Antibiotic-resistance genes carried by coliforms in drinking water is a concerning issue for public health in Bangladesh. This research was carried out to identify coliforms in drinking water and to understand the importance of the int1 gene of coliforms in the spread of resistance to bacterial antibiotics through consumption of contaminated water. A total of 31 drinking water samples were collected from restaurants (n = 18), health center (n = 9), and residences (n = 4) located in Chattogram City, Bangladesh. The isolation and identification of coliforms was performed on selective media with a combination of biochemical and molecular analysis. PCR amplification of the LacZ, uidA and int1 genes was carried out for the identification of the coliform and fecal coliform and antibiotic resistant gene, respectively. Antimicrobial susceptibility test was performed according to the Kirby-Bauer disk diffusion method with McFarland standard against three selective antibiotics including co-trimoxazole, ciprofloxacin, and ampicillin. Of 31 drinking water samples, coliforms were detected within 32% (n = 10) of the water samples, nine samples were collected in restaurants and one sample in a residence. But no coliform was detected in the drinking water of the health center. Among the identified coliforms, the prevalence of fecal coliforms and the int1 gene was 60% (n = 6) and 40% (n = 4), relatively. All isolates containing the int1 microbial-resistance gene were resistant to ampicillin.This study shows that drinking water consumed in different restaurants located in Chattogram, Bangladesh is contaminated by antibiotic-resistant gene bearing coliforms that not only increase the risk of water-borne disease, but also may be the major cause of antibiotic resistance transmission in this part of Bangladesh.
Introduction
Availability of drinking water is one of the main prerequisites for healthy life (Fawell & Nieuwenhuijsen, 2003) and safe drinking water is also considered a universal human right by the United Nations Conventions (Gorchev & Ozolins, 2011; World Health Organization, 2011). However, the availability of safe drinking water is still considered a dream for many people living in Asia, South America and Africa (Rubino et al., 2019). Access to clean, contamination-free water is also necessary to maintain an improved public health (Mina et al., 2018).
Generally, the population of Chattogram City, Bangladesh consumes drinking water as safe water in homes, hospitals, restaurants, vendors, educational institutions, offices, etc. But the presence of microorganisms in drinking water has attracted great attention worldwide because of public health problems (Olaoye & Onilude, 2009). According to the World Health Organization (WHO), approximately 1.1 million people globally consume impure water and 88% of diarrheal diseases in the world are the result of the consumption of contaminated water (World Health Organization, 2003). Ten major waterborne diseases have also reported to be responsible for more than 28 billion disease episodes yearly in developing countries (Suthar et al., 2009). It is very concerning that Chattogram city, Bangladesh, has also been suffering from various water-related problems along with insufficient drinking water supply (Zuthi et al., 2009).
Coliform has generally been used as an indicator of water quality, and its presence in drinking water is also used as an index of the presence of entero-pathogens in water (Rompré et al., 2002). The total number of fecal coliforms should be zero in drinking water (World Health Organization, 2004). Among coliforms, Escherichia coli is widely used for coliform, as well as fecal coliform (Odonkor & Ampofo, 2013). It belongs to the Enterobacteriaceae family and is facultative anaerobic bacterium. It is widely spread in the natural environment and transmitted via fecal-oral route (Waturangi et al., 2019).
The antibiotic resistant gene- integron, an integrase gene (intI), encodes a site-specific enzyme- recombinase, a promoter (Pc) and an attachment site (attI). The gene cassettes consist of promoterless ORF and int1-identifiable recombination site- attC insert into the integron gene and this integration is mediated by a recombination reaction (Mooij et al., 2005). The high expression of int1 inhibits the antimicrobial function of Ciprofloxacin (third generation), Ampicillin (third generation) (Mooij et al., 2005; Peirano et al., 2005).
In developing countries like Bangladesh, antibiotic resistance is a severe threat due to the widespread misuse of antibiotics, inappropriate regulations, poor effectiveness of drugs, etc. (Ayukekbong et al., 2017). This resistance emerges in both pathogenic microbes and coliform like E. coli (Katouli, 2010).The resistance genes located on E.coli plasmids can develop resistance mechanism (Szmolka & Nagy, 2013). Coliforms, found in healthy human stool, street food, and drinks and surface when exposed to antibiotics, are forced to develop different strategies to survive and grow (Johura et al., 2020).Therefore, this study aims to understand the contributions of coliforms as well as fecal coliforms in drinking water in the transmission of bacterial antibiotic resistance, specifically in a major metropolitan city of Bangladesh.
