细菌对季铵盐类消毒剂耐受性的研究进展

doi:10.12160/j.issn.1672-5190.2024.04.012

Abstract

Abstract: Quaternary ammonium salt-based disinfectants （QASDs） are chemical disinfectant agents prepared with disinfectant quaternary ammonium compounds. They are cationic disinfectants with strong antibacterial activity and have diverse uses in a variety of fields such as public places, food processing, aquaculture and healthcare, playing a critical role in preventing the spread of environmental pathogenic microorganisms. Due to the irrational use of QASDs, bacteria have gradually become resistant to them, and the detection rate of resistant bacteria has increased substantially. The emergence of disinfectant resistance genes has exacerbated the mutual transmission of the QASDs resistant bacteria at the human-animal-environment interface. Bacteria can develop varying degrees of resistance to QASDs through different mechanisms such as generating biofilms, altering cell membrane permeability, active efflux systems, synthesizing degradative enzymes, changing target sites of action, and acquisition of genetic elements, posing a serious threat to human health and ecological environment. In this paper, the research progress on bacterial resistance to QASDs as well as corresponding detection methods and possible underlying mechanisms were reviewed to further clarify the influencing factors of bacterial resistance to QASDs, in hoping to provide references for scientific cognition and rational use of QASDs as well as effective control of bacterial resistance to QASDs.

Key words: bacteria, quaternary ammonium salt-based disinfectants, resistance

CLC Number:

WANG Shuai, WANG Fulan, ZHAO Yankun, ZHENG Nan, LIU Huimin, CHEN He. Research Progress on Bacterial Resistance to Quaternary Ammonium Salt-based Disinfectants[J]. Animal Husbandry and Feed Science, 2024, 45(4): 93-102.

