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Campylobacteriosis and Control Strategies against Campylobacters in Poultry Farms
1Department of Cell and Molecular Biology, Faculty of Biotechnology and Biomolecular Sciences, Universiti Putra Malaysia, 43400 UPM Serdang, Selangor, Malaysia
2Department of Science Laboratory Technology, School of Science Engineering and Technology, Federal Polytechnic Daura, P.M.B 1049, Daura, Katsina State, Nigeria
3Department of Veterinary Pathology and Microbiology, Faculty of Veterinary Medicine, Universiti Putra Malaysia, 43400 UPM Serdang, Selangor, Malaysia
4Laboratory of Vaccine and Biomolecules, Institute of Bioscience, Universiti Putra Malaysia, 43400 UPM Serdang, Selangor, Malaysia
5International Degree Program in Animal Vaccine Technology, International College, National Pingtung University of Science and Technology, Pingtung 912, Taiwan
6Graduate Institute of Animal Vaccine Technology, College of Veterinary Medicine, National Pingtung University of Science and Technology, Pingtung 912, Taiwan
7School of Dentistry, Kaohsiung Medical University, Kaohsiung 807, Taiwan
8School of Medicine, Kaohsiung Medical University, Kaohsiung 807, Taiwan
9Companion Animal Research Centre, National Pingtung University of Science and Technology, Pingtung 912, Taiwan
J. Microbiol. Biotechnol. 2024; 34(5): 987-993
Published May 28, 2024 https://doi.org/10.4014/jmb.2311.11045
Copyright © The Korean Society for Microbiology and Biotechnology.
Abstract
Keywords
Graphical Abstract
Introduction
Campylobacteriosis is a major public health concern and substantial cause of gastroenteritis in humans [1]. The ingestion of contaminated poultry products with
Campylobacter Occurrences in Poultry Industries
The colonization of poultry by
Poultry Campylobacter Contamination in Malaysia
Isolation of
Campylobacters in Human Host
Epidemiology of Campylobacter Infection
Diagnosis of Campylobacter Infection
Polymerase chain reaction (PCR) testing is a molecular diagnostic method that can detect
Treatment against Campylobacter Infection in Humans
Antimicrobial treatment can potentially reduce the duration of campylobacteriosis by a day or two, but it is generally not recommended as a routine treatment to alleviate symptoms. Antibiotics may be considered only in severe cases of
Non-Biological Control Strategies for Campylobacters in Poultry Farms
Biological Control Strategies for Campylobacters in Poultry Farms
A more sophisticated way to control the
Other non-pathogenic substances that have been tested to control poultry farm
Short-chain and medium-chain fatty acids as poultry feed additives serve as energy sources for gut epithelial cells and possess bactericidal properties. A study by Van Deun and colleagues [65] showed a reduction in
Vaccination Against Campylobacters
There is no commercially available vaccine against
-
Table 1 . Recent poultry
Campylobacter vaccine research and development.Type of vaccine Strategy Findings Reference Live attenuated Live E. coli K-12 strain expressing N-glycan from a plasmid and Campylobacter-derived glycosylated outer membrane vesicles was administered orally.None detectable N-glycan-specific responses and no reduction in C. jejuni caecal colonization.[31] Oxidative stress defense knockout mutants ΔahpC, ΔkatA, and ΔsodB derived from C. jejuni were administered orally.ΔahpC and ΔkatA, but not ΔsodB mutants, significantly reduced the level of C. jejuni colonization upon high and low doses of challenge after 42 days.[70] Commercial C. jejuni strain was deactivated using ciprofloxacin at MIC of 0.012 μg/mL and added to chicken intestinal epithelial cells for invasive assay.Deactivated C. jejuni which could not be recovered was able to adhere and invade chicken intestinal epithelial cells.Zainol et al . (2023)- data unpublishedDNA prime vaccine Plasmid encoding C. jejuni recombinant flagellin A (FlaA) was administered through intramuscular injections.Although specific systemic and mucosal antibodies were produced, only partial Campylobacter loads were reduced. The structure and composition of the caecal microbiota were also affected.[71] Plasmid encoding C. jejuni recombinant flagellin A (FlaA) was administered through intramuscular injections.Despite the production of specific anti-flagellin IgY antibodies and upregulation of the antimicrobial peptide β-defensin, the Campylobacter load in the cecum was not reduced.[72] Whole-cell autogenous vaccine C. jejuni harboring genes linked to survival outside of the host were isolated and grown in a fermenter before intramuscular injection.Isolates harboring extra-intestinal survival genes did not reduce Campylobacter caecal populations but lowered the populations on the neck skin samples.[73] Killed and subunit vaccine A killed bacterial (bacterin) mix which comprised of 13 Campylobacter strains and a subunit vaccine consisting of 6 immunodominantCampylobacter antigens were injected intramuscularly.A prolonged presence of anti- Campylobacter antibodies was observed in the serum and intestinal mucus of chicks.[74]
Conclusion and Recommendations
An effective
Acknowledgments
This study was supported by the Ministry of Higher Education Malaysia through the Fundamental Research Grant Scheme (FRGS/1/2023/STG01/UPM/02/5) and Higher Institution Centre of Excellence (HICoE) Grant (6369101) under the administration of the Institute of Bioscience, Universiti Putra Malaysia. M.F.A.Z. was previously supported by Universiti Putra Malaysia’s Putra Science Park InnoHub Grant (9003280).
Conflict of Interest
The authors have no financial conflicts of interest to declare.
References
- Shahid MA, Saeed A, Rahman SU, Salman MM, Bhatti SA, Nazir MM,
et al . 2023. Pathobiology, public health significance, and control ofCampylobacter infections.In: Recent Advances in Bacterial Biofilm Studies - Formation, Regulation, and Eradication in Human Infections . IntechOpen Limited, London, UK. - Hakeem WGA, Fathima S, Shanmugasundaram R, Selvaraj RK. 2022.
