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Critical Reviews in Microbiology Volume 48, 2022 - Issue 2
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Review Articles

Metal-organic frameworks for diagnosis and therapy of infectious diseases

Christian Rafael Quijiaa School of Pharmaceutical Sciences, São Paulo State University, UNESP, Araraquara, BrazilCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0002-4370-8960
ORCID Icon,
Renata Carolina Alvesa School of Pharmaceutical Sciences, São Paulo State University, UNESP, Araraquara, BrazilORCID Iconhttps://orcid.org/0000-0002-2901-8779
ORCID Icon,
Gilmar Hanck-Silvaa School of Pharmaceutical Sciences, São Paulo State University, UNESP, Araraquara, BrazilORCID Iconhttps://orcid.org/0000-0001-8114-6981
ORCID Icon,
Regina Célia Galvão Fremb Institute of Chemistry, São Paulo State University, UNESP, Araraquara, Brazil
,
Guilherme Arroyosb Institute of Chemistry, São Paulo State University, UNESP, Araraquara, Brazil
&
Marlus Chorillia School of Pharmaceutical Sciences, São Paulo State University, UNESP, Araraquara, BrazilORCID Iconhttps://orcid.org/0000-0002-6698-0545
ORCID Icon
Pages 161-196 | Received 19 Mar 2021, Accepted 24 Jun 2021, Published online: 25 Aug 2021

References

  • Abánades I, Sacca S, Forgan RS, Aba I. 2017. Selective surface PEGylation of UiO-66 nanoparticles for enhanced stability, cell uptake, and pH-responsive drug delivery. Chem. 4:561–578.
  • Abd El Salam HM, Nassar HN, Khidr ASA, Zaki T. 2018. Antimicrobial activities of green synthesized ag nanoparticles @ Ni-MOF nanosheets. J Inorg Organomet Polym. 28(6):2791–2798.
  • Abdelhameed RM, Darwesh OM, Rocha J, Silva AMS. 2019. IRMOF-3 biological activity enhancement by post-synthetic modification. Eur J Inorg Chem. 2019(9):1243–1249.
  • Akbarzadeh F, Motaghi M, Chauhan NPS, Sargazi G. 2020. A novel synthesis of new antibacterial nanostructures based on Zn-MOF compound: design, characterization and a high performance application. Heliyon. 6(1):e03231.
  • Alberts B, Johnson A, Lewis J, Raff M, Roberts K, Walter P. 2002. Introduction to Pathogens. In: Molecular biology of the cell. 4th ed. New York: Garland Science.
  • Aparecido dos Santos Ramos M, Cristina dos Santos K, Bento da Silva P, Gaspar de Toledo L, Davi Marena G, Fernanda Rodero C, Almeida Furquim de Camargo B, Capaldi Fortunato G, Maria Bauab T, Chorilli M. 2020. Nanotechnological strategies for systemic microbial infections treatment: a review. Int J Pharm. 589:119780.
  • Aryanejad S, Bagherzade G, Moudi M. 2019. Design and development of novel Co-MOF nanostructures as an excellent catalyst for alcohol oxidation and Henry reaction, with a potential antibacterial activity. Appl Organomet Chem. 33:e4820.
  • Aryanejad S, Bagherzade G, Moudi M. 2020. Green synthesis and characterization of novel Mn-MOFs with catalytic and antibacterial potentials. New J Chem. 44(4):1508–1516.
  • Bai Y, Dou Y, Xie LH, Rutledge W, Li JR, Zhou HC. 2016. Zr-based metal-organic frameworks: design, synthesis, structure, and applications. Chem Soc Rev. 45(8):2327–2367.
  • Bhalla N, Jolly P, Formisano N, Estrela P. 2016. Introduction to biosensors. Essays Biochem. 60(1):1–8.
  • Bhardwaj N, Bhardwaj SK, Bhatt D, Tuteja SK, Kim KH, Deep A. 2019. Highly sensitive optical biosensing of: Staphylococcus aureus with an antibody/metal-organic framework bioconjugate. Anal Methods. 11(7):917–923.
  • Bhardwaj N, Pandey SK, Mehta J, Bhardwaj SK, Kim K, Deep A. 2018. Bioactive nano-metal-organic frameworks as antimicrobials against Gram-positive and Gram-negative bacteria . Toxicol Res (Camb). 7(5):931–941.
  • Bouson S, Krittayavathananon A, Phattharasupakun N, Siwayaprahm P, Sawangphruk M. 2017. Antifungal activity of water-stable copper-containing metal-organic frameworks. R Soc Open Sci. 4(10):170654.
  • Bueken B, Velthoven NV, Willhammar T, Stassin T, Stassen I, Keen DA, Ameloot R, Bals S, Vos DD, Bennett TD. 2017. Gel-based morphological design of zirconium metal-organic frameworks. Chem Sci. 8:3939–3948.
  • Can M, Demirci S, Sunol AK, Sahiner N. 2020. An amino acid, L-Glutamic acid-based metal-organic frameworks and their antibacterial, blood compatibility, biocompatibility, and sensor properties. Microporous Mesoporous Mater. 309:110533.
  • Cao J, Li X, Tian H. 2019. Metal-Organic Framework (MOF)-based drug delivery. Curr. Med. Chem. 27(35):5949–5969.
  • Carvalho PDTCD, Marques APDC, Reis FAD, Belchior ACG, Silva IS, Habitante CA, Sussai DA. 2006. Photodynamic inactivation of in vitro bacterial cultures from pressure ulcers. Acta Cir Bras. 21(suppl 4):32–35.
  • Celis-Arias V, Loera-Serna S, Beltrán HI, Álvarez-Zeferino JC, Garrido E, Ruiz-Ramos R. 2018. The fungicide effect of HKUST-1 on: Aspergillus Niger, Fusarium solani and Penicillium chrysogenum. New J Chem. 42(7):5570–5579.
  • Cheng X, Zhang S, Liu H, Chen H, Zhou J, Chen Z, Zhou X, Xie Z, Kuang Q, Zheng L. 2020. Biomimetic Metal-Organic Framework Composite-Mediated Cascade Catalysis for Synergistic Bacteria Killing. ACS Appl Mater Interfaces. 12(33):36996–37005.
