Modulating cell stiffness to improve macrophage antibacterial defense: Utilizing spermidine-functionalized black phosphorus nanosheets for periodontitis treatment

doi:10.1016/j.jmst.2025.02.032

Abstract

Abstract: Periodontitis, a prevalent microbe-driven disease, is characterized by the progressive destruction of toothsupporting tissues. Porphyromonas gingivalis (P. gingivalis), a keystone pathogen in chronic periodontitis, evades clearance by periodontal immune cells, leading to microbial dysbiosis and alveolar bone resorption. Effective treatment requires the elimination of periodontopathogens and restoration of alveolar bone. Macrophages serve as the primary defense against periodontal pathogens. Cell stiffness, an intrinsic mechanical property of macrophage, is closely linked to their motility, deformability, and phagocytic function, presenting a potential target for enhancing macrophage antibacterial activities. Black phosphorus nanosheets (BPNS), a novel two-dimensional material that degrades into nontoxic phosphate in physiological environments, offer distinct advantages in bone regeneration. In this study, BPNS was functionalized with spermidine (Spd), a natural polyamine with immunomodulatory effects, to improve periodontal infection control. In addition to preserving BPNS's osteogenic activity, BPNS@Spd further enhanced macrophage antibacterial function by targeting cell stiffness. Reduced cell stiffness enhanced macrophage deformability and membrane fluidity, facilitating more efficient phagocytosis and clearance of P. gingivalis. Mechanistically, BPNS@Spd modulated macrophage stiffness and function by decreasing membrane cholesterol content, in which autophagy-mediated cholesterol efflux plays a critical role. This work underscores the potential of modulating membrane cholesterol and cell stiffness to boost macrophage-mediated bacterial clearance, offering an innovative immunomodulatory approach for managing microbe-driven inflammatory diseases beyond periodontitis.

Key words: Periodontitis, Antibacterial, Black phosphorus, Cell stiffnessBone regeneration

Runze Li, Yunyang Lu, Weidong Du, Jie Wu, Yi He, Lejia Zhang, Leyi Liu, Kechen Li, Weijie Zhuang, Siyuan Huang, Zijun Wang, Wei Zhao, Xuenong Zou, Weicai Wang, Dongsheng Yu. Modulating cell stiffness to improve macrophage antibacterial defense: Utilizing spermidine-functionalized black phosphorus nanosheets for periodontitis treatment[J]. J. Mater. Sci. Technol., 2025, 235: 91-109.

References

[1] E. Bernabe, W. Marcenes, C.R. Hernandez, J. Bailey, L.G. Abreu, V. Alipour, S. Amini, J. Arabloo, Z. Arefi, A. Arora, M.A. Ayanore, T.W. Bärnighausen, A. Bijani, D.Y. Cho, D.T. Chu, C.S. Crowe, G.T. Demoz, D.G. Demsie, Z.S.Dibaji Forooshani, M.Du, M. El Tantawi, F. Fischer, M.O. Folayan, N.D. Futran, Y.C.D. Geramo, A. Haj-Mirzaian, N. Hariyani, A. Hasanzadeh, S. Hassanipour, S.I. Hay, M.K. Hole, S. Hostiuc, M.D. Ilic, S.L. James, R. Kalhor, L. Kemmer, M. Keramati, Y.S. Khader, S. Kisa, A. Kisa, A. Koyanagi, R. Lalloo, Q. Le Nguyen, S.D. London, N.D. Manohar, B.B. Massenburg, M.R. Mathur, H.G. Meles, T. Mestrovic, A. Mohammadian-Hafshejani, R. Mohammadpourhodki, A.H. Mokdad, S.D. Morrison, J. Nazari, T.H. Nguyen, C.T. Nguyen, M.R. Nixon, T.O. Olagunju, K. Pakshir, M. Pathak, N. Rabiee, A. Rafiei, K. Ramezanzadeh, M.J. Rios-Blancas, E.M. Roro, S. Sabour, A.M. Samy, M. Sawhney, F. Schwendicke, F. Shaahmadi, M.A. Shaikh, C. Stein, M.R. Tovani-Palone, B.X. Tran, B. Unnikrishnan, G.T. Vu, A. Vukovic, T.S.S. Warouw, Z. Zaidi, Z.J. Zhang, N.J. Kassebaum, J. Dent. Res. 99(2020) 362-373.