Campylobacter jejuni in poultry: pathogenesis and control strategies.Microorganisms 10 : 2134. - Shchur N, Chechet O, Mazur T, Martyniuk O, Gorbatiuk O, Buchkovska H,
et al . 2023. Prevalence and antimicrobial resistance ofCampylobacter isolated from animals and poultry in Ukraine.Adv. Anim. Vet. Sc. 11 : 852-863. - Cardoso MJ, Ferreira V, Trüninger M, Maia RL, Teixeira P. 2021. Cross-contamination events of
Campylobacter spp. in domestic kitchens associated with consumer handling practices of raw poultry.Int. J. Food Microbiol. 338 : 108984. - Ammar AM, El-Naenaeey ESY, El-Hamid MIA, El-Gedawy A, El-Malt RMS. 2021. Campylobacter as a major foodborne pathogen: a review of its characteristics, pathogenesis, antimicrobial resistance ad control.
J. Microbiol. Biotechnol. Food Sci. 19 : 609-619. - Malik-Kale P, Raphael BH, Parker CT, Joeans LA, Klena JD, Quiñones B,
et al . 2007. Characterization of genetically matched isolates ofCampylobacter jejuni reveals that mutations in genes involved in flagellar biosynthesis alter the organism's virulence potential.Appl. Environ. Microbiol. 73 : 3123-3136. - Smith JL, Gunther NW. 2019. Commentary:Campylobacter and hemolytic uremic syndrome.
Foodborne Pathog. Dis. 16 : 90-93. - Costa D, Iraola G. 2019. Pathogenomics of emerging
Campylobacter species.Clin. Microbiol. Rev. 32 : e00072-18. - Saraiva MMS, Lim K, Monte DFMD, Givisiez PEN, Alves LBR,
et al . 2021. Antimicrobial resistance in the globalized food chain: a one health perspective applied to the poultry industry.Braz. J. Microbiol. 53 : 465-486. - Zhang Q, Sahin O. 2020. Campylobacteriosis, pp. 754-769.
In Swayne DE, Boulianne M, Logue CM, McDougald LR, Nair V, Suarez DL, Wit S, Grimes T, Johnson D, Kromm M, Prajitno TY, Rubinoff I, Zavala G (eds),Diseases of Poultry, 14th Ed . John Wiley & Sons, Inc. - Mousavi S, Bereswill S, Heimesaat MM. 2021. Murine models for the investigation of colonization resistance and innate immune responses in
Campylobacter jejuni infections.Curr. Top Microbiol. Immunol. 431 : 233-263. - Abdulazeez TT. 2022.
Prevalence and molecular identification of campylobacter in human and slaughtered broiler in Kerbala Province . [Master’s thesis] Kerbala, Iraq: University of Kerbala. - Rukambile E, Sintchenko V, Muscatello G, Kock R, Alders R. 2019. Infection, colonization and shedding of
Campylobacter andSalmonella in animals and their contribution to human disease: a review.Zoonoses Public Health 66 : 562-578. - ElHack MEA, El-Saadony MT, Shehata AM, Arif M, Paswan VK, Batiha GE,
et al . 2021. Approaches to prevent and controlCampylobacter spp. colonization in broiler chickens: a review.Environ. Sci. Pollut. Res. Int. 28 : 4989-5004. - Wu Z, Sahin O, and Zhang Q. 2022.
Campylobacter , pp. 391-412.In Prescott JF, Rycroft AN, Boyce JD, MacInnes JI, Van Immerseel F and Vázquez-Boland JA (eds),Pathogenesis of Bacterial Infections in Animals , 5th Edition. John Wiley & Sons, Inc. - Śmiałek M, Kowalczyk J, Koncicki A. 2021. The use of probiotics in the reduction of
Campylobacter spp. prevalence in poultry.Animals 11 : 1355. - Rapp D, Schütz KE, Ross C, Sutherland MA, Hempstead MN,
et al . 2023. Fecal excretion ofCampylobacter jejuni by young dairy calves and the relationship with neonatal immunity and personality traits.J. Appl. Microbiol. 134 : lxad094. - Hansson I, Sandberg M, Habib I, Lowman R, Engvall E. 2018. Knowledge gaps in control of
Campylobacter for prevention of campylobacteriosis.Transbound Emerg. Dis. 65(Suppl 1) : 30-48. - Plishka M. 2020.
Investigating the prevalence and transmission of Campylobacter on farms in the United States and Canada . [Master’s thesis] Ontario, Canada: University of Guelph. - Hakeem MJ, Lu X. 2021. Survival and control of
Campylobacter in poultry production environment.Front. Cell Infect. Microbiol. 10 : 615049. - Wales A, Vidal AMC, Davies R, Rodgers J. 2018. Field interventions against colonization of broilers by Campylobacter.
Compr. Rev. Food Sci. Food Saf. 18 : 167-188. - Igwaran A, Okoh AI. 2019. Human campylobacteriosis: a public health concern of global importance.
Heliyon 5 : e02814. - Fischer GH, Paterek E. 2022. Campylobacter.
In: StatPearls . StatPearls Pubishing, Treasure Island (FL). - Casalino G, D'Amico FS, Dinardo FR, Bozzo G, Napoletano V, Camarda A,
et al . 2022. Prevalence and antimicrobial resistance ofCampylobacter jejuni andCampylobacter coli in wild birds from a wildlife rescue centre.Animals 12 : 2889. - Asuming-Bediako N, Kunadu AP, Abraham S, Habib I. 2019. Campylobacter at the human-food interface: the African perspective.
Pathogens 8 : 87. - Wilson M, Wilson PJK. 2021. Gastroenteritis due to campylobacter, pp. 439-450. In
Close Encounters of the Microbial Kind: Everything You Need to Know About Common Infections . Springer Nature Switzerland. - Fedor A, Bojanowski I, Korzeniewski K. 2019. Gastrointestinal infections in returned travelers.
Int. Marit. Health. 70 : 244-251. - Kaakoush NO, Castaño‐Rodríguez N, Mitchell HM, Man SM. 2015. Global epidemiology of
Campylobacter infection.Clin. Microbiol. Rev. 28 : 687-720. - Dunachie SJ, Esmail H, Corrigan R, Dudareva M. Infectious Disease, pp. 21-82.
In: Axford J, O'Callaghan (eds),Medicine for Finals and Beyond . CRC Press. - Mulder AC, Franz E, De Rijk S, Versluis MA, Coipan C, Buij R,
et al . 2020. Tracing the animal sources of surface water contamination withCampylobacter jejuni andCampylobacter coli .Water Res. 187 : 116421. - Vohra P, Bremner A, Nicholls B, Chintoan-Uta C, Corona-Torres R, Stevens MP. 2023. Evaluation of N-glycan-decorated live attenuated
Escherichia coli and outer membrane vesicles as vaccines againstCampylobacter jejuni colonisation in chickens.Vaccine 41 : 4295-4301. - Amjad M, Zia U. 2023. Poultry as a source and reservoir for Campylobacteriosis.
