Fe-doped 45S5 bioactive glass compositions impair the metabolic activity and proliferation of metastatic human breast cancer cells in vitro
Many kinds of human tumors, including breast carcinomas, frequently metastasize to the bone, making it prone to pathologic fractures. Surgical management of bone metastases ranges from the resection of metastases to bone repair. Current surgical methods for the repair of bone defects include the use...
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Published in | Biomedical materials (Bristol) Vol. 19; no. 5; pp. 55028 - 55042 |
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Main Authors | , , , , , , |
Format | Journal Article |
Language | English |
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IOP Publishing
01.09.2024
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Abstract | Many kinds of human tumors, including breast carcinomas, frequently metastasize to the bone, making it prone to pathologic fractures. Surgical management of bone metastases ranges from the resection of metastases to bone repair. Current surgical methods for the repair of bone defects include the use of polymethyl methacrylate (PMMA)-based bone cements. A promising alternative material are bioactive glass (BG) particles that in addition to providing physical stability can also induce bone regeneration. Moreover, BGs doped with Fe
O
may also have a negative impact on tumor cells. Here, we tested the hypothesis that BGs can affect metastatic human breast cancer cells. To this end, we assessed the effects of different BG compositions with and without Fe
O
on metastatic human MDA-MB-231 breast cancer cells
. We found that all BGs tested impaired the viability and proliferation of breast cancer cells in a concentration-dependent manner. The anti-proliferative effects inversely correlated with BG particle size, and were in general less pronounced in mesenchymal stromal cells (MSCs) that served as a control. Moreover, Fe
O
-doped BGs were more potent inhibitors of tumor cell proliferation and metabolic activity than Fe
O
-free BG. Our data therefore indicate that BGs can affect human breast cancer cells more strongly than MSCs, and suggest that the presence of Fe
O
can potentiate anti-proliferative and anti-metabolic effects of BGs. Fe
O
-doped BGs thus have the potential to be used for the surgical management of metastatic bone lesions, and may in addition to their regenerative properties also allow the local control of bone metastases. |
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AbstractList | Many kinds of human tumors, including breast carcinomas, frequently metastasize to the bone, making it prone to pathologic fractures. Surgical management of bone metastases ranges from the resection of metastases to bone repair. Current surgical methods for the repair of bone defects include the use of polymethyl methacrylate (PMMA)-based bone cements. A promising alternative material are bioactive glass (BG) particles that in addition to providing physical stability can also induce bone regeneration. Moreover, BGs doped with Fe 2 O 3 may also have a negative impact on tumor cells. Here, we tested the hypothesis that BGs can affect metastatic human breast cancer cells. To this end, we assessed the effects of different BG compositions with and without Fe 2 O 3 on metastatic human MDA-MB-231 breast cancer cells in vitro . We found that all BGs tested impaired the viability and proliferation of breast cancer cells in a concentration-dependent manner. The anti-proliferative effects inversely correlated with BG particle size, and were in general less pronounced in mesenchymal stromal cells (MSCs) that served as a control. Moreover, Fe 2 O 3 -doped BGs were more potent inhibitors of tumor cell proliferation and metabolic activity than Fe 2 O 3 -free BG. Our data therefore indicate that BGs can affect human breast cancer cells more strongly than MSCs, and suggest that the presence of Fe 2 O 3 can potentiate anti-proliferative and anti-metabolic effects of BGs. Fe 2 O 3 -doped BGs thus have the potential to be used for the surgical management of metastatic bone lesions, and may in addition to their regenerative properties also allow the local control of bone metastases. Many kinds of human tumors, including breast carcinomas, frequently metastasize to the bone, making it prone to pathologic fractures. Surgical