Literature DB >> 33712610

Schwann cell plasticity regulates neuroblastic tumor cell differentiation via epidermal growth factor-like protein 8.

Tamara Weiss1,2, Sabine Taschner-Mandl3, Lukas Janker4,5, Andrea Bileck4,5, Fikret Rifatbegovic1, Florian Kromp1, Helena Sorger1, Maximilian O Kauer1, Christian Frech1, Reinhard Windhager6, Christopher Gerner4,5, Peter F Ambros1,7, Inge M Ambros1.   

Abstract

Adult Schwann cells (SCs) possess an inherent plastic potential. This plasticity allows SCs to acquire repair-specific functions essential for peripheral nerve regeneration. Here, we investigate whether stromal SCs in benign-behaving peripheral neuroblastic tumors adopt a similar cellular state. We profile ganglioneuromas and neuroblastomas, rich and poor in SC stroma, respectively, and peripheral nerves after injury, rich in repair SCs. Indeed, stromal SCs in ganglioneuromas and repair SCs share the expression of nerve repair-associated genes. Neuroblastoma cells, derived from aggressive tumors, respond to primary repair-related SCs and their secretome with increased neuronal differentiation and reduced proliferation. Within the pool of secreted stromal and repair SC factors, we identify EGFL8, a matricellular protein with so far undescribed function, to act as neuritogen and to rewire cellular signaling by activating kinases involved in neurogenesis. In summary, we report that human SCs undergo a similar adaptive response in two patho-physiologically distinct situations, peripheral nerve injury and tumor development.

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Year:  2021        PMID: 33712610      PMCID: PMC7954855          DOI: 10.1038/s41467-021-21859-0

Source DB:  PubMed          Journal:  Nat Commun        ISSN: 2041-1723            Impact factor:   14.919


  104 in total

Review 1.  Matricellular proteins: Extracellular modulators of bone development, remodeling, and regeneration.

Authors:  Andrea I Alford; Kurt D Hankenson
Journal:  Bone       Date:  2006-01-18       Impact factor: 4.398

2.  Distinct target-derived signals organize formation, maturation, and maintenance of motor nerve terminals.

Authors:  Michael A Fox; Joshua R Sanes; Dorin-Bogdan Borza; Veraragavan P Eswarakumar; Reinhard Fässler; Billy G Hudson; Simon W M John; Yoshifumi Ninomiya; Vadim Pedchenko; Samuel L Pfaff; Michelle N Rheault; Yoshikazu Sado; Yoav Segal; Michael J Werle; Hisashi Umemori
Journal:  Cell       Date:  2007-04-06       Impact factor: 41.582

3.  Expression of neurofilament subunits in neurons of the central and peripheral nervous system: an immunohistochemical study with monoclonal antibodies.

Authors:  J Q Trojanowski; N Walkenstein; V M Lee
Journal:  J Neurosci       Date:  1986-03       Impact factor: 6.167

4.  S-Trap, an Ultrafast Sample-Preparation Approach for Shotgun Proteomics.

Authors:  Milkessa HaileMariam; Rodrigo Vargas Eguez; Harinder Singh; Shiferaw Bekele; Gobena Ameni; Rembert Pieper; Yanbao Yu
Journal:  J Proteome Res       Date:  2018-08-28       Impact factor: 4.466

Review 5.  Molecular basis for heterogeneity in human neuroblastomas.

Authors:  G M Brodeur
Journal:  Eur J Cancer       Date:  1995       Impact factor: 9.162

6.  Denervated Schwann cells attract macrophages by secretion of leukemia inhibitory factor (LIF) and monocyte chemoattractant protein-1 in a process regulated by interleukin-6 and LIF.

Authors:  George K Tofaris; Paul H Patterson; Kristjan R Jessen; Rhona Mirsky
Journal:  J Neurosci       Date:  2002-08-01       Impact factor: 6.167

7.  Pigment epithelium-derived factor (PEDF) in neuroblastoma: a multifunctional mediator of Schwann cell antitumor activity.

Authors:  S E Crawford; V Stellmach; M Ranalli; X Huang; L Huang; O Volpert; G H De Vries; L P Abramson; N Bouck
Journal:  J Cell Sci       Date:  2001-12       Impact factor: 5.285

Review 8.  The repair Schwann cell and its function in regenerating nerves.

