Biological Application of Layered Double Hydroxides in Drug Delivery Systems
محورهای موضوعی : Journal of NanoanalysisNahid Shahabadi 1 , Mahtab Razlansari 2
1 - Chemistry Department, Institute of Nanotechnology, Razi University, Kermanshah, Iran
2 - Chemistry Department, Institute of Nanotechnology, Razi University, Kermanshah, Iran
کلید واژه: Drug delivery, Layered double hydroxides, Biological application, Release study,
چکیده مقاله :
This review focuses on the extensive study of different layered double hydroxides (LDHs)nanostructures and also their biological and physicochemical (in vitro) properties to encapsulateand deliver drugs with a recognized pharmacokinetic profile in a sustained/modified manner forbetter remedial efficacy contrasted to the corresponding conventional treatments using differentdrugs. LDHs known as hydrotalcite like compounds possess positive charges due to isomorphicsubstitutions, which are counterbalanced by hydrated exchangeable anions located in the interlayerregion. Some of the active ingredient molecules can be intercalated into the inner region of the LDHsthrough ionic bonding, hydrogen bonding or van der Waals interaction to form nanohybrids, whichare more potent for their protection and controlled‐release. In addition, this composite materialexhibits a selective release toward cancer cells and good biocompatibility with normal cells, whichwould guarantee its practical applications in cancer therapy.
[1] K. Ladewig, Z.P. Xu, G.Q. Lu, Layered double hydroxide nanoparticles in gene and drug delivery, Expert. Opin. Drug. Del., 6, 907(2009).
[2] S.-J. Choi, J.-H. Choy, Layered double hydroxide nanoparticles as target-specific delivery carriers: uptake mechanism and toxicity, Nanomedicine, 6, 803(2011).
[3] G.-F. Xiao, H.-Y. Zeng, Q.-J. Huang, W. Zhang, J.Z. Du, H. Duan, C. Chen, Facile Preparation of Modifying Layered Double Hydroxide Nanoparticles for Drug Delivery, J. Nanosci. Nanotechnol, 18, 5256(2018).
[4] G. Huang, K.-L. Zhang, S. Chen, S.-H. Li, L.-L. Wang, L.-P. Wang, R. Liu, J. Gao, H.-H. Yang, Manganese-iron layered double hydroxide: a theranostic nanoplatform with pH-responsive MRI contrast enhancement and drug release, J. Mater. Chem. B, 5, 3629(2017).
[5] X. Mei, S. Xu, T. Hu, L. Peng, R. Gao, R. Liang, M. Wei, D.G. Evans, X. Duan, Layered double hydroxide monolayers for controlled loading and targeted delivery of anticancer drugs, Nano. Res, 11, 195(2018).
[6] S.P. Newman, W. Jones, Synthesis, characterization and applications of layered double hydroxides containing organic guests, New J. Chem., 22, 105(1998).
[7] D.P. Debecker, K. Bouchmella, C. Poleunis, P. Eloy, P. Bertrand, E.M. Gaigneaux, P.H. Mutin, Design of SiO2−Al2O3−MoO3 metathesis catalysts by nonhydrolytic sol-gel, Chem. Mater., 21, 2817(2009).
[8] G. Pshinko, A. Kosorukov, L. Puzyrnaya, V. Goncharuk, Layered double hydroxides intercalated with EDTA as effective sorbents for U (VI) recovery from wastewater, Radiochem., 53, 303(2011).
[9] M.I. Carretero, M. Pozo, Clay and non-clay minerals in the pharmaceutical industry: Part I. Excipients and medical applications, Appl. Clay Sci., 46, 73(2009).
[10] P.B. Panici, S. Basile, F. Maneschi, A.A. Lissoni, M. Signorelli, G. Scambia, R. Angioli, S. Tateo, G. Mangili, D. Katsaros, Systematic pelvic lymphadenectomy vs no lymphadenectomy in early-stage endometrial carcinoma: randomized clinical trial, JNCI: J. Natl. Cancer. Inst., 100, 1707(2008).
[11] V. Rives, M. del Arco, C. Martín, Intercalation of drugs in layered double hydroxides and their controlled release: A review, Appl. clay sci., 88, 239(2014).