References

[1] 陈血建,郭正洋,黄建飞,等.季铵盐类消毒剂的研究现状[J].广东化工,2019,46(16):240-241.
[2] BUREŠ F.Quaternary ammonium compounds:Simple in structure, complex in application[J].Topics in Current Chemistry,2019,377(3):14.
[3] HAN Y, ZHOU Z C, ZHU L, et al.The impact and mechanism of quaternary ammonium compounds on the transmission of antibiotic resistance genes[J].Environmental Science and Pollution Research International,2019,26(27):28352-28360.
[4] EGGERS M, BAUMANN A, LILIENTHAL N, et al.Disinfectants during the COVID-19 pandemic:A challenge[J].Bundesgesundheitsblatt - Gesundheitsforschung - Gesundheitsschutz,2022,65(1):86-95.
[5] ZHANG C, CUI F, ZENG G M, et al. Quaternary ammonium compounds (QACs):A review on occurrence, fate and toxicity in the environment[J].The Science of the Total Environment,2015,518/519:352-362.
[6] ZENG J Y, LI Y Y, JIN G P, et al.Short-term benzalkonium chloride (C₁₂) exposure induced the occurrence of wide-spectrum antibiotic resistance in agricultural soils[J].Environmental Science and Technology,2022,56(21):15054-15063.
[7] TONG C Y, HU H, CHEN G, et al.Disinfectant resistance in bacteria:Mechanisms, spread, and resolution strategies[J].Environmental Research,2021,195:110897.
[8] BRIDIER A, BRIANDET R, THOMAS V, et al.Resistance of bacterial biofilms to disinfectants:A review[J].Biofouling,2011,27(9):1017-1032.
[9] 赵凯丽,李武平.微生物产生消毒剂抗性研究进展[J].中国感染控制杂志,2016,15(8):633-636.
[10] TENNENT J M, LYON B R, GILLESPIE M T, et al.Cloning and expression of Staphylococcus aureus plasmid-mediated quaternary ammonium resistance in Escherichia coli[J].Antimicrobial Agents and Chemotherapy,1985,27(1):79-83.
[11] NOGUCHI N, SUWA J, NARUI K, et al.Susceptibilities to antiseptic agents and distribution of antiseptic-resistance genes qacA/B and smr of methicillin-resistant Staphylococcus aureus isolated in Asia during 1998 and 1999[J].Journal of Medical Microbiology,2005,54(6):557-565.
[12] MEREGHETTI L, QUENTIN R, MARQUET-VAN DER MEE N, et al. Low sensitivity of Listeria monocytogenes to quaternary ammonium compounds[J].Applied and Environmental Microbiology,2000,66(11):5083-5086.
[13] SCHWAIGER K, HARMS K S, BISCHOFF M, et al.Insusceptibility to disinfectants in bacteria from animals, food and humans-Is there a link to antimicrobial resistance?[J].Frontiers in Microbiology,2014,5:88.
[14] SOUSA-SILVA M, SIMÕES M, MELO L, et al. Pseudomonas fluorescens tolerance to benzyldimethyldodecyl ammonium chloride:Altered phenotype and cross-resistance[J].Journal of Global Antimicrobial Resistance,2018,15:188-195.
[15] JIANG X B, YU T, LIANG Y, et al.Efflux pump-mediated benzalkonium chloride resistance in Listeria monocytogenes isolated from retail food[J].International Journal of Food Microbiology,2016,217:141-145.
[16] EL SAYED ZAKI M, BASTAWY S, MONTASSER K. Molecular study of resistance of Staphylococcus aureus to antiseptic quaternary ammonium compounds[J].Journal of Global Antimicrobial Resistance,2019,17:94-97.
[17] WIELAND N, BOSS J, LETTMANN S, et al.Susceptibility to disinfectants in antimicrobial-resistant and-susceptible isolates of Escherichia coli, Enterococcus faecalis and Enterococcus faecium from poultry-ESBL/AmpC-phenotype of E. coli is not associated with resistance to a quaternary ammonium compound, DDAC[J].Journal of Applied Microbiology,2017,122(6):1508-1517.
[18] SIDHU M S, LANGSRUD S, HOLCK A.Disinfectant and antibiotic resistance of lactic acid bacteria isolated from the food industry[J].Microbial Drug Resistance,2001,7(1):73-83.
