An Optimized Workflow to Generate and Characterize iPSC-Derived Motor Neuron (MN) Spheroids

Author:

Castellanos-Montiel María José1ORCID,Chaineau Mathilde1ORCID,Franco-Flores Anna Kristyna1,Haghi Ghazal1,Carrillo-Valenzuela Dulce1,Reintsch Wolfgang E.1ORCID,Chen Carol X.-Q.1,Durcan Thomas M.1ORCID

Affiliation:

1. The Neuro’s Early Drug Discovery Unit (EDDU), McGill University, 3801 University Street, Montreal, QC H3A 2B4, Canada

Abstract

A multitude of in vitro models based on induced pluripotent stem cell (iPSC)-derived motor neurons (MNs) have been developed to investigate the underlying causes of selective MN degeneration in motor neuron diseases (MNDs). For instance, spheroids are simple 3D models that have the potential to be generated in large numbers that can be used across different assays. In this study, we generated MN spheroids and developed a workflow to analyze them. To start, the morphological profiling of the spheroids was achieved by developing a pipeline to obtain measurements of their size and shape. Next, we confirmed the expression of different MN markers at the transcript and protein levels by qPCR and immunocytochemistry of tissue-cleared samples, respectively. Finally, we assessed the capacity of the MN spheroids to display functional activity in the form of action potentials and bursts using a microelectrode array approach. Although most of the cells displayed an MN identity, we also characterized the presence of other cell types, namely interneurons and oligodendrocytes, which share the same neural progenitor pool with MNs. In summary, we successfully developed an MN 3D model, and we optimized a workflow that can be applied to perform its morphological, gene expression, protein, and functional profiling over time.

Funder

Canada First Research Excellence Fund

ALS Society of Canada student fellowship

eNUVIO Inc.

Healthy Brains, Healthy Lives NeuroSphere at McGill University

Publisher

MDPI AG

Subject

General Medicine

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