Authors:  K R Jessen; R Mirsky
Journal:  J Physiol       Date:  2016-03-21       Impact factor: 5.182

9.  Ultra-High Density SNParray in Neuroblastoma Molecular Diagnostics.

Authors:  Inge M Ambros; Clemens Brunner; Reza Abbasi; Christian Frech; Peter F Ambros
Journal:  Front Oncol       Date:  2014-08-12       Impact factor: 6.244

10.  Zeb2 recruits HDAC-NuRD to inhibit Notch and controls Schwann cell differentiation and remyelination.

Authors:  Lai Man Natalie Wu; Jincheng Wang; Andrea Conidi; Chuntao Zhao; Haibo Wang; Zachary Ford; Liguo Zhang; Christiane Zweier; Brian G Ayee; Patrice Maurel; An Zwijsen; Jonah R Chan; Michael P Jankowski; Danny Huylebroeck; Q Richard Lu
Journal:  Nat Neurosci       Date:  2016-06-13       Impact factor: 24.884
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  14 in total

1.  Spatial and Transcriptomic Analysis of Perineural Invasion in Oral Cancer.

Authors:  Ligia B Schmitd; Cindy Perez-Pacheco; Emily L Bellile; Weisheng Wu; Keith Casper; Michelle Mierzwa; Laura S Rozek; Gregory T Wolf; Jeremy M G Taylor; Nisha J D'Silva
Journal:  Clin Cancer Res       Date:  2022-08-15       Impact factor: 13.801

2.  Reprogrammed Schwann Cells Organize into Dynamic Tracks that Promote Pancreatic Cancer Invasion.

Authors:  Sylvie Deborde; Laxmi Gusain; Ann Powers; Andrea Marcadis; Yasong Yu; Chun-Hao Chen; Anna Frants; Elizabeth Kao; Laura H Tang; Efsevia Vakiani; Masataka Amisaki; Vinod P Balachandran; Annalisa Calo; Tatiana Omelchenko; Kristjan R Jessen; Boris Reva; Richard J Wong
Journal:  Cancer Discov       Date:  2022-10-05       Impact factor: 38.272

Review 3.  The Role of Schwann Cells in Cancer.

Authors:  Sylvie Deborde; Richard J Wong
Journal:  Adv Biol (Weinh)       Date:  2022-06-04

Review 4.  Drug Repurposing by Tumor Tissue Editing.

Authors:  Florian Lüke; Dennis Christoph Harrer; Pan Pantziarka; Tobias Pukrop; Lina Ghibelli; Christopher Gerner; Albrecht Reichle; Daniel Heudobler
Journal:  Front Oncol       Date:  2022-06-24       Impact factor: 5.738

5.  Whole-exome sequencing reveals a role of HTRA1 and EGFL8 in brain white matter hyperintensities.

Authors:  Rainer Malik; Nathalie Beaufort; Simon Frerich; Benno Gesierich; Marios K Georgakis; Kristiina Rannikmäe; Amy C Ferguson; Christof Haffner; Matthew Traylor; Michael Ehrmann; Cathie L M Sudlow; Martin Dichgans
Journal:  Brain       Date:  2021-10-22       Impact factor: 15.255

6.  Exploring the dermotoxicity of the mycotoxin deoxynivalenol: combined morphologic and proteomic profiling of human epidermal cells reveals alteration of lipid biosynthesis machinery and membrane structural integrity relevant for skin barrier function.

Authors:  Giorgia Del Favero; Lukas Janker; Benjamin Neuditschko; Julia Hohenbichler; Endre Kiss; Lydia Woelflingseder; Christopher Gerner; Doris Marko
Journal:  Arch Toxicol       Date:  2021-04-23       Impact factor: 5.153

7.  MUW researcher of the month.

Authors: 
Journal:  Wien Klin Wochenschr       Date:  2022-01       Impact factor: 1.704

8.  SAPCD2 promotes neuroblastoma progression by altering the subcellular distribution of E2F7.

Authors:  Zi-Mu Zhang; Hai-Bo Cao; Zhi-Heng Li; Ran Zhuo; Yan-Fang Tao; Xiao-Lu Li; Gen Li; Xin-Mei Liao; Fang Fang; Yi Xie; Di Wu; Hai-Rong Wang; Jian-Wei Wang; Yan-Ling Chen; Juan-Juan Yu; Si-Qi Jia; Ran-Dong Yang; Xin-Yi Guo; Yang Yang; Chen-Xi Feng; Yun-Yun Xu; Guang-Hui Qian; Jian Pan
Journal:  Cell Death Dis       Date:  2022-02-23       Impact factor: 8.469

9.  Inward Outward Signaling in Ovarian Cancer: Morpho-Phospho-Proteomic Profiling Upon Application of Hypoxia and Shear Stress Characterizes the Adaptive Plasticity of OVCAR-3 and SKOV-3 Cells.

Authors:  Andrea Bileck; Patricia Bortel; Michelle Kriz; Lukas Janker; Endre Kiss; Christopher Gerner; Giorgia Del Favero
Journal:  Front Oncol       Date:  2022-02-14       Impact factor: 6.244

10.  Landscape of Bone Marrow Metastasis in Human Neuroblastoma Unraveled by Transcriptomics and Deep Multiplex Imaging.

Authors:  Daria Lazic; Florian Kromp; Fikret Rifatbegovic; Peter Repiscak; Michael Kirr; Filip Mivalt; Florian Halbritter; Marie Bernkopf; Andrea Bileck; Marek Ussowicz; Inge M Ambros; Peter F Ambros; Christopher Gerner; Ruth Ladenstein; Christian Ostalecki; Sabine Taschner-Mandl
Journal:  Cancers (Basel)       Date:  2021-08-26       Impact factor: 6.639
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