[19] MÉCHIN L, DUBOIS-BRISSONNET F, HEYD B, et al. Adaptation of Pseudomonas aeruginosa ATCC 15442 to didecyldimethylammonium bromide induces changes in membrane fatty acid composition and in resistance of cells[J].Journal of Applied Microbiology,1999,86(5):859-866.
[20] HARBARTH S, TUAN SOH S, HORNER C, et al.Is reduced susceptibility to disinfectants and antiseptics a risk in healthcare settings? A point/counterpoint review[J].The Journal of Hospital Infection,2014,87(4):194-202.
[21] KNAPP L, AMÉZQUITA A, MCCLURE P, et al. Development of a protocol for predicting bacterial resistance to microbicides[J].Applied and Environmental Microbiology,2015,81(8):2652-2659.
[22] 吴舜,周燕.细菌对消毒剂的检测方法与耐药机制研究进展[J].海南医学,2018,29(8):1142-1145.
[23] 杨紫嫣. 新疆阿克苏地区猪源金黄色葡萄球菌对抗菌药物和消毒剂耐药性调查及其相关基因检测[D].乌鲁木齐:新疆农业大学,2020.
[24] 杨盛智,吴国艳,龙梅,等.鸡蛋生产链中沙门氏菌对抗生素及消毒剂的耐药性研究[J].遗传,2016,38(10):948-956.
[25] 周倩,唐梦君,张小燕,等.禽源弯曲杆菌对消毒剂的耐药性[J].中国兽医学报,2018,38(9):1735-1739.
[26] 何雪萍,刘书亮,敖晓琳,等.鼠伤寒沙门氏菌对消毒剂的耐药性[C]//中国食品科学技术学会第十五届年会论文摘要集.青岛:中国食品科学技术学会,2018:2.
[27] 吴丽云,洪娟,孙彤,等.水源性肠球菌对苯扎溴铵及部分抗菌药的耐药性研究[J].中国兽医科学,2018,48(11):1406-1414.
[28] BLAND R, WAITE-CUSIC J, WEISBERG A J, et al.Adaptation to a commercial quaternary ammonium compound sanitizer leads to cross-resistance to select antibiotics in Listeria monocytogenes isolated from fresh produce environments[J].Frontiers in Microbiology,2021,12:782920.
[29] 张蒙蒙. 复方季铵盐泡沫消毒剂处方研制及消毒效果评价研究[D].银川:宁夏大学,2021.
[30] 吴东,辛闻婷,王馨宇,等.7种常见消毒剂消毒效果与稳定性的比较研究[J].黑龙江畜牧兽医,2019(14):132-135.
[31] LANGSRUD S, SUNDHEIM G, BORGMANN-STRAHSEN R.Intrinsic and acquired resistance to quaternary ammonium compounds in food-related Pseudomonas spp[J].Journal of Applied Microbiology,2003,95(4):874-882.
[32] 郭莉娟,孙丰慧,张艳娇,等.生牛奶中分离大肠杆菌对季铵盐类消毒剂耐药性研究[J].四川动物,2019,38(6):623-629,645.
[33] 何雪梅,郭莉娟,吴国艳,等.猪肉源大肠杆菌对抗生素及消毒剂的耐药性[J].食品科学,2014,35(7):132-137.
[34] CHOWDHURY C S, KHAN J A, KHANAM J, et al.Detection of biocide resistance genes (qacE and qacΔE1) in Pseudomonas spp isolated from patients with CSOM at Mymensingh medical college hospital, Bangladesh[J].Mymensingh Medical Journal,2021,30(4):954-959.
[35] SIDHU M S, HEIR E, SΦRUM H, et al. Genetic linkage between resistance to quaternary ammonium compounds and beta-lactam antibiotics in food-related Staphylococcus spp[J].Microbial Drug Resistance,2001,7(4):363-371.
[36] KORSAK D, CHMIELOWSKA C, SZUPLEWSKA M, et al.Prevalence of plasmid-borne benzalkonium chloride resistance cassette bcrABC and cadmium resistance cadA genes in nonpathogenic Listeria spp. isolated from food and food-processing environments[J].International Journal of Food Microbiology,2019,290:247-253.
[37] SHAFAATI M, BOROUMAND M, NOWROOZI J, et al.Correlation between qacE and qacEΔ1 efflux pump genes, antibiotic and disinfectant resistant among clinical isolates of E.coli[J].Recent Patents on Anti-Infective Drug Discovery,2016,11(2):189-195.
[38] KÜCKEN D, FEUCHT H, KAULFERS P. Association of qacE and qacE Delta1 with multiple resistance to antibiotics and antiseptics in clinical isolates of gram-negative bacteria[J].FEMS Microbiology Letters,2000,183(1):95-98.
[39] KAZAMA H, HAMASHIMA H, SASATSU M, et al.Distribution of the antiseptic-resistance genes qacE and qacE delta1 in gram-negative bacteria[J].FEMS Microbiology Letters,1998,159(2):173-178.
[40] ABUZAID A, HAMOUDA A, AMYES S G B. Klebsiella pneumoniae susceptibility to biocides and its association with cepA, qacΔE and qacE efflux pump genes and antibiotic resistance[J].The Journal of Hospital Infection,2012,81(2):87-91.