management of bone metastases ranges from the resection of metastases to bone repair. Current surgical methods for the repair of bone defects include the use of polymethyl methacrylate (PMMA)-based bone cements. A promising alternative material are bioactive glass (BG) particles that in addition to providing physical stability can also induce bone regeneration. Moreover, BGs doped with Fe O may also have a negative impact on tumor cells. Here, we tested the hypothesis that BGs can affect metastatic human breast cancer cells. To this end, we assessed the effects of different BG compositions with and without Fe O on metastatic human MDA-MB-231 breast cancer cells . We found that all BGs tested impaired the viability and proliferation of breast cancer cells in a concentration-dependent manner. The anti-proliferative effects inversely correlated with BG particle size, and were in general less pronounced in mesenchymal stromal cells (MSCs) that served as a control. Moreover, Fe O -doped BGs were more potent inhibitors of tumor cell proliferation and metabolic activity than Fe O -free BG. Our data therefore indicate that BGs can affect human breast cancer cells more strongly than MSCs, and suggest that the presence of Fe O can potentiate anti-proliferative and anti-metabolic effects of BGs. Fe O -doped BGs thus have the potential to be used for the surgical management of metastatic bone lesions, and may in addition to their regenerative properties also allow the local control of bone metastases. |
Author | Tripel, Elena El-Fiqi, Ahmed Hildenbrand, Nina Renkawitz, Tobias Kermani, Farzad Westhauser, Fabian Thiele, Wilko |
Author_xml | – sequence: 1 givenname: Nina orcidid: 0000-0002-3988-2018 surname: Hildenbrand fullname: Hildenbrand, Nina organization: Heidelberg University Hospital Research Centre for Molecular and Regenerative Orthopaedics, Department of Orthopaedics, Heidelberg, Germany – sequence: 2 givenname: Wilko orcidid: 0000-0002-8978-4192 surname: Thiele fullname: Thiele, Wilko organization: University of Heidelberg Department of Microvascular Biology and Pathobiology, European Center for Angioscience (ECAS), Medical Faculty Mannheism, Mannheim, Germany – sequence: 3 givenname: Elena surname: Tripel fullname: Tripel, Elena organization: Heidelberg University Hospital Research Centre for Molecular and Regenerative Orthopaedics, Department of Orthopaedics, Heidelberg, Germany – sequence: 4 givenname: Tobias surname: Renkawitz fullname: Renkawitz, Tobias organization: Heidelberg University Hospital Research Centre for Molecular and Regenerative Orthopaedics, Department of Orthopaedics, Heidelberg, Germany – sequence: 5 givenname: Farzad surname: Kermani fullname: Kermani, Farzad organization: Mashhad University of Medical Sciences Tissue Engineering Research Group (TERG), Department of Anatomy and Cell Biology, School of Medicine, Mashhad 917794-8564, Iran – sequence: 6 givenname: Ahmed orcidid: 0000-0002-2344-1728 surname: El-Fiqi fullname: El-Fiqi, Ahmed organization: National Research Centre Glass Research Department, Cairo 12622, Egypt – sequence: 7 givenname: Fabian orcidid: 0000-0001-9948-4209 surname: Westhauser fullname: Westhauser, Fabian organization: Heidelberg University Hospital Research Centre for Molecular and Regenerative Orthopaedics, Department of Orthopaedics, Heidelberg, Germany |
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Keywords | breast cancer bioactive glass ferroptosis bone metastasis pathological fracture cytotoxicity |
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SubjectTerms | bioactive glass Biocompatible Materials - chemistry Biocompatible Materials - pharmacology Bone Cements - chemistry Bone Cements - pharmacology bone metastasis Bone Neoplasms - metabolism Bone Neoplasms - secondary breast cancer Breast Neoplasms - metabolism Breast Neoplasms - pathology Cell Line, Tumor Cell Proliferation - drug effects Cell Survival - drug effects Ceramics - chemistry Ceramics - pharmacology cytotoxicity Female Ferric Compounds - chemistry ferroptosis Glass - chemistry Humans Iron - chemistry Materials Testing Mesenchymal Stem Cells Particle Size pathological fracture Polymethyl Methacrylate - chemistry |
Title | Fe-doped 45S5 bioactive glass compositions impair the metabolic activity and proliferation of metastatic human breast cancer cells in vitro |
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