Влияние композиции литических бактериофагов P. aeruginosa на формирование и разрушение бактериальных биопленок

Полыгач Ольга Александровна, Дабижева Александра Николаевна, Ворошилова Наталия Николаевна
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The permeability in biofilms of different antibiotics differs. Bacteria P. aeruginosa have a high, as well as rapidly acquired resistance to most antibiotics, as well as the ability to form biofilms in the foci of inflammation. Goal of the study are a comparative study of the antibacterial activity of antibiotics and the bacteriophage composition of lytic groups of KMV-likevirus, PB-1 likevirus, N4-likevirus and phiKZ-likevirus against plankton cultures of clinical and hospital strains of P. aeruginosa, detection and study of the frequency of biofilm formation by bacteria P. aeruginosa and the preventive action of lytic bacteriophage compositions on them, as well as its ability to destroy bacterial biofilms. Materials and methods. The object of the study was the composition of bacteriophages of P. aeruginosa isolated from various sources of the external environment consisting of strains of bacteriophages of lytic groups KMV (PaUfa-1), PB-1(PaUfa-4), N4(PaUfa -3, 6, 7) and phiKZ(PaUfa-15)-like viruses, which do not contain genes for drug resistance, lysogenicity and toxigenicity, at a concentration of 5 x 107 PFU/ ml, analogous to phage concentration in therapeutic and prophylactic preparations of bacteriophages and 277 clinical and hospital strains of P. aeruginosa bacteria, allocated (2016-2017), in the cities of Moscow, Voronezh, Volgograd, Nizhny Novgorod, Krasnodar, St. Petersburg. Results and discussion. A study of the sensitivity of 277 clinical and hospital strains of P. aeruginosa bacteria to various groups of antibiotics showed that it is within the range of 53.5–80%. The width of the spectrum of antibacterial activity of the composition of bacteriophages of P. aeruginosa lytic groups CMV (PaUfa -1), PB-1(PaUfa -4), N4(PaUfa -3, 6, 7) and phiKZ(PaUfa -15)-likevirus planktonic cultures of hospital and clinical strains, was 89.97% (from 82 to 100%). Of the 42 clinical strains of P. aeruginosa bacteria, 33 strains (78.6%) formed biofilms, the remaining 9 strains showed less pronounced biofilm formation. After preliminary preventive treatment with a composition of bacteriophages of biofilm of strains of P. aeruginosa bacteria, 64.3% of them did not form of biofilm, in 35.7% of strains this ability decreased by 92.0–96.8%. The composition of the lytic bacteriophages KMV (PaUfa-1), PB-1(PaUfa-4), N4(PaUfa-3, 6, 7) and phiKZ(PaUfa-15)-ikevirus, even in a single treatment, destroyed biofilms of various strains P. aeruginosa with destruction from 23 to 100%. High antibacterial activity (an average of 89.97%) of the composition of the lytic bacteriophages P. aeruginosa KMV(PaUfa-1), PB-1(PaUfa-4), N4(PaUfa-3, 6, 7) and phiKZ(PaUfa-15)-like virus in the plankton cultures of P. aeruginosa bacteria falls insignificantly in biofilms (0–77.0%), the activity of antibiotics in biofilms is reduced by 10–1000 or more (decrease in penetration by 90.0–99,9999%). Conclusion. The composition of lytic bacteriophages exerts not only an antibacterial effect on planktonic cultures, but also acts proactively on the formation of bacterial biofilms and destroys them. The obtained data confirm the expediency of using P. aeruginosa bacteriophage preparations for the treatment and prevention of purulent-septic and enteral diseases of the synaeconomic etiology according to clinical and epidemiological indications.","PeriodicalId":36064,"journal":{"name":"Epidemiologiya i Vaktsinoprofilaktika","volume":"17 1","pages":"20-25"},"PeriodicalIF":0.0000,"publicationDate":"2018-09-17","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"2","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Epidemiologiya i Vaktsinoprofilaktika","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.31631/2073-3046-2018-17-4-20-25","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q4","JCRName":"Medicine","Score":null,"Total":0}