Eur. J. Vet. Med. 3 : 11-17. - Sher AA, Ashraf MA, Mustafa BE, Raza MM. 2021. Epidemiological trends of foodborne
Campylobacter outbreaks in the United States of America, 1998-2016.Food Microbiol. 97 : 103751. - Inns TRS. 2020.
The incidence and transmission of infections gastroenteritis in English care homes . [PhD thesis]. Liverpool, United Kingdom: University of Liverpool. - Heimesaat MM, Backert S, Alter T, Bereswill S. 2021. Human Campylobacteriosis-A serious infectious threat in a one health perspective.
Curr. Top Microbiol. Immunol. 431 : 1-23. - Ouko TT, Nyerere A, Njeru J, Fèvre EM, Kariuki S. 2021. Prevalence and risk factors associated with
Campylobacter infection in diarrheal patients in Busia County, Kenya.Adv. Microbiol. 11 : 657-680. - Saleha AA. 1997.
Campylobacter Jejuni in Broiler Chickens in Selangor, Malaysia . [PhD thesis] Selangor, Malaysia: University Putra Malaysia. - Azman H, Aziz SA, Ibrahim AL. 2023. Occurence of
Campylobacter spp. in Malaysian jungle fowl and village chickens.AIP Conf. Proc. 1 : 020016. - Rejab SB, Zessin KH, Fries R, Patchanee P. 2012. Campylobacter in chicken carcasses and slaughterhouses in Malaysia.
Southeast Asian J. Trop. Med. Public Health. 43 : 96-104. - Chai LC, Robin T, Ragavan UM, Gunsalam JW, Bakar FA, Ghazali FM,
et al . 2007. ThermophilicCampylobacter spp. in salad vegetables in Malaysia.Int. J. Food Microbiol. 117 : 106-111. - Tan Y, Haresh K, Chai L, Ghazali FM, Radu S. 2008. Prevalence of
Campylobacter spp. in retailed ready-to-eat sushi.Int. Food Res. J. 15 : 331-336. - Huat JTY, Ghazali FM, Abdul-Aziz S, Mitsuaki N, Radu S. 2009. Comparison of thermophilic
Campylobacter spp. occurrence in two types of retail chicken samples.Int. Food Res. J. 16 : 277-288. - Mohamed M-YI, Abu J, Abdul-Aziz S, Zakaria Z, Khan AR, Habib I. 2022. Occurrence of antibiotic resistant
C. jejuni andE. coli in wild birds, chickens, humans, and the environment in Malay villages, Kedah, Malaysia.Vet. Med. (Praha.). 67 : 298-308. - Allen KJ, Griffiths MW. 2001. Use of luminescent
Campylobacter jejuni ATCC 33291 to assess eggshell colonization and penetration in fresh and retail eggs.J. Food Prot. 64 : 2058-2062. - Neill SD, Campbell JN, O'Brien J. 1985. Egg penetration by
Campylobacter jejuni .Avian. Pathol. 14 : 313-320. - Berumen A, Lennon R, Breen‐Lyles M, Griffith J, Patel R, Boxrud D,
et al . 2021. Characteristics and risk factors of post-infection irritable bowel syndrome afterCampylobacter enteritis .Clin. Gastroenterol. Hepatol. 19 : 1855-1863.e1. - Harrison LM, Balan KV, Hiett KL, Babu US. 2022. Current methodologies and future direction of
Campylobacter isolation and detection from food matrices, clinical samples, and the agricultural environment.J. Microbiol. Methods 201 : 106562. - Levicán A, Hinton A. 2022. CAMPYAIR, a new selective, differential medium for
Campylobacter spp. isolation without the need for microaerobic atmosphere.Microorganisms 10 : 1403. - Tabata H, Horinishi Y, Sano C, Ohta R. 2023. A case of pseudoappendicitis caused by
Campylobacter enteritis diagnosed by gram staining and direct microscopic investigation of stool specimen.Cureus 15 : e33980. - Bonny SQ, Hossain M a. M, Uddin SMK, Pulingam T, Sagadevan S, Johan MR. 2020. Current trends in polymerase chain reaction based detection of three major human pathogenic vibrios.
Crit. Rev. Food Sci. Nutr. 62 : 1317-1335. - Buss JE, Cresse M, Doyle S, Buchan BW, Craft DW, Young S. 2019. Campylobacter culture fails to correctly detect
Campylobacter in 30% of positive patient stool specimens compared to non-cultural methods.Eur. J. Clin. Microbiol. Infect. Dis. 38 : 1087-1093. - Kienesberger S, Perez-Perez GI. 2021. Campylobacter, pp. 165-186. In Morris JG, Potter ME (eds),
Foodborne Infections and Intoxications . 4th Edition. Academic Press. - Amin SQ, Mahmood HJ, Zorab HK. 2023. Campylobacteriosis, pp. 87-93.
In Abbas RZ, Saeed NM, Younus M, Aguilar-Mercelino L, Khan A (eds),One Health Triad , Volume 2. Unique Scientific Publishers. - Heimesaat MM, Backert S, Alter T, Bereswill S. 2021. Human Campylobacteriosis-A serious infectious threat in a one health perspective, pp 1-23.