Materials and Methods
Sample Collection and Processing: A total of 31 portable water samples were collected from different hospital and diagnostic center (n = 9), hotel and restaurant (n = 18), and residential buildings (n = 14) situated in Chawkbazar, Muradpur, Panchlish, Chittagong University Campus of Chattogram City, Bangladesh. The drinking water samples were collected in two sets of sterile capped container through maintaining aseptic condition strictly. The collected samples were kept in a sterilized container (Ice bag) and carried to the laboratory, and all samples were stored at −4 °C until further use for microbiological analysis.
Selective plating
The MacConky agar medium (HI media) was prepared in 250 ml conical flask according to the manufactured protocol. After the sterilization process was completed, the medium was cooled to around 40°C. Meanwhile, the water samples were properly vortexed and 1 ml of sample was poured into the Petri dish. The prepared MacConky media was poured into the same Petri dish and then the plates were stirred gently clockwise and anticlockwise with a hand, so that the samples were thoroughly mixed with the medium. The Petri dishes were allowed to solidify. After solidification, the plates were kept in the incubator in an inverted position at 37°C overnight. After incubation, a characteristic colony of coliforms was observed and the selected colony was picked and stored for biochemical confirmation. Same process was done for two times to get repetitive results.
Biochemical identification
The prepared TSI medium (Himedia, M021-500G) in conical flask was placed in a sterile test tube and the opening of the tube was closed with a cotton gauge. The test tube was then autoclaved. After autoclaving, the test tube was kept in a tilted position for 2 to 3 hours for solidification. By microwire sterile loop, the bacterial single colony was inoculated on TSI slant and loop was dipped into butt carefully. In the case of every suspected sample, the same procedure was followed. The TSI test tubes were incubated into an incubator at 37°C for overnight. The TSI test tubes within an acidic (yellow) slant and an acidic butt with gas were suspected for coliforms. These suspected samples were selected for DNA isolation and molecular identification.
DNA extraction and PCR
The genomic DNA extraction of the isolated coliforms was performed according to the previously published protocol (Queipo-Ortuño et al., 2008). PCR amplification of the target genes (Table 1) was performed using a thermal cycler (NyxTechnik) (Mehdi et al., 2018; Mina et al., 2018)). After amplification, the PCR products were analyzed by gel electrophoresis at 1.5% agarose.
Table 1.
Target Genes, Primers, Cyclic Condition, Composition of the PCR Mixture, and Amplicon Size.
Antibiotic susceptibility test
Kirby-Bauer disk diffusion method with McFarland standard was followed for the antibiotic susceptibility test (Andrews, 2001; Wiegand et al., 2008).In this study, 0.5 McFarland turbidity standard contained 0.5 ml of 1.17% barium chloride and 9.5 ml 1% sulfuric acid (Andrews, 2001). A loopful of bacterium colony was taken into a 5 ml sterile double distilled water containing test tube. The bacterium turbidity concentration was compared with the McFarland turbidity standard. The cotton swab was then dipped in distilled water containing the bacteria and spread on Mueller Hinton agar plate. Three antibiotic disks (ampicillin, Ciprofloxacin, and co-trimoxazole) were placed on the culture plate carefully. Plates were kept in refrigerator at 4°C for 20 minutes so that the antibiotic could diffuse. The plates were then incubated for overnight at 37°C in the incubator. Finally, after incubation, the inhibition zone against each antibiotic disc was measured.
Results
Screening of coliforms in drinking water
This research project has been designed to investigate the occurrence of coliform bacteria in the drinking water of different public places in Chattogram city, Bangladesh (Table 2). To identify coliform in drinking water, collected water samples were cultured in MacConkey agar by the pour plate technique. Coliforms are a group of Lactose-fermenting bacteria and usually grow as pink colonies on the MacConkey agar plate. The pour plating of the water sample on MacConkey agar revealed the occurrence of coliform bacteria in 10 of the 31 drinking water samples collected as clear pink colonies were observed among the plates prepared by those samples. The samples numbers were S3, S6, S11, S12, S13, S15, S17, S23, S30, and S31 (Table 2, Figure 1A). To identify coliforms from suspected samples, a single pink colony of each plate positive for coliforms has been collected and performed the Triple Sugar Iron test (TSI). TSI agar is a differential medium that can assess the ability of a microbe to ferment lactose, which is used for the identification of coliform bacteria. In TSI, slant coliform only generated gas and the entire media remained acidic (yellow slant and yellow butt) indicating lactose fermentation. In the TSI test, suspected isolates were confirmed as coliform as they showed a specific coliform result (Table 2, Figure 1B). After the confirmation of selected isolates by TSI, the findings have also been confirmed by molecular analysis. For molecular confirmation, the presence of the lacZ gene in the identified isolates has been investigated by PCR. The lacZ gene is a gene present in coli from that encodes the beta-galactosidase protein responsible for the breakdown of lactose. The PCR analysis revealed the presence of lacz in all coliform isolates. A previously identified coliform strain was used as a positive control in this experiment (Chowdhury et al., 2020) (Figure 1C). Finally, by microbiological and molecular analysis it has been confirmed that coliforms were identified in drinking water of 10 different places of Chattogram city, Bangladesh. Finally, to further characterization, the identified coliforms have been coded as C-S3, C-S6, C-S11, C-S12, C-S13, C-S15, C-S17, C-S23, C-S30. C-S31 (Table 2).