[12] V. Ambrogi, L. Perioli, C. Pagano, F. Marmottini, M. Ricci, A. Sagnella, C. Rossi, Use of SBA-15 for furosemide oral delivery enhancement, Eur. J. Pharm. Sci., 46, 43(2012).
[13] E. Conterosito, G. Croce, L. Palin, C. Pagano, L. Perioli, D. Viterbo, E. Boccaleri, G. Paul, M. Milanesio, Structural characterization and thermal and chemical stability of bioactive molecule–hydrotalcite (LDH) nanocomposites, Phys. Chem. Chem. Phys., 15, 13418(2013).
[14] L. Perioli, C. Pagano, Inorganic-organic hybrids to improve the performances of anti-inflammatory topical formulations, Int. J., 5 (2016).
[15] S. Lee, C.Y. Heo, Corporate social responsibility and customer satisfaction among US publicly traded hotels and restaurants, Int. J. Hosp. Manag., 28, 635 (2009).
[16] M. Shamsayei, Y. Yamini, H. Asiabi, M. Safari, On-line packed magnetic in-tube solid phase microextraction of acidic drugs such as naproxen and indomethacin by using Fe3O4@SiO2@layered double hydroxide nanoparticles with high anion exchange capacity, Microchim. Acta, 185, 192 (2018).
[17] C. You, Y. Ji, Z. Liu, X. Xiong, X. Sun, Ultrathin CoFe-Borate Layer Coated CoFe-Layered Double Hydroxide Nanosheets Array: A Non-Noble-Metal 3D Catalyst Electrode for Efficient and Durable Water Oxidation in Potassium Borate, ACS Sustain. Chem. Eng., 6, 1527(2018).
[18] N. Chen, C. Long, Y. Li, D. Wang, H. Zhu, High-performance layered double hydroxide/poly (2, 6-dimethyl-1, 4-phenylene oxide) membrane with porous sandwich structure for anion exchange membrane fuel cell applications, J. Membrane Sci., 552, 51(2018).
[19] J. Yu, Q. Wang, D. O’Hare, L. Sun, Preparation of two dimensional layered double hydroxide nanosheets and their applications, Chem. Soc. Rev., 46, 5950(2017).
[20] A.U. Kura, M.Z. Hussein, S. Fakurazi, P. Arulselvan, Layered double hydroxide nanocomposite for drug delivery systems; bio-distribution, toxicity and drug activity enhancement, Chem. Cent. J., 8, 47(2014).
[21] G. Chen, I. Roy, C. Yang, P.N. Prasad, Nanochemistry and nanomedicine for nanoparticle-based diagnostics and therapy, Chem. Rev, 116, 2826(2016).
[22] S. Mondal, S. Dasgupta, K. Maji, MgAl-layered double hydroxide nanoparticles for controlled release of salicylate, Mater. Sci. Eng. C, 68, 557(2016).
[23] H. Heinz, C. Pramanik, O. Heinz, Y. Ding, R.K. Mishra, D. Marchon, R.J. Flatt, I. Estrela-Lopis, J. Llop, S. Moya, Nanoparticle decoration with surfactants: molecular interactions, assembly, and applications, Surf. Sci. Rep., 72, 1 (2017).
[24] C. Forano, F. Bruna, C. Mousty, V. Prevot, Interactions Between Biological Cells and Layered Double Hydroxides: Towards Functional Materials, Chem. Rec, (2018).
[25] R.K. Kankala, Y. Kuthati, C.-L. Liu, C.-H. Lee, Hierarchical coated metal hydroxide nanoconstructs as potential controlled release carriers of photosensitizer for skin melanoma, RSC Adv., 5, 42666(2015).
[26] L. Qiu, Y. Gao, P. Lu, D. O’hare, Q. Wang, Synthesis and properties of polypropylene/layered double hydroxide nanocomposites with different LDHs particle sizes, J. Appl. Polym. Sci., 135, 46204(2018).
[27] X. Tao, D. Liu, W. Cong, L. Huang, Controllable synthesis of starch-modified ZnMgAl-LDHs for adsorption property improvement, Appl. Surf. Sci., (2018).