[2] M.X. Chen, Y.J. Zhong, Q.Q. Dong, H.M. Wong, Y.F. Wen, J. Clin. Periodontol. 48(2021) 1165-1188.
[3] Y. Cui, G. Tian, R. Li, Y. Shi, T. Zhou, Y. Yan, J. Periodontol. 94(2023) 193-203.
[4] LJ.A. Heitz-Mayfield, Periodontology 200095 (1) (2024) 10-19.
[5] D. Zúñiga-Loor, J.M.Parise-Vasco, C.Montesinos-Guevara, Med. Probl. 61(2024) 158925.
[6] M. Zhang, Y. Liu, H. Afzali, D.T. Graves, Front. Immunol. 15(2024) 1385436.
[7] S. Khattri, S. Kumbargere Nagraj, A. Arora, P. Eachempati, C.K. Kusum, K.G. Bhat, T.M. Johnson, G. Lodi, Cochrane Database Syst. Rev.2020 (2020) CD012568.
[8] S. Peng, H. Fu, R. Li, H. Li, S. Wang, B. Li, J. Sun, J. Nanobiotechnol. 22(2024) 359.
[9] W.A. Chen, Y. Dou, H.M. Fletcher, D.S. Boskovic, Microorganisms 11 (2023) 470.
[10] R.J. Lamont, H. Koo, G. Hajishengallis, Nat. Rev. Microbiol. 16(2018) 745-759.
[11] G. Hajishengallis, Mol. Oral Microbiol. 29(2014) 248-257.
[12] H. Zhou, Y. Xue, L. Dong, C. Wang, J. Mater. Chem. B 9 (2021) 3608-3621.
[13] H. Du, J.M. Bartleson, S. Butenko, V. Alonso, W.F. Liu, D.A. Winer, M.J. Butte, Nat. Rev. Immunol. 23(2023) 174-188.
[14] P. Sharma, A. Vijaykumar, J.V. Raghavan, S.R. Rananaware, A. Alakesh, J. Bodele, J.U. Rehman, S. Shukla, V. Wagde, S. Nadig, S. Chakrabarti, S.S. Visweswariah, D. Nandi, B. Gopal, S. Jhunjhunwala, J. Control. Release 343 (2022) 131-141.
[15] C. Zhao, Q. Yang, R. Tang, W. Li, J. Wang, F. Yang, J. Zhao, J. Zhu, W. Pang, N. Li, X. Zhang, X.Y. Tian, W. Yao, J. Zhou, npj Regen.Med. 8(2023) 29.
[16] U. Meza, M. Delgado-Ramírez, C. Romero-Méndez, S. Sánchez-Armass, A.A.Ro-dríguez-Menchaca, Br.J. Pharmacol. 177(2020) 2456-2465.
[17] K. Lei, A. Kurum, M. Kaynak, L. Bonati, Y. Han, V. Cencen, M. Gao, Y.-Q. Xie, Y.Guo, M.T.M. Hannebelle, Y. Wu, G. Zhou, M. Guo, G.E. Fantner, M.S. Sakar, L. Tang, Nat. Biomed. Eng. 5(2021) 1411-1425.
[18] A.K. Saha, P. Osmulski, S.F. Dallo, M. Gaczynska, T.H.-M.Huang, A.K. Ramasubramanian, Biophys. J. 112(2017) 1481-1488.
[19] D.Y. Litvinov, E.V. Savushkin, A.D. Dergunov, J. Lipids 2018 (2018) 1-22.
[20] C. Qin, T. Nagao, I. Grosheva, F.R. Maxfield, L.M. Pierini, Arterioscler., Thromb., Vasc. Biol. 26(2006) 372-378.
[21] D. Vorselen, R.L.D.Labitigan, J.A. Theriot, D. Vorselen, R.L.D. Labitigan, J.A. Theriot, Curr. Opin. Cell Biol. 66(2020) 112-122.
[22] V. Jaumouillé, C.M. Waterman, V. Jaumouillé, C.M. Waterman, Front. Immunol. 11(2020) 1097.
