Multiplexing Cortical Brain Organoids for the Longitudinal Dissection of Developmental Traits at Single-cell Resolution

Overview

Journal Nat Methods

Specialties Biomedical Engineering
Pathology

Date 2024 Dec 9

PMID 39653820

Authors

Nicolo Caporale

Davide Castaldi

Marco Tullio Rigoli

Cristina Cheroni

Alessia Valenti

Sarah Stucchi

Manuel Lessi

Davide Bulgheresi

Sebastiano Trattaro

Martina Pezzali

Alessandro Vitriolo

Alejandro Lopez-Tobon

Matteo Bonfanti

Dario Ricca

Katharina T Schmid

Matthias Heinig

Fabian J Theis

Carlo Emanuele Villa

Giuseppe Testa

Affiliations

Soon will be listed here.

Abstract

Dissecting human neurobiology at high resolution and with mechanistic precision requires a major leap in scalability, given the need for experimental designs that include multiple individuals and, prospectively, population cohorts. To lay the foundation for this, we have developed and benchmarked complementary strategies to multiplex brain organoids by pooling cells from different pluripotent stem cell (PSC) lines either during organoid generation (mosaic models) or before single-cell RNA sequencing (scRNA-seq) library preparation (downstream multiplexing). We have also developed a new computational method, SCanSNP, and a consensus call to deconvolve cell identities, overcoming current criticalities in doublets and low-quality cell identification. We validated both multiplexing methods for charting neurodevelopmental trajectories at high resolution, thus linking specific individuals' trajectories to genetic variation. Finally, we modeled their scalability across different multiplexing combinations and showed that mosaic organoids represent an enabling method for high-throughput settings. Together, this multiplexing suite of experimental and computational methods provides a highly scalable resource for brain disease and neurodiversity modeling.

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