In Backert, S (eds.),Fighting Campylobacter Infections: Current Topics in Microbiology and Immunology , vol. 431. Springer, Cham. - Tenhagen B, Flor M, Alt K, Knüver M, Buhler C, Käsbohrer A,
et al . 2021. Association of antimicrobial resistance inCampylobacter spp. in broilers and turkeys with antimicrobial use.Antibiotics (Basel). 10 : 673. - Newell DG, Elvers KT, Döpfer D, Hansson I, Jones P, James S,
et al . 2011. Biosecurity-based interventions and strategies to reduceCampylobacter spp. on poultry farms.Appl. Environ. Microbiol. 77 : 8605-8614. - Guerin MT, Sir C, Sargeant JM, Waddel L, O'Connor AM, Wills RW,
et al . 2010. The change in prevalence ofCampylobacter on chicken carcasses during processing: a systematic review.Poult. Sci. 89 : 1070-1084. - Meredith H, McDowell DA, Bolton D. 2013. An evaluation of trisodium phosphate, citric acid and lactic acid cloacal wash treatments to reduce
Campylobacter , total viable counts (TVC) and total enterobacteriaceae counts (TEC) on broiler carcasses during processing.Food Control 32 : 149-152. - Owens JJ, Barton M, Heuzenroeder MW. 2013. The isolation and characterization of
Campylobacter jejuni bacteriophages from free range and indoor poultry.Vet. Microbiol. 162 : 144-150. - Sørensen MCH, van Alphen LB, Harboe A, Li J, Christensen BB, Syzmanski CM,
et al . 2011. Bacteriophage F336 recognizes the capsular phosphoramidate modification ofCampylobacter jejuni NCTC11168.J. Bacteriol. 193 : 6742-6749. - Canchaya C, Fournous G, Chibani-Chennoufi S, Dillmann ML, Brüssow H. 2003. Phage as agents of lateral gene transfer.
Curr. Opin. Microbiol. 6 : 417-424. - Hansen VM, Rosenquist H, Baggesen DL, Brown S, Christensen BB. 2007. Characterization of
Campylobacter phages including analysis of host range by selectedCampylobacter Penner serotypes.BMC Microbiol. 7 : 90. - Neal-McKinney JM, Lu X, Duong T, Larson CL, Call DR, Shah DH,
et al . 2012. Production of organic acids by probiotic lactobacilli can be used to reduce pathogen load in poultry.PLoS One 7 : e43928. - Zommiti M, Al-Mohammed HI, Ferchichi M. 2016. Purification and characterization of a novel anti-
Campylobacter bacteriocin produced byLactobacillus curvatus DN317.Probiotics Antimicrob. 8 : 191-201. - Van Deun K, Haesebrouck F, Van Immerseel F, Ducatelle R, Pasmans F. 2008. Short-chain fatty acids andl-lactate as feed additives to control
Campylobacter jejuni infections in broilers.Avian Pathol. 37 : 379-383. - Greene G, Koolman L, Whyte P, Lynch H, Cofffrey A, Lucey B,
et al . 2021. The efficacy of organic acid, medium chain fatty acid and essential oil based broiler treatments; in vitro anti-Campylobacter jejuni activity and the effect of these chemical-based treatments on broiler performance.J. Appl. Microbiol. 132 : 687-695. - Taboada AC, Pavic A. 2022. Vaccinating meat chickens against
Campylobacter andSalmonella : a systematic review and metaanalysis.Vaccines 10 : 1936. - Yamamoto S, Iyoda S, Ohnishi M. 2021. Stabilizing genetically unstable simple sequence repeats in the
Campylobacter jejuni genome by multiplex genome editing: a reliable approach for delineating multiple phase-variable genes.mBio 12 : e0140121. - Bino LD, Østerlid KE, Wu D, Nonne F, Romano MR, Codée J,
et al . 2022. Synthetic glycans to improve current glycoconjugate vaccines and fight antimicrobial resistance.Chem. Rev. 122 : 15672-15716. - Jeon B, Saisom T, Sasipreeyajan J, Luangtongkum T. 2022. Live-attenuated oral vaccines to reduce campylobacter colonization in poultry.
Vaccines 10 : 685. - Gloanec N, Dory D, Quesne S, Béven V, Poezevara T, Keita A,
et al . 2022. Impact of DNA prime/protein boost vaccination againstCampylobacter jejuni on immune responses and gut microbiota in chickens.Vaccines 10 : 981. - Gloanec N, Dory D, Quesne S, Béven V, Poezevara T, Amelot M,
et al . 2023. Analysis of immune responses in broilers after vaccination againstCampylobacter jejuni .Poult. Sci. 102 : 102510. - Calland JK, Pesonen M, Mehat JW, Pascoe B, Haydon DJ, Lourenco J, et al. 2023. Genomic tailoring of autogenous poultry vaccines to reduce
Campylobacter from farm to fork.bioRxiv (Cold Spring Harb. Lab. ). - Haems K, Van Rysselberghe N, Goossens E, Strubbe D, Rasschaert G, Martel A,
et al . 2023. ReducingCampylobacter colonization in broilers by active immunization of naive broiler breeders using a bacterin and subunit vaccine.Poult. Sci. 10 : 103075.
Related articles in JMB
Article
Minireview
J. Microbiol. Biotechnol. 2024; 34(5): 987-993
Published online May 28, 2024 https://doi.org/10.4014/jmb.2311.11045
Copyright © The Korean Society for Microbiology and Biotechnology.
Campylobacteriosis and Control Strategies against Campylobacters in Poultry Farms
Mohamad Fadzirul Anwar Zainol1, Mansur Bala Safiyanu1,2, Saleha Abd Aziz3, Abdul Rahman Omar3,4, Kuo Pin Chuang5,6,7,8,9, and Abdul Razak Mariatulqabtiah1,4*
1Department of Cell and Molecular Biology, Faculty of Biotechnology and Biomolecular Sciences, Universiti Putra Malaysia, 43400 UPM Serdang, Selangor, Malaysia
2Department of Science Laboratory Technology, School of Science Engineering and Technology, Federal Polytechnic Daura, P.M.B 1049, Daura, Katsina State, Nigeria
3Department of Veterinary Pathology and Microbiology, Faculty of Veterinary Medicine, Universiti Putra Malaysia, 43400 UPM Serdang, Selangor, Malaysia
4Laboratory of Vaccine and Biomolecules, Institute of Bioscience, Universiti Putra Malaysia, 43400 UPM Serdang, Selangor, Malaysia
5International Degree Program in Animal Vaccine Technology, International College, National Pingtung University of Science and Technology, Pingtung 912, Taiwan
6Graduate Institute of Animal Vaccine Technology, College of Veterinary Medicine, National Pingtung University of Science and Technology, Pingtung 912, Taiwan
7School of Dentistry, Kaohsiung Medical University, Kaohsiung 807, Taiwan
8School of Medicine, Kaohsiung Medical University, Kaohsiung 807, Taiwan
9Companion Animal Research Centre, National Pingtung University of Science and Technology, Pingtung 912, Taiwan
Correspondence to:Abdul Razak Mariatulqabtiah, mariatulqabtiah@upm.edu.my
Abstract
Campylobacteriosis is a significant foodborne illness caused by Campylobacter bacteria. It is one of the most common bacterial causes of gastroenteritis worldwide, with poultry being a major reservoir and source of infection in humans. In poultry farms, Campylobacters colonize the intestinal tract of chickens and contaminate meat during processing. Vaccines under development against Campylobacters in poultry showed partial or no protection against their cecal colonization. Therefore, this review will elaborate on campylobacteriosis and emphasize the control strategies and recent vaccine trials against Campylobacters in poultry farms. The epidemiology, diagnosis, and treatment of Campylobacter infection, along with specific mention of poultry Campylobacter contamination events in Malaysia, will also be discussed.