[23] B. Li, C. Lai, G. Zeng, D. Huang, L. Qin, M. Zhang, M. Cheng, X. Liu, H. Yi, C. Zhou, F. Huang, S. Liu, Y. Fu, Small 15 (2019) e1804565.
[24] Y. Zheng, X. Hong, J. Wang, L. Feng, T. Fan, R. Guo, H. Zhang, Adv. Healthc. Mater. 10(2021) e2001743.
[25] J. Huang, A.C. Santos, Q. Tan, H. Bai, X. Hu, N. Mamidi, Z. Wu, Aaronson, J. Nanobiotechnol. 20(2022) 522.
[26] X. Jing, Z. Xiong, Z. Lin, T. Sun, Pharmaceutics 14 (2022) 2634.
[27] L. Cheng, Z. Cai, J. Zhao, F. Wang, M. Lu, L. Deng, W. Cui, Bioact. Mater. 5(2020) 1026-1043.
[28] E. Passaglia, A. Sgarbossa, Pharmaceutics 15 (2023) 2748.
[29] S. Zhang, H. Yang, M. Wang, D. Mantovani, K. Yang, F. Witte, L. Tan, B. Yue, X. Qu, S. Zhang, H. Yang, M. Wang, D. Mantovani, K. Yang, F. Witte, L. Tan, B. Yue, X. Qu, Innovation 4 (2023) 100503.
[30] W. Liu, A. Dong, B. Wang, H. Zhang, Adv. Sci. 8(2021) 2003033.
[31] G. Zeng, Y. Chen, Acta Biomater. 118(2020) 1-17.
[32] F. Madeo, T. Eisenberg, F. Pietrocola, G. Kroemer, Science 359 (2018) eaan2788.
[33] C.F. Michiels, A. Kurdi, J.-P. Timmermans, G.R.Y. De Meyer, W. Martinet, Atherosclerosis 251 (2016) 319-327.
[34] S. Hibino, S. Eto, S. Hangai, K. Endo, S. Ashitani, M. Sugaya, T. Osawa, T. Soga, T. Taniguchi, H. Yanai, Proc. Natl. Acad. Sci. U. S. A. 120(2023) e2305245120.
[35] G. Cheng, Z. Li, Y. Liu, R. Ma, X. Chen, W. Liu, Y. Song, Y. Zhang, G. Yu, Z. Wu, T. Chen, J. Control. Release 353 (2023) 752-766.
[36] H. Lu, J. Wei, K. Liu, Z. Li, T. Xu, D. Yang, Q. Gao, H. Xiang, G. Li, Y. Chen, ACS Nano 17 (2023) 6131-6146.
[37] L. Jin, P. Hu, Y. Wang, L. Wu, K. Qin, H. Cheng, S. Wang, B. Pan, H. Xin, W. Zhang, X. Wang, Adv. Mater. 32(2020) 1906050.
[38] M. Wenzel, N. Vischer, H. Strahl, L. Hamoen, Bio Protoc. 8 (2018), doi:10.21769/ BioProtoc. 3063.
[39] H. Luo, D. Chen, R. Li, R. Li, Y. Teng, Y. Cao, X. Zou, W. Wang, C. Zhou, J. Nanobiotechnol. 21(2023) 116.
[40] A.H. Phakatkar, E. Firlar, L. Alzate, B. Song, S. Narayanan, R. Rojaee, T. Foroozan, R. Deivanayagam, D.J. Banner, R. Shahbazian-Yassar, T. Shokuhfar, Int. J. Nanomed. 15(2020) 3071-3085.
[41] J. Fu, T. Liu, X. Feng, Y. Zhou, M. Chen, W. Wang, Y. Zhao, C. Lu, G. Quan, J. Cai, X. Pan, C. Wu, Adv. Healthc. Mater. 11(2022) 2101846.
[42] L. Cheng, Z. Chen, Z. Cai, J. Zhao, M. Lu, J. Liang, F. Wang, J. Qi, W. Cui, L. Deng, Small 16 (2020) 2005433.
[43] Y. Wang, Y. Yuan, R. Wang, T. Wang, F. Guo, Y. Bian, T. Wang, Q. Ma, H. Yuan, Y. Du, J. Jin, H. Jiang, F. Han, J. Jiang, Y. Pan, L. Wang, F. Wu, Adv. Healthc. Mater. 13(2024) e2400533.
