AUTHOR=Smith Nathan R. , Ameen Shabeeb , Miller Sierra N. , Kasper James M. , Schwarz Jennifer M. , Hommel Jonathan D. , Borzou Ahmad TITLE=The neuroanatomical organization of the hypothalamus is driven by spatial and topological efficiency JOURNAL=Frontiers in Systems Neuroscience VOLUME=18 YEAR=2024 URL=https://www.frontiersin.org/journals/systems-neuroscience/articles/10.3389/fnsys.2024.1417346 DOI=10.3389/fnsys.2024.1417346 ISSN=1662-5137 ABSTRACT=

The hypothalamus in the mammalian brain is responsible for regulating functions associated with survival and reproduction representing a complex set of highly interconnected, yet anatomically and functionally distinct, sub-regions. It remains unclear what factors drive the spatial organization of sub-regions within the hypothalamus. One potential factor may be structural connectivity of the network that promotes efficient function with well-connected sub-regions placed closer together geometrically, i.e., the strongest axonal signal transferred through the shortest geometrical distance. To empirically test for such efficiency, we use hypothalamic data derived from the Allen Mouse Brain Connectivity Atlas, which provides a structural connectivity map of mouse brain regions derived from a series of viral tracing experiments. Using both cost function minimization and comparison with a weighted, sphere-packing ensemble, we demonstrate that the sum of the distances between hypothalamic sub-regions are not close to the minimum possible distance, consistent with prior whole brain studies. However, if such distances are weighted by the inverse of the magnitude of the connectivity, their sum is among the lowest possible values. Specifically, the hypothalamus appears within the top 94th percentile of neural efficiencies of randomly packed configurations and within one standard deviation of the median efficiency when packings are optimized for maximal neural efficiency. Our results, therefore, indicate that a combination of geometrical and topological constraints help govern the structure of the hypothalamus.