[41] TEZEL U, PAVLOSTATHIS S G.Quaternary ammonium disinfectants:Microbial adaptation, degradation and ecology[J].Current Opinion in Biotechnology,2015,33:296-304.
[42] LOUGHLIN M F, JONES M V, LAMBERT P A.Pseudomonas aeruginosa cells adapted to benzalkonium chloride show resistance to other membrane-active agents but not to clinically relevant antibiotics[J].The Journal of Antimicrobial Chemotherapy,2002,49(4):631-639.
[43] MACHADO I, COQUET L, JOUENNE T, et al.Proteomic approach to Pseudomonas aeruginosa adaptive resistance to benzalkonium chloride[J].Journal of Proteomics,2013,89:273-279.
[44] SUMITOMO T, NAGAMUNE H, MAEDA T, et al.Correlation between the bacterioclastic action of a bis-quaternary ammonium compound and outer membrane proteins[J].Biocontrol Science,2006,11(3):115-124.
[45] KWASNIEWSKA D, CHEN Y L, WIECZOREK D.Biological activity of quaternary ammonium salts and their derivatives[J].Pathogens,2020,9(6):459.
[46] MC CARLIE S, BOUCHER C E, BRAGG R R.Molecular basis of bacterial disinfectant resistance[J].Drug Resistance Updates,2020,48:100672.
[47] HATHROUBI S, MEKNI M A, DOMENICO P, et al.Biofilms:Microbial shelters against antibiotics[J].Microbial Drug Resistance,2017,23(2):147-156.
[48] CARRASCOSA C, RAHEEM D, RAMOS F, et al.Microbial biofilms in the food industry-A comprehensive review[J].International Journal of Environmental Research and Public Health,2021,18(4):2014.
[49] JANG A, SZABO J, HOSNI A A, et al.Measurement of chlorine dioxide penetration in dairy process pipe biofilms during disinfection[J].Applied Microbiology and Biotechnology,2006,72(2):368-376.
[50] BELTER B, MCCARLIE S J, BOUCHER-VAN JAARSVELD C E, et al. Investigation into the metabolism of quaternary ammonium compound disinfectants by bacteria[J].Microbial Drug Resistance,2022,28(8):841-848.
[51] WANG R, ZHOU Y, KALCHAYANAND N, et al.Effectiveness and functional mechanism of a multicomponent sanitizer against biofilms formed by Escherichia coli O₁₅₇∶H₇ and five Salmonella serotypes prevalent in the meat industry[J].Journal of Food Protection,2020,83(4):568-575.
[52] LI X Z, NIKAIDO H.Efflux-mediated drug resistance in bacteria:An update[J].Drugs, 2009, 69(12):1555-1623.
[53] YAN N E.Structural biology of the major facilitator superfamily transporters[J].Annual Review of Biophysics,2015,44:257-283.
[54] BRAGG R, JANSEN A, COETZEE M, et al.Bacterial resistance to quaternary ammonium compounds (QACs) disinfectants[J].Advances in Experimental Medicine and Biology,2014,808:1-13.
[55] BAY D C, TURNER R J.Diversity and evolution of the small multidrug resistance protein family[J].BMC Evolutionary Biology,2009,9:140.
[56] AMSALU A, SAPULA S A, DE BARROS LOPES M, et al. Efflux pump-driven antibiotic and biocide cross-resistance in Pseudomonas aeruginosa isolated from different ecological niches:A case study in the development of multidrug resistance in environmental hotspots[J].Microorganisms,2020,8(11):1647.
[57] NISHIHARA T, OKAMOTO T, NISHIYAMA N.Biodegradation of didecyldimethylammonium chloride by Pseudomonas fluorescens TN4 isolated from activated sludge[J].Journal of Applied Microbiology,2000,88(4):641-647.
[58] PAN L J, LI J, LI C X, et al.Study of ciprofloxacin biodegradation by a Thermus sp. isolated from pharmaceutical sludge[J].Journal of Hazardous Materials,2018,343:59-67.
[59] 李柳,穆迎春,刘璐,等.氟喹诺酮类抗生素及耐药基因污染控制的研究进展[J].生物技术通报,2022,38(9):84-95.
[60] MAILLARD J Y.Bacterial target sites for biocide action[J].Journal of Applied Microbiology,2002,92:16-27.
[61] HIRAKAWA H, KURUSHIMA J, HASHIMOTO Y, et al.Progress overview of bacterial two-component regulatory systems as potential targets for antimicrobial chemotherapy[J].Antibiotics,2020,9(10):635.
