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Abstract

The degradation of exposed collagen fibers in the deep layers of dentin during bonding procedures hampers its durability. Inducing the remineralization of demineralized dentin areas and inhibiting collagen degradation can improve bonding durability. Resveratrol, a natural polyphenol, has garnered attention for its positive effects on bonding durability. The positive effects on dentin remineralization and matrix metalloproteinase (MMP) inhibition are concentration dependent; high concentrations increase cytotoxicity. This study investigated the use of complexes of resveratrol and cucurbit[n]uril (Q[6] and Q[7]) to maintain adequate concentrations and achieve a stable rate of release in the deep dentin layers without causing cytotoxicity. Resveratrol and Q[n] complexes (Res@Q[n]) were prepared and their structures and the extent of resveratrol release were examined using analytical chemistry methods and quantum chemical analysis. In addition, the effects of resveratrol and the complexes of Res@Q[n] on cell cytotoxicity, recombinant type I collagen and dentin mineralization, microtensile bond strength (µTBS), nanoleakage, rhMMP-9 colorimetric assays, and in situ zymography were compared. Resveratrol was stably released from the Res@Q[n] complexes for nearly a month, reducing the cell cytotoxicity of high concentrations of the polyphenol, exhibiting stronger inhibition of MMPs, and facilitating more pronounced remineralization of recombinant type I collagen and dentin. Pretreating the dentin surface with complexes significantly increased the µTBS values and reduced nanoleakage and MMP activity before and after aging compared with single resveratrol. In conclusion, Res@Q[n] complexes can promote the continuous stability of the hybrid layer and improve the durability of dentin bonding compared with resveratrol alone without inducing cytotoxicity.

Keywords

collagen host and guest molecules hybrid layer matrix metalloproteinases (MMPs)nanoleakage resin–dentin bonding

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References

Abdelshafi

Fathy

Elkhooly

Reicha

Osman

. 2021. Bond strength of demineralized dentin after synthesized collagen/hydroxyapatite nanocomposite application. J Mech Behav Biomed Mater. 121:104590. doi:10.1016/j.jmbbm.2021.104590

Atalayin

Armagan

Konyalioglu

Kemaloglu

Tezel

Ergucu

Keser

Dagci

Onal

2015. The protective effect of resveratrol against dentin bonding agents-induced cytotoxicity. Dent Mater J. 34(6):766–773.

Breschi

Maravic

Cunha

Comba

Cadenaro

Tjäderhane

Pashley

Tay

Mazzoni

2018. Dentin bonding systems: from dentin collagen structure to bond preservation and clinical applications. Dent Mater. 34(1):78–96.

Cadenaro

Josic

Maravić

Mazzitelli

Marchesi

Mancuso

Breschi

Mazzoni

2023. Progress in dental adhesive materials. J Dent Res. 102(3):254–262.

Cai

Cui

Wang

Yang

Zhu

2019. Improvement of stability of blueberry anthocyanins by carboxymethyl starch/xanthan gum combinations microencapsulation. Food Hydrocoll. 91:238–245.

Chen

Hua

Z-Y

Peng

Y-Y

Zhu

Zhao

J-L

Redshaw

2021. Assemblies of cucurbit 6 uril-based coordination complexes with disulfonate ligands: from discrete complexes to one- and two-dimensional polymers. CrystEngComm. 23(2):465–481.

Chen

Qiu

S-C

Wang

Chen

M-D

Zhang

Y-Q

Xiao

Tao

2017. Inverted cucurbit 6 uril supramolecular assemblies formed in the presence of tetrachlorozincate anions. J Mol Struct. 1146:402–408.

Frassetto

Breschi

Turco

Marchesi

Di Lenarda

Tay

Pashley

Cadenaro

2016. Mechanisms of degradation of the hybrid layer in adhesive dentistry and therapeutic agents to improve bond durability—a literature review. Dent Mater. 32(2):e41–e53. doi:10.1016/j.dental.2015.11.007

Giovannelli

Pitozzi

Jacomelli

Mulinacci

Laurenzana

Dolara

Mocali

2011. Protective effects of resveratrol against senescence-associated changes in cultured human fibroblasts. J Gerontol A Biol Sci Med Sci. 66(1):9–18.

10.

Hass

Liu

Cook

Walker

Wang

2021. Distinct effects of polyphenols and solvents on dentin collagen crosslinking interactions and biostability. Dent Mater. 37(12):1794–1805.

11.

Huang

Gao

Liu

Chen

Xiao

Cong

Zhu

Chen

Tao

2021. Cucurbit[n]uril-based supramolecular frameworks assembled through outer-surface interactions. Angew Chem Int Ed Engl. 60(28):15166–15191.

12.

Jin

Han

Wang

Yuan

Zhou

Xie

Niu

Chen

2022. The roles of 10-methacryloyloxydecyl dihydrogen phosphate and its calcium salt in preserving the adhesive-dentin hybrid layer. Dent Mater. 38(7):1194–1205.

13.

Kharouf

Haikel

Ball

2020. Polyphenols in dental applications. Bioengineering (Basel). 7(3):72. doi:10.3390/bioengineering7030072

14.

Kim

Arola

Kim

Mai

Liu

Pashley

Tay

. 2010. Functional biomimetic analogs help remineralize apatite-depleted demineralized resin-infiltrated dentin via a bottom-up approach. Acta Biomater. 6(7):2740–2750.