  • Chen M, Long Z, Dong R, Wang L, Zhang J, Li S, Zhao X, Hou X, Shao H, Jiang X. 2020. Titanium Incorporation into Zr-Porphyrinic Metal–Organic Frameworks with Enhanced Antibacterial Activity against Multidrug-Resistant Pathogens. Small. 16(7):1906240.
  • Chen J, Shi C, Kang XY, Shen XT, Lao X, Zheng H. 2020. Recent advances in fluorescence resonance energy transfer-based probes in nucleic acid diagnosis. Anal Methods. 12(7):884–893.
  • Chen W, Wu C. 2018. Synthesis, functionalization, and applications of metal-organic frameworks in biomedicine. Dalton Trans. 47(7):2114–2133.
  • Chen H, Yang J, Sun L, Zhang H, Guo Y, Qu J, Jiang W, Chen W, Ji J, Yang YW, et al. 2019. Synergistic chemotherapy and photodynamic therapy of endophthalmitis mediated by zeolitic imidazolate framework-based drug delivery systems. Small. 15(47):1903880.
  • Chen B, Yang Z, Zhu Y, Xia Y. 2014. Zeolitic imidazolate framework materials: Recent progress in synthesis and applications. J Mater Chem A. 2(40):16811–16831.
  • Chen L, Zheng H, Zhu X, Lin Z, Guo L, Qiu B, Chen G, Chen ZN. 2013. Metal-organic frameworks-based biosensor for sequence-specific recognition of double-stranded DNA. Analyst. 138(12):3490–3493.
  • Chiericatti C, Basilico JC, Zapata Basilico ML, Zamaro JM. 2012. Novel application of HKUST-1 metal-organic framework as antifungal: Biological tests and physicochemical characterizations. Microporous Mesoporous Mater. 162:60–63.
  • Chitgupi U, Qin Y, Lovell JF. 2017. Targeted nanomaterials for phototherapy. Nanotheranostics. 1(1):38–58.
  • Cui Y, Yue Y, Qian G, Chen B. 2012. Luminescent functional metal-organic frameworks. Chem Rev. 112(2):1126–1162.
  • Dehghan A, Mohammadi AA, Yousefi M, Najafpoor AA, Shams M, Rezania S. 2019. Enhanced kinetic removal of ciprofloxacin onto metal-organic frameworks by sonication, process optimization and metal leaching study. Nanomaterials.
  • Deng X, Shao Z, Zhao Y. 2021. Solutions to the drawbacks of photothermal and photodynamic cancer therapy. Adv Sci (Weinh). 8(3):2002504.
  • Doane TL, Burda C. 2012. The unique role of nanoparticles in nanomedicine: imaging, drug delivery and therapy. Chem Soc Rev. 41(7):2885–2911.
  • Dutta B, Pal K, Jana K, Sinha C, Mir MH. 2019. Fabrication of a Zn(II)-Based 2D Pillar Bilayer Metal-Organic Framework for. Antimicrobial Activity. ChemistrySelect. 4(34):9947–9951.
  • El-Bindary AA, Toson EA, Shoueir KR, Aljohani HA, Abo-Ser MM. 2020. Metal–organic frameworks as efficient materials for drug delivery: Synthesis, characterization, antioxidant, anticancer, antibacterial and molecular docking investigation. Appl Organomet Chem. 34:1–15.
  • El-Shafey AAM, Hegab MHA, Seliem MME, Barakat AMA, Mostafa NE, Abdel-Maksoud HA, Abdelhameed RM. 2020. Curcumin@metal organic frameworks nano-composite for treatment of chronic toxoplasmosis. J Mater Sci Mater Med. 31:1–13.
  • Emam HE, Darwesh OM, Abdelhameed RM. 2018. In-growth metal organic framework/synthetic hybrids as antimicrobial fabrics and its toxicity. Colloids Surf B Biointerfaces. 165:219–228.
  • Esfahanian M, Ghasemzadeh MA, Razavian SMH. 2019. Synthesis, identification and application of the novel metal-organic framework Fe3O4@PAA@ZIF-8 for the drug delivery of ciprofloxacin and investigation of antibacterial activity. Artif Cells Nanomed Biotechnol. 47(1):2024–2030.
  • Fang JM, Leng F, Zhao XJ, Hu XL, Li YF. 2014. Metal-organic framework MIL-101 as a low background signal platform for label-free DNA detection. Analyst. 139(4):801–806.
  • Falcaro P, Ricco R, Doherty CM, Liang K, Hill AJ, Styles MJ. 2014. MOF positioning technology and device fabrication. Chem Soc Rev. 43(16):5513–5560.
  • Figueira F, S. Barbosa J, F. Mendes R, S. Braga S, A. Almeida Paz F. 2021. Virus meet metal-organic frameworks: A nanoporous solution to a world-sized problem? Mater Today. 43:84–98.
  • García Palomo JD, Agüero Balbín J, Parra Blanco JA, Santos Benito MF. 2010. Infectious diseases: Concept, classification, general and specific aspects of infections. Criteria for infectious disease suspicion. Complementary diagnostic tests. Indication criteria. Medicine. 10:3251–3264.
  • Gecgel C, Simsek UB, Turabik M, Ozdemir S. 2020. Synthesis of titanium doped iron based metal–organic frameworks and investigation of their biological activities. J Inorg Organomet Polym. 30(3):749–757.
  • Ghaffar I, Imran M, Perveen S, Kanwal T, Saifullah S, Bertino MF, Ehrhardt CJ, Yadavalli VK, Shah MR. 2019. Synthesis of chitosan coated metal organic frameworks (MOFs) for increasing vancomycin bactericidal potentials against resistant S. aureus strain. Mater Sci Eng C. 105:110111.
  • Golmohamadpour A, Bahramian B, Khoobi M, Pourhajibagher M, Barikani HR, Bahador A. 2018. Antimicrobial photodynamic therapy assessment of three indocyanine green-loaded metal-organic frameworks against Enterococcus faecalis. Photodiagnosis Photodyn. Ther. 23:331–338.
