Justine D. Manos scite author profile

Summary Tau pathobiology has emerged as a key component underlying Alzheimer's disease (AD) progression; however, human neuronal in vitro models have struggled to recapitulate tau phenomena observed in vivo . Here, we aimed to define the minimal requirements to achieve endogenous tau aggregation in functional neurons utilizing human induced pluripotent stem cell (hiPSC) technology. Optimized hiPSC-derived cortical neurons seeded with AD brain-derived competent tau species or recombinant tau fibrils displayed increases in insoluble, endogenous tau aggregates. Importantly, MAPT- wild type and MAPT- mutant hiPSC-neurons exhibited unique propensities for aggregation dependent on the seed strain rather than the repeat domain identity, suggesting that successful templating of the recipient tau may be driven by the unique conformation of the seed. The in vitro model presented here represents the first successful demonstration of combining human neurons, endogenous tau expression, and AD brain-derived competent tau species, offering a more physiologically relevant platform to study tau pathobiology.

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Identifying Biomarkers of Retinal Pigment Epithelial Cell Stem Cell-derived RPE Cell Heterogeneity and Transplantation Efficacy

Farjood

Manos²,

Wang

et al. 2022

Preprint

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Transplantation of retinal pigment epithelial (RPE) cells holds great promise for patients with retinal degenerative diseases such as age-related macular degeneration. In-depth characterization of RPE cell product identity and critical quality attributes are needed to enhance efficacy and safety of replacement therapy strategies. Here we characterized an adult RPE stem cell-derived (RPESC-RPE) cell product using bulk and single cell RNA sequencing (sc-RNA-seq), assessing functional cell integration in vitro into a mature RPE monolayer and in vivo efficacy by vision rescue in the Royal College of Surgeons rats. scRNA-seq revealed several distinct subpopulations in the RPESC-RPE product, some with progenitor markers. We identified RPE clusters expressing genes associated with in vivo efficacy and increased cell integration capability. Gene expression analysis revealed a lncRNA (TREX) as a predictive marker of in vivo efficacy. TREX knockdown decreased cell integration while overexpression increased integration in vitro and improved vision rescue in the RCS rats.

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An hiPSC‐based genetic screening system to model aggregation of tau protein allows the identification and validation of possible targets for Alzheimer’s disease therapies

Reinhardt

Guillen

Untucht

et al. 2020

Alzheimer's & Dementia

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Background One of the hallmarks of Alzheimer's Disease (AD), as with some other neurodegenerative diseases, is the misfolding and aggregation of proteins, such as amyloid‐beta and tau. Tau pathology is also believed to propagate trans‐synaptically from neuron to neuron. Either prevention of propagation, or the removal of aggregated tau, is a potential approach for AD modification. Method Deubiquitinating enzymes (DUBs) maintain ubiquitin homeostasis by removing ubiquitin modifications from target proteins, thereby altering protein function, stability, and signaling. We hypothesize that the modulation of the ubiquitin‐proteasome system with DUB inhibitors will lead to decreased tau aggregation either directly (by inhibiting the removal of ubiquitin from tau thereby increasing its degradation) or indirectly (via modulation of other relevant pathways, like autophagy). To select relevant DUBs, we developed a phenotypic assay to assess the effect of knocking down ∼100 DUBs on the clearance of tau aggregates in hiPSC – derived neurons, assayed using high content image analysis. Result We show that addition of recombinant tau seeds to hiPSC – derived cortical neurons expressing a fluorescent tau reporter construct, leads to formation of tau aggregates, which we can robustly and reproducibly reduce by knocking down specific DUBs. Conclusion The DUB enzymes revealed in our phenotypic screen have been validated in confirmatory studies and have the potential to become novel targets for the treatment of AD. In collaboration with Mission Therapeutics we will develop selective, potent DUB inhibitors for preclinical target validation.

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Justine D. Manos

Uncovering specificity of endogenous TAU aggregation in a human iPSC-neuron TAU seeding model

Identifying Biomarkers of Retinal Pigment Epithelial Cell Stem Cell-derived RPE Cell Heterogeneity and Transplantation Efficacy

An hiPSC‐based genetic screening system to model aggregation of tau protein allows the identification and validation of possible targets for Alzheimer’s disease therapies

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