[62] 郑继平,郭桂英,林丛.VicRK(YycFG)双组分调节系统[J].中国生物化学与分子生物学报,2010,26(3):215-223.
[63] 于永峰,权衡,董文豪,等.双组分调控系统介导革兰阴性菌耐药的作用机制[J].畜牧兽医学报,2022,53(6):1689-1701.
[64] HU W S, CHEN H W, ZHANG R Y, et al.The expression levels of outer membrane proteins STM1530 and OmpD, which are influenced by the CpxAR and BaeSR two-component systems, play important roles in the ceftriaxone resistance of Salmonella enterica serovar Typhimurium[J].Antimicrobial Agents and Chemotherapy,2011,55(8):3829-3837.
[65] NISHINO K, YAMAGUCHI A.Overexpression of the response regulator evgA of the two-component signal transduction system modulates multidrug resistance conferred by multidrug resistance transporters[J].Journal of Bacteriology,2001,183(4):1455-1458.
[66] WASSENAAR T M, USSERY D, NIELSEN L N, et al.Review and phylogenetic analysis of qac genes that reduce susceptibility to quaternary ammonium compounds in Staphylococcus species[J].European Journal of Microbiology and Immunology,2015,5(1):44-61.
[67] MAHROUKI S, PERILLI M, BOUROUIS A, et al.Prevalence of quinolone resistance determinant qnrA6 among broad- and extended-spectrum beta-lactam-resistant Proteus mirabilis and Morganella morganii clinical isolates with sul1-type class 1 integron association in a Tunisian Hospital[J].Scandinavian Journal of Infectious Diseases,2013,45(8):600-605.
[68] VANDECRAEN J, CHANDLER M, AERTSEN A, et al.The impact of insertion sequences on bacterial genome plasticity and adaptability[J].Critical Reviews in Microbiology,2017,43(6):709-730.
[69] PARTRIDGE S R, KWONG S M, FIRTH N, et al.Mobile genetic elements associated with antimicrobial resistance[J].Clinical Microbiology Reviews,2018,31(4):e00088-17.
[70] BROWN N L, EVANS L R.Transposition in prokaryotes:Transposon Tn501[J].Research in Microbiology,1991,142(6):689-700.
[71] SIGUIER P, GAGNEVIN L, CHANDLER M.The new IS1595 family, its relation to IS1 and the frontier between insertion sequences and transposons[J].Research in Microbiology,2009,160(3):232-241.
[72] LI L P, ZHAO X.Characterization of the resistance class 1 integrons in Staphylococcus aureus isolates from milk of lactating dairy cattle in northwestern China[J].BMC Veterinary Research,2018,14(1):59.
[73] VAN DIJK H F G, VERBRUGH H A. Resisting disinfectants[J].Communications Medicine,2022,2:6.
[74] OBŁAK E, FUTOMA-KOŁOCH B, WIECZYNSKA A. Biological activity of quaternary ammonium salts and resistance of microorganisms to these compounds[J].World Journal of Microbiology and Biotechnology,2021,37(2):22.
[75] KIM M, WEIGAND M R, OH S, et al.Widely used benzalkonium chloride disinfectants can promote antibiotic resistance[J].Applied and Environmental Microbiology,2018,84(17):e01201-e01218.
[76] PAGEDAR A, SINGH J, BATISH V K.Efflux mediated adaptive and cross resistance to ciprofloxacin and benzalkonium chloride in Pseudomonas aeruginosa of dairy origin[J].Journal of Basic Microbiology,2011,51(3):289-295.
[77] BUFFET-BATAILLON S, BRANGER B, CORMIER M, et al.Effect of higher minimum inhibitory concentrations of quaternary ammonium compounds in clinical E. coli isolates on antibiotic susceptibilities and clinical outcomes[J].The Journal of Hospital Infection,2011,79(2):141-146.
[78] 许光明,赵羽丰,庄建萍,等.“One Health”理念及其在兽医领域的发展应用[J].上海畜牧兽医通讯,2022(4):60-62.
[79] 蔡倩怡. One Health拟适用的国际法原则[J].江汉大学学报(社会科学版),2022,39(4):16-26.

Research Progress on Bacterial Resistance to Quaternary Ammonium Salt-based Disinfectants

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