@article{ChilloKleinertLautzetal.2016,
  author    = {Chillo, Omary and Kleinert, Eike Christian and Lautz, Thomas and Lasch, Manuel and Pagel, Judith-Irina and Heun, Yvonn and Troidl, Kerstin and Fischer, Silvia and Caballero-Martinez, Amelia and Mauer, Annika and Kurz, Angela R. M. and Assmann, Gerald and Rehberg, Markus and Kanse, Sandip M. and Nieswandt, Bernhard and Walzog, Barbara and Reichel, Christoph A. and Mannell, Hanna and Preissner, Klaus T. and Deindl, Elisabeth},
  title     = {Perivascular Mast Cells Govern Shear Stress-Induced Arteriogenesis by Orchestrating Leukocyte Function},
  series = {Cell Reports},
  volume    = {16},
  journal   = {Cell Reports},
  number    = {8},
  doi       = {10.1016/j.celrep.2016.07.040},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-164800},
  pages     = {2197-2207},
  year      = {2016},
  abstract  = {The body has the capacity to compensate for an occluded artery by creating a natural bypass upon increased fluid shear stress. How this mechanical force is translated into collateral artery growth (arteriogenesis) is unresolved. We show that extravasation of neutrophils mediated by the platelet receptor GPIbα and uPA results in Nox2-derived reactive oxygen radicals, which activate perivascular mast cells. These c-kit+/CXCR-4+ cells stimulate arteriogenesis by recruiting additional neutrophils as well as growth-promoting monocytes and T cells. Additionally, mast cells may directly contribute to vascular remodeling and vascular cell proliferation through increased MMP activity and by supplying growth-promoting factors. Boosting mast cell recruitment and activation effectively promotes arteriogenesis, thereby protecting tissue from severe ischemic damage. We thus find that perivascular mast cells are central regulators of shear stress-induced arteriogenesis by orchestrating leukocyte function and growth factor/cytokine release, thus providing a therapeutic target for treatment of vascular occlusive diseases.},
  language  = {en}
}
@article{FischerSchardtLilaoGarzonetal.2023,
  author    = {Fischer, Sabine C. and Schardt, Simon and Lilao-Garz{\´o}n, Joaqu{\´i}n and Mu{\~n}oz-Descalzo, Silvia},
  title     = {The salt-and-pepper pattern in mouse blastocysts is compatible with signaling beyond the nearest neighbors},
  series = {iScience},
  volume    = {26},
  journal   = {iScience},
  number    = {11},
  doi       = {10.1016/j.isci.2023.108106},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-350184},
  year      = {2023},
  abstract  = {Summary Embryos develop in a concerted sequence of spatiotemporal arrangements of cells. In the preimplantation mouse embryo, the distribution of the cells in the inner cell mass evolves from a salt-and-pepper pattern to spatial segregation of two distinct cell types. The exact properties of the salt-and-pepper pattern have not been analyzed so far. We investigate the spatiotemporal distribution of NANOG- and GATA6-expressing cells in the ICM of the mouse blastocysts with quantitative three-dimensional single-cell-based neighborhood analyses. A combination of spatial statistics and agent-based modeling reveals that the cell fate distribution follows a local clustering pattern. Using ordinary differential equations modeling, we show that this pattern can be established by a distance-based signaling mechanism enabling cells to integrate information from the whole inner cell mass into their cell fate decision. Our work highlights the importance of longer-range signaling to ensure coordinated decisions in groups of cells to successfully build embryos. Highlights • The local cell neighborhood and global ICM population composition correlate • ICM cells show characteristics of local clustering in early and mid mouse blastocysts • ICM patterning requires integration of signals from cells beyond the first neighbors},
  language  = {en}
}