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Heterogeneous run-and-tumble motion accounts for transient non-Gaussian super-diffusion in haematopoietic multi-potent progenitor cells

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  • Benjamin Partridge
  • Sara Gonzalez Anton
  • Reema Khorshed
  • George Adams
  • Constandina Pospori
  • Cristina Lo Celso
  • Chiu Fan Lee

Abstract

Multi-potent progenitor (MPP) cells act as a key intermediary step between haematopoietic stem cells and the entirety of the mature blood cell system. Their eventual fate determination is thought to be achieved through migration in and out of spatially distinct niches. Here we first analyze statistically MPP cell trajectory data obtained from a series of long time-course 3D in vivo imaging experiments on irradiated mouse calvaria, and report that MPPs display transient super-diffusion with apparent non-Gaussian displacement distributions. Second, we explain these experimental findings using a run-and-tumble model of cell motion which incorporates the observed dynamical heterogeneity of the MPPs. Third, we use our model to extrapolate the dynamics to time-periods currently inaccessible experimentally, which enables us to quantitatively estimate the time and length scales at which super-diffusion transitions to Fickian diffusion. Our work sheds light on the potential importance of motility in early haematopoietic progenitor function.

Suggested Citation

  • Benjamin Partridge & Sara Gonzalez Anton & Reema Khorshed & George Adams & Constandina Pospori & Cristina Lo Celso & Chiu Fan Lee, 2022. "Heterogeneous run-and-tumble motion accounts for transient non-Gaussian super-diffusion in haematopoietic multi-potent progenitor cells," PLOS ONE, Public Library of Science, vol. 17(9), pages 1-26, September.
    • Handle: RePEc:plo:pone00:0272587
    DOI: 10.1371/journal.pone.0272587
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