TY - JOUR
T1 - Immunohistochemical evaluation of a trial of gantenerumab or solanezumab in dominantly inherited Alzheimer disease
AU - For the DIAN-TU Study Team
AU - For the DIAN-Obs Study Team
AU - Chen, Charles D.
AU - Franklin, Erin E.
AU - Li, Yan
AU - Joseph-Mathurin, Nelly
AU - Burns, Aime L.
AU - Hobbs, Diana A.
AU - McCullough, Austin A.
AU - Schultz, Stephanie A.
AU - Xiong, Chengjie
AU - Wang, Guoqiao
AU - Masellis, Mario
AU - Hsiung, Ging Yuek Robin
AU - Gauthier, Serge
AU - Berman, Sarah B.
AU - Roberson, Erik D.
AU - Honig, Lawrence S.
AU - Clarnette, Roger
AU - Ringman, John M.
AU - Galvin, James E.
AU - Brooks, William
AU - Suzuki, Kazushi
AU - Black, Sandra
AU - Levin, Johannes
AU - Aggarwal, Neelum T.
AU - Jucker, Mathias
AU - Frosch, Matthew P.
AU - Kofler, Julia K.
AU - White, Charles
AU - Keene, C. Dirk
AU - Chen, Jie
AU - Daniels, Alisha
AU - Gordon, Brian A.
AU - Ibanez, Laura
AU - Karch, Celeste M.
AU - Llibre-Guerra, Jorge
AU - McDade, Eric
AU - Morris, John C.
AU - Supnet-Bell, Charlene
AU - Allegri, Ricardo F.
AU - Lee, Jae Hong
AU - Day, Gregory S.
AU - Lopera, Francisco
AU - Roh, Jee Hoon
AU - Schofield, Peter R.
AU - Mills, Susan
AU - Benzinger, Tammie L.S.
AU - Bateman, Randall J.
AU - Perrin, Richard J.
AU - Mori, Hiroshi
AU - Fagan, Anne M.
N1 - Publisher Copyright:
© The Author(s) 2025.
PY - 2025/6
Y1 - 2025/6
N2 - Clinical trials of anti-amyloid-β (Aβ) monoclonal antibodies in Alzheimer disease (AD) infer target engagement from Aβ positron emission tomography (PET) and/or fluid biomarkers such as cerebrospinal fluid (CSF) Aβ42/40. However, these biomarkers measure brain Aβ deposits indirectly and/or incompletely. In contrast, neuropathologic assessments allow direct investigation of treatment effects on brain Aβ deposits—and on potentially myriad ‘downstream’ pathologic features. From a clinical trial of anti-Aβ monoclonal antibodies in dominantly inherited AD (DIAD), in the largest study of its kind, we measured immunohistochemistry area fractions (AFs) for Aβ deposits (10D5), tauopathy (PHF1), microgliosis (IBA1), and astrocytosis (GFAP) in 10 brain regions from 10 trial cases—gantenerumab (n = 4), solanezumab (n = 4), placebo/no treatment (n = 2)—and 10 DIAD observational study cases. Strikingly, in proportion to total drug received, Aβ deposit AFs were significantly lower in the gantenerumab arm versus controls in almost all areas examined, including frontal, temporal, parietal, and occipital cortices, anterior cingulate, hippocampus, caudate, putamen, thalamus, and cerebellar gray matter; only posterior cingulate and cerebellar white matter comparisons were non-significant. In contrast, AFs of tauopathy, microgliosis, and astrocytosis showed no differences across groups. Our results demonstrate with direct histologic evidence that gantenerumab treatment in DIAD can reduce parenchymal Aβ deposits throughout the brain in a dose-dependent manner, suggesting that more complete removal may be possible with earlier and more aggressive treatment regimens. Although AFs of tauopathy, microgliosis, and astrocytosis showed no clear response to partial Aβ removal in this limited autopsy cohort, future examination of these cases with more sensitive techniques (e.g., mass spectrometry) may reveal more subtle ‘downstream’ effects.
AB - Clinical trials of anti-amyloid-β (Aβ) monoclonal antibodies in Alzheimer disease (AD) infer target engagement from Aβ positron emission tomography (PET) and/or fluid biomarkers such as cerebrospinal fluid (CSF) Aβ42/40. However, these biomarkers measure brain Aβ deposits indirectly and/or incompletely. In contrast, neuropathologic assessments allow direct investigation of treatment effects on brain Aβ deposits—and on potentially myriad ‘downstream’ pathologic features. From a clinical trial of anti-Aβ monoclonal antibodies in dominantly inherited AD (DIAD), in the largest study of its kind, we measured immunohistochemistry area fractions (AFs) for Aβ deposits (10D5), tauopathy (PHF1), microgliosis (IBA1), and astrocytosis (GFAP) in 10 brain regions from 10 trial cases—gantenerumab (n = 4), solanezumab (n = 4), placebo/no treatment (n = 2)—and 10 DIAD observational study cases. Strikingly, in proportion to total drug received, Aβ deposit AFs were significantly lower in the gantenerumab arm versus controls in almost all areas examined, including frontal, temporal, parietal, and occipital cortices, anterior cingulate, hippocampus, caudate, putamen, thalamus, and cerebellar gray matter; only posterior cingulate and cerebellar white matter comparisons were non-significant. In contrast, AFs of tauopathy, microgliosis, and astrocytosis showed no differences across groups. Our results demonstrate with direct histologic evidence that gantenerumab treatment in DIAD can reduce parenchymal Aβ deposits throughout the brain in a dose-dependent manner, suggesting that more complete removal may be possible with earlier and more aggressive treatment regimens. Although AFs of tauopathy, microgliosis, and astrocytosis showed no clear response to partial Aβ removal in this limited autopsy cohort, future examination of these cases with more sensitive techniques (e.g., mass spectrometry) may reveal more subtle ‘downstream’ effects.
KW - Alzheimer disease
KW - Anti-amyloid-β monoclonal antibodies
KW - CSF
KW - Clinical trial
KW - Digital pathology
KW - PiB PET
UR - https://www.scopus.com/pages/publications/105007781754
U2 - 10.1007/s00401-025-02890-7
DO - 10.1007/s00401-025-02890-7
M3 - Article
C2 - 40459787
AN - SCOPUS:105007781754
SN - 0001-6322
VL - 149
JO - Acta Neuropathologica
JF - Acta Neuropathologica
IS - 1
M1 - 57
ER -