ABSTRACT
Economic efficiency has been a popular explanation for how networks self-organize within the developing nervous system. However, the precise nature of the economic negotiations governing this putative organizational principle remains unclear. Here, we address this question further by combining large-scale electrophysiological recordings, to characterize the functional connectivity of developing neuronal networks in vitro, with a generative modeling approach capable of simulating network formation. We find that the best fitting model uses a homophilic generative wiring principle in which neurons form connections to other neurons which are spatially proximal and have similar connectivity patterns to themselves. Homophilic generative models outperform more canonical models in which neurons wire depending upon their spatial proximity either alone or in combination with the extent of their local connectivity. This homophily-based mechanism for neuronal network emergence accounts for a wide range of observations that are described, but not sufficiently explained, by traditional analyses of network topology. Using rodent and human monolayer and organoid cultures, we show that homophilic generative mechanisms can accurately recapitulate the topology of emerging cellular functional connectivity, representing an important wiring principle and determining factor of neuronal network formation in vitro.
Competing Interest Statement
SR is employed at MaxWell Biosystems AG, which commercializes HD-MEA technology.
Footnotes
↵* Co-lead first authors
↵† Co-lead senior authors
We have extended the paper in numerous ways: 1. Inclusion of additional transfer entropy connectivity measures 2. Greater number of null models tested 3. Increased sample size of gabazine cultures 4. Inclusion of a washout sample in longitudinal gabazine cultures to elucidate causal mechanisms 5. Analysis of the role of heterogeneous spiking in functional connectivity and generative models 6. Greater depth of explanation and interpretations 7. More references included throughout