[44] M. Afrouz, A. Amani, A. Eftekhari, C. Coudret, S.G. Elias, Z. Ahmadian, M.T. Alebrahim, Naunyn-Schmiedeberg's Arch. Pharmacol. 396(2023) 121-137.
[45] V.L. Deus, L.M. Resende, E.S. Bispo, A.S. Franca, M.B.A.Gloria, Food Chem. 357(2021) 129754.
[46] Z. Gan, Z. Xiao, Z. Zhang, Y. Li, C. Liu, X. Chen, Y. Liu, D. Wu, C. Liu, X. Shuai, Y. Cao, Bioact. Mater. 25(2023) 347-359.
[47] L. Ma, W. Li, Y. Zhang, L. Qi, Q. Zhao, N. Li, Y. Lu, L. Zhang, F. Zhou, Y. Wu, Y. He, H. Yu, Y. He, B. Wei, H. Wang, Autophagy 18 (2022) 13851400.
[48] L. Zhang, K. Pan, S. Huang, X. Zhang, X. Zhu, Y. He, X. Chen, Y. Tang, L. Yuan, D. Yu, Int. J. Neurosci. 18(2023) 797-812.
[49] H. Guo, D. Wei, R. Liu, C. Zhang, S. Jiang, W. Wang, H. Hu, L. Shen, X. Liang, J. Physiol. Biochem. 78(2022) 557-572.
[50] J. Yan, J. Yan, Y. Wang, Y. Ling, X. Song, S. Wang, H. Liu, Q. Liu, Y. Zhang, P. Yang, X. Wang, A. Chen, Br. J. Pharmacol. 176(2019) 3126-3142.
[51] X. Zhang, L. Zhang, Z. Chen, S. Li, B. Che, N. Wang, J. Chen, C. Xu, C. Wei, Int. J. Mol.Med. 47(2021) 27.
[52] T. Sun, C. Li, J. Luan, F. Zhao, Y. Zhang, J. Liu, L. Shao, Mater. Today Bio 28 (2024) 101211.
[53] C. Schwarz, G.S. Benson, N. Horn, K. Wurdack, U. Grittner, R. Schilling, S. Märschenz, T. Köbe, S.J. Hofer, C. Magnes, S. Stekovic, T. Eisenberg, S.J. Sigrist, D. Schmitz, M. Wirth, F. Madeo, A. Flöel, JAMA Netw. Open 5 (2022) e2213875.
[54] Y. Xin, Z. Guo, A. Ma, E. Shi, Z. Li, Z. Liang, Z. Qian, L. Yang, Y. Wang, M. Cao, X. Yang, Chem. Eng. J. 451(2023) 138782.
[55] J.R. Choi, K.W. Yong, J.Y. Choi, A. Nilghaz, Y. Lin, J. Xu, X. Lu, Theranostics 8 (2018) 1005-1026.
[56] Q. Fu, L. Song, J. Li, B. Yi, Y. Huang, Z. Zhang, Z. Xin, J. Zhu, J. Nanobiotechnol. 21(2023) 487.
[57] Y. Wu, Q. Liao, L. Wu, Y. Luo, W. Zhang, M. Guan, H. Pan, L. Tong, P.K. Chu, H. Wang, ACS Nano 15 (2021) 17854-17869.
[58] X. Zeng, M. Luo, G. Liu, X. Wang, W. Tao, Y. Lin, X. Ji, L. Nie, L. Mei, Adv. Sci. 5(2018) 1800510.
[59] Z. Lan, W.-J. Liu, W.-W. Yin, S.-R. Yang, H. Cui, K.-L. Zou, G.-W. Cheng, H. Chen, Y.-H. Han, L. Rao, R. Tian, L.-L. Li, Y.-Y. Zhao, G.-T. Yu, J. Nanobiotechnol. 22(2024) 174.
[60] Q. Ou, S. Tang, J. Zhu, S. Xue, H. Huang, Y. Zhao, Y. Cai, C. Wu, J. Chen, G. Ruan, C. Ding, Biochim. Biophys. Acta-Mol.Basis Dis. 1870(2024) 167083.