Keywords: Campylobacteriosis, Campylobacter, C. jejuni, poultry, vaccine
Introduction
Campylobacteriosis is a major public health concern and substantial cause of gastroenteritis in humans [1]. The ingestion of contaminated poultry products with
Campylobacter Occurrences in Poultry Industries
The colonization of poultry by
Poultry Campylobacter Contamination in Malaysia
Isolation of
Campylobacters in Human Host
Epidemiology of Campylobacter Infection
Diagnosis of Campylobacter Infection
Polymerase chain reaction (PCR) testing is a molecular diagnostic method that can detect
Treatment against Campylobacter Infection in Humans
Antimicrobial treatment can potentially reduce the duration of campylobacteriosis by a day or two, but it is generally not recommended as a routine treatment to alleviate symptoms. Antibiotics may be considered only in severe cases of
Non-Biological Control Strategies for Campylobacters in Poultry Farms
Biological Control Strategies for Campylobacters in Poultry Farms
A more sophisticated way to control the
Other non-pathogenic substances that have been tested to control poultry farm
Short-chain and medium-chain fatty acids as poultry feed additives serve as energy sources for gut epithelial cells and possess bactericidal properties. A study by Van Deun and colleagues [65] showed a reduction in
Vaccination Against Campylobacters
There is no commercially available vaccine against
-
Table 1 . Recent poultry
Campylobacter vaccine research and development..Type of vaccine Strategy Findings Reference Live attenuated Live E. coli K-12 strain expressing N-glycan from a plasmid and Campylobacter-derived glycosylated outer membrane vesicles was administered orally.None detectable N-glycan-specific responses and no reduction in C. jejuni caecal colonization.[31] Oxidative stress defense knockout mutants ΔahpC, ΔkatA, and ΔsodB derived from C. jejuni were administered orally.ΔahpC and ΔkatA, but not ΔsodB mutants, significantly reduced the level of C. jejuni colonization upon high and low doses of challenge after 42 days.[70] Commercial C. jejuni strain was deactivated using ciprofloxacin at MIC of 0.012 μg/mL and added to chicken intestinal epithelial cells for invasive assay.Deactivated C. jejuni which could not be recovered was able to adhere and invade chicken intestinal epithelial cells.Zainol et al . (2023)- data unpublishedDNA prime vaccine Plasmid encoding C. jejuni recombinant flagellin A (FlaA) was administered through intramuscular injections.Although specific systemic and mucosal antibodies were produced, only partial Campylobacter loads were reduced. The structure and composition of the caecal microbiota were also affected.[71] Plasmid encoding C. jejuni recombinant flagellin A (FlaA) was administered through intramuscular injections.Despite the production of specific anti-flagellin IgY antibodies and upregulation of the antimicrobial peptide β-defensin, the Campylobacter load in the cecum was not reduced.[72] Whole-cell autogenous vaccine C. jejuni harboring genes linked to survival outside of the host were isolated and grown in a fermenter before intramuscular injection.Isolates harboring extra-intestinal survival genes did not reduce Campylobacter caecal populations but lowered the populations on the neck skin samples.[73] Killed and subunit vaccine A killed bacterial (bacterin) mix which comprised of 13 Campylobacter strains and a subunit vaccine consisting of 6 immunodominantCampylobacter antigens were injected intramuscularly.A prolonged presence of anti- Campylobacter antibodies was observed in the serum and intestinal mucus of chicks.[74]
Conclusion and Recommendations
An effective
Acknowledgments
This study was supported by the Ministry of Higher Education Malaysia through the Fundamental Research Grant Scheme (FRGS/1/2023/STG01/UPM/02/5) and Higher Institution Centre of Excellence (HICoE) Grant (6369101) under the administration of the Institute of Bioscience, Universiti Putra Malaysia. M.F.A.Z. was previously supported by Universiti Putra Malaysia’s Putra Science Park InnoHub Grant (9003280).
Conflict of Interest
The authors have no financial conflicts of interest to declare.
- Abstract
- Introduction
Campylobacter Occurrences in Poultry Industries- Poultry
Campylobacter Contamination in Malaysia Campylobacters in Human Host- Epidemiology of
Campylobacter Infection - Diagnosis of
Campylobacter Infection - Treatment against
Campylobacter Infection in Humans - Non-Biological Control Strategies for
Campylobacters in Poultry Farms - Biological Control Strategies for
Campylobacters in Poultry Farms - Vaccination Against
Campylobacters - Conclusion and Recommendations
- Acknowledgments
- Conflict of Interest
-
Table 1 . Recent poultry
Campylobacter vaccine research and development..Type of vaccine Strategy Findings Reference Live attenuated Live E. coli K-12 strain expressing N-glycan from a plasmid and Campylobacter-derived glycosylated outer membrane vesicles was administered orally.None detectable N-glycan-specific responses and no reduction in C. jejuni caecal colonization.[31] Oxidative stress defense knockout mutants ΔahpC, ΔkatA, and ΔsodB derived from C. jejuni were administered orally.ΔahpC and ΔkatA, but not ΔsodB mutants, significantly reduced the level of C. jejuni colonization upon high and low doses of challenge after 42 days.[70] Commercial C. jejuni strain was deactivated using ciprofloxacin at MIC of 0.012 μg/mL and added to chicken intestinal epithelial cells for invasive assay.Deactivated C. jejuni which could not be recovered was able to adhere and invade chicken intestinal epithelial cells.Zainol et al . (2023)- data unpublishedDNA prime vaccine Plasmid encoding C. jejuni recombinant flagellin A (FlaA) was administered through intramuscular injections.Although specific systemic and mucosal antibodies were produced, only partial Campylobacter loads were reduced. The structure and composition of the caecal microbiota were also affected.[71] Plasmid encoding C. jejuni recombinant flagellin A (FlaA) was administered through intramuscular injections.Despite the production of specific anti-flagellin IgY antibodies and upregulation of the antimicrobial peptide β-defensin, the Campylobacter load in the cecum was not reduced.[72] Whole-cell autogenous vaccine C. jejuni harboring genes linked to survival outside of the host were isolated and grown in a fermenter before intramuscular injection.Isolates harboring extra-intestinal survival genes did not reduce Campylobacter caecal populations but lowered the populations on the neck skin samples.[73] Killed and subunit vaccine A killed bacterial (bacterin) mix which comprised of 13 Campylobacter strains and a subunit vaccine consisting of 6 immunodominantCampylobacter antigens were injected intramuscularly.A prolonged presence of anti- Campylobacter antibodies was observed in the serum and intestinal mucus of chicks.[74]
References
- Shahid MA, Saeed A, Rahman SU, Salman MM, Bhatti SA, Nazir MM,
et al . 2023. Pathobiology, public health significance, and control ofCampylobacter infections.In: Recent Advances in Bacterial Biofilm Studies - Formation, Regulation, and Eradication in Human Infections . IntechOpen Limited, London, UK. - Hakeem WGA, Fathima S, Shanmugasundaram R, Selvaraj RK. 2022.
