Elma Aniekan Lisk-Anani¹, Martin Duru², Lillian Olere Inegbedion² and Iyekhoetin Matthew Omoruyi¹✉
¹Department of Biological Sciences, Faculty of Science, Benson Idahosa University,
P.M.B. 1100, Benin City, Edo State, Nigeria
²Laboratory Department, Faith Mediplex Hospital, No. 1 Giwa Amu/Airport Road,
GRA, Benin City, Edo State, Nigeria
Received: Feb 10, 2023/ Revised: Mar 5, 2023/Accepted: Mar 17, 2023
(✉) Corresponding Author: iomoruyi@biu.edu.ng
Abstract
Multidrug resistance is emerging as a serious threat to public health causing increase mortality globally. This study was aimed at investigating the prevalence of multidrug resistant Escherichia coli possessing mcr-1, Uida and Lt genes isolated from out-patients attending Faith Mediplex, in Benin City. A total of 18 E. coli isolates were collected over a period of three months from two sources (urine and high vaginal swab). Samples were obtained using sterile universal collection bottles and swab sticks and cultured using the streak plate method on Eosin Methylene Blue (EMB) agar. The isolates were further identified by their morphological, biochemical as well as 16S rRNA analysis. DNA extraction was done by boiling method, while the presence and/or absence of colistin resistance and virulence genes were determined by polymerase chain reaction and gel electrophoresis. Antibiotics susceptibility profile of the isolates was determined by the disc diffusion method. Most of the E. coli species isolated were resistant to nalidixic acid, amoxicillin clavulanate, amplicox, oxacillin and levofloxacin, all isolates were highly susceptible to colistin and ceftriaxone sulbactarm. All except one organism was resistant to nitrofurantion. Multidrug resistance was observed in most of the isolates and the multidrug resistance index ranged from 50.0% to 71.4%. Four out of the 18 isolates had the presence of beta–glucuronidase (uidA) gene and only 2 out of 18 isolates had the heat-labile (Lt) gene. The other genes were not present in all 18 isolates. The presence of this isolate in clinical samples constitute serious public health concern hence individuals should be educated on personal hygiene and environmental sanitation, antimicrobial stewardship be incorporated in hospitals to reduce multidrug resistance and constant testing should be done because of the life-threatening diseases this organism causes.
Keywords: Virulence gene; Escherichia coli; Public Health; Hospital; Antimicrobial stewardship
References
Ahmed, M. A. E. E., Zhong, L., Shen, C., Yang, Y., Doi, Y. and Tian, G. (2020). Colistin and its role in the era of antibiotic resistance: an extended review (2000-2019). Emerging Microbes Infection, 9(1), 868-885.
Ameer, M. A., Wasey, A. and Salen, P. (2022). Escherichia coli (E. coli O157 H7): In: StatPearls, Treasure Island (FL): StatPearls Publishing. 631.
Borowiak, M., Baumann, B., Fischer, J., Thomas, K., Deneke, C., Hammerl, J. A., Szabo, I. and Malorny, B. (2020). Development of a novel mcr-6 to mcr-9 multiplex PCR and assessment of mcr-1 to mcr-9 occurrence in colistin-resistant Salmonella enterica isolates from environment, feed, animals and food (2011-2018) in Germany. Frontiers in Microbiology. 11, 80-88.
Borowiak, M., Hammerl, J. A., Deneke, C., Fischer, J., Szabo, I., and Malorny, B. (2019). Characterization of mcr-5-harboring Salmonellaenterica subsp. entericaserovar Typhimurium isolates from animal and food origin in Germany. Antimicrobial Agents and Chemotherapy, 63:e00063-19. doi: 10.1128/AAC.00063-19.
Cannatelli, A., D’Andrea, M. M., Giani, T., Pilato, V. D., Arena, F., Ambretti, S., Gaibani, P. and Rossolini, G. M. (2013). In vivo emergence of colistin resistance in Klebsiella pneumonia producing KPC-type carbapenemases mediated by insertional inactivation of the PhoQ/PhoP mgrB regulator. Antimicrobial Agents and Chemotherapy. 57(11), 5521-5526.
