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Emerging approaches to enhance human brain organoid physiology

Biology

Emerging approaches to enhance human brain organoid physiology

A. Pagliaro, B. Artegiani, et al.

This review surveys cutting-edge strategies to boost the physiological relevance of brain organoids—stem cell optimization, refined morphogen delivery, ECM niche tuning, tissue-architecture engineering, co-cultures, assembloids, and in vivo xenotransplantation—offering a roadmap for more life-like models. Research conducted by Anna Pagliaro, Benedetta Artegiani, and Delilah Hendriks.... show more
Abstract
Brain organoids are important 3D models for studying human brain development, disease, and evolution. To overcome some of the existing limitations that affect organoid quality, reproducibility, characteristics, and in vivo resemblance, current efforts are directed to improve their physiological relevance by exploring different, yet interconnected, routes. In this review, these approaches and their latest developments are discussed, including stem cell optimization, refining morphogen administration strategies, altering the extracellular matrix (ECM) niche, and manipulating tissue architecture to mimic in vivo brain morphogenesis. Additionally, strategies to increase cell diversity and enhance organoid maturation, such as establishing co-cultures, assembloids, and organoid in vivo xenotransplantation, are reviewed. We explore how these various factors can be tuned and intermingled and speculate on future avenues towards even more physiologically-advanced brain organoids.
Publisher
Trends in Cell Biology
Published On
Authors
Anna Pagliaro, Benedetta Artegiani, Delilah Hendriks
DOI
https://doi.org/10.1016/j.tcb.2024.12.001
Tags
brain organoids
physiological relevance
stem cell optimization
extracellular matrix (ECM)
organoid maturation
assembloids and co-culture
xenotransplantation

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