| Literature DB >> 28833970 |
Adam L MacLean1, Maia A Smith1, Juliane Liepe1, Aaron Sim1, Reema Khorshed1, Narges M Rashidi1, Nico Scherf2, Axel Krinner2, Ingo Roeder2, Cristina Lo Celso1, Michael P H Stumpf1,3.
Abstract
The hematopoietic stem cell (HSC) niche provides essential microenvironmental cues for the production and maintenance of HSCs within the bone marrow. During inflammation, hematopoietic dynamics are perturbed, but it is not known whether changes to the HSC-niche interaction occur as a result. We visualize HSCs directly in vivo, enabling detailed analysis of the 3D niche dynamics and migration patterns in murine bone marrow following Trichinella spiralis infection. Spatial statistical analysis of these HSC trajectories reveals two distinct modes of HSC behavior: (a) a pattern of revisiting previously explored space and (b) a pattern of exploring new space. Whereas HSCs from control donors predominantly follow pattern (a), those from infected mice adopt both strategies. Using detailed computational analyses of cell migration tracks and life-history theory, we show that the increased motility of HSCs following infection can, perhaps counterintuitively, enable mice to cope better in deteriorating HSC-niche microenvironments following infection. Stem Cells 2017;35:2292-2304.Entities:
Keywords: Bone marrow; Cell migration; In vivo systems biology; In vivo tracking; Mathematical modeling; Stem cell-microenvironment interactions
Mesh:
Year: 2017 PMID: 28833970 DOI: 10.1002/stem.2692
Source DB: PubMed Journal: Stem Cells ISSN: 1066-5099 Impact factor: 6.277