Carroll, L. M., Gaballa, A., Guldimann, C., Sullivan, G., Henderson, L. O. and Wiedmann, M. (2019). Identification of novel mobilized colistin resistance gene mcr-9 in a multidrug-resistant, colistin-susceptible Salmonella enterica serotype Typhimurium isolate. MBIO. 7;10(3):e00853-19.
Chavda, K. D., Westblade, L. F., Satlin, M. J., Hemmert, A. C., Castanheira, M., Jenkins, S. G., Chen, L. and Kreiswirth, B. N. (2019). First report of blaVIM-4– and mcr-9 coharboring Enterobacter species isolated from a pediatric patient. Clinical Science and Epidemiology, 4(5), e00629-19.
Clinical and Laboratory Standards Institute [CLSI] (2020). Performance Standards for Antimicrobial Susceptibility Testing. 30th ed. CLSI supplement M100. Wayne, PA, 332 pp.
Dadashi, M., Sameni, F., Bostanshirin, N., Yaslianifard, S., Khosravi-Dehaghi, N., Nasiri, M. J., Goudarzi, M., Hashemi, A. and Hajikhani, B. (2021). Global prevalence and molecular epidemiology of mcr-mediated colistin resistance in Escherichia coli clinical isolates: a systematic review. Journal of Global Antimicrobial Resistance. 29, 444-461.
Enabulele, S. A. and Uraih, N. (2009). Enterohaemorrhagic Escherichia coli O157:H7 prevalence in meat and vegetales sold in Benin City, Nigeria. African Journal of Microbiology Research, 3(5), 276-279.
Falagas, M. E., Rafailidis, P. I., Ioannidou, E., Alexiou, V. G., Matthaiou, D. K., Karageorgopoulos, D. E., Kapaskelis, A., Nikita, D. and Michalopoulos, A. (2009). Colistin therapy for microbiologically documented multidrug-resistant Gram-negative bacterial infections: a retrospective cohort study of 258 patients. International Journal of Antimicrobial Agents. 35(2), 194-199.
Gelbicova, T., Barakova, A., Florianova, M., Jamborova, I., Zelendova, M., Pospisilova, L., Kolackova, I. and Karpiskova, R. (2019). Dissemination and comparison of genetic determinants of mcr-mediated colistin resistance in enterobacteriaceae via retailed raw meat products. Frontiers in Microbiology. 10, 2824.
Getaneh, D. K., Hordofa, L. O., Ayana, D. A., Tessema, T. S. and Regassa, L. D. (2021). Prevalence of Escherichia coli O157:H7 and associated factors in under-five children in Eastern Ethiopia. PLoS One, 16(1), e0246024.
Giske, (2015). Contemporary resistance trends and mechanisms for the old antibiotics colistin, temocillin, fosfomycin, mecillinam and nitrofurantoin.Clinical Microbiology and Infection, 21(10), 899-905.
Ibrahim, M. E., Bilal, N. E. and Hamid, M. E. (2012). Increased multi-drug resistant “Escherichia coli” from hospitals in Khartoum state, Sudan. African Health Sciences, 12(3), 368-375.
Karaye, G. P., Karaye, K. K. and Kaze, P. D. (2019). Detection of Escherichia coli in freshly harvested spinach samples collected from five different markets in Zaria. American Journal of Biomedical Science and Research, 4(2),1-7.
Kibret, M. and Abera, B. (2011). Antimicrobial susceptibility patterns of E. coli from clinical sources in northeast Ethiopia. African Health Science, 11(1), S40-45.
Lim, J. Y., Yoon, J. W. and Hovde, C. J. (2010). A brief overview of Escherichia coli O157:H7 and its plasmid O157. Journal of Microbiology and Biotechnology. 20(1), 5-14.
Liu, Y. Y., Wang, Y., Walsh, T. R., Yi, L. X., Zhang, R., Spencer, J., Doi, Y., Tian, G., Dong, B., Huang, X. and Yu, L. F. (2016). Emergence of Plasmid-Mediated Colistin Resistance Mechanismmcr-1 in Animals and Human Beings in China: A Microbiological and Molecular Biological Study. The Lancet Infectious Diseases. 16(2), 161 – 168.
Luo, Q., Yu, Wei, Zhou, K., Guo, L., Shen, P., Lu, H., Huang, C., Xu, H., Xu, S., Xiao, Y. and Li, L. (2017). Molecular epidemiology and colistin resistant mechanism of mcr- positive and mcr-negative clinical isolated Escherichia coli. Frontiers in Microbiology. 17(8), 2262.