  • Guo JF, Fang RM, Huang CZ, Li YF. 2015. Dual amplifying fluorescence anisotropy for detection of respiratory syncytial virus DNA fragments with size-control synthesized metal-organic framework MIL-101. RSC Adv. 5(57):46301–46306.
  • Gupta A, Bhardwaj SK, Sharma AL, Kim KH, Deep A. 2019. Development of an advanced electrochemical biosensing platform for E. coli using hybrid metal-organic framework/polyaniline composite. Environ Res. 171:395–402.
  • Haldar R, Maji TK. 2013. Metal-organic frameworks (MOFs) based on mixed linker systems: Structural diversities towards functional materials. CrystEngComm. 15(45):9276–9295.
  • Han D, Han Y, Li J, Liu X, Yeung KWK, Zheng Y, Cui Z, Yang X, Liang Y, Li Z, et al. 2020. Enhanced photocatalytic activity and photothermal effects of cu-doped metal-organic frameworks for rapid treatment of bacteria-infected wounds. Appl Catal B Environ. 261:118248.
  • Hendon CH, Walsh A. 2015. Chemical principles underpinning the performance of the metal-organic framework HKUST-1. Chem Sci. 6(7):3674–3683.
  • He C, Liu D, Lin W. 2015. Nanomedicine applications of hybrid nanomaterials built from metal-ligand coordination bonds: nanoscale metal-organic frameworks and nanoscale coordination polymers. Chem Rev. 115(19):11079–11108.
  • Holmes KK, Bertozzi S, Bloom BR, Jha P, Gelband H, DeMaria LM, Horton S. 2017. Major infectious diseases: key messages from disease control priorities. In: Disease control priorities, Third Edition (Volume 6): major Infectious Diseases. Washington, DC: International Bank for Reconstruction and Development/The World Bank; p. 1–27.
  • Horcajada P, Serre C, Vallet-Regí M, Sebban M, Taulelle F, Férey G. 2006. Metal-organic frameworks as efficient materials for drug delivery. Angew Chem Int Ed Engl. 45(36):5974–5978.
  • Hosny NM. 2020. Anticancer and antimicrobial MOFs and their derived materials. In: Applications of metal–organic frameworks and their derived materials. USA: John Wiley and Sons.
  • Huang L, Chen J, Gan L, Wang J, Dong S. 2019. Single-atom nanozymes. Sci Adv. 5(5):eaav5490.
  • Ibhadon A, Fitzpatrick P. 2013. Heterogeneous photocatalysis: recent advances and applications. Catalysts. 3(1):189–218.
  • Imbuluzqueta E, Gamazo C, Ariza J, Blanco-Prieto MJ. 2010. Drug delivery systems for potential treatment of intracellular bacterial infections. Front Biosci. 15:397–417.
  • Iram S, Imran M, Kanwal F, Iqbal Z, Deeba F, Iqbal QJ. 2019. Bismuth(III) based metal organic frameworks: luminescence, gas adsorption, and antibacterial studies. Z Anorg Allg Chem. 645(1):50–56.
  • Jain A, Vaya D. 2017. Photocatalytic activity of TiO2 nanomaterial. J Chil Chem Soc. 62(4):3683–3690.
  • Jia Z, Ma Y, Yang L, Guo C, Zhou N, Wang M, He L, Zhang Z. 2019. NiCo2O4 spinel embedded with carbon nanotubes derived from bimetallic NiCo metal-organic framework for the ultrasensitive detection of human immune deficiency virus-1 gene . Biosens Bioelectron. 133:55–63.
  • Jiang Q, Chandar YJ, Cao S, Kharasch ED, Singamaneni S, Morrissey JJ. 2017. Rapid, point-of-care, paper-based plasmonic biosensor for zika virus diagnosis. Adv. Biosyst. 1:1–8.
  • Jo JH, Kim HC, Huh S, Kim Y, Lee DN. 2019. Antibacterial activities of Cu-MOFs containing glutarates and bipyridyl ligands. Dalton Trans. 48(23):8084–8093.
  • Karimzadeh Z, Javanbakht S, Namazi H. 2019. Carboxymethylcellulose/MOF-5/Graphene oxide bio-nanocomposite as antibacterial drug nanocarrier agent. Bioimpacts. 9(1):5–13.
  • Keskin S, Kizilel S. 2011. Biomedical applications of metal organic frameworks. Ind Eng Chem Res. 50(4):1799–1812.
  • Khatoon Z, McTiernan CD, Suuronen EJ, Mah TF, Alarcon EI. 2018. Bacterial biofilm formation on implantable devices and approaches to its treatment and prevention. Heliyon. 4(12):e01067.
  • Kim HS, Lee DY. 2018. Near-infrared-responsive cancer photothermal and photodynamic therapy using gold nanoparticles. Polymers. 10(9):961.
  • Kim HC, Mitra S, Veerana M, Lim JS, Jeong HR, Park G, Huh S, Kim SJ, Kim Y. 2019. Cobalt(II)-coordination polymers containing glutarates and bipyridyl ligands and their antifungal potential. Sci Rep. 9:1–13.
  • Kohsari I, Shariatinia Z, Pourmortazavi SM. 2016. Antibacterial electrospun chitosan-polyethylene oxide nanocomposite mats containing ZIF-8 nanoparticles. Int J Biol Macromol. 91:778–788.
  • Kwiatkowski S, Knap B, Przystupski D, Saczko J, Kędzierska E, Knap-Czop K, Kotlińska J, Michel O, Kotowski K, Kulbacka J. 2018. Photodynamic therapy – mechanisms, photosensitizers and combinations. Biomed Pharmacother. 106:1098–1107.
  • Lee WG, Kim YG, Chung BG, Demirci U, Khademhosseini A. 2010. Nano/Microfluidics for diagnosis of infectious diseases in developing countries. Adv Drug Deliv Rev. 62(4-5):449–457.
