Nanoclay gels attenuate BMP2-associated inflammation and promote chondrogenesis to enhance BMP2-spinal fusion
Nanoclay gels attenuate BMP2-associated inflammation and promote chondrogenesis to enhance BMP2-spinal fusion
Bone morphogenetic protein 2 (BMP2) is clinically applied for treating intractable fractures and promoting spinal fusion because of its osteogenic potency. However, adverse effects following the release of supraphysiological doses of BMP2 from collagen carriers are widely reported. Nanoclay gel (NC) is attracting attention as a biomaterial, given the potential for localized efficacy of administered agents. However, the efficacy and mechanism of action of NC/BMP2 remain unclear. This study explored the efficacy of NC as a BMP2 carrier in bone regeneration and the enhancement mechanism. Subfascial implantation of NC containing BMP2 elicited superior bone formation compared with collagen sponge (CS). Cartilage was uniformly formed inside the NC, whereas CS formed cartilage only on the perimeter. Additionally, CS induced a dose-dependent inflammatory response around the implantation site, whereas NC induced a minor response, and inflammatory cells were observed inside the NC. In a rat spinal fusion model, NC promoted high-quality bony fusion compared to CS. In vitro, NC enhanced chondrogenic and osteogenic differentiation of hBMSCs and ATDC5 cells while inhibiting osteoclastogenesis. Overall, NC/BMP2 facilitates spatially controlled, high-quality endochondral bone formation without BMP2-induced inflammation and promotes high-density new bone, functioning as a next-generation BMP2 carrier.
nanoclay, bone morphogenetic protein 2, endochondral ossification, inflammation, bone tissue engineering
474-487
Furuichi, Takuya
16aac724-13b4-4e6a-b7e7-0c65b28c6c01
Hirai, Hiromasa
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Kitahara, Takayuki
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Bun, Masayuki
e6168de6-cb98-46ac-a7fa-837fc7650e34
Ikuta, Masato
b7d53a9b-952d-4bd3-b953-420afd1b49bb
Ukon, Yuichiro
e3a4b7fb-0858-4978-8bb4-8756512c7bf8
Furuya, Masayuki
13e6b149-2015-43a7-bc6f-3782e879b1e0
Oreffo, Richard O.C.
ff9fff72-6855-4d0f-bfb2-311d0e8f3778
Janeczek, Agnieszka A.
81b58bec-079a-4484-b855-ec01ca49ec60
Dawson, Jonathan I.
b220fe76-498d-47be-9995-92da6c289cf3
Okada, Seiji
e8227291-a4c7-4fd6-b56e-68d9f93bdd4d
Kaito, Takashi
74cd2c77-32fc-4c5c-95a6-b463bca559bd
5 November 2024
Furuichi, Takuya
16aac724-13b4-4e6a-b7e7-0c65b28c6c01
Hirai, Hiromasa
8797d9be-9558-40d7-a4b1-c422e18d9a7b
Kitahara, Takayuki
7ab7d14f-627b-4b12-a76b-42a863c5e582
Bun, Masayuki
e6168de6-cb98-46ac-a7fa-837fc7650e34
Ikuta, Masato
b7d53a9b-952d-4bd3-b953-420afd1b49bb
Ukon, Yuichiro
e3a4b7fb-0858-4978-8bb4-8756512c7bf8
Furuya, Masayuki
13e6b149-2015-43a7-bc6f-3782e879b1e0
Oreffo, Richard O.C.
ff9fff72-6855-4d0f-bfb2-311d0e8f3778
Janeczek, Agnieszka A.
81b58bec-079a-4484-b855-ec01ca49ec60
Dawson, Jonathan I.
b220fe76-498d-47be-9995-92da6c289cf3
Okada, Seiji
e8227291-a4c7-4fd6-b56e-68d9f93bdd4d
Kaito, Takashi
74cd2c77-32fc-4c5c-95a6-b463bca559bd
Furuichi, Takuya, Hirai, Hiromasa, Kitahara, Takayuki, Bun, Masayuki, Ikuta, Masato, Ukon, Yuichiro, Furuya, Masayuki, Oreffo, Richard O.C., Janeczek, Agnieszka A., Dawson, Jonathan I., Okada, Seiji and Kaito, Takashi
(2024)
Nanoclay gels attenuate BMP2-associated inflammation and promote chondrogenesis to enhance BMP2-spinal fusion.
Bioactive Materials, 44, .
(doi:10.1016/j.bioactmat.2024.10.027).
Abstract
Bone morphogenetic protein 2 (BMP2) is clinically applied for treating intractable fractures and promoting spinal fusion because of its osteogenic potency. However, adverse effects following the release of supraphysiological doses of BMP2 from collagen carriers are widely reported. Nanoclay gel (NC) is attracting attention as a biomaterial, given the potential for localized efficacy of administered agents. However, the efficacy and mechanism of action of NC/BMP2 remain unclear. This study explored the efficacy of NC as a BMP2 carrier in bone regeneration and the enhancement mechanism. Subfascial implantation of NC containing BMP2 elicited superior bone formation compared with collagen sponge (CS). Cartilage was uniformly formed inside the NC, whereas CS formed cartilage only on the perimeter. Additionally, CS induced a dose-dependent inflammatory response around the implantation site, whereas NC induced a minor response, and inflammatory cells were observed inside the NC. In a rat spinal fusion model, NC promoted high-quality bony fusion compared to CS. In vitro, NC enhanced chondrogenic and osteogenic differentiation of hBMSCs and ATDC5 cells while inhibiting osteoclastogenesis. Overall, NC/BMP2 facilitates spatially controlled, high-quality endochondral bone formation without BMP2-induced inflammation and promotes high-density new bone, functioning as a next-generation BMP2 carrier.
Text
Nanoclay Gels Attenuate BMP2-associated Inflammation and Promote Chondrogenesis to Enhance BMP2-spinal Fusion
- Accepted Manuscript
Text
1-s2.0-S2452199X24004808-main
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Accepted/In Press date: 30 October 2024
e-pub ahead of print date: 5 November 2024
Published date: 5 November 2024
Keywords:
nanoclay, bone morphogenetic protein 2, endochondral ossification, inflammation, bone tissue engineering
Identifiers
Local EPrints ID: 500367
URI: http://eprints.soton.ac.uk/id/eprint/500367
ISSN: 2452-199X
PURE UUID: 2c092b04-4e50-41fa-a57c-ff8ad21595ab
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Date deposited: 28 Apr 2025 16:40
Last modified: 22 Aug 2025 01:59
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Contributors
Author:
Takuya Furuichi
Author:
Hiromasa Hirai
Author:
Takayuki Kitahara
Author:
Masayuki Bun
Author:
Masato Ikuta
Author:
Yuichiro Ukon
Author:
Masayuki Furuya
Author:
Agnieszka A. Janeczek
Author:
Seiji Okada
Author:
Takashi Kaito
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