Martin E. Smalley scite author profile

Martin E. Smalley

2Publications

64Citation Statements Received

45Citation Statements Given

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University of Iowa

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Tau Phosphorylation and Aggregation in the Developing Human Brain

Hefti

Kim

Bell³

et al. 2019

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Tau hyperphosphorylation, mostly at serine (Ser) or threonine (Thr) residues, plays a key role in the pathogenesis of Alzheimer disease (AD) and other tauopathies. Rodent studies show similar hyperphosphorylation in the developing brain, which may be involved in regulating axonal growth and plasticity, but detailed human studies are lacking. Here, we examine tau phosphorylation by immunohistochemistry and immunoblotting in human fetal and adult autopsy brain tissue. Of the 20 cases with sufficient tissue preservation, 18 (90%) showed positive staining for S214 (pSer214), with the majority also positive for CP13 (pSer202), and PHF-1 (pSer396/pSer404). AT8 (pSer202/pThr205) and RZ3 (pThr231) were largely negative while PG5 (pSer409) was negative in all cases. Immunoblotting showed tau monomers with a similar staining pattern. We also observed phospho-tau aggregates in the fetal molecular layer, staining positively for S214, CP13, and PHF1 and negative for thioflavin S. These corresponded to high-molecular weight (∼150 kD) bands seen on Western blots probed with S214, PHF1, and PG5. We therefore conclude that fetal phosphorylation overlaps with AD in some residues, while others (e.g. T231, S409) appear to be unique to AD, and that tau is capable of forming nontoxic aggregates in the developing brain. These findings suggest that the fetal brain is resilient to formation of toxic aggregates, the mechanism for which may yield insights into the pathogenesis of tau aggregation and toxicity in the aging brain.

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Increased Tau Expression Correlates with Neuronal Maturation in the Developing Human Cerebral Cortex

Fiock

Smalley

Crary

et al. 2020

eNeuro

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Although best known for its role in Alzheimer's disease (AD), tau is expressed throughout brain development, although it remains unclear when and which cell types this expression occurs and how it affects disease states in both fetal and neonatal periods. We thus sought to map tau mRNA and protein expression in the developing human brain at the cellular level using a combination of existing single-cell RNA sequencing (sc-RNAseq) data, RNA in situ hybridization (RNAscope), and immunohistochemistry (IHC). Using sc-RNAseq, we found that tau mRNA expression begins in radial glia but increases dramatically as migrating neuronal precursors mature. Specifically, TBR1 1 maturing neurons and SYN 1 mature neurons showed significantly higher mRNA expression than GFAP 1 /NES 1 radial glia or TBR2 1 intermediate progenitors. By RNAscope, we found Significance Statement Tau is a mediator of neurotoxicity across multiple neurodegenerative diseases, including Alzheimer's disease (AD) and chronic traumatic encephalopathy (CTE). With the recent failure of b-amyloid-targeted therapies in AD to improve cognitive function, there is increasing interest in tau targeted therapies. Tau is expressed throughout brain development, but the function and normal developmental expression remains unclear. Here, we demonstrate that tau expression begins early during neuronal maturation in both human fetal brain and induced pluripotent stem cell (iPSC)-derived cortical organoids. This work forms the basis for future research into the developmental regulation of tau expression, which may provide future tau-related therapeutic targets.

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Martin E. Smalley

Tau Phosphorylation and Aggregation in the Developing Human Brain

Increased Tau Expression Correlates with Neuronal Maturation in the Developing Human Cerebral Cortex

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