  • Lei J, Qian R, Ling P, Cui L, Ju H. 2014. Design and sensing applications of metal-organic framework composites. TrAC – Trends Anal. Chem. 58:71–78.
  • Li X, Lachmanski L, Safi S, Sene S, Serre C, Grenèche JM, Zhang J, Gref R. 2017. New insights into the degradation mechanism of metal-organic frameworks drug carriers. Sci Rep. 7(1):11.
  • Li H, Cao X, Zhang C, Yu Q, Zhao Z, Niu X, Sun X, Liu Y, Ma L, Li Z. 2017. Enhanced adsorptive removal of anionic and cationic dyes from single or mixed dye solutions using MOF PCN-222. RSC Adv. 7(27):16273–16281.
  • Li JR, Kuppler RJ, Zhou HC. 2009. Selective gas adsorption and separation in metal-organic frameworks. Chem Soc Rev. 38:1477–1504.
  • Lin S, Liu X, Tan L, Cui Z, Yang X, Yeung KWK, Pan H, Wu S. 2017. Porous Iron-carboxylate metal − organic framework: a novel bioplatform with sustained antibacterial e ffi cacy and nontoxicity. ACS Appl Mater Interfaces. 9(22):19248–19257.
  • Li T, Qiu H, Liu N, Li J, Bao Y, Tong W. 2020. Construction of self-activated cascade metal-organic framework/enzyme hybrid nanoreactors as antibacterial agents . Colloids Surf B Biointerfaces. 191:111001.
  • Lismont M, Dreesen L, Wuttke S. 2017. Metal-organic framework nanoparticles in photodynamic therapy: current status and perspectives. Adv Funct Mater. 27(14):1606314.
  • Liu Z, Wang F, Ren J, Qu X. 2019. A series of MOF/Ce-based nanozymes with dual enzyme-like activity disrupting biofilms and hindering recolonization of bacteria. Biomaterials. 208:21–31.
  • Liu J, Wu D, Zhu N, Wu Y, Li G. 2021. Antibacterial mechanisms and applications of metal-organic frameworks and their derived nanomaterials. Trends Food Sci. Technol. 109:413–434.
  • Liu X, Yan Z, Zhang Y, Liu Z, Sun Y, Ren J, Qu X. 2019. Two-dimensional metal-organic framework/enzyme hybrid nanocatalyst as a benign and self-activated cascade reagent for in vivo wound healing. ACS Nano. 13(5):5222–5230.
  • Liu L, Zhou Y, Liu S, Xu M. 2018. The applications of metal − organic frameworks in electrochemical sensors. Chem Electro Chem. 5(1):6–19.
  • Li J, Yang K, Wu Z, Li X, Duan Q. 2019. Nitrogen-doped porous carbon-based fluorescence sensor for the detection of ZIKV RNA sequences: fluorescence image analysis. Talanta. 205:120091.
  • Lu W, Wei Z, Gu Z-Y, Liu T-F, Park J, Park J, Tian J, Zhang M, Zhang Q, Gentle T, et al. 2014. Tuning the structure and function of metal–organic frameworks via linker design. Chem Soc Rev. 43(16):5561–5593.
  • Luo L, Zhang F, Chen C, Cai C. 2020. Molecular imprinting resonance light scattering nanoprobes based on pH-responsive metal-organic framework for determination of hepatitis A virus. Microchim. Acta. 187:1–8.
  • Lv H, Zhang Y, Chen P, Xue J, Jia X, Chen J. 2020. Enhanced synergistic antibacterial activity through a smart platform based on uio-66 combined with photodynamic therapy and chemotherapy. Langmuir. 36(15):4025–4032.
  • Ma S, Zhang M, Nie J, Yang B, Song S, Lu P. 2018. Multifunctional cellulose-based air filters with high loadings of metal–organic frameworks prepared by in situ growth method for gas adsorption and antibacterial applications. Cellulose. 25(10):5999–6010.
  • Mao D, Hu F, Kenry, Ji S, Wu W, Ding D, Kong D, Liu B. 2018. Metal–organic-framework-assisted in vivo bacterial metabolic labeling and precise antibacterial therapy. Adv. Mater. 30:
  • Marcos-Almaraz MT, Gref R, Agostoni V, Kreuz C, Clayette P, Serre C, Couvreur P, Horcajada P. 2017. Towards improved HIV-microbicide activity through the co-encapsulation of NRTI drugs in biocompatible metal organic framework nanocarriers. J Mater Chem B. 5(43):8563–8569.
  • Mayer FL, Wilson D, Hube B. 2013. Candida albicans pathogenicity mechanisms. Virulence. 4(2):119–128.
  • Miao W, Wang J, Liu J, Zhang Y. 2018. Self-cleaning and antibacterial zeolitic imidazolate framework coatings. Adv Mater Interfaces. 5(14):1800167.
  • Mínguez Espallargas G, Coronado E. 2018. Magnetic functionalities in MOFs: From the framework to the pore. Chem Soc Rev. 47(2):533–557.
  • Mohanta GC, Pandey SK, Maurya IK, Sahota TS, Mondal SK, Deep A. 2019. Synergistic antimicrobial activity in ampicillin loaded core-Shell ZnO@ZIF-8 particles. Chem Select. 4(41):12002–12009.
  • Morales-Baez M, Rivera-Villanueva JM, López-Monteon A, Peña-Rodríguez R, Trigos Á, Ramos-Ligonio A. 2020. Trypanocidal effect of nano MOFs-EP on circulating forms of trypanosoma cruzi. Iran J Parasitol. 15(1):115–123.
  • Movert E, Wu Y, Lambeau G, Kahn F, Touqui L, Areschoug T. 2013. Secreted group IIA phospholipase A2 protects humans against the group B streptococcus: experimental and clinical evidence. J Infect Dis. 208(12):2025–2035.
  • Nabipour H, Soltani B, Ahmadi Nasab N. 2018. Gentamicin Loaded Zn2(bdc)2(dabco) Frameworks as Efficient Materials for Drug Delivery and Antibacterial Activity. J Inorg Organomet Polym. 28(3):1206–1213.