[28] H.N. Tran, C.-C. Lin, H.-P. Chao, Amino acids-intercalated Mg/Al layered double hydroxides as dual-electronic adsorbent for effective removal of cationic and oxyanionic metal ions, Sep. Purif. Technol., 192, 36(2018).
[29] H. Zhang, K. Zou, S. Guo, X. Duan, Nanostructural drug-inorganic clay composites: Structure, thermal property and in vitro release of captopril-intercalated Mg-Al-layered double hydroxides, J. Solid State Chem., 179, 1792(2006).
[30] Z. Gu, J.J. Atherton, Z.P. Xu, Hierarchical layered double hydroxide nanocomposites: structure, synthesis and applications, Chem. Comm., 51, 3024(2015).
[31] J. Wang, R. Zhu, B. Gao, B. Wu, K. Li, X. Sun, H. Liu, S. Wang, The enhanced immune response of hepatitis B virus DNA vaccine using SiO2@LDH nanoparticles as an adjuvant, Biomaterials, 35, 466(2014).
[32] S. Wu, K. Hui, K. Hui, One-dimensional core-shell architecture composed of silver nanowire@ hierarchical nickel-aluminum layered double hydroxide nanosheet as advanced electrode materials for pseudocapacitor, J. Phys. Chem. C, 119, 23358(2015).
[33] R. Soltani, A. Shahvar, M. Dinari, M. Saraji, Environmentally-friendly and ultrasonic-assisted preparation of two-dimensional ultrathin Ni/Co-NO3 layered double hydroxide nanosheet for micro solid-phase extraction of phenolic acids from fruit juices, Ultrason. sonochem., 40, 395(2018).
[34] L. Dang, H. Liang, J. Zhuo, B.K. Lamb, H. Sheng, Y. Yang, S. Jin, Direct Synthesis and Anion Exchange of Non-Carbonate-Intercalated NiFe Layered Double Hydroxides and the Influence on Electrocatalysis, Chem. Mater., (2018).
[35] L. Valdés, I. Pérez, L.C. De Ménorval, E. Altshuler, J.O. Fossum, A. Rivera, A simple way for targeted delivery of an antibiotic: In vitro evaluation of a nanoclay-based composite, PloS one, 12, e0187879 (2017).
[36] D. Cao, Z. Xu, Y. Chen, Q. Ke, C. Zhang, Y. Guo, Ag‐loaded MgSrFe‐layered double hydroxide/chitosan composite scaffold with enhanced osteogenic and antibacterial property for bone engineering tissue, J. Biomed. Mater. Res. B Appl. Biomate., 106, 863(2018).
[37] M. Richetta, P. Medaglia, A. Mattoccia, A. Varone, R. Pizzoferrato, Layered Double Hydroxides: Tailoring Interlamellar Nanospace for a Vast Field of Applications, J. Mater. Sci. Eng., 6, 2169(2017).
[38] D.G. Evans, X. Duan, Preparation of layered double hydroxides and their applications as additives in polymers, as precursors to magnetic materials and in biology and medicine, Chem. Comm., 485(2006).
[39] S.-Y. Kwak, Y.-J. Jeong, J.-S. Park, J.-H. Choy, Bio-LDH nanohybrid for gene therapy, Solid State Ionics, 151, 229(2002).
[40] C.F. Bennett, M.-Y. Chiang, H. Chan, J. Shoemaker, C.K. Mirabelli, Cationic lipids enhance cellular uptake and activity of phosphorothioate antisense oligonucleotides, Mol. Pharmacol., 41, 1023(1992).
[41] J.-M. Oh, D.-H. Park, S.-J. Choi, J.-H. Choy, LDH nanocontainers as bio-reservoirs and drug delivery carriers, Recent pat. nanotech., 6, 200(2012).
[42] S.-M. Lee, S.T. Nguyen, Smart nanoscale drug delivery platforms from stimuli-responsive polymers and liposomes, Macromolecules, 46, 9169(2013).
[43] G. Mishra, B. Dash, S. Pandey, Layered double hydroxides: A brief review from fundamentals to application as evolving biomaterials, Appl. Clay Sci., 153, 172(2018).
