In a groundbreaking study poised to reshape our understanding of brain development, researchers have unveiled the existence of preconfigured neuronal firing sequences within human brain organoids. These firing patterns, traditionally thought to arise from sensory experience and environmental stimuli, appear to be innately programmed during neurodevelopment, challenging long-held assumptions about the brain’s early information processing architecture. This revelation not only deepens our grasp of neuronal circuit formation but also elevates the value of brain organoids as faithful models for investigating the complexities of human neurobiology.

Neuronal firing sequences—the precise order and timing of action potentials within neural circuits—form the fundamental building blocks by which the brain encodes, processes, and transmits information. Until now, the developmental timeline and origins of these sequences remained largely unknown, with the prevailing hypothesis attributing their emergence to experience-dependent plasticity, shaped dynamically by sensory inputs during early life. However, the new findings presented by van der Molen et al. point to an alternative mechanism rooted in intrinsic developmental programs.

Human brain organoids, three-dimensional cellular models derived from pluripotent stem cells, have surged in popularity as cutting-edge platforms for modeling human brain development in vitro. By replicating key aspects of brain tissue organization and cellular diversity, these organoids serve as invaluable proxies for investigating neuronal circuit assembly under controlled conditions. Importantly, this study compared both unguided human brain organoids and those directed toward forebrain identity, alongside ex vivo slices from neonatal mouse somatosensory cortex, offering a robust cross-species and methodological validation of their observations.

A researcher who completed numerous brain scans found that her cerebral cortex volume was 1% smaller while using hormonal contraceptives.

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A researcher who underwent dozens of brain scans discovered that the volume of her cerebral cortex was 1 per cent lower when she took hormonal contraceptives.

By Grace Wade

Higher polygenic risk scores for bipolar disorder were associated with favorable treatment outcomes after lithium augmentation in antidepressant non-responders with unipolar depression.

Question Are polygenic risk scores (PRS) for major psychiatric disorders associated with favorable treatment outcomes after lithium augmentation (LA) in major depression?

Findings In this cohort study with 193 patients with major depressive disorder (MDD) who did not respond to antidepressants, the PRS for bipolar disorder (BIP) was significantly associated with response and remission after at least 4 weeks of LA. Additionally, we found an association between the MDD-PRS and LA response.

Meaning Individuals with a higher polygenic burden for BIP and lower polygenic burden for MDD are more likely to experience favorable treatment outcomes following LA, offering new opportunities for personalized medicine approaches.