TY - JOUR
T1 - Characterization of spastic paraplegia in a family with a novel PSEN1 mutation
AU - Ringman, John M.
AU - Dorrani, Naghmeh
AU - Fernández, Sara Gutirrez
AU - Signer, Rebecca
AU - Martinez-Agosto, Julian
AU - Lee, Hane
AU - Douine, Emilie D.
AU - Qiao, Yuchuan
AU - Shi, Yonggang
AU - D'Orazio, Lina
AU - Pawar, Sanjay
AU - Robbie, Leah
AU - Kashani, Amir H.
AU - Singer, Maxwell
AU - Byers, Joshua T.
AU - Magaki, Shino
AU - Guzman, Sam
AU - Sagare, Abhay
AU - Zlokovic, Berislav
AU - Cederbaum, Stephen
AU - Nelson, Stanley
AU - Sheikh-Bahaei, Nasim
AU - Chui, Helena C.
AU - Chávez-Gutirrez, Lucía
AU - Vinters, Harry V.
N1 - Publisher Copyright:
© 2023 The Author(s). Published by Oxford University Press on behalf of the Guarantors of Brain.
PY - 2023
Y1 - 2023
N2 - Spastic paraparesis has been described to occur in 13.7% of PSEN1 mutations and can be the presenting feature in 7.5%. In this paper, we describe a family with a particularly young onset of spastic paraparesis due to a novel mutation in PSEN1 (F388S). Three affected brothers underwent comprehensive imaging protocols, two underwent ophthalmological evaluations and one underwent neuropathological examination after his death at age 29. Age of onset was consistently at age 23 with spastic paraparesis, dysarthria and bradyphrenia. Pseudobulbar affect followed with progressive gait problems leading to loss of ambulation in the late 20s. Cerebrospinal fluid levels of amyloid-β, tau and phosphorylated tau and florbetaben PET were consistent with Alzheimer's disease. Flortaucipir PET showed an uptake pattern atypical for Alzheimer's disease, with disproportionate signal in posterior brain areas. Diffusion tensor imaging showed decreased mean diffusivity in widespread areas of white matter but particularly in areas underlying the peri-Rolandic cortex and in the corticospinal tracts. These changes were more severe than those found in carriers of another PSEN1 mutation, which can cause spastic paraparesis at a later age (A431E), which were in turn more severe than among persons carrying autosomal dominant Alzheimer's disease mutations not causing spastic paraparesis. Neuropathological examination confirmed the presence of cotton wool plaques previously described in association with spastic parapresis and pallor and microgliosis in the corticospinal tract with severe amyloid-β pathology in motor cortex but without unequivocal disproportionate neuronal loss or tau pathology. In vitro modelling of the effects of the mutation demonstrated increased production of longer length amyloid-β peptides relative to shorter that predicted the young age of onset. In this paper, we provide imaging and neuropathological characterization of an extreme form of spastic paraparesis occurring in association with autosomal dominant Alzheimer's disease, demonstrating robust diffusion and pathological abnormalities in white matter. That the amyloid-β profiles produced predicted the young age of onset suggests an amyloid-driven aetiology though the link between this and the white matter pathology remains undefined.
AB - Spastic paraparesis has been described to occur in 13.7% of PSEN1 mutations and can be the presenting feature in 7.5%. In this paper, we describe a family with a particularly young onset of spastic paraparesis due to a novel mutation in PSEN1 (F388S). Three affected brothers underwent comprehensive imaging protocols, two underwent ophthalmological evaluations and one underwent neuropathological examination after his death at age 29. Age of onset was consistently at age 23 with spastic paraparesis, dysarthria and bradyphrenia. Pseudobulbar affect followed with progressive gait problems leading to loss of ambulation in the late 20s. Cerebrospinal fluid levels of amyloid-β, tau and phosphorylated tau and florbetaben PET were consistent with Alzheimer's disease. Flortaucipir PET showed an uptake pattern atypical for Alzheimer's disease, with disproportionate signal in posterior brain areas. Diffusion tensor imaging showed decreased mean diffusivity in widespread areas of white matter but particularly in areas underlying the peri-Rolandic cortex and in the corticospinal tracts. These changes were more severe than those found in carriers of another PSEN1 mutation, which can cause spastic paraparesis at a later age (A431E), which were in turn more severe than among persons carrying autosomal dominant Alzheimer's disease mutations not causing spastic paraparesis. Neuropathological examination confirmed the presence of cotton wool plaques previously described in association with spastic parapresis and pallor and microgliosis in the corticospinal tract with severe amyloid-β pathology in motor cortex but without unequivocal disproportionate neuronal loss or tau pathology. In vitro modelling of the effects of the mutation demonstrated increased production of longer length amyloid-β peptides relative to shorter that predicted the young age of onset. In this paper, we provide imaging and neuropathological characterization of an extreme form of spastic paraparesis occurring in association with autosomal dominant Alzheimer's disease, demonstrating robust diffusion and pathological abnormalities in white matter. That the amyloid-β profiles produced predicted the young age of onset suggests an amyloid-driven aetiology though the link between this and the white matter pathology remains undefined.
KW - F388S
KW - PSEN1
KW - diffusion tensor imaging
KW - flortaucipir
KW - spastic paraparesis
UR - http://www.scopus.com/inward/record.url?scp=85153048244&partnerID=8YFLogxK
UR - http://www.scopus.com/inward/citedby.url?scp=85153048244&partnerID=8YFLogxK
U2 - 10.1093/braincomms/fcad030
DO - 10.1093/braincomms/fcad030
M3 - Article
C2 - 36895955
AN - SCOPUS:85153048244
SN - 2632-1297
VL - 5
JO - Brain Communications
JF - Brain Communications
IS - 2
M1 - fcad030
ER -