Shinya Tasaki scite author profile

There is a need for new therapeutic targets with which to prevent Alzheimer's disease (AD), a major contributor to aging-related cognitive decline. Here we report the construction and validation of a molecular network of the aging human frontal cortex. Using RNA sequence data from 478 individuals, we first build a molecular network using modules of coexpressed genes and then relate these modules to AD and its neuropathologic and cognitive endophenotypes. We confirm these associations in two independent AD datasets. We also illustrate the use of the network in prioritizing amyloid- and cognition-associated genes for in vitro validation in human neurons and astrocytes. These analyses based on unique cohorts enable us to resolve the role of distinct cortical modules that have a direct effect on the accumulation of AD pathology from those that have a direct effect on cognitive decline, exemplifying a network approach to complex diseases.

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Stem cell-derived neurons reflect features of protein networks, neuropathology, and cognitive outcome of their aged human donors

Lagomarsino

Pearse

Liu

et al. 2021

Neuron

132

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Multi-omics monitoring of drug response in rheumatoid arthritis in pursuit of molecular remission

et al. 2018

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Sustained clinical remission (CR) without drug treatment has not been achieved in patients with rheumatoid arthritis (RA). This implies a substantial difference between CR and the healthy state, but it has yet to be quantified. We report a longitudinal monitoring of the drug response at multi-omics levels in the peripheral blood of patients with RA. Our data reveal that drug treatments alter the molecular profile closer to that of HCs at the transcriptome, serum proteome, and immunophenotype level. Patient follow-up suggests that the molecular profile after drug treatments is associated with long-term stable CR. In addition, we identify molecular signatures that are resistant to drug treatments. These signatures are associated with RA independently of known disease severity indexes and are largely explained by the imbalance of neutrophils, monocytes, and lymphocytes. This high-dimensional phenotyping provides a quantitative measure of molecular remission and illustrates a multi-omics approach to understanding drug response.

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Cortical Proteins Associated With Cognitive Resilience in Community-Dwelling Older Persons

et al. 2020

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Identifying genes and proteins for cognitive resilience (ie, targets that may be associated with slowing or preventing cognitive decline regardless of the presence, number, or combination of common neuropathologic conditions) provides a complementary approach to developing novel therapeutics for the treatment and prevention of Alzheimer disease and related dementias.OBJECTIVE To identify proteins associated with cognitive resilience via a proteome-wide association study of the human dorsolateral prefrontal cortex. DESIGN, SETTING, AND PARTICIPANTSThis study used data from 391 community-dwelling older persons who participated in the Religious Orders Study and the Rush Memory and Aging Project.

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CLK-dependent exon recognition and conjoined gene formation revealed with a novel small molecule inhibitor

et al. 2017

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CDC-like kinase phosphorylation of serine/arginine-rich proteins is central to RNA splicing reactions. Yet, the genomic network of CDC-like kinase-dependent RNA processing events remains poorly defined. Here, we explore the connectivity of genomic CDC-like kinase splicing functions by applying graduated, short-exposure, pharmacological CDC-like kinase inhibition using a novel small molecule (T3) with very high potency, selectivity, and cell-based stability. Using RNA-Seq, we define CDC-like kinase-responsive alternative splicing events, the large majority of which monotonically increase or decrease with increasing CDC-like kinase inhibition. We show that distinct RNA-binding motifs are associated with T3 response in skipped exons. Unexpectedly, we observe dose-dependent conjoined gene transcription, which is associated with motif enrichment in the last and second exons of upstream and downstream partners, respectively. siRNA knockdown of CLK2-associated genes significantly increases conjoined gene formation. Collectively, our results reveal an unexpected role for CDC-like kinase in conjoined gene formation, via regulation of 3′-end processing and associated splicing factors.

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Shinya Tasaki

A molecular network of the aging human brain provides insights into the pathology and cognitive decline of Alzheimer’s disease

Stem cell-derived neurons reflect features of protein networks, neuropathology, and cognitive outcome of their aged human donors

Multi-omics monitoring of drug response in rheumatoid arthritis in pursuit of molecular remission

Cortical Proteins Associated With Cognitive Resilience in Community-Dwelling Older Persons

CLK-dependent exon recognition and conjoined gene formation revealed with a novel small molecule inhibitor

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