Campylobacter jejuni in poultry: pathogenesis and control strategies.Microorganisms 10 : 2134. - Shchur N, Chechet O, Mazur T, Martyniuk O, Gorbatiuk O, Buchkovska H,
et al . 2023. Prevalence and antimicrobial resistance ofCampylobacter isolated from animals and poultry in Ukraine.Adv. Anim. Vet. Sc. 11 : 852-863. - Cardoso MJ, Ferreira V, Trüninger M, Maia RL, Teixeira P. 2021. Cross-contamination events of
Campylobacter spp. in domestic kitchens associated with consumer handling practices of raw poultry.Int. J. Food Microbiol. 338 : 108984. - Ammar AM, El-Naenaeey ESY, El-Hamid MIA, El-Gedawy A, El-Malt RMS. 2021. Campylobacter as a major foodborne pathogen: a review of its characteristics, pathogenesis, antimicrobial resistance ad control.
J. Microbiol. Biotechnol. Food Sci. 19 : 609-619. - Malik-Kale P, Raphael BH, Parker CT, Joeans LA, Klena JD, Quiñones B,
et al . 2007. Characterization of genetically matched isolates ofCampylobacter jejuni reveals that mutations in genes involved in flagellar biosynthesis alter the organism's virulence potential.Appl. Environ. Microbiol. 73 : 3123-3136. - Smith JL, Gunther NW. 2019. Commentary:Campylobacter and hemolytic uremic syndrome.
Foodborne Pathog. Dis. 16 : 90-93. - Costa D, Iraola G. 2019. Pathogenomics of emerging
Campylobacter species.Clin. Microbiol. Rev. 32 : e00072-18. - Saraiva MMS, Lim K, Monte DFMD, Givisiez PEN, Alves LBR,
et al . 2021. Antimicrobial resistance in the globalized food chain: a one health perspective applied to the poultry industry.Braz. J. Microbiol. 53 : 465-486. - Zhang Q, Sahin O. 2020. Campylobacteriosis, pp. 754-769.
In Swayne DE, Boulianne M, Logue CM, McDougald LR, Nair V, Suarez DL, Wit S, Grimes T, Johnson D, Kromm M, Prajitno TY, Rubinoff I, Zavala G (eds),Diseases of Poultry, 14th Ed . John Wiley & Sons, Inc. - Mousavi S, Bereswill S, Heimesaat MM. 2021. Murine models for the investigation of colonization resistance and innate immune responses in
Campylobacter jejuni infections.Curr. Top Microbiol. Immunol. 431 : 233-263. - Abdulazeez TT. 2022.
Prevalence and molecular identification of campylobacter in human and slaughtered broiler in Kerbala Province . [Master’s thesis] Kerbala, Iraq: University of Kerbala. - Rukambile E, Sintchenko V, Muscatello G, Kock R, Alders R. 2019. Infection, colonization and shedding of
Campylobacter andSalmonella in animals and their contribution to human disease: a review.Zoonoses Public Health 66 : 562-578. - ElHack MEA, El-Saadony MT, Shehata AM, Arif M, Paswan VK, Batiha GE,
et al . 2021. Approaches to prevent and controlCampylobacter spp. colonization in broiler chickens: a review.Environ. Sci. Pollut. Res. Int. 28 : 4989-5004. - Wu Z, Sahin O, and Zhang Q. 2022.
Campylobacter , pp. 391-412.In Prescott JF, Rycroft AN, Boyce JD, MacInnes JI, Van Immerseel F and Vázquez-Boland JA (eds),Pathogenesis of Bacterial Infections in Animals , 5th Edition. John Wiley & Sons, Inc. - Śmiałek M, Kowalczyk J, Koncicki A. 2021. The use of probiotics in the reduction of
Campylobacter spp. prevalence in poultry.Animals 11 : 1355. - Rapp D, Schütz KE, Ross C, Sutherland MA, Hempstead MN,
et al . 2023. Fecal excretion ofCampylobacter jejuni by young dairy calves and the relationship with neonatal immunity and personality traits.J. Appl. Microbiol. 134 : lxad094. - Hansson I, Sandberg M, Habib I, Lowman R, Engvall E. 2018. Knowledge gaps in control of
Campylobacter for prevention of campylobacteriosis.Transbound Emerg. Dis. 65(Suppl 1) : 30-48. - Plishka M. 2020.
Investigating the prevalence and transmission of Campylobacter on farms in the United States and Canada . [Master’s thesis] Ontario, Canada: University of Guelph. - Hakeem MJ, Lu X. 2021. Survival and control of
Campylobacter in poultry production environment.Front. Cell Infect. Microbiol. 10 : 615049. - Wales A, Vidal AMC, Davies R, Rodgers J. 2018. Field interventions against colonization of broilers by Campylobacter.