引用次数: 2

Abstract

Relevance. Biofilms of bacteria, in particular, pathogens of purulent-septic and enteral diseases, play an important role in the development of the infectious process, resulting in 60–70% of its chronic and recurrent forms. About 60% of nosocomial infections are caused by bacterial biofilms. In biofilms, the bacteria themselves make up only 5–35% of its total mass, the rest is an extracellular polymer matrix consisting of exopolysaccharides, DNA and proteins, which prevents the penetration of antimicrobial agents into biofilms. Resistance of bacteria in biofilms to antibiotics is 10–1000 times higher than the established concentrations for planktonic bacterial cells. The permeability in biofilms of different antibiotics differs. Bacteria P. aeruginosa have a high, as well as rapidly acquired resistance to most antibiotics, as well as the ability to form biofilms in the foci of inflammation. Goal of the study are a comparative study of the antibacterial activity of antibiotics and the bacteriophage composition of lytic groups of KMV-likevirus, PB-1 likevirus, N4-likevirus and phiKZ-likevirus against plankton cultures of clinical and hospital strains of P. aeruginosa, detection and study of the frequency of biofilm formation by bacteria P. aeruginosa and the preventive action of lytic bacteriophage compositions on them, as well as its ability to destroy bacterial biofilms. Materials and methods. The object of the study was the composition of bacteriophages of P. aeruginosa isolated from various sources of the external environment consisting of strains of bacteriophages of lytic groups KMV (PaUfa-1), PB-1(PaUfa-4), N4(PaUfa -3, 6, 7) and phiKZ(PaUfa-15)-like viruses, which do not contain genes for drug resistance, lysogenicity and toxigenicity, at a concentration of 5 x 107 PFU/ ml, analogous to phage concentration in therapeutic and prophylactic preparations of bacteriophages and 277 clinical and hospital strains of P. aeruginosa bacteria, allocated (2016-2017), in the cities of Moscow, Voronezh, Volgograd, Nizhny Novgorod, Krasnodar, St. Petersburg. Results and discussion. A study of the sensitivity of 277 clinical and hospital strains of P. aeruginosa bacteria to various groups of antibiotics showed that it is within the range of 53.5–80%. The width of the spectrum of antibacterial activity of the composition of bacteriophages of P. aeruginosa lytic groups CMV (PaUfa -1), PB-1(PaUfa -4), N4(PaUfa -3, 6, 7) and phiKZ(PaUfa -15)-likevirus planktonic cultures of hospital and clinical strains, was 89.97% (from 82 to 100%). Of the 42 clinical strains of P. aeruginosa bacteria, 33 strains (78.6%) formed biofilms, the remaining 9 strains showed less pronounced biofilm formation. After preliminary preventive treatment with a composition of bacteriophages of biofilm of strains of P. aeruginosa bacteria, 64.3% of them did not form of biofilm, in 35.7% of strains this ability decreased by 92.0–96.8%. The composition of the lytic bacteriophages KMV (PaUfa-1), PB-1(PaUfa-4), N4(PaUfa-3, 6, 7) and phiKZ(PaUfa-15)-ikevirus, even in a single treatment, destroyed biofilms of various strains P. aeruginosa with destruction from 23 to 100%. High antibacterial activity (an average of 89.97%) of the composition of the lytic bacteriophages P. aeruginosa KMV(PaUfa-1), PB-1(PaUfa-4), N4(PaUfa-3, 6, 7) and phiKZ(PaUfa-15)-like virus in the plankton cultures of P. aeruginosa bacteria falls insignificantly in biofilms (0–77.0%), the activity of antibiotics in biofilms is reduced by 10–1000 or more (decrease in penetration by 90.0–99,9999%). Conclusion. The composition of lytic bacteriophages exerts not only an antibacterial effect on planktonic cultures, but also acts proactively on the formation of bacterial biofilms and destroys them. The obtained data confirm the expediency of using P. aeruginosa bacteriophage preparations for the treatment and prevention of purulent-septic and enteral diseases of the synaeconomic etiology according to clinical and epidemiological indications.