  • Naimi Joubani M, Zanjanchi MA, Sohrabnezhad S. 2020. A novel Ag/Ag3PO4-IRMOF-1 nanocomposite for antibacterial application in the dark and under visible light irradiation. Appl Organomet Chem. 34:1–14.
  • Nasrabadi M, Ghasemzadeh MA, Monfared MRZ. 2019. The preparation and characterization of UiO-66 metal-organic frameworks for the delivery of the drug ciprofloxacin and an evaluation of their antibacterial activities. New J Chem. 43(40):16033–16040.
  • Nguyen HH, Lee SH, Lee UJ, Fermin CD, Kim M. 2019. Immobilized enzymes in biosensor applications. Materials (Basel). 12(1):121.
  • Nong W, Wu J, Ghiladi RA, Guan Y. 2021. The structural appeal of metal–organic frameworks in antimicrobial applications. Coord. Chem. Rev. 442:214007.
  • Noori Y, Akhbari K. 2017. Post-synthetic ion-exchange process in nanoporous metal-organic frameworks; an effective way for modulating their structures and properties. RSC Adv. 7(4):1782–1808.
  • Osman DI, El-Sheikh SM, Sheta SM, Ali OI, Salem AM, Shousha WG, EL-Khamisy SF, Shawky SM. 2019. Nucleic acids biosensors based on metal-organic framework (MOF): Paving the way to clinical laboratory diagnosis. Biosens Bioelectron. 141:111451.
  • Pan Y, Zhan S, Xia F. 2018. Zeolitic imidazolate framework-based biosensor for detection of HIV-1 DNA. Anal Biochem. 546:5–9.
  • Park J, Jiang Q, Feng D, Mao L, Zhou H. 2016. Size-controlled synthesis of porphyrinic metal – organic framework and functionalization for targeted photodynamic therapy. J Am Chem Soc. 138(10):3518–3525.
  • Parrish CR, Holmes EC, Morens DM, Park E-C, Burke DS, Calisher CH, Laughlin CA, Saif LJ, Daszak P. 2008. Cross-species virus transmission and the emergence of new epidemic diseases. Microbiol Mol Biol Rev. 72(3):457–470.
  • Patra JK, Das G, Fraceto LF, Campos EVR, Rodriguez-Torres MDP, Acosta-Torres LS, Diaz-Torres LA, Grillo R, Swamy MK, Sharma S, et al. 2018. Nano based drug delivery systems: recent developments and future prospects 10 Technology 1007 Nanotechnology 03 Chemical Sciences 0306 Physical Chemistry (incl. Structural) 03 Chemical Sciences 0303 Macromolecular and Materials Chemistry 11 Medical and He. J Nanobiotechnol. 16:17.
  • Prestinaci F, Pezzotti P, Pantosti A. 2015. Antimicrobial resistance: a global multifaceted phenomenon. Pathog Glob Health. 109(7):309–318.
  • Proença-Módena JL, Macedo IS, Arruda E. 2007. H5N1 avian influenza virus: an overview. Braz J Infect Dis. 11(1):125–133.
  • Qasim M, Lim DJ, Park H, Na D. 2014. Nanotechnology for diagnosis and treatment of infectious diseases. J Nanosci Nanotechnol. 14(10):7374–7387.
  • Qian L, Lei D, Duan X, Zhang S, Song W, Hou C, Tang R. 2018. Design and preparation of metal-organic framework papers with enhanced mechanical properties and good antibacterial capacity. Carbohydr Polym. 192:44–51.
  • Qian S, Song L, Sun L, Zhang X, Xin Z, Yin J, Luan S. 2020. Metal-organic framework/poly (ε-caprolactone) hybrid electrospun nanofibrous membranes with effective photodynamic antibacterial activities. J. Photochem Photobiol A Chem. 400:112626.
  • Qin L, Lin LX, Fang ZP, Yang SP, Qiu GH, Chen JX, Chen WH. 2016. A water-stable metal-organic framework of a zwitterionic carboxylate with dysprosium: a sensing platform for Ebolavirus RNA sequences. Chem Commun. 52(1):132–135.
  • Quaresma S, André V, Antunes AMM, Vilela SMF, Amariei G, Arenas-Vivo A, Rosal R, Horcajada P, Duarte MT. 2020. Novel antibacterial azelaic acid BioMOFs. Cryst Growth Des. 20(1):370–382.
  • Rawat D, Nair D. 2010. Extended-spectrum β-lactamases in gram negative bacteria. J Glob Infect Dis. 2(3):263–274.
  • Ray S, Das S, Suar M. 2017. Molecular mechanism of drug resistance. In: Aroga G, Sajid A, Kalia V, editors. Drug resistance in bacteria, fungi, malaria, and cancer. Switzerland: Springer International Publishing; p. 47–110.
  • Remya VR, Kurian M. 2019. Synthesis and catalytic applications of metal–organic frameworks: a review on recent literature. Int Nano Lett. 9(1):17–29.
  • Ren X, Yang C, Zhang L, Li S, Shi S, Wang R, Zhang X, Yue T, Sun J, Wang J. 2019. Copper metal-organic frameworks loaded on chitosan film for the efficient inhibition of bacteria and local infection therapy. Nanoscale. 11(24):11830–11838.
  • Restrepo J, Serroukh Z, Santiago-Morales J, Aguado S, Gómez-Sal P, Mosquera MEG, Rosal R2. 2017. An Antibacterial Zn–MOF with Hydrazinebenzoate Linkers. Eur J Inorg Chem. 2017(3):574–580.
  • Richman DD, Margolis DM, Delaney M, Greene WC, Hazuda D, Pomerantz RJ. 2009. The challenge of finding a cure for HIV infection. Science. 323(5919):1304–1307.
  • Rosário J, Luz LL. d, Geris R, Ramalho JGS, Silva AF. d, Júnior SA, Malta M. 2019. Photoluminescent organisms: how to make fungi glow through biointegration with lanthanide metal-organic frameworks. Sci. Rep. 9:1–10.
  • Roudbari R, Keramati N, Ghorbani M. 2021. Porous nanocomposite based on metal-organic framework: Antibacterial activity and efficient removal of Ni(II) heavy metal ion. J Mol Liq. 322:114524.