Compr. Rev. Food Sci. Food Saf. 18 : 167-188. - Igwaran A, Okoh AI. 2019. Human campylobacteriosis: a public health concern of global importance.
Heliyon 5 : e02814. - Fischer GH, Paterek E. 2022. Campylobacter.
In: StatPearls . StatPearls Pubishing, Treasure Island (FL). - Casalino G, D'Amico FS, Dinardo FR, Bozzo G, Napoletano V, Camarda A,
et al . 2022. Prevalence and antimicrobial resistance ofCampylobacter jejuni andCampylobacter coli in wild birds from a wildlife rescue centre.Animals 12 : 2889. - Asuming-Bediako N, Kunadu AP, Abraham S, Habib I. 2019. Campylobacter at the human-food interface: the African perspective.
Pathogens 8 : 87. - Wilson M, Wilson PJK. 2021. Gastroenteritis due to campylobacter, pp. 439-450. In
Close Encounters of the Microbial Kind: Everything You Need to Know About Common Infections . Springer Nature Switzerland. - Fedor A, Bojanowski I, Korzeniewski K. 2019. Gastrointestinal infections in returned travelers.
Int. Marit. Health. 70 : 244-251. - Kaakoush NO, Castaño‐Rodríguez N, Mitchell HM, Man SM. 2015. Global epidemiology of
Campylobacter infection.Clin. Microbiol. Rev. 28 : 687-720. - Dunachie SJ, Esmail H, Corrigan R, Dudareva M. Infectious Disease, pp. 21-82.
In: Axford J, O'Callaghan (eds),Medicine for Finals and Beyond . CRC Press. - Mulder AC, Franz E, De Rijk S, Versluis MA, Coipan C, Buij R,
et al . 2020. Tracing the animal sources of surface water contamination withCampylobacter jejuni andCampylobacter coli .Water Res. 187 : 116421. - Vohra P, Bremner A, Nicholls B, Chintoan-Uta C, Corona-Torres R, Stevens MP. 2023. Evaluation of N-glycan-decorated live attenuated
Escherichia coli and outer membrane vesicles as vaccines againstCampylobacter jejuni colonisation in chickens.Vaccine 41 : 4295-4301. - Amjad M, Zia U. 2023. Poultry as a source and reservoir for Campylobacteriosis.
Eur. J. Vet. Med. 3 : 11-17. - Sher AA, Ashraf MA, Mustafa BE, Raza MM. 2021. Epidemiological trends of foodborne
Campylobacter outbreaks in the United States of America, 1998-2016.Food Microbiol. 97 : 103751. - Inns TRS. 2020.
The incidence and transmission of infections gastroenteritis in English care homes . [PhD thesis]. Liverpool, United Kingdom: University of Liverpool. - Heimesaat MM, Backert S, Alter T, Bereswill S. 2021. Human Campylobacteriosis-A serious infectious threat in a one health perspective.
Curr. Top Microbiol. Immunol. 431 : 1-23. - Ouko TT, Nyerere A, Njeru J, Fèvre EM, Kariuki S. 2021. Prevalence and risk factors associated with
Campylobacter infection in diarrheal patients in Busia County, Kenya.Adv. Microbiol. 11 : 657-680. - Saleha AA. 1997.
Campylobacter Jejuni in Broiler Chickens in Selangor, Malaysia . [PhD thesis] Selangor, Malaysia: University Putra Malaysia. - Azman H, Aziz SA, Ibrahim AL. 2023. Occurence of
Campylobacter spp. in Malaysian jungle fowl and village chickens.AIP Conf. Proc. 1 : 020016. - Rejab SB, Zessin KH, Fries R, Patchanee P. 2012. Campylobacter in chicken carcasses and slaughterhouses in Malaysia.
Southeast Asian J. Trop. Med. Public Health. 43 : 96-104. - Chai LC, Robin T, Ragavan UM, Gunsalam JW, Bakar FA, Ghazali FM,
et al . 2007. ThermophilicCampylobacter spp. in salad vegetables in Malaysia.Int. J. Food Microbiol. 117 : 106-111. - Tan Y, Haresh K, Chai L, Ghazali FM, Radu S. 2008. Prevalence of
Campylobacter spp. in retailed ready-to-eat sushi.Int. Food Res. J. 15 : 331-336. - Huat JTY, Ghazali FM, Abdul-Aziz S, Mitsuaki N, Radu S. 2009. Comparison of thermophilic
Campylobacter spp. occurrence in two types of retail chicken samples.Int. Food Res. J. 16 : 277-288. - Mohamed M-YI, Abu J, Abdul-Aziz S, Zakaria Z, Khan AR, Habib I. 2022. Occurrence of antibiotic resistant
C. jejuni andE. coli in wild birds, chickens, humans, and the environment in Malay villages, Kedah, Malaysia.Vet. Med. (Praha.). 67 : 298-308. - Allen KJ, Griffiths MW. 2001. Use of luminescent
Campylobacter jejuni ATCC 33291 to assess eggshell colonization and penetration in fresh and retail eggs.J. Food Prot. 64 : 2058-2062. - Neill SD, Campbell JN, O'Brien J. 1985. Egg penetration by
Campylobacter jejuni .Avian. Pathol. 14 : 313-320. - Berumen A, Lennon R, Breen‐Lyles M, Griffith J, Patel R, Boxrud D,
et al . 2021. Characteristics and risk factors of post-infection irritable bowel syndrome afterCampylobacter enteritis .Clin. Gastroenterol. Hepatol. 19 : 1855-1863.e1. - Harrison LM, Balan KV, Hiett KL, Babu US. 2022. Current methodologies and future direction of
Campylobacter isolation and detection from food matrices, clinical samples, and the agricultural environment.J. Microbiol. Methods 201 : 106562. - Levicán A, Hinton A. 2022. CAMPYAIR, a new selective, differential medium for
Campylobacter spp. isolation without the need for microaerobic atmosphere.Microorganisms 10 : 1403. - Tabata H, Horinishi Y, Sano C, Ohta R. 2023. A case of pseudoappendicitis caused by
Campylobacter enteritis diagnosed by gram staining and direct microscopic investigation of stool specimen.Cureus 15 : e33980. - Bonny SQ, Hossain M a. M, Uddin SMK, Pulingam T, Sagadevan S, Johan MR. 2020. Current trends in polymerase chain reaction based detection of three major human pathogenic vibrios.
