Metzner C (2019)
Publication Type: Journal article
Publication year: 2019
Book Volume: 9
Pages Range: 14091-
Journal Issue: 1
DOI: 10.1038/s41598-019-50514-4
In chemotaxis, cells are modulating their migration patterns in response to concentration gradients of a guiding substance. Immune cells are believed to use such chemotactic sensing for remotely detecting and homing in on pathogens. Considering that immune cells may encounter a multitude of targets with vastly different migration properties, ranging from immobile to highly mobile, it is not clear which strategies of chemotactic pursuit are simultaneously efficient and versatile. We tackle this problem theoretically and define a tunable response function that maps temporal or spatial concentration gradients to migration behavior. The seven free parameters of this response function are optimized numerically with the objective of maximizing search efficiency against a wide spectrum of target cell properties. Finally, we reverse-engineer the best-performing parameter sets to uncover strategies of chemotactic pursuit that are efficient under different biologically realistic boundary conditions. Although strategies based on the temporal or spatial sensing of chemotactic gradients are significantly more efficient than unguided migration, such 'blind search' turns out to work surprisingly well, in particular if the immune cells are fast and directionally persistent. The resulting simulated data can be used for the design of chemotaxis experiments and for the development of algorithms that automatically detect and quantify goal oriented behavior in measured immune cell trajectories.
APA:
Metzner, C. (2019). On the efficiency of chemotactic pursuit - Comparing blind search with temporal and spatial gradient sensing. Scientific Reports, 9(1), 14091-. https://doi.org/10.1038/s41598-019-50514-4
MLA:
Metzner, Claus. "On the efficiency of chemotactic pursuit - Comparing blind search with temporal and spatial gradient sensing." Scientific Reports 9.1 (2019): 14091-.
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