[44] P. Aranda, M. Darder, E. Ruiz-Hitzky, Bionanocomposites based on alginate–zein/layered double hydroxide materials as drug delivery systems, J. Mater. Chem., 20, 9495(2010).
[45] A.I. Khan, L. Lei, A.J. Norquist, D. O’Hare, Intercalation and controlled release of pharmaceutically active compounds from a layered double hydroxideElectronic supplementary information (ESI) available: Fig. S1: X-ray diffraction patterns of (a)[LiAl2(OH)6]Cl·H2O and (b) LDH/Ibuprofen intercalate. Chem. Comm., 2342(2001).
[46] B. Li, J. He, D. G. Evans, X. Duan, Inorganic layered double hydroxides as a drug delivery system—intercalation and in vitro release of fenbufen, Appl. Clay Sci., 27, 199(2004).
[47] H. Tamura, J. Chiba, M. Ito, T. Takeda, S. Kikkawa, Synthesis and characterization of hydrotalcite-ATP intercalates, Solid State Ionics, 172, 607(2004).
[48] L. Mohanambe, S. Vasudevan, Anionic clays containing anti-inflammatory drug molecules: Comparison of molecular dynamics simulation and measurements, J. Phys. Chem. B, 109, 15651(2005).
[49] C.R. Gordijo, C.A. Barbosa, A.M.D.C. Ferreira, V.R. Constantino, D. de Oliveira Silva, Immobilization of ibuprofen and copper-ibuprofen drugs on layered double hydroxides, J. pharm. sci., 94, 1135(2005).
[50] M.Z. bin Hussein, A.H. Yahaya, Z. Zainal, L.H. Kian, Nanocomposite-based controlled release formulation of an herbicide, 2, 4-dichlorophenoxyacetate incapsulated in zinc-aluminium-layered double hydroxide, Sci. Tech. Adv. Mater., 6, 956(2005).
[51] J.-M. Oh, M. Park, S.-T. Kim, J.-Y. Jung, Y.-G. Kang, J.-H. Choy, Efficient delivery of anticancer drug MTX through MTX-LDH nanohybrid system, J. Phys. Chem. Solids, 67, 1024(2006).
[52] Z. Gu, A.C. Thomas, Z.P. Xu, J.H. Campbell, G.Q. Lu, In vitro sustained release of LMWH from MgAl-layered double hydroxide nanohybrids, Chem. Mater., 20, 3715(2008).
[53] C. Ribeiro, G.G.C. Arizaga, F. Wypych, M.R. Sierakowski, Nanocomposites coated with xyloglucan for drug delivery: In vitro studies, Int. J. Pharm., 367, 204(2009).
[54] F. Li, L. Jin, J. Han, M. Wei, C. Li, Synthesis and controlled release properties of prednisone intercalated Mg-Al layered double hydroxide composite, Ind. Eng. Chem. Res., 48, 5590(2009).
[55] L. Qin, M. Xue, W. Wang, R. Zhu, S. Wang, J. Sun, R. Zhang, X. Sun, The in vitro and in vivo anti-tumor effect of layered double hydroxides nanoparticles as delivery for podophyllotoxin, Int. J. Pharm., 388, 223(2010).
[56] L. Jin, Q. Liu, Z. Sun, X. Ni, M. Wei, Preparation of 5-fluorouracil/β-cyclodextrin complex intercalated in layered double hydroxide and the controlled drug release properties, Ind. Eng. Chem. Res., 49, 11176(2010).
[57] M. Chakraborti, J.K. Jackson, D. Plackett, S.E. Gilchrist, H.M. Burt, The application of layered double hydroxide clay (LDH)-poly (lactide-co-glycolic acid)(PLGA) film composites for the controlled release of antibiotics, J. Mater. Sci. Mater. Med., 23, 1705(2012).
[58] B. Saifullah, M.Z. Hussein, S.H. Hussein-Al-Ali, P. Arulselvan, S. Fakurazi, Antituberculosis nanodelivery system with controlled-release properties based on para-amino salicylate–zinc aluminum-layered double-hydroxide nanocomposites, Drug Des. Dev. Ther., 7, 1365(2013).