Crit. Rev. Food Sci. Nutr. 62 : 1317-1335. - Buss JE, Cresse M, Doyle S, Buchan BW, Craft DW, Young S. 2019. Campylobacter culture fails to correctly detect
Campylobacter in 30% of positive patient stool specimens compared to non-cultural methods.Eur. J. Clin. Microbiol. Infect. Dis. 38 : 1087-1093. - Kienesberger S, Perez-Perez GI. 2021. Campylobacter, pp. 165-186. In Morris JG, Potter ME (eds),
Foodborne Infections and Intoxications . 4th Edition. Academic Press. - Amin SQ, Mahmood HJ, Zorab HK. 2023. Campylobacteriosis, pp. 87-93.
In Abbas RZ, Saeed NM, Younus M, Aguilar-Mercelino L, Khan A (eds),One Health Triad , Volume 2. Unique Scientific Publishers. - Heimesaat MM, Backert S, Alter T, Bereswill S. 2021. Human Campylobacteriosis-A serious infectious threat in a one health perspective, pp 1-23.
In Backert, S (eds.),Fighting Campylobacter Infections: Current Topics in Microbiology and Immunology , vol. 431. Springer, Cham. - Tenhagen B, Flor M, Alt K, Knüver M, Buhler C, Käsbohrer A,
et al . 2021. Association of antimicrobial resistance inCampylobacter spp. in broilers and turkeys with antimicrobial use.Antibiotics (Basel). 10 : 673. - Newell DG, Elvers KT, Döpfer D, Hansson I, Jones P, James S,
et al . 2011. Biosecurity-based interventions and strategies to reduceCampylobacter spp. on poultry farms.Appl. Environ. Microbiol. 77 : 8605-8614. - Guerin MT, Sir C, Sargeant JM, Waddel L, O'Connor AM, Wills RW,
et al . 2010. The change in prevalence ofCampylobacter on chicken carcasses during processing: a systematic review.Poult. Sci. 89 : 1070-1084. - Meredith H, McDowell DA, Bolton D. 2013. An evaluation of trisodium phosphate, citric acid and lactic acid cloacal wash treatments to reduce
Campylobacter , total viable counts (TVC) and total enterobacteriaceae counts (TEC) on broiler carcasses during processing.Food Control 32 : 149-152. - Owens JJ, Barton M, Heuzenroeder MW. 2013. The isolation and characterization of
Campylobacter jejuni bacteriophages from free range and indoor poultry.Vet. Microbiol. 162 : 144-150. - Sørensen MCH, van Alphen LB, Harboe A, Li J, Christensen BB, Syzmanski CM,
et al . 2011. Bacteriophage F336 recognizes the capsular phosphoramidate modification ofCampylobacter jejuni NCTC11168.J. Bacteriol. 193 : 6742-6749. - Canchaya C, Fournous G, Chibani-Chennoufi S, Dillmann ML, Brüssow H. 2003. Phage as agents of lateral gene transfer.
Curr. Opin. Microbiol. 6 : 417-424. - Hansen VM, Rosenquist H, Baggesen DL, Brown S, Christensen BB. 2007. Characterization of
Campylobacter phages including analysis of host range by selectedCampylobacter Penner serotypes.BMC Microbiol. 7 : 90. - Neal-McKinney JM, Lu X, Duong T, Larson CL, Call DR, Shah DH,
et al . 2012. Production of organic acids by probiotic lactobacilli can be used to reduce pathogen load in poultry.PLoS One 7 : e43928. - Zommiti M, Al-Mohammed HI, Ferchichi M. 2016. Purification and characterization of a novel anti-
Campylobacter bacteriocin produced byLactobacillus curvatus DN317.Probiotics Antimicrob. 8 : 191-201. - Van Deun K, Haesebrouck F, Van Immerseel F, Ducatelle R, Pasmans F. 2008. Short-chain fatty acids andl-lactate as feed additives to control
Campylobacter jejuni infections in broilers.Avian Pathol. 37 : 379-383. - Greene G, Koolman L, Whyte P, Lynch H, Cofffrey A, Lucey B,
et al . 2021. The efficacy of organic acid, medium chain fatty acid and essential oil based broiler treatments; in vitro anti-Campylobacter jejuni activity and the effect of these chemical-based treatments on broiler performance.J. Appl. Microbiol. 132 : 687-695. - Taboada AC, Pavic A. 2022. Vaccinating meat chickens against
Campylobacter andSalmonella : a systematic review and metaanalysis.Vaccines 10 : 1936. - Yamamoto S, Iyoda S, Ohnishi M. 2021. Stabilizing genetically unstable simple sequence repeats in the
Campylobacter jejuni genome by multiplex genome editing: a reliable approach for delineating multiple phase-variable genes.mBio 12 : e0140121. - Bino LD, Østerlid KE, Wu D, Nonne F, Romano MR, Codée J,
et al . 2022. Synthetic glycans to improve current glycoconjugate vaccines and fight antimicrobial resistance.Chem. Rev. 122 : 15672-15716. - Jeon B, Saisom T, Sasipreeyajan J, Luangtongkum T. 2022. Live-attenuated oral vaccines to reduce campylobacter colonization in poultry.
Vaccines 10 : 685. - Gloanec N, Dory D, Quesne S, Béven V, Poezevara T, Keita A,
et al . 2022. Impact of DNA prime/protein boost vaccination againstCampylobacter jejuni on immune responses and gut microbiota in chickens.Vaccines 10 : 981. - Gloanec N, Dory D, Quesne S, Béven V, Poezevara T, Amelot M,
et al . 2023. Analysis of immune responses in broilers after vaccination againstCampylobacter jejuni .Poult. Sci. 102 : 102510. - Calland JK, Pesonen M, Mehat JW, Pascoe B, Haydon DJ, Lourenco J, et al. 2023. Genomic tailoring of autogenous poultry vaccines to reduce
Campylobacter from farm to fork.bioRxiv (Cold Spring Harb. Lab. ). - Haems K, Van Rysselberghe N, Goossens E, Strubbe D, Rasschaert G, Martel A,
et al . 2023. ReducingCampylobacter colonization in broilers by active immunization of naive broiler breeders using a bacterin and subunit vaccine.Poult. Sci. 10 : 103075.