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岩浆噬菌体P. aeruginosa对细胞膜形成和破坏的影响
的相关性。细菌的生物膜,特别是脓毒性和肠道疾病的病原体,在感染过程的发展中起着重要作用,导致60-70%的慢性和复发形式。约60%的医院感染是由细菌生物膜引起的。在生物膜中,细菌本身仅占其总质量的5-35%,其余部分是由胞外多糖、DNA和蛋白质组成的细胞外聚合物基质,这阻止了抗菌剂渗透到生物膜中。生物膜中的细菌对抗生素的耐药性比浮游细菌细胞的既定浓度高10-1000倍。不同抗生素在生物膜中的通透性不同。铜绿假单胞菌对大多数抗生素具有高耐药性和快速获得性,并且能够在炎症灶形成生物膜。本研究的目的是比较研究kkv -like病毒、PB-1 like病毒、n4 -like病毒和phikz -like病毒对临床和医院培养的P. aeruginosa浮游生物的抑菌活性和裂解群的噬菌体组成,检测和研究P. aeruginosa细菌形成生物膜的频率和裂解噬菌体组成对它们的预防作用,以及其破坏细菌生物膜的能力。材料和方法。研究了铜绿假单胞菌(P. aeruginosa)在5 × 107 PFU/ ml的浓度下,由不含耐药、溶原性和毒原性基因的KMV (PaUfa-1)、PB-1(PaUfa-4)、N4(PaUfa -3、6、7)和phiKZ(PaUfa-15)样病毒噬菌体组成的不同外部环境来源的噬菌体组成。在莫斯科、沃罗涅日、伏尔加格勒、下诺夫哥罗德、克拉斯诺达尔、圣彼得堡等城市分配的(2016-2017年)噬菌体和277株铜绿假单孢杆菌临床和医院菌株的治疗和预防制剂中的噬菌体浓度类似。结果和讨论。对277株临床及医院感染的铜绿假单胞菌(P. aeruginosa)对各类抗生素的敏感性研究表明,其敏感性在53.5 ~ 80%之间。铜绿假单胞菌溶菌群CMV (pafa -1)、PB-1(pafa -4)、N4(pafa -3、6、7)和phiKZ(pafa -15)样病毒浮游培养医院株和临床株的噬菌体组成抗菌谱宽为89.97%(从82%到100%)。在42株铜绿假单胞菌临床菌株中,33株(78.6%)形成生物膜,其余9株生物膜形成不明显。铜绿假单胞菌噬菌体生物膜组成的菌种经初步预防处理后,64.3%的菌种不形成生物膜,35.7%的菌种不形成生物膜的能力下降92.0 ~ 96.8%。裂解噬菌体KMV (pafa -1)、PB-1(pafa -4)、N4(pafa -3、6、7)和phiKZ(pafa -15)-样病毒组成,即使在一次处理下,也能破坏各种菌株的生物膜,破坏率从23%到100%不等。P. aeruginosa细菌的浮游生物培养物中溶解噬菌体KMV(pafa -1)、PB-1(pafa -4)、N4(pafa -3、6、7)和phiKZ(pafa -15)样病毒的高抑菌活性(平均为89.97%)下降不显著(0-77.0%),生物膜中的抗生素活性降低10-1000以上(渗透降低90.00 - 99、9999%)。结论。溶解噬菌体的组成不仅对浮游培养物具有抗菌作用,而且对细菌生物膜的形成起积极作用并破坏它们。所得数据证实了铜绿假单胞菌噬菌体制剂根据临床和流行病学指征治疗和预防脓毒性和肠道综合经济病因性疾病的方便性。
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来源期刊
Epidemiologiya i Vaktsinoprofilaktika
Epidemiologiya i Vaktsinoprofilaktika Medicine-Infectious Diseases
CiteScore
1.10
自引率
0.00%
发文量
58
审稿时长
8 weeks
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