AI Article Synopsis
- When Dictyostelium discoideum cells experience starvation, they release cAMP, which leads to periodic waves that help cells aggregate through chemotaxis.
- An experiment showed that fast-moving cAMP waves enhance the chemotactic response of individual cells when exposed repeatedly, indicating a potential memory effect.
- The findings suggest that this memory-like behavior aligns with a model of local excitation and global inhibition, highlighting the evolutionary advantage for cells in nature to improve their chemotactic ability toward their aggregation center.
Article Abstract
When cells of the social amoeba Dictyostelium discoideum are starved of nutrients they start to synthesize and secrete the chemical messenger and chemoattractant cyclic adenosine monophosphate (cAMP). This signal is relayed by other cells, resulting in the establishment of periodic waves. The cells aggregate through chemotaxis toward the center of these waves. We investigated the chemotactic response of individual cells to repeated exposure to waves of cAMP generated by a microfluidic device. For fast-moving waves (short period), the chemotactic ability of the cells was found to increase upon exposure to more waves, suggesting the development of a memory over several cycles. This effect was not significant for slow-moving waves (large period). We show that the experimental results are consistent with a local excitation global inhibition-based model, extended by including a component that rises and decays slowly and that is activated by the temporal gradient of cAMP concentration. The observed enhancement in chemotaxis is relevant to populations in the wild: once sustained, periodic waves of the chemoattractant are established, it is beneficial to cells to improve their chemotactic ability in order to reach the aggregation center sooner.
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| http://dx.doi.org/10.1103/PhysRevLett.133.068401 | DOI Listing |
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