Lupindu, A. M. (2018). Epidemiology of shiga toxin-producing Escherichia coli O157:H7 in Africa in review. Southern African Journal of Infectious Diseases. 33(1), 24-30.
Madni, W. A., Mohsin, M., Nawaz, Z., Muzammil, S., Zahoor, M. A. and Asif, R. (2022). Molecular mechanism of antimicrobial co-resistance colistin (mcr-1) and ESBLs genes among Escherichia coli osolates from commercial chickens in Pakistan. Brazilian Journal of Biology. 84. E267494.
Marchaim, D., Chopra, T., Pogue, J. M., Perez, F., Hujer, A. M., Rudin, S., Endimiani, A., Navon-Venezia, S., Hothi, J., Slim, J., Blunden, C., Shango, M., Lephart, P. R., Salimnia, H., Reid, D., Moshos, J., Hafeez, W., Bheemreddy, S., Chen, T. Y., Dhar, S., Bonomo, R. A. and Kaye, K. S. (2011). Outbreak of colistin-resistant, carbapenem-resistant Klebsiella pneumonia in metropolitan Detroit, Michigan. Antimicrobial Agents and Chemotherapy. 55(2), 593-599.
Munita, J. M. and Arias, C. A. (2016). Mechanisms of antibiotic resistance. Microbiology Spectrum, 4(2), 1-37.
Ngede, J. E., Jideani, A. I. O. and Agbo, E. B. (2007). Comparison of enterovirulent E. coli (EVEC) with other bacterial enteropathogens isolated from diarrhoeal specimens in Jos hospitals, Nigeria. Journal of Food Agriculture and Environment, 5(1), 30-33.
Omoruyi, I. M. and Ojubiaja, S. E. (2022). Antibiogram and virulence gene detection in Escherichia coli and Vibrio species isolated from market dumpsites in Edo South Senatorial District, Nigeria. Science World Journal. 17(1), 17-25.
Omoruyi, I. M., Ovia, P. P., Ahmad-Dirisu, Z. and Osemwowa, E. (2023). Plasmid-borne mobilizable colistin resistant gene (mcr-1) detection and multidrug resistant bacteria isolated from abattoir environment. Nigerian Journal of Biotechnology.
Raji, M. A., Minga, U. M. and Machan’U, R. S. (2008). Prevalence and characterization of verotocytoxin producting Escherichia coli O157 from diarrhea patients in Morogoro, Tanzania. Tanzania Journal of Health Research, 10(3), 151- 158.
Reuben, R. C. and Makut, M. D. (2014). Occurrence of Escherichia coli O157:H7 in vegetables grown and sold in Lafia metropolis, Nigeria. World Journal of Microbiology, 1(3), 17-21.
Wang, X., Wang, Y., Zhou, Y., Li, J., Yin, W., Wang, S., Zhang, S., Shen, J., Shen, Z. and Wang, Y. (2018). Emergence of a novel mobile colistin resistance gene, mcr-8, in NDM-producing Klebsiella pneumonia. Emerging Microbes and Infection. 7(1), 122.
Yin, W., Li, H., Shen, Y., Liu, Z., Wang, S., Shen, Z., Zhang, R., Walsh, T. R., Shen, J. and Wang, Y. (2017). Novel plasmid-mediated colistin resistance gene mcr-3 in Escherichia coli. MBIO. 15;8(4) e01166-17.
Zhang, X., Zhang, B., Guo, Y., Wang, J., Zhao, P., Liu, J. (2019). Colistin resistance prevalence in Escherichia coli from domestic animals in intensive breeding farms of Jiangsu Province. International Journal of Food Microbiology. 291, 87–90.
How to cite this article
Lisk-Anani, E. A., Duru, M., Inegbedion, L. O. and Omoruyi, I. M. (2023). Prevalence of virulent, pathogenic and colistin resistant genes in Escherichia coli isolated from out-patients attending Faith Mediplex, Benin City, Edo state, Nigeria. Microbial Science Archives, Vol. 3(1), 43-51. https://doi.org/10.47587/MSA.2023.3108
License Article Metadata
This work is licensed under a Creative Commons Attribution 4.0 International License.