Shear loaded osteocyte-like-cells affect epithelial and mesenchymal gene expression in DU145 prostate cancer cells, while decreasing their invasion in vitro

Research output: Contribution to JournalArticleAcademicpeer-review

Abstract

Once prostate cancer (PC) metastasizes towards bone the 5-year survival rates drop with 70%, but it is largely unknown why. Bone is continuously mechanically loaded, which likely modulates the paracrine signaling from osteocytes towards PC cells to affect tumor behavior. We hypothesize that shear loaded osteocytes affect PC cell proliferation, invasion and epithelial and mesenchymal-related gene and protein expression. We cultured human DU145 cells, a commonly used cell line for prostate cancer metastases, in the conditioned medium (CM) from shear loaded or unloaded human osteocyte-like-cells (OCYLCs) for 1 and 3 days and assessed their number by staining nuclei with DAPI, their invasion by performing an invasion assay, and epithelial-to-mesenchymal (EMT)-related gene and protein expression by qPCR and immunocytochemistry. CM of shear loaded OCYLCs did not affect DU145 cell number compared to CM of static cultured OCYLCs, but decreased their invasion 1.34-fold. CM of shear loaded OCYLCs enhanced expression of epithelial genes: SYND1 and CDH1 after day 1, while it also enhanced CDH1 after day 3. CM of shear loaded osteocytes enhanced mesenchymal genes: VMN, Snail and MIP2 after day 1, while it decreased expression of mesenchymal CYR61 after day 3. We conclude that CM of shear loaded OCYLCs does not affect DU145 cell proliferation, but decreases their invasion, and differentially affects their EMT-related gene expression. Identifying paracrine signals from shear loaded osteocytes that decrease PC cell invasion may provide novel leads in developing treatments for bone metastases from PC.

Original languageEnglish
Pages (from-to)70-77
Number of pages8
JournalBiochemical and Biophysical Research Communications
Volume646
Early online date21 Jan 2023
DOIs
Publication statusPublished - 26 Feb 2023

Bibliographical note

Funding Information:
Funding: This work was supported by ACTA Dental Research Institute, University of Amsterdam and Vrije Universiteit Amsterdam, Amsterdam, The Netherlands; and Eurostars (grant number: E!12572 ).

Publisher Copyright:
© 2023 Academic Centre for Dentistry Amsterdam (ACTA)

Keywords

  • Invasiveness
  • Mechanobiology
  • Physical force
  • Tumor

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