Unveiling and Steering Connectome Organization with Interpretable Latent Variables

The brain's intricate connectome, a blueprint for its function, presents immense complexity, yet it arises from a compact genetic code, hinting at underlying low-dimensional organizational principles. This work bridges connectomics and representation learning to uncover these principles. We propose a framework that combines subgraph extraction from the Drosophila connectome, FlyWire, with a generative model to derive interpretable low-dimensional representations of neural circuitry. Crucially, an explainability module links these latent dimensions to specific structural features, offering insights into their functional relevance. We validate our approach by demonstrating effective graph reconstruction and, significantly, the ability to manipulate these latent codes to controllably generate connectome subgraphs with predefined properties. This research offers a novel tool for understanding brain architecture and a potential avenue for designing bio-inspired artificial neural networks.

@article{li2025_2505.13011,
  title={ Unveiling and Steering Connectome Organization with Interpretable Latent Variables },
  author={ Yubin Li and Xingyu Liu and Guozhang Chen },
  journal={arXiv preprint arXiv:2505.13011},
  year={ 2025 }
}