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Merck
  • Mechanical stimuli and matrix properties modulate cancer spheroid growth in three-dimensional gelatin culture.

Mechanical stimuli and matrix properties modulate cancer spheroid growth in three-dimensional gelatin culture.

Journal of the Royal Society, Interface (2020-12-17)
Kimberly J Curtis, Jessica Schiavi, Myles J Mc Garrigle, Vatsal Kumar, Laoise M McNamara, Glen L Niebur
摘要

Most patients who succumb to cancer have metastases to bone that contribute to their death. Cancer cells that metastasize to bone are regularly subjected to mechanical stimuli that may affect their proliferation, growth and protein expression. Understanding why some cancer cells thrive in this environment could provide insight into new approaches to prevent or treat metastasis to bone. We used 4T1 cells as a model of breast cancer cells, and implanted them in gelatin hydrogels with moduli of 1 or 2.7 kPa to mimic the properties of bone marrow. The constructs were subjected to either perfusion of media through the hydrogel or combined perfusion and cyclic mechanical compression for 1 h d-1 for 4 d. Controls were cultured in free-swelling conditions. The cells formed spheroids during the 4 d of culture, with larger spheroids in the statically cultured constructs than in perfusion or compressed constructs. In stiffer gelatin, smaller spheroids formed in compressed constructs than perfusion alone, while compression had no effect compared to perfusion in the softer gelatin. Immunostaining indicated that the spheroids expressed osteopontin, parathyroid hormone-related protein and fibronectin, which are all hallmarks of bone metastasis. The proliferative marker Ki67 was present in all spheroids on day 4. In the 1 kPa gelatin, Ki67 staining intensity was greater in the statically cultured, free-swelling constructs than in bioreactor culture, regardless of dynamic compression. By contrast, proliferation was higher in the compressed gelatins compared to perfusion alone in the 2.7 kPa constructs, although the spheroids were smaller, on average. This suggests the stiffer gelatin may restrict spheroid growth at the same time that it enhances mechanobiological signalling during compression. Taken together, 4T1 breast cancer cells are mechanically sensitive, and mechanical stimuli can alter their proliferation and protein expression within soft materials with mechanical properties similar to bone marrow. As such, both in vivo and in vitro models of cancer metastasis should consider the role of the mechanical environment in the bone.

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Sigma-Aldrich
Anti-Osteopontin Antibody, serum, Chemicon®
Sigma-Aldrich
抗-Ki-67抗体, Chemicon®, from rabbit
Sigma-Aldrich
Anti-PTH/PTHrP Receptor Antibody, clone 3D1.1, clone 3D1.1, Upstate®, from mouse