Intracellular mechanics and TBX3 expression jointly dictate the spreading mode of melanoma cells in 3D environments
Intracellular mechanics and TBX3 expression jointly dictate the spreading mode of melanoma cells in 3D environments
Cell stiffness and T-box transcription factor 3 (TBX3) expression have been identified as biomarkers of melanoma metastasis in 2D environments. This study aimed to determine how mechanical and biochemical properties of melanoma cells change during cluster formation in 3D environments. Vertical growth phase (VGP) and metastatic (MET) melanoma cells were embedded in 3D collagen matrices of 2 and 4 mg/ml collagen concentrations, representing
low and high matrix stiffness. Mitochondrial fluctuation, intracellular stiffness, and TBX3 expression were quantified before and during cluster formation. In isolated cells, mitochondrial fluctuation decreased and intracellular stiffness increased with increase in disease stage from VGP to MET and increased matrix stiffness. TBX3 was highly expressed in soft matrices but diminished in stiff matrices for VGP and MET cells. Cluster formation of VGP cells was excessive in soft matrices but limited in stiff matrices, whereas for MET cells it was limited in soft and stiff matrices. In soft matrices, VGP cells did not change the
intracellular properties, whereas MET cells exhibited increased mitochondrial fluctuation and decreased TBX3 expression. In stiff matrices, mitochondrial fluctuation and TBX3 expression increased in VGP and MET, and intracellular stiffness increased in VGP but decreased in MET cells. The findings suggest that soft extracellular environments are more favourable for tumour growth, and high TBX3 levels mediate collective cell migration and tumour growth in the earlier VGP disease stage but play a lesser role in the later metastatic stage of melanoma.
cell mechanics, cluster formation, cluster morphology, collagen, mitochondrial particle tracking microrheology, t-box factor, T-box factor, Cluster formation, Collagen, Cluster morphology, Cell mechanics, Mitochondrial particle tracking microrheology
Higgins, Ghodeejah
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Higgins, Faatiemah
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Peres, Jade
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Lang, Dirk M.
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Abdalrahman, Tamer
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Zaman, Muhammad H.
5e7dd867-cb93-40fb-bb84-ff0f32497487
Prince, Sharon
e20a2915-8751-41b9-ab29-7a735307249b
Franz, Thomas
31f508f4-6851-4274-b256-cc01ab321d50
15 July 2023
Higgins, Ghodeejah
3aff2432-67fe-41a9-a318-fdcc231991eb
Higgins, Faatiemah
ea5b34e2-0528-4eb5-8783-16f29a2d166d
Peres, Jade
ca29d47e-babe-400b-b334-7de6fa6e8d31
Lang, Dirk M.
39c27908-c7f0-42ff-9814-24581bb67ffb
Abdalrahman, Tamer
65d60fa0-5278-4158-9e58-a75854a2c4c1
Zaman, Muhammad H.
5e7dd867-cb93-40fb-bb84-ff0f32497487
Prince, Sharon
e20a2915-8751-41b9-ab29-7a735307249b
Franz, Thomas
31f508f4-6851-4274-b256-cc01ab321d50
Higgins, Ghodeejah, Higgins, Faatiemah, Peres, Jade, Lang, Dirk M., Abdalrahman, Tamer, Zaman, Muhammad H., Prince, Sharon and Franz, Thomas
(2023)
Intracellular mechanics and TBX3 expression jointly dictate the spreading mode of melanoma cells in 3D environments.
Experimental Cell Research, 428 (2), [113633].
(doi:10.1016/j.yexcr.2023.113633).
Abstract
Cell stiffness and T-box transcription factor 3 (TBX3) expression have been identified as biomarkers of melanoma metastasis in 2D environments. This study aimed to determine how mechanical and biochemical properties of melanoma cells change during cluster formation in 3D environments. Vertical growth phase (VGP) and metastatic (MET) melanoma cells were embedded in 3D collagen matrices of 2 and 4 mg/ml collagen concentrations, representing
low and high matrix stiffness. Mitochondrial fluctuation, intracellular stiffness, and TBX3 expression were quantified before and during cluster formation. In isolated cells, mitochondrial fluctuation decreased and intracellular stiffness increased with increase in disease stage from VGP to MET and increased matrix stiffness. TBX3 was highly expressed in soft matrices but diminished in stiff matrices for VGP and MET cells. Cluster formation of VGP cells was excessive in soft matrices but limited in stiff matrices, whereas for MET cells it was limited in soft and stiff matrices. In soft matrices, VGP cells did not change the
intracellular properties, whereas MET cells exhibited increased mitochondrial fluctuation and decreased TBX3 expression. In stiff matrices, mitochondrial fluctuation and TBX3 expression increased in VGP and MET, and intracellular stiffness increased in VGP but decreased in MET cells. The findings suggest that soft extracellular environments are more favourable for tumour growth, and high TBX3 levels mediate collective cell migration and tumour growth in the earlier VGP disease stage but play a lesser role in the later metastatic stage of melanoma.
Text
P084_Melanoma_3D ECR rev04
- Accepted Manuscript
Restricted to Repository staff only until 9 May 2024.
More information
Accepted/In Press date: 9 May 2023
e-pub ahead of print date: 10 May 2023
Published date: 15 July 2023
Additional Information:
Funding Information:
This study was supported financially by the National Research Foundation of South Africa (grant number IFR14011761118 to TF and grant number SRUG190306422357 to SP), the South African Medical Research Council (TF and SP), the Cancer Association of South Africa (SP), and the University of Cape Town (TF and SP). The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript. Any opinion, findings and conclusions or recommendations expressed in this publication are those of the authors and do not necessarily represent the official views of the funding agencies.
Funding Information:
We acknowledge the technical assistance of Mrs Susan Cooper of the Confocal and Light Microscope Imaging Facility of the University of Cape Town . The microscope used in this work was purchased with funds from the Wellcome Trust (grant number 108473/Z/15/Z ) and the National Research Foundation of South Africa (grant number UID93197 ). Ms Anneli Hardy from the Statistical Consulting Service at the Department of Statistical Sciences, University of Cape Town , is acknowledged for conducting the regression model analysis.
Publisher Copyright:
© 2023 Elsevier Inc.
Keywords:
cell mechanics, cluster formation, cluster morphology, collagen, mitochondrial particle tracking microrheology, t-box factor, T-box factor, Cluster formation, Collagen, Cluster morphology, Cell mechanics, Mitochondrial particle tracking microrheology
Identifiers
Local EPrints ID: 477499
URI: http://eprints.soton.ac.uk/id/eprint/477499
ISSN: 0014-4827
PURE UUID: b3d70291-70cf-4b02-a537-5b11335b5501
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Date deposited: 07 Jun 2023 16:54
Last modified: 17 Mar 2024 02:11
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Contributors
Author:
Ghodeejah Higgins
Author:
Faatiemah Higgins
Author:
Jade Peres
Author:
Dirk M. Lang
Author:
Tamer Abdalrahman
Author:
Muhammad H. Zaman
Author:
Sharon Prince
Author:
Thomas Franz
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