[61] A. Niechcial, M. Schwarzfischer, M. Wawrzyniak, K. Atrott, A. Laimbacher, Y. Morsy, E. Katkeviciute, J. Häfliger, P. Westermann, C.A. Akdis, M. Scharl, M.R. Spalinger, J. Crohns Colitis 17 (2023) 1489-1503.
[62] Y. Ni, Y. Hu, X. Lou, N. Rong, F. Liu, C. Yang, A. Zheng, S. Yang, J. Bao, Z. Fu, J. Agric.Food Chem. 70(2022) 6478-6492.
[63] K. Freitag, N. Sterczyk, S. Wendlinger, B. Obermayer, J. Schulz, V. Farztdinov, M. Mülleder, M. Ralser, J. Houtman, L. Fleck, C. Braeuning, R. Sansevrino, C. Hoffmann, D. Milovanovic, S.J. Sigrist, T. Conrad, D. Beule, F.L. Heppner, M. Jendrach, J. Neuroinflamm. 19(2022) 172.
[64] G.N. Belibasakis, D. Belstrøm, S. Eick, U.K. Gursoy, A. Johansson, E. Könönen, Periodontology 2000 (2023), doi:10.1111/prd.12473.
[65] B. Wang, L. Zhou, Y. Guo, H. Guo, Y. Zhong, X. Huang, Y. Ge, Q. Wang, X. Chu, Y. Jin, K. Lan, M. Yang, J. Qu, Bioact. Mater. 12(2022) 314-326.
[66] S. Gerile, Q. Shen, J. Kang, W. Liu, A. Dong, Colloids Surf. B 241 (2024) 114037.
[67] L. Zhang, J. You, H. Lv, M. Liu, S. Quni, X. Liu, Y. Zhou, Int. J. Nanomed. 18(2023) 6563-6584.
[68] S. Amin Yavari, S.M. Castenmiller, J.A.G. van Strijp, M.Croes, S. Amin Yavari, S.M. Castenmiller, J.A.G. van Strijp, M. Croes, Adv. Mater. 32(2020) e2002962.
[69] B. Pretzl, S. Sälzer, B. Ehmke, U. Schlagenhauf, B. Dannewitz, H. Dommisch, P. Eickholz, Y. Jockel-Schneider, Clin. Oral Investig. 23(2019) 3073-3085.
[70] Y. Hao, S. Cheng, Y. Tanaka, Y. Hosokawa, Y. Yalikun, M. Li, Biotechnol. Adv. 45(2020) 107648.
[71] T. Nagao, C. Qin, I. Grosheva, F.R. Maxfield, L.M. Pierini, Arterioscler., Thromb., Vasc. Biol. 27(2007) 1596-1602.
[72] K. Ren, J. Gao, D. Han, Front. Cell Dev. Biol. 9(2021), doi:10.3389/fcell.2021. 663021.
[73] J. Schumann, Eur. J. Pharmacol. 785(2016) 18-23.
[74] H.J. Sanyour, N. Li, A.P. Rickel, J.D. Childs, C.N. Kinser, Z. Hong, Cardiovasc. Res. 115(2019) 1369-1380.
[75] N. Mizushima, B. Levine, N. Mizushima, B. Levine, N. Engl. J.Med. 383(2020) 1564-1576.
[76] J.N.S.Vargas, M. Hamasaki, T.Kawabata, R.J. Youle, T. Yoshimori, Nat. Rev. Mol. Cell Biol. 24(2023) 167-185.
[77] V. Deretic, T. Saitoh, S. Akira, Nat. Rev. Immunol. 13(2013) 722-737.
[78] S. Kang, A. Dai, H. Wang, Front. Cell. Infect. Microbiol. 12(2022), doi:10.3389/fcimb.2022.892610.
[79] L. Ma, Z. Cao, Inflammation 48 (2025) 1-14.
[80] M.H. Park, S.Y. Jeong, H.S. Na, J. Chung, Mol. Oral Microbiol. 32(2017) 48-59.
[81] J. Yan, T. Horng, Trends Cell Biol 30 (2020) 979-989.
[82] H. Zhou, P. You, H. Liu, J. Fan, C. Tong, A. Yang, Y. Jiang, B. Liu, J. Control. Release 341 (2022) 828-843.