  • Sajid M, Ihsanullah   2020. Toxicity of nanoscale metal-organic frameworks in biological systems. In: Joshua M, editor. Metal-organic frameworks for biomedical applications. Elsevier Inc; p. 383–395.
  • Sava Gallis DF, Butler KS, Agola JO, Pearce CJ, Mcbride AA. 2019. Antibacterial countermeasures via metal-organic framework-supported sustained therapeutic release. ACS Appl Mater Interfaces. 11(8):7782–7791.
  • Schoedel A, Yaghi OM. 2016. Porosity in metal-organic compounds. In: RM. Izatt, editor. Macrocyclic and supramolecular chemistry: how IZATT–Christensen award winners shaped the field. UK: John Wiley & Sons.
  • Seyedpour SF, Rahimpour A, Najafpour G. 2019. Facile in-situ assembly of silver-based MOFs to surface functionalization of TFC membrane: A novel approach toward long-lasting biofouling mitigation. J. Memb. Sci. 573:257–269.
  • Shahrokhian S, Ranjbar S. 2018. Aptamer immobilization on amino-functionalized metal-organic frameworks: An ultrasensitive platform for the electrochemical diagnostic of: Escherichia coli O157:H7 Royal Society of Chemistry. Analyst. 143:3191–3201.
  • Shams S, Ahmad W, Memon AH, Shams S, Wei Y, Yuan Q, Liang H. 2020. Cu/H3BTC MOF as a potential antibacterial therapeutic agent against: staphylococcus aureus and Escherichia coli. New J Chem. 44(41):17671–17678.
  • Shen M, Forghani F, Kong X, Liu D, Ye X, Chen S, Ding T. 2020. Antibacterial applications of metal-organic frameworks and their composites. Compr Rev Food Sci Food Saf. 19(4):1397–1419.
  • Shen X, Zhang Y, Ma P, Sutrisno L, Luo Z, Hu Y, Yu Y, Tao B, Li C, Cai K. 2019. Fabrication of magnesium/zinc-metal organic framework on titanium implants to inhibit bacterial infection and promote bone regeneration. Biomaterials. 212:1–16.
  • Silva PB, Araújo VHS, Fonseca-Santos B, Solcia MC, Ribeiro CM, Silva IC. d, Alves RC, Pironi AM, Silva ACL, Victorelli FD, et al. 2020. Highlights regarding the use of metallic nanoparticles against pathogens considered a priority by the world health organization. Curr Med Chem. 28(10):1906–1956.
  • Soltani B, Nabipour H, Nasab NA. 2018. Efficient Storage of Gentamicin in Nanoscale Zeolitic Imidazolate Framework-8 Nanocarrier for pH-Responsive Drug Release. J Inorg Organomet Polym. 28(3):1090–1097.
  • Soomro NA, Wu Q, Amur SA, Liang H, Ur Rahman A, Yuan Q, Wei Y. 2019. Natural drug physcion encapsulated zeolitic imidazolate framework, and their application as antimicrobial agent. Colloids Surfaces B Biointerfaces. 182:110364.
  • Sosnik A, Amiji M. 2010. Nanotechnology solutions for infectious diseases in developing nations. PrefaceAdv Drug Deliv Rev. 62(4-5):375–377.
  • Straten D. v, Mashayekhi V, Bruijn HS. d, Oliveira S, Robinson DJ. 2017. Oncologic photodynamic therapy: Basic principles, current clinical status and future directions. Cancers. 9:18.
  • Sun Y, Zhao C, Niu J, Ren J, Qu X. 2020. Colorimetric Band-AIDS for Point-of-Care Sensing and Treating Bacterial Infection. ACS Cent Sci. 6(2):207–212.
  • Sun B, Zhao HQ, Xie BP, Bai LP, Jiang ZH, Chen JX. 2017. Sequence-specific fluorometric recognition of HIV-1 ds-DNA with zwitterionic zinc(II)-carboxylate polymers. J Inorg Biochem. 176:17–23.
  • Tamames-Tabar C, Imbuluzqueta E, Guillou N, Serre C, Miller SR, Elkaïm E, Horcajada P, Blanco-Prieto MJ. 2015. A Zn azelate MOF: Combining antibacterial effect. CrystEngComm. 17(2):456–462.
  • Tan K, Nijem N, Gao Y, Zuluaga S, Li J, Thonhauser T, Chabal YJ. 2015. Water interactions in metal organic frameworks. CrystEngComm. 17(2):247–260.
  • Tan H, Tang G, Wang Z, Li Q, Gao J, Wu S. 2016. Magnetic porous carbon nanocomposites derived from metal-organic frameworks as a sensing platform for DNA fluorescent detection. Anal Chim Acta. 940:136–142.
  • Tao B, Zhao W, Lin C, Yuan Z, He Y, Lu L, Chen M, Ding Y, Yang Y, Xia Z, et al. 2020. Surface modification of titanium implants by ZIF-8@Levo/LBL coating for inhibition of bacterial-associated infection and enhancement of in vivo osseointegration. Chem Eng J. 390:124621.
  • Tella AC, Okoro HK, Sokoya SO, Adimula VO, Olatunji SO, Zvinowanda C, Ngila JC, Shaibu RO, Adeyemi OG. 2020. Synthesis, Characterization and Antifungal Activity of Fe(III) Metal–Organic Framework and its Nano-composite. Chem. Africa. 3(1):119–126.
  • Theel ES, Jane Hata D. 2018. Diagnostic testing for Zika virus: a postoutbreak update. J Clin Microbiol. 56(4):e01972–e01917.
  • Tian J, Liu Q, Shi J, Hu J, Asiri AM, Sun X, He Y. 2015. Rapid, sensitive, and selective fluorescent DNA detection using iron-based metal-organic framework nanorods: Synergies of the metal center and organic linker. Biosens Bioelectron. 71:1–6.
