Collective Entropy in Differing Astrocyte Signaling Networks

ORAL

Abstract

Astrocytes are integral non-neuronal cells that process information uniquely in the brain. In order to understand this unique information processing, we employ symbolization to quantify the dynamics encoding in active, signaling astrocytes. While this technique has been employed for neuronal electrical signals, we argue that the slow time-dynamics of astrocytes are another unexplored area for this symbolization. From symbolization, we analyze the entropy and partitioned entropy of differing astrocyte networks. We show that astrocytic networks possess different collective signaling dynamics depending upon the morphological phenotype present in the network. Additionally, we extend this technique on the biomechanical excitability of astrocytes as well.

*The authors thank the University of Maryland Imaging Incubator Core Facility for providing and maintaining the systems used in collecting images for this work. This work was supported by US Air Force Office of Scientific Research Astro-COLL grant FA9550-21-1-0352.

Publication: Collective Information and Communication in Morphologically Distinct Astrocytes (planned submission)

Presenters

  • Nicholas J Mennona

    • University of Maryland, College Park

Authors

  • Nicholas J Mennona

    • University of Maryland, College Park

  • Barbara Barile

    • 3 Biosciences, Biotechnology and Environment, University of Bari Aldo Moro,

  • Hoony Kang

    • University of Maryland, College Park

  • Kate M O'Neill

    • University of Maryland, College Park

  • Valentina Benfenati

    • Institute of Organic Synthesis and Photoreactivity, National Research Council of Italy

  • Grazia P Nicchia

    • Biosciences, Biotechnology and Environment, University of Bari Aldo Moro,

  • Wolfgang Losert

    • University of Maryland College Park

  • Wolfgang Losert

    • University of Maryland College Park