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Single cell spatial biology over developmental time can decipher pediatric brain pathologies

Ruth Nussinov, Bengi Ruken Yavuz, Hyunbum Jang

2024Neurobiology of Disease12 citationsDOIOpen Access PDF

Abstract

Pediatric low grade brain tumors and neurodevelopmental disorders share proteins, signaling pathways, and networks. They also share germline mutations and an impaired prenatal differentiation origin. They may differ in the timing of the events and proliferation. We suggest that their pivotal distinct, albeit partially overlapping, outcomes relate to the cell states, which depend on their spatial location, and timing of gene expression during brain development. These attributes are crucial as the brain develops sequentially, and single-cell spatial organization influences cell state, thus function. Our underlying premise is that the root cause in neurodevelopmental disorders and pediatric tumors is impaired prenatal differentiation. Data related to pediatric brain tumors, neurodevelopmental disorders, brain cell (sub)types, locations, and timing of expression in the developing brain are scant. However, emerging single cell technologies, including transcriptomic, spatial biology, spatial high-resolution imaging performed over the brain developmental time, could be transformational in deciphering brain pathologies thereby pharmacology.

Topics & Concepts

NeuroscienceDECIPHERBiologyBrain developmentTranscriptomeCell fate determinationBioinformaticsGene expressionGeneticsGeneTranscription factorSingle-cell and spatial transcriptomicsGlioma Diagnosis and Treatmentinterferon and immune responses