  • Tian L, Morrissey JJ, Kattumenu R, Gandra N, Kharasch ED, Singamaneni S. 2012. Bioplasmonic paper as a platform for detection of kidney cancer biomarkers. Anal Chem. 84(22):9928–9934.
  • Tong P, Liang J, Jiang X, Li J. 2020. Research Progress on Metal-Organic Framework Composites in Chemical Sensors. Crit Rev Anal Chem. 50(4):376–392.
  • Tranchemontagne DJ, Hunt JR, Yaghi OM. 2008. Room temperature synthesis of metal-organic frameworks: MOF-5, MOF-74, MOF-177, MOF-199, and IRMOF-0.
  • Unamuno X, Imbuluzqueta E, Salles F, Horcajada P, Blanco-Prieto MJ. 2018. Biocompatible porous metal-organic framework nanoparticles based on Fe or Zr for gentamicin vectorization. Eur J Pharm Biopharm. 132:11–18.
  • Vasconcelos IB, Silva TGD, Militão GCG, Soares TA, Rodrigues NM, Rodrigues MO, Costa NBD, Freire RO, Junior SA. 2012. Cytotoxicity and slow release of the anti-cancer drug doxorubicin from ZIF-8. RSC Adv. 2(25):9437–9442.
  • Vatansever F, Melo WCMA. d, Avci P, Vecchio D, Sadasivam M, Gupta A, Chandran R, Karimi M, Parizotto NA, Yin R, et al. 2013. Antimicrobial strategies centered around reactive oxygen species-bactericidal antibiotics, photodynamic therapy, and beyond. FEMS Microbiol Rev. 37(6):955–989.
  • Wang Xin-ping, Hou J, Chen F. s, Meng X. m. 2020. In-situ growth of metal-organic framework film on a polydopamine-modified flexible substrate for antibacterial and forward osmosis membranes. Sep Purif Technol. 236:116239.
  • Wang Y, Hu Y, He Q, Yan J, Xiong H, Wen N, Cai S, Peng D, Liu Y, Liu Z. 2020. Metal-organic frameworks for virus detection. Biosens Bioelectron. 169:112604.
  • Wei JP, Qiao B, Song WJ, Chen T, Li F, Li BZ, Wang J, Han Y, Huang YF, Zhou ZJ. 2015. Synthesis of magnetic framework composites for the discrimination of Escherichia coli at the strain level. Anal Chim Acta. 868:36–44.
  • Wei X, Zheng L, Luo F, Lin Z, Guo L, Qiu B, Chen G. 2013. Fluorescence biosensor for the H5N1 antibody based on a metal-organic framework platform. J Mater Chem B. 1(13):1812–1817.
  • WHO 2020. WHO report on global surveillance of epidemic-prone infectious diseases. World Health Organization. https://apps.who.int/iris/handle/10665/66485
  • Wu B, Fu J, Zhou Y, Shi Y, Wang J, Feng X, Zhao Y, Zhou G, Lu C, Quan G, et al. 2019. Metal–organic framework-based chemo-photothermal combinational system for precise, rapid, and efficient antibacterial therapeutics. Pharmaceutics. 11(9):463.
  • Xie BP, Qiu GH, Hu PP, Liang Z, Liang YM, Sun B, Bai LP, Jiang ZH, Chen JX. 2018. Simultaneous detection of Dengue and Zika virus RNA sequences with a three-dimensional Cu-based zwitterionic metal–organic framework, comparison of single and synchronous fluorescence analysis. Sensors Actuators, B Chem. 254:1133–1140.
  • Xie BP, Qiu GH, Sun B, Yang ZF, Zhang WH, Chen JX, Jiang ZH. 2019. Synchronous sensing of three conserved sequences of Zika virus using a DNAs@MOF hybrid: Experimental and molecular simulation studies. Inorg Chem Front. 6(1):148–152.
  • Xu Y, Li Q, Xue H, Pang H. 2018. Metal-organic frameworks for direct electrochemical applications. Coord. Chem. Rev. 376:292–318.
  • Xu B, Wang H, Wang W, Gao L, Li S, Pan X, Wang H, Yang H, Meng X, Wu Q, et al. 2019. A Single-Atom Nanozyme for Wound Disinfection Applications. Angew Chem Int Ed Engl. 58(15):4911–4916.
  • Xu HQ, Yang S, Ma X, Huang J, Jiang HL. 2018. Unveiling charge-separation dynamics in CDS/metal-organic framework composites for enhanced photocatalysis. ACS Catal. 8(12):11615–11621.
  • Yang SP, Chen SR, Liu SW, Tang XY, Qin L, Qiu GH, Chen JX, Chen WH. 2015. Platforms formed from a three-dimensional Cu-based zwitterionic metal-organic framework and probe ss-DNA: selective fluorescent biosensors for human immunodeficiency virus 1 ds-DNA and sudan virus RNA sequences. Anal Chem. 87(24):12206–12214.
  • Yang Y, Deng Y, Huang J, Fan X, Cheng C, Nie C, Ma L, Zhao W, Zhao C. 2019. Size-transformable metal–organic framework–derived nanocarbons for localized chemo-photothermal bacterial ablation and wound disinfection. Adv Funct Mater. 29(33):1900143.
  • Yang J, Feng W, Liang K, Chen C, Cai C. 2020. A novel fluorescence molecularly imprinted sensor for Japanese encephalitis virus detection based on metal organic frameworks and passivation-enhanced selectivity. Talanta. 212:120744.
  • Yang S, Guo Y, Fan J, Yang Y, Zuo C, Bai S, Sheng S, Li J, Xie G. 2020. A fluorometric assay for rapid enrichment and determination of bacteria by using zirconium-metal organic frameworks as both capture surface and signal amplification tag. Microchim. Acta. 187:188.
  • Yang SP, Zhao W, Hu PP, Wu KY, Jiang ZH, Bai LP, Li MM, Chen JX. 2017. Lanthanum-based metal-organic frameworks for specific detection of sudan virus rna conservative sequences down to single-base mismatch. Inorg Chem. 56(24):14880–14887.
  • Yi FY, Chen D, Wu MK, Han L, Jiang HL. 2016. Chemical sensors based on metal-organic frameworks. Chempluschem. 81(8):675–690.