[59] L. Qin, M. Wang, R. Zhu, S. You, P. Zhou, S. Wang, The in vitro sustained release profile and antitumor effect of etoposide-layered double hydroxide nanohybrids, Int. J. Nanomed., 8, 2053(2013).
[60] L. Li, W. Gu, J. Chen, W. Chen, Z.P. Xu, Co-delivery of siRNAs and anti-cancer drugs using layered double hydroxide nanoparticles, Biomaterials, 35, 3331(2014).
[61] S. Barkhordari, M. Yadollahi, H. Namazi, pH sensitive nanocomposite hydrogel beads based on carboxymethyl cellulose/layered double hydroxide as drug delivery systems, J. Polym. Res., 21, 454(2014).
[62] R. Rojas, Y.G. Linck, S.L. Cuffini, G.A. Monti, C.E. Giacomelli, Structural and physicochemical aspects of drug release from layered double hydroxides and layered hydroxide salts, Appl. Clay Sci., 109 119(2015).
[63] S. Mondal, S. Dasgupta, K. Maji, MgAl-Layered Double Hydroxide Nanoparticles for controlled release of Salicylate, Mater. Sci. Eng. C., 68 557(2016).
[64] S. Senapati, R. Thakur, S.P. Verma, S. Duggal, D.P. Mishra, P. Das, T. Shripathi, M. Kumar, D. Rana, P. Maiti, Layered double hydroxides as effective carrier for anticancer drugs and tailoring of release rate through interlayer anions, J. Control. Release, 224, 186(2016).
[65] J. Sun, Y. Lei, Z. Dai, X. Liu, T. Huang, J. Wu, Z.P. Xu, X. Sun, Sustained release of brimonidine from a new composite drug delivery system for treatment of glaucoma, ACS appl. mater. interfaces, 9, 7990(2017).
[66] J. Wu, A. Deng, W. Jiang, R. Tian, Y. Shen, Synthesis and in vitro evaluation of pH-sensitive magnetic nanocomposites as methotrexate delivery system for targeted cancer therapy, Mater. Sci. Eng. C., 71, 132 (2017).
[67] K. Katagiri, Y. Shishijima, K. Koumoto, K. Inumaru, Preparation of pH-Responsive hollow capsules via layer-by-layer assembly of exfoliated layered double hydroxide nanosheets and polyelectrolytes, J. Nanosci. Nanotechnol, 18, 110(2018).
[68] Á. Deák, E. Csapó, Á. Juhász, I. Dékány, L. Janovák, Anti-ulcerant kynurenic acid molecules intercalated Mg/Al-layered double hydroxide and its release study, Appl. Clay Sci., 156 (2018) 28-35.
[69] N. Allou, A. Yadav, M. Pal, R.L. Goswamee, Biocompatible nanocomposite of carboxymethyl cellulose and functionalized carbon-norfloxacin intercalated layered double hydroxides, Carbohyd. polym., 186, 282(2018).
[70] E.P. Komarala, S. Doshi, S. Thiyagarajan, M. Aslam, D. Bahadur, Studies on drug release kinetics and antibacterial activity against drug-resistant bacteria of cefotaxime sodium loaded layered double hydroxide–fenugreek nanohybrid, New J. Chem., 42, 129 (2018).
[71] D. Capsoni, I. Quinzeni, G. Bruni, V. Friuli, L. Maggi, M. Bini, Improving the Carprofen Solubility: Synthesis of the Zn2Al-LDH Hybrid Compound, J. Pharm. Sci., 107, 267(2018).
[72] Y. Xu, A. Goyanes, Y. Wang, A. Weston, P.-W. So, C. Geraldes, A. Fogg, A. Basit, G.R. Williams, Layered gadolinium hydroxides for simultaneous drug delivery and imaging, Dalton Trans., (2018).
[73] F. Peng, D. Wang, H. Cao, X. Liu, Loading 5-Fluorouracil into calcined Mg/Al layered double hydroxide on AZ31 via memory effect, Mater. Lett., 213, 383(2018).