Mingxi M. Song scite author profile

SUMMARY Cerebral organoids, three-dimensional cultures that model organogenesis, provide a new platform to investigate human brain development. High cost, variability and tissue heterogeneity limit their broad applications. Here we developed a miniaturized spinning bioreactor (SpinΩ) to generate forebrain-specific organoids from human iPSCs. These organoids recapitulate key features of human cortical development, including progenitor zone organization, neurogenesis, gene expression, and notably, a distinct human-specific outer radial glia cell layer. We also developed protocols for midbrain and hypothalamic organoids. Finally, we employed the forebrain organoid platform to model Zika virus (ZIKV) exposure. Quantitative analyses revealed preferential, productive infection of neural progenitors with either African or Asian ZIKV strains. ZIKV infection leads to increased cell death and reduced proliferation, resulting in decreased neuronal cell layer volume resembling microcephaly. Together, our brain region-specific organoids and SpinΩ provide an accessible and versatile platform for modeling human brain development and disease, and for compound testing including potential ZIKV antiviral drugs.

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Generation of human brain region–specific organoids using a miniaturized spinning bioreactor

Qian

et al. 2018

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Human brain organoids, 3D self-assembled neural tissues derived from pluripotent stem cells, are important tools for studying human brain development and related disorders. Suspension cultures maintained by spinning bioreactors allow for the growth of large organoids despite the lack of vasculature, but commercially available spinning bioreactors are bulky in size and have low throughput. Here, we describe the procedures for building the miniaturized multiwell spinning bioreactor SpinΩ from 3D-printed parts and commercially available hardware. We also describe how to use SpinΩ to generate forebrain, midbrain and hypothalamus organoids from human induced pluripotent stem cells (hiPSCs). These organoids recapitulate key dynamic features of the developing human brain at the molecular, cellular and structural levels. The reduction in culture volume, increase in throughput and reproducibility achieved using our bioreactor and region-specific differentiation protocols enable quantitative modeling of brain disorders and compound testing. This protocol takes 14–84 d to complete (depending on the type of brain region–specific organoids and desired developmental stages), and organoids can be further maintained over 200 d. Competence with hiPSC culture is required for optimal results.

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5-Hydroxymethylcytosine-mediated alteration of transposon activity associated with the exposure to adversein uteroenvironments in human

et al. 2016

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Preeclampsia and gestational diabetes mellitus (GDM) are the most common clinical conditions in pregnancy that could result in adverse in utero environments. Fetal exposure to poor environments may raise the long-term risk of postnatal disorders, while epigenetic modifications could be involved. Recent research has implicated involvement of 5-hydroxymethylcytosine (5hmC), a DNA base derived from 5-methylcytosine, via oxidation by ten-eleven translocation (TET) enzymes, in DNA methylation-related plasticity. Here, we show that the TET2 expression and 5hmC abundance are significantly altered in the umbilical veins of GDM and preeclampsia. Genome-wide profiling of 5hmC revealed its specific reduction on intragenic regions from both GDM and preeclampsia compared to healthy controls. Gene Ontology analysis using loci bearing unique GDM- and preeclampsia-specific loss-of-5hmC indicated its impact on several critical biological pathways. Interestingly, the substantial alteration of 5hmC on several transposons and repetitive elements led to their differential expression. The alteration of TET expression, 5hmC levels and 5hmC-mediated transposon activity was further confirmed using established hypoxia cell culture model, which could be rescued by vitamin C, a known activator of TET proteins. Together, these results suggest that adverse pregnancy environments could influence 5hmC-mediated epigenetic profile and contribute to abnormal development of fetal vascular systems that may lead to postnatal diseases.

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Chronic-Phase Chronic Myeloid Leukemia Times to Death By Disease Support Tyrosine Kinase Inhibitor Dose Reductions When BCR::ABL1 Level Is <1% and Decreasing

Radivoyevitch

Druker

Radich

et al. 2022

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Mingxi M. Song

Brain-Region-Specific Organoids Using Mini-bioreactors for Modeling ZIKV Exposure

Generation of human brain region–specific organoids using a miniaturized spinning bioreactor

5-Hydroxymethylcytosine-mediated alteration of transposon activity associated with the exposure to adversein uteroenvironments in human

Chronic-Phase Chronic Myeloid Leukemia Times to Death By Disease Support Tyrosine Kinase Inhibitor Dose Reductions When BCR::ABL1 Level Is <1% and Decreasing

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Mingxi M. Song

Brain-Region-Specific Organoids Using Mini-bioreactors for Modeling ZIKV Exposure

Generation of human brain region–specific organoids using a miniaturized spinning bioreactor

5-Hydroxymethylcytosine-mediated alteration of transposon activity associated with the exposure to adversein uteroenvironments in human

Chronic-Phase Chronic Myeloid Leukemia Times to Death By Disease Support Tyrosine Kinase Inhibitor Dose Reductions When BCR::ABL1 Level Is &lt;1% and Decreasing

Contact Info

Product

Resources

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Chronic-Phase Chronic Myeloid Leukemia Times to Death By Disease Support Tyrosine Kinase Inhibitor Dose Reductions When BCR::ABL1 Level Is <1% and Decreasing