Yuejun Chen scite author profile

SUMMARY Transplantation of human pluripotent stem cell (hPSC)-derived neurons is a promising avenue for treating disorders including Parkinson’s disease (PD). Precise control over engrafted cell activity is highly desired, as cells do not always integrate properly into host circuitry and can cause suboptimal graft function or undesired outcomes. Here, we show tunable rescue of motor function in a mouse model of PD, following transplantation of human midbrain dopaminergic (mDA) neurons differentiated from hPSCs engineered to express DREADDs (designer receptors exclusively activated by designer drug). Administering clozapine-N-oxide (CNO) enabled precise DREADD-dependent stimulation or inhibition of engrafted neurons, revealing D1 receptor-dependent regulation of host neuronal circuitry by engrafted cells. Transplanted cells rescued motor defects, which could be reversed or enhanced by CNO-based control of graft function, and activating engrafted cells drives behavioral changes in transplanted mice. These results highlight the ability to exogenously and noninvasively control and refine therapeutic outcomes following cell transplantation.

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Engineering Human Stem Cell Lines with Inducible Gene Knockout using CRISPR/Cas9

Chen

et al. 2015

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SUMMARY Precise temporal control of gene expression or deletion is critical for elucidating gene function in biological systems. However, establishment of human pluripotent stem cell (hPSC) lines with inducible gene knockout (iKO) remains challenging. We explored building iKO hPSC lines by combining CRISPR/Cas9-mediated genome editing with the Flp/FRT and Cre/LoxP system. We found that “dual-sgRNA targeting” is essential for biallelic knock-in of FRT sequences to flank the exon. We further developed a strategy to simultaneously insert an activity-controllable recombinase-expressing cassette and remove the drug-resistance gene, thus speeding up the generation of iKO hPSC lines. This two-step strategy was used to establish human embryonic stem cell (hESC) and induced pluripotent stem cell (iPSC) lines with iKO of SOX2, PAX6, OTX2, and AGO2, genes that exhibit diverse structural layout and temporal expression patterns. The availability of iKO hPSC lines will substantially transform the way we examine gene function in human cells.

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A Simple and Efficient System for Regulating Gene Expression in Human Pluripotent Stem Cells and Derivatives

et al. 2014

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Regulatable transgene expression in human pluripotent stem cells (hPSCs) and their progenies is often necessary to dissect gene function in a temporal and spatial manner. However, hPSC lines with inducible transgene expression, especially in differentiated progenies, have not been established due to silencing of randomly inserted genes during stem cell expansion and/or differentiation. Here, we report the use of TALEN (transcription activator–like effector nucleases)-mediated targeting to AAVS1 site to generate versatile conditional hPSC lines. Transgene (both GFP and a functional gene) expression in hPSCs and their derivatives was not only sustained but also tightly regulated in response to doxycycline both in vitro and in vivo. We modified the donor construct so that any gene of interest can be readily inserted to produce hPSC lines with conditional transgene expression. This technology will substantially improve the way we study human stem cells.

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EGF Transregulates Opioid Receptors through EGFR-mediated GRK2 Phosphorylation and Activation

Chen

Long

et al. 2008

MBoC

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G protein-coupled receptor (GPCR) kinases (GRKs) are key regulators of GPCR function. Here we demonstrate that activation of epidermal growth factor receptor (EGFR), a member of receptor tyrosine kinase family, stimulates GRK2 activity and transregulates the function of G protein-coupled opioid receptors. Our data showed that EGF treatment promoted DOR internalization induced by DOR agonist and this required the intactness of GRK2-phosphorylation sites in DOR. EGF stimulation induced the association of GRK2 with the activated EGFR and the translocation of GRK2 to the plasma membrane. After EGF treatment, GRK2 was phosphorylated at tyrosyl residues. Mutational analysis indicated that EGFR-mediated phosphorylation occurred at GRK2 N-terminal tyrosyl residues previously shown as c-Src phosphorylation sites. However, c-Src activity was not required for EGFR-mediated phosphorylation of GRK2. In vitro assays indicated that GRK2 was a direct interactor and a substrate of EGFR. EGF treatment remarkably elevated DOR phosphorylation in cells expressing the wild-type GRK2 in an EGFR tyrosine kinase activity-dependent manner, whereas EGF-stimulated DOR phosphorylation was greatly decreased in cells expressing mutant GRK2 lacking EGFR tyrosine kinase sites. We further showed that EGF also stimulated internalization of -opioid receptor, and this effect was inhibited by GRK2 siRNA. These data indicate that EGF transregulates opioid receptors through EGFR-mediated tyrosyl phosphorylation and activation of GRK2 and propose GRK2 as a mediator of cross-talk from RTK to GPCR signaling pathway.

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Human Stem Cell-Derived Neurons Repair Circuits and Restore Neural Function

et al. 2021

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Autologous transplant therapy alleviates motor and depressive behaviors in parkinsonian monkeys

Tao

Vermilyea

Zammit

et al. 2021

Nat Med

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Degeneration of dopamine (DA) neurons in the midbrain underlies the pathogenesis of Parkinson's disease (PD). Supplement of DA via L-Dopa alleviates motor symptoms but does not prevent the progressive loss of DA neurons. A large body of experimental studies, including those in nonhuman primates (NHP), demonstrates that transplantation of fetal mesencephalic tissues improves motor symptoms in animals, which culminated in open-label and double-blinded clinical trials of fetal tissue transplantation for PD 1 . Unfortunately, the outcomes are mixed, primarily due to the undefined and unstandardized donor tissues 1,2 . Generation of induced pluripotent stem cells *

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Generation of vascularized brain organoids to study neurovascular interactions

Sun

et al. 2022

107

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Brain organoids have been used to recapitulate the processes of brain development and related diseases. However, the lack of vasculatures, which regulate neurogenesis and brain disorders, limits the utility of brain organoids. In this study, we induced vessel and brain organoids respectively, and then fused two types of organoids together to obtain vascularized brain organoids. The fused brain organoids were engrafted with robust vascular network-like structures, and exhibited increased number of neural progenitors, in line with the possibility that vessels regulate neural development. Fusion organoids also contained functional blood-brain-barrier (BBB)-like structures, as well as microglial cells, a specific population of immune cells in the brain. The incorporated microglia responded actively to immune stimuli to the fused brain organoids and showed ability of engulfing synapses. Thus, the fusion organoids established in this study allow modeling interactions between the neuronal and non-neuronal components in vitro, in particular the vasculature and microglia niche.

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Yuejun Chen

Assessment of Blood Tumor Mutational Burden as a Potential Biomarker for Immunotherapy in Patients With Non–Small Cell Lung Cancer With Use of a Next-Generation Sequencing Cancer Gene Panel

Chemical Control of Grafted Human PSC-Derived Neurons in a Mouse Model of Parkinson’s Disease

Engineering Human Stem Cell Lines with Inducible Gene Knockout using CRISPR/Cas9

A Simple and Efficient System for Regulating Gene Expression in Human Pluripotent Stem Cells and Derivatives

EGF Transregulates Opioid Receptors through EGFR-mediated GRK2 Phosphorylation and Activation

Human Stem Cell-Derived Neurons Repair Circuits and Restore Neural Function

Autologous transplant therapy alleviates motor and depressive behaviors in parkinsonian monkeys

Generation of vascularized brain organoids to study neurovascular interactions

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