Table 2.
Summarized Information About the Screening of Coliforms From Drinking Water.
Figure 1.
Screening of coliforms from drinking water: (A) selective plating of water sample in the MacConkey agar plate. Characteristic pink colonies of suspected coliforms indicated by arrows. Representative plates of some selective samples have been shown, (B) biochemical identification of suspected coliforms by TSI test. Pink colonies from MacConkey agar were inoculated on TSI slants. After incubation coliforms were identified through the observation of yellow (acidic) slant and yellow (acidic) butt with gas in the TSI slant. Representative TSI slants some selective coliforms have shown, (C) molecular confirmation of biochemically identified coliforms. A; Ladder, B: The target lacZ gene was amplified through PCR by using specific primers. After the completion of PCR, the PCR products were visualized through agarose gel electrophoresis. M = Marker; NC = Negative control; PC = positive control.
Investigation of fecal contamination in drinking water
Identifying coliform implies whether or not fecal contamination occurred in these water samples. Screening of fecal contamination was performed by amplification of the uidA gene in the coliform isolates. PCR analysis revealed that six out of ten coliforms were fecal coliforms (E. coli) (Figure 2). In this experiment, a previously identified fecal coliform bacteria was used positive control (Chowdhury et al., 2020). The isolates containing the uidA gene were C-S3, C-S6, C-S13, C-S15, C-S30, and C-S31 (Figure 2).
Screening of antibiotic-resistant gene integron (int1) in coliforms
Antibiotic resistance is one of the main health concerns in Bangladesh. Therefore, the main objective of this study was the screening of antibiotic resistant gene int1 in isolated coliforms. PCR analysis revealed that four out of ten coliforms contain int1 in their genomic DNA and those isolates were C-S3, C-S13, C-S15, and C-S31 (Figure 3).
Antibiotic resistance profiling of identified coliforms
Antibiotic resistance in different environments is quite common in Bangladesh. Furthermore, isolated coliforms carrying the int1 gene exhibited antibiotic resistance in the identified coliforms. To justify the hypothesis, an antibiotic susceptibility test of each isolate was performed against antibiotics usually inhibited by high expression of integron. The antibiotics used in this experiment were AMP, Ciprofloxacin (CIP), and Co-trimoxazole (COT). Interestingly, antibiotic sensitivity experiment reveals that all isolates carrying the antibiotic-resistance int1 gene were resistant to ampicilin (Figure 4). However, all isolates seem to be sensitive to other two antibiotics (Figure 4).
Figure 4.
Antibiotic resistant profiling of isolated coliforms: (A) Antibiotic sensitivity test by Kirby-Bauer Disk diffusion method. Picture of culture plates showed zone of inhibition by int1 gene containing coliforms against different antibiotics. CIP = Ciprofloxacin, AMP = Ampicillin, COT = Co-trimoxazole. (B) Measurement of zone of inhibition by coliform isolates against antibiotics. CIP = Ciprofloxacin, AMP = Ampicillin, COT = Co-trimoxazole. All the coliforms were resistant to ampicillin as zone of inhibition against ampicillin was not found for any of the isolate. The error bars represent data from three independent experiments (mean± standard deviation).
