Abstract:Intensive farming increased the risk of bacterial disease outbreaks in aquacultural fish. Researches on the intestines and their microflora, which is the important immune barrier of aquatic animals, are considered to be an effective way of solutions. Numbers of studies showed that lactic acid bacteria (LAB) were gram-positive and non-sporing bacteria that commonly colonized in aquacultural animal intestines as probiotics. In this paper, regulation of LAB in intestinal microflora structure in fish, nutrients digestion and absorption improvement of LAB in fish intestines, activation of intestinal mucosal immunity, the adsorption and degradation of toxins in fish intestines were reviewed. This review provides a theoretical basis for the study of LAB in fish.
[1] 董小林, 赵敏, 陈家林, 等. 2018. 微生态制剂在对虾病害防控中的应用开发进展[J]. 水产科学, 37(1): 1003-1111. ( Dong X L, Zhao M, Chen J L, et al.2018. Application and development of probiotics in prevention and control of shrimp diseases[J]. Fisheries Science, 37(1): 1003-1111.) [2] 费苏, 夏永军, 艾连中, 等. 2020. 乳酸菌在肠道内黏附定殖的研究进展[J]. 工业微生物, 50(2): 58-62. (Fei S, Xia Y J, Ai L Z, et al.2020. Research progress of lactic acid bacteria colonization in intestine[J]. Industrial Microbiology, 50(2): 58-62.) [3] 康慎敏, 武瑞赟, 穆文强, 等. 2022. 乳酸菌拮抗食源性致病菌的研究及应用进展[J]. 食品科学, 43(1): 250-259. (Kang S M, Wu R Y, Mu W Q, et al.2022. Research and application of lactic acid bacteria against foodborne pathogens: A review[J]. Food Science, 43(1): 250-259.) [4] 黎铭, 马春霞, 黎建斌, 等. 2019. 无乳链球菌对罗非鱼肠道菌群的影响[J]. 南方农业学报, 50(8): 1647-1656. (Li M, Ma C X, Li J B, et al.2019. Effects of Streptococcus agalactiae on intestinal flora of tilapia[J]. Journal of Southern Agriculture, 50(8): 1647-1656.) [5] 伍元植, 韦光本, 简纪常, 等. 2019. 斜带石斑鱼肠道乳酸菌的分离, 鉴定及特性分析[J]. 基因组学与应用生物学, 38(10): 4447-4455. (Wu Y Z, Wei G B, Jian J C, et al.2019. Isolation, identification and characteristics of lactic acid bacteria from intestine of Epinephelus coioides[J]. Genomics and Applied Biology, 38(10): 4447-4455.) [6] 杨媛媛, 王楠楠, 曹青, 等. 2018. 鲫肠道乳酸菌的分离及益生特性[J]. 水产学报, 42(10): 1596-1605. (Yang Y Y, Wang N N, Cao Q, et al.2018. Isolation and probiotic properties of lactic acid bacteria from the gut of crucian carp (Carassius auratus)[J]. Journal of Fisheries of China, 42(10): 1596-1605.) [7] 曾地刚, 雷爱莹. 2011, 乳酸杆菌对罗非鱼生长和抗病力的影响[J]. 南方农业学报, 42(3): 328-331. ( Zeng D G, Lei A Y.2011. Effect of Lactobacillus supplementation on growth and disease resistance in tilapia[J]. Journal of Southern Agriculture, 42(3): 328-331.) [8] 张婧怡. 2020. 不同品种及不同养殖环境的罗非鱼肠道微生物分析研究[D]. 硕士学位论文, 广西大学, 导师: 罗永巨, pp. 7-8. (Zhang J Y.2020. Analysis and study on the gut microbimes of tilapla in different species and culture environment[D]. Thesis for M. S., Guangxi University, Supervisor: Luo Y J, pp. 7-8.) [9] 张震, 郝强, 周小秋, 等. 2020. 近年我国淡水鱼营养与饲料科学研究进展[J]. 动物营养学报, 32(10): 4743-4764. (Zhang Z, Hao Q, Zhou X Q, et al.2020. Recent Rreasech progresses of nutrition and feed science of freshwater fish in China[J]. Chinese Journal of Animal Nutrition, 32(10): 4743-4764.) [10] Alamdary S Z, Bakhshi B.2020. Lactobacillus acidophilus attenuates toxin production by Vibrio cholerae and shigella dysenteriae following intestinal epithelial cells infection[J]. Microbial Pathogenesis, 149: 104543. [11] Albano C, Morandi S, Silvetti T, et al.2018. Lactic acid bacteria with cholesterol-lowering properties for dairy applications: In vitro and in situ activity[J]. Journal of Dairy science, 101(12): 10807-10818. [12] Amin M, Badams M, Mburke C, et al.2020. Isolation and screening of lactic acid bacteria associated