fibrils and eventually become deposited, forming parenchymal plaques and cerebral amyloid angiopathy (CAA).Inheritance of the apolipoprotein E4 (apoE4) allele is the strongest genetic risk factor identified so far. ApoE isotype inheritance modulates the prevalence, age of onset, and the burden of pathology in sporadic AD (4, 5). ApoE binds A␤ with high affinity a...

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Clearance and prevention of prion infection in cell culture by anti‐PrP antibodies

Pankiewicz

Prelli

et al. 2006

Eur J of Neuroscience

103

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Prion diseases are transmissible and invariably fatal neurodegenerative disorders associated with a conformational transformation of the cellular prion protein (PrP C ) into a self-replicating and proteinase K (PK)-resistant conformer, scrapie PrP (PrP Sc ). Humoral immunity may significantly prolong the incubation period and even prevent disease in murine models of prionoses. However, the mechanism(s) of action of anti-PrP monoclonal antibodies (Mabs) remain(s) obscure. The murine neuroblastoma N2a cell line, infected with the 22L mouse-adapted scrapie strain, was used to screen a large library of Mabs with similar binding affinities to PrP, to identify those antibodies which could clear established infection and/or prevent infection de novo. Three Mabs were found capable of complete and persistent clearing of already-infected N2a cells of PrP Sc . These antibodies were 6D11 (generated to PK-resistant PrP Sc and detecting PrP residues 93-109), and 7H6 and 7A12, which were raised against recombinant PrP and react with neighbouring epitopes of PrP residues 130-140 and 143-155, respectively. Mabs were found to interact with PrP Sc formation both on the cell surface and after internalization in the cytosol. Treatment with Mabs was not associated with toxicity nor did it result in decreased expression of PrP C . Both preincubation of N2a cells with Mabs prior to exposure to 22L inoculum and preincubation of the inoculum with Mabs prior to infecting N2a cells resulted in a significant reduction in PrP Sc levels. Information provided in these studies is important for the rational design of humoral immune therapy for prion infection in animals and eventually in humans.

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Mucosal vaccination delays or prevents prion infection via an oral route

Goñi

Knudsen

Schreiber³

et al. 2005

Neuroscience

101

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