Literature DB >> 33333020

Generation of Functional Human 3D Cortico-Motor Assembloids.

Jimena Andersen1, Omer Revah1, Yuki Miura1, Nicholas Thom2, Neal D Amin1, Kevin W Kelley1, Mandeep Singh1, Xiaoyu Chen1, Mayuri Vijay Thete2, Elisabeth M Walczak3, Hannes Vogel4, H Christina Fan3, Sergiu P Paşca5.   

Abstract

Neurons in the cerebral cortex connect through descending pathways to hindbrain and spinal cord to activate muscle and generate movement. Although components of this pathway have been previously generated and studied in vitro, the assembly of this multi-synaptic circuit has not yet been achieved with human cells. Here, we derive organoids resembling the cerebral cortex or the hindbrain/spinal cord and assemble them with human skeletal muscle spheroids to generate 3D cortico-motor assembloids. Using rabies tracing, calcium imaging, and patch-clamp recordings, we show that corticofugal neurons project and connect with spinal spheroids, while spinal-derived motor neurons connect with muscle. Glutamate uncaging or optogenetic stimulation of cortical spheroids triggers robust contraction of 3D muscle, and assembloids are morphologically and functionally intact for up to 10 weeks post-fusion. Together, this system highlights the remarkable self-assembly capacity of 3D cultures to form functional circuits that could be used to understand development and disease.
Copyright © 2020 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  assembloids; cerebral cortex; connectivity; corticospinal; human pluripotent stem cells; neuromuscular; optogenetics; organoids; rabies tracing; spinal cord

Mesh:

Substances:

Year:  2020        PMID: 33333020      PMCID: PMC8711252          DOI: 10.1016/j.cell.2020.11.017

Source DB:  PubMed          Journal:  Cell        ISSN: 0092-8674            Impact factor:   41.582


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