Digitize Your Biology! Modeling Multicellular Systems Through Interpretable Cell Behavior

Overview

Journal bioRxiv

Date 2023 Sep 25

PMID 37745323

Authors

Jeanette A I Johnson

Genevieve L Stein-OBrien

Max Booth

Randy Heiland

Furkan Kurtoglu

Daniel R Bergman

Elmar Bucher

Atul Deshpande

Andre Forjaz

Michael Getz

Ines Godet

Melissa Lyman

John Metzcar

Jacob Mitchell

Andrew Raddatz

Heber Rocha

Jacobo Solorzano

Aneequa Sundus

Yafei Wang

Danielle Gilkes

Luciane T Kagohara

Ashley L Kiemen

Elizabeth D Thompson

Denis Wirtz

Pei-Hsun Wu

Neeha Zaidi

Lei Zheng

Jacquelyn W Zimmerman

Elizabeth M Jaffee

Young Hwan Chang

Lisa M Coussens

Joe W Gray

Laura M Heiser

Elana J Fertig

Paul Macklin

Affiliations

Soon will be listed here.

Abstract

Cells are fundamental units of life, constantly interacting and evolving as dynamical systems. While recent spatial multi-omics can quantitate individual cells' characteristics and regulatory programs, forecasting their evolution ultimately requires mathematical modeling. We develop a conceptual framework-a cell behavior hypothesis grammar-that uses natural language statements (cell rules) to create mathematical models. This allows us to systematically integrate biological knowledge and multi-omics data to make them computable. We can then perform virtual "thought experiments" that challenge and extend our understanding of multicellular systems, and ultimately generate new testable hypotheses. In this paper, we motivate and describe the grammar, provide a reference implementation, and demonstrate its potential through a series of examples in tumor biology and immunotherapy. Altogether, this approach provides a bridge between biological, clinical, and systems biology researchers for mathematical modeling of biological systems at scale, allowing the community to extrapolate from single-cell characterization to emergent multicellular behavior.

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