15.

Qiu

Zhang

Chen

Huang

Xiao

Zhang

Xue

, et al. 2016. Twisted cucurbit[n]urils. Org Lett. 18(16):4020–4023.

16.

Liu

Chen

Redshaw

2023. Stimuli-responsive mechanically interlocked molecules constructed from cucurbit[n]uril homologues and derivatives. Chem Soc Rev. 52(4):1428–1455.

17.

Liu

Tjäderhane

Breschi

Mazzoni

Mao

Pashley

Tay

. 2011. Limitations in bonding to dentin and experimental strategies to prevent bond degradation. J Dent Res. 90(8):953–968.

18.

Nashy

Osman

Mahmoud

Ibrahim

2012. Molecular spectroscopic study for suggested mechanism of chrome tanned leather. Spectrochim Acta A Mol Biomol Spectrosc. 88:171–176.

19.

O’Neill

Lima

Furlan Ferreira

Alvarez

Schweitzer-Stenner

2024. Determining the nanostructure and main axis of gly-his-gly fibrils using the amide I’ bands in FTIR, VCD, and Raman spectra. Spectrochim Acta A Mol Biomol Spectrosc. 306:123584. doi:10.1016/j.saa.2023.123584

20.

Pashley

Tay

Breschi

Tjäderhane

Carvalho

Carrilho

Tezvergil-Mutluay

2011. State of the art etch-and-rinse adhesives. Dent Mater. 27(1):1–16.

21.

Peng

Wang

Yang

Huang

2020. Effects of resveratrol/ethanol pretreatment on dentin bonding durability. Mater Sci Eng C Mater Biol Appl. 114:111000. doi:10.1016/j.msec.2020.111000

22.

Quideau

Deffieux

Douat-Casassus

Pouységu

2011. Plant polyphenols: chemical properties, biological activities, and synthesis. Angew Chem Int Ed Engl. 50(3):586–621.

23.

Sharma

Srinivasan

Nikolajeff

Kumar

2021. Biomineralization process in hard tissues: the interaction complexity within protein and inorganic counterparts. Acta Biomater. 120:20–37.

24.

Shavandi

Bekhit

AEA

Saeedi

Izadifar

Bekhit

Khademhosseini

2018. Polyphenol uses in biomaterials engineering. Biomaterials. 167:91–106.

25.

Shen

F-F

Chen

Hua

Z-Y

Wang

Chen

M-D

Zhang

Y-Q

Tao

2017. Adducts of aqua complexes of ln³⁺ with a dihydroxylated symmetrical octamethyl-substituted cucurbituril: potential applications for isolation of heavier lanthanides. CrystEngComm. 19(37):5635–5639.

26.

Shen

F-F

Zhao

J-L

Chen

Hua

Z-Y

Chen

M-D

Zhang

Y-Q

Zhu

Q-J

Tao

2017. Supramolecular coordination assemblies of a symmetrical octamethyl-substituted cucurbituril with alkali metal ions based on the outer-surface interactions of cucurbit[n]urils. CrystEngComm. 19(18):2464–2474.

27.

Tay

Pashley

. 2008. Guided tissue remineralisation of partially demineralised human dentine. Biomaterials. 29(8):1127–1137.

28.

van Ginkel

Sareen

Subramanian

Walker

Darjatmoko

Lindstrom

Kulkarni

Albert

Polans

. 2007. Resveratrol inhibits tumor growth of human neuroblastoma and mediates apoptosis by directly targeting mitochondria. Clin Cancer Res. 13(17):5162–5169.

29.

Wang

Han

You

Chen

Xie

2023. Polyphenols can improve resin-dentin bond durability by promoting amorphous calcium phosphate nanoparticles to backfill the dentin matrix. Int J Nanomedicine. 18:1491–1505.

30.

Wang

Chen

Shen

Hua

Qiu

Zhang

Cong

Liu

Tao

Xiao

2017. A new member of the inverted cucurbit[n]uril family. Chemistry. 23(67):16953–16956.

31.

Wang

Zhao

Zhou

Chen

2023. Sequential release of vascular endothelial growth factor-a and bone morphogenetic protein-2 from osteogenic scaffolds assembled by PLGA microcapsules: a preliminary study in vitro. Int J Biol Macromol. 232:123330. doi:10.1016/j.ijbiomac.2023.123330

32.

Yao

Chen

Hua

Zhu

Xue

Tao

2017. Cucurbit[n]uril-based host-guest-metal ion chemistry: an emerging branch in cucurbit[n] uril chemistry. J Incl Phenom Macrocycl Chem. 89(1–2):1–14.

33.

Zhang

Shi

Meng

Chen

Lin

R-L

Sun

W-Q

Liu

J-X.

2019. Encapsulation and removal of aniline by di-cyclohexanocucurbit 6 uril. New J Chem. 43(3):1487–1493.

34.

Zhang

Yang

Duan

Liu

2021. Polyphenol scaffolds in tissue engineering. Mater Horiz. 8(1):145–167.

35.

Zheng

Zhao

Chen

Lai

Wang

Chen

Shao

Tang

2024. Phosphorylation of collagen fibrils enhances intrafibrillar mineralization and dentin remineralization. Nanoscale. 16(24):11633–11641.

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The Remineralization Potential of Resveratrol and Cucurbit[ n ]uril

Abstract

Keywords

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References

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