  • Yu P, Han Y, Han D, Liu X, Liang Y, Li Z, Zhu S, Wu S. 2020. In-situ sulfuration of Cu-based metal-organic framework for rapid near-infrared light sterilization. J. Hazard. Mater. 390
  • Yuan Y, Wu H, Lu H, Zheng Y, Ying JY, Zhang Y. 2019. ZIF nano-dagger coated gauze for antibiotic-free wound dressing. Chem Commun (Camb). 55(5):699–702.
  • Zafar F, Khan S, Ghosal A, Azam M, Sharmin E, Rizwanul Haq QM, Nishat N. 2019. Clean synthesis and characterization of green nanostructured polymeric thin films from endogenous Mg (II) ions coordinated methylolated-Cashew nutshell liquid. J. Clean. Prod. 238
  • Zhang W, Xiong RG. 2012. Ferroelectric metal-organic frameworks. Chem Rev. 112(2):1163–1195.
  • Zhang L, Cheng Q, Li C, Zeng X, Zhang XZ. 2020. Near infrared light-triggered metal ion and photodynamic therapy based on AgNPs/porphyrinic MOFs for tumors and pathogens elimination. Biomaterials. 248:120029.
  • Zhang L, Liu Z, Deng Q, Sang Y, Dong K, Ren J, Qu X. 2020. Nature-Inspired Construction of MOF@COF Nanozyme with Active Sites in Tailored Microenvironment and Pseudopodia-Like Surface for Enhanced Bacterial Inhibition. Angew Chem Int Ed Engl. 60(7):3469–3474.
  • Zhang X, Liu L, Huang L, Zhang W, Wang R, Yue T, Sun J, Li G, Wang J. 2019. The highly efficient elimination of intracellular bacteria via a metal organic framework (MOF)-based three-in-one delivery system. Nanoscale. 11(19):9468–9477.
  • Zhang Q, Wang CF, Lv YK. 2018. Luminescent switch sensors for the detection of biomolecules based on metal-organic frameworks. Analyst. 143(18):4221–4229.
  • Zhang SS, Wang X, Su HF, Feng L, Wang Z, Ding WQ, Blatov VA, Kurmoo M, Tung CH, Sun D, et al. 2017. A Water-Stable Cl@Ag14 Cluster Based Metal-Organic Open Framework for Dichromate Trapping and Bacterial Inhibition. Inorg Chem. 56(19):11891–11899.
  • Zhang X, Xie G, Gou D, Luo P, Yao Y, Chen H. 2019. A novel enzyme-free electrochemical biosensor for rapid detection of Pseudomonas aeruginosa based on high catalytic Cu-ZrMOF and conductive Super P. Biosens Bioelectron. 142:111486.
  • Zhang S, Ye J, Sun Y, Kang J, Liu J, Wang Y, Li Y, Zhang L, Ning G. 2020. Electrospun fibrous mat based on silver (I) metal-organic frameworks-polylactic acid for bacterial killing and antibiotic-free wound dressing. Chem Eng J. 390:124523.
  • Zhang Q, Yue C, Zhang Y, Lü Y, Hao Y, Miao Y, Li J, Liu Z. 2018. Six metal-organic frameworks assembled from asymmetric triazole carboxylate ligands: Synthesis, crystal structures, photoluminescence properties and antibacterial activities. Inorganica Chim. Acta. 473:112–120.
  • Zhang ZH, Zhang QQ, Feng S, Hu ZJ, Chen SC, Chen Q, He MY. 2014. Fluorinated metal-organic frameworks of 1,4-bis(1,2,4-triazol-1-ylmethyl)- 2,3,5,6-tetrafluorobenzene: Synergistic interactions of ligand isomerism and counteranions. Dalt Trans. 43(2):646–655.
  • Zhang HT, Zhang JW, Huang G, Du ZY, Jiang HL. 2014. An amine-functionalized metal-organic framework as a sensing platform for DNA detection. Chem Commun. 50(81):12069–12072.
  • Zhao J, Hao L, Jiang R, Fan Y, Xu JN, Tian L, Ming W, Ren L. 2020. Formation and antibacterial performance of metal − organic framework films via dopamine-mediated fast assembly under visible light. ACS Sustainable Chem Eng. 8(42):15834–15842.
  • Zhao HQ, Qiu GH, Liang Z, Li MM, Sun B, Qin L, Yang SP, Chen WH, Chen JX. 2016. A zinc(II)-based two-dimensional MOF for sensitive and selective sensing of HIV-1 ds-DNA sequences. Anal Chim Acta. 922:55–63.
  • Zhou W, Begum S, Wang Z, Krolla P, Wagner D, Bräse S, Wöll C, Tsotsalas M. 2018. High antimicrobial activity of metal-organic framework-templated porphyrin polymer thin films. ACS Appl Mater Interfaces. 10(2):1528–1533.
  • Zhou Z, Canción J, Nie L, Chen X. 2016. Sistemas de generación de especies reactivas de oxígeno que enfrentan los desafíos de la terapia fotodinámica del cáncer. Chem Soc Rev. 45(23):6597–6626.
  • Zhuang W, Yuan D, Li J-RR, Luo Z, Zhou H-CC, Bashir S, Liu J. 2012. Actividad bactericida muy potente de estructuras organometálicas porosas. Adv Healthc Mater. 1(2):225–238.
  • Zhu QL, Xu P. 2014. Compuestos de estructura metal-orgánicos. Chem Soc Rev. 43(16):5468–5512.
  • Zhu L, Zhang Z, Jiang X, Yu L, Li X. 2020. La síntesis, la absorción eficiente de ondas electromagnéticas y las propiedades de actividad antibacteriana de los nuevos Ln-MOF 3D basados ​​en hidrazida maleica. J Mol Struct. 1208:127826
  • Zhu X, Zheng H, Wei X, Lin Z, Guo L, Qiu B, Chen G. 2013. Marco metalorgánico (MOF): una plataforma de detección novedosa para biomoléculas. Chem Commun. 49(13):1276–1278.

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