Post-mortem correlates of in vivo PiB-PET amyloid imaging in a typical case of Alzheimer's disease

Milos D. Ikonomovic¹^,2, William E. Klunk², Eric E. Abrahamson¹, Chester A. Mathis³, Julie C. Price³, Nicholas D. Tsopelas², Brian J. Lopresti³, Scott Ziolko³, Wenzhu Bi³, William R. Paljug¹, Manik L. Debnath², Caroline E. Hope¹, Barbara A. Isanski¹, Ronald L. Hamilton⁴ and Steven T. DeKosky¹^,2

¹Department of Neurology, ²Department of Psychiatry, ³Department of Radiology and ⁴Department of Neuropathology, University of Pittsburgh School of Medicine, Pittsburgh, PA, 15213, USA

Correspondence to: Steven T. DeKosky, MD, Department of Neurology, 3471 Fifth Avenue, Suite 811, Pittsburgh, PA 15213, USA E-mail: dekoskyst{at}upmc.edu

The positron emission tomography (PET) radiotracer PittsburghCompound-B (PiB) binds with high affinity to β-pleatedsheet aggregates of the amyloid-β (Aβ) peptide invitro. The in vivo retention of PiB in brains of people withAlzheimer's disease shows a regional distribution that is verysimilar to distribution of Aβ deposits observed post-mortem.However, the basis for regional variations in PiB binding invivo, and the extent to which it binds to different types ofAβ-containing plaques and tau-containing neurofibrillarytangles (NFT), has not been thoroughly investigated. The presentstudy examined 28 clinically diagnosed and autopsy-confirmedAlzheimer's disease subjects, including one Alzheimer's diseasesubject who had undergone PiB-PET imaging 10 months prior todeath, to evaluate region- and substrate-specific binding ofthe highly fluorescent PiB derivative 6-CN-PiB. These data werethen correlated with region-matched Aβ plaque load andpeptide levels, [³H]PiB binding in vitro, and in vivo PET retentionlevels. We found that in Alzheimer's disease brain tissue sections,the preponderance of 6-CN-PiB binding is in plaques immunoreactiveto either Aβ42 or Aβ40, and to vascular Aβ deposits.6-CN-PiB labelling was most robust in compact/cored plaquesin the prefrontal and temporal cortices. While diffuse plaques,including those in caudate nucleus and presubiculum, were lessprominently labelled, amorphous Aβ plaques in the cerebellumwere not detectable with 6-CN-PiB. Only a small subset of NFTwere 6-CN-PiB positive; these resembled extracellular ‘ghost’NFT. In Alzheimer's disease brain tissue homogenates, therewas a direct correlation between [³H]PiB binding and insolubleAβ peptide levels. In the Alzheimer's disease subject whounderwent PiB-PET prior to death, in vivo PiB retention levelscorrelated directly with region-matched post-mortem measuresof [³H]PiB binding, insoluble Aβ peptide levels, 6-CN-PiB-and Aβ plaque load, but not with measures of NFT. Theseresults demonstrate, in a typical Alzheimer's disease brain,that PiB binding is highly selective for insoluble (fibrillar)Aβ deposits, and not for neurofibrillary pathology. Thestrong direct correlation of in vivo PiB retention with region-matchedquantitative analyses of Aβ plaques in the same subjectsupports the validity of PiB-PET imaging as a method for invivo evaluation of Aβ plaque burden.

Key Words: Pittsburgh Compound-B; PiB; amyloid imaging; plaques; PET imaging

Abbreviations: Aβ, amyloid-β peptide; AC-PC, the plane of anterior comissure-posterior comissure; BA, Brodmann area; CAA, cerebral amyloid angiopathy; DVR, Logan distribution volume ratio; ELISA, enzyme linked immunoadsorbant assay; ERC, entorhinal cortex; FA, formic acid; IHC, immunohistochemistry; NFT, neurofibrillary tangles; PiB, Pittsburgh Compound-B; ROI, region-of-interest; Thio-S, thioflavin-S; VOI, volume-of-interest

Received October 28, 2007. Revised December 29, 2007. Accepted January 21, 2008.

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