Discussion
Bangladesh is one of the most densely populated countries in the world and has a severe scarcity of safe drinking water. Most of the total population of Bangladesh has access to water, but the quality of water is always questionable. Coliform bacteria are considered the best indicator of bacteriological quality of drinking water. In order to understand bacterial contamination in drinking water in Chattogram City, Bangladesh, during this study the prevalence of coliform bacteria was determined by collecting 31 drinking water samples from hotels, restaurants and food stores (n = 18), hospitals and diagnostic centers (n = 9) and public residents (n = 4). Through microbiological and molecular investigation, coliforms were identified in 10 samples, where 9 samples were from restaurants and 1 sample was from a residential building. Interestingly, no coliform was detected in the drinking water of the hospital and diagnostic center, which shows that the quality of the drinking water of the hospital and diagnostic centers is very good in the scene of microbial contaminations. However, the quality of the drinking water in different restaurants was not satisfactory because coliforms were identified in 50% (n = 9) of the water samples of the hotels and restaurants. One of the main public health issues in Chattogram city Bangladesh is the poor practice of personal hygiene and sanitation. In this research, we have identified the occurrence of coliforms primarily in the drinking water in restaurants. Therefore, it is assumed that maintenance of hygiene condition might be associated with this result. It is also assumed that the source of these coilforms might be the fecal matter of personnel associated with drinking water processing and supply and indeed our prediction is proven when we examine the number of fecal coliform among the total coliforms. Our investigation reveals that 60% of the identified coliforms were E. coli and have an association with fecal matters of warm blooded animals. Therefore, this result represents that a variety of enterophatogenic bacteria may be present in the drinking water of different restaurants in Chattogram City, Bangladesh. Since Chattogram is the second largest city in Bangladesh, a huge number of people in this city drink this contaminated water. Consequently, a large number of people in Chattogram city are under severe threat of water-related diseases.
Antibiotic resistance and its widespread occurence in and around Bangladesh is a major public health concern. Recently, a study has reported the occurrence of multi drug resistance coliforms in human sewage collected from different places of Chattogram city, Bangladesh (Akter et al., 2021). As a consequence, in this study we also investigate the contribution of coliform bacteria from drinking water to the occurrence of antibiotic resistance in Bangladesh. Surprisingly, in this study we found the presence of a highly important antibiotic resistance gene int1 (integron gene) among 40% (n = 4) of identified coliforms. Although before 1999 only few cases about the occurrence of integron class 1 have been reported, however, now it is concerning that the occurrence of integrons are common all over the world, particularly in the members of the coliform and Enterobacteriaceae family. Previous research suggested that int1 has been associated with several resistance gene cassettes responsible for resistance against newer antibiotics (Najibi et al., 2012). Additionally, the integron gene cassette is the main source of transferable antibiotic resistant genes such as int1 (Kheiri & Akhtari, 2016). Therefore, we assume that antibiotic resistant coliform bacteria and int1 gene found in drinking water accelerated the spread of antibiotic resistance in this region of Bangladesh. Our hypothesis is also supported by the finding, while the phenotypic characteristics of the isolates were observed against three selective antibiotics-cotromoxazole, ciprofloxacin and ampicillin-by the antibiotic sensitivity test, which reveals 100% of isolated bacteria including the int1 containing isolates (n = 4) are resistant to ampicillin. The presence of ampicillin resistant coliform in drinking water could also be related to the wide spread occurence of multi drug resistant coliforms in various environmental settings, as previous studies in Chattogram city, Bangladesh reported the occurrence of ampicillin resistant coliform bacteria in the hospital wastes (Naher et al., 2013) as well as in the environmental human sewage samples (Akter et al., 2021). We believe that this study reveals some serious issues about microbial contamination of drinking water and its associated risks to public health in Bangladesh. The Bangladeshi public health authorities and the World Health Organization should take the necessary initiatives to limit the contamination of drinking water by coliforms to prevent severe waterborne infections in this part of the world.
Acknowledgements
The authors are thankful to the teachers and staffs of the Department of Genetic Engineering and Biotechnology, University of Chittagong, Bangladesh.
Author Contributions A. M. M. A. C designed this study. SAM, AKMZH, P.D., M.ZH performed the experiments; A. M. M. A. C analyzed the data; A. M. M. A. C., S. A.M. and A.K.M. Z.H wrote the original draft. A. M. M. C and S. A. M reviewed the several versions of the manuscript. All authors read and approved the final manuscript.
Declaration of Conflicting Interests The author(s) declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this article.
Funding The author(s) received no financial support for the research, authorship, and/or publication of this article.
ORCID iDs A. M. Masudul Azad Chowdhury 
https://orcid.org/0000-0002-1675-5075
A. K. M. Zakir Hossain https://orcid.org/0000-0002-6229-8725
Data Availability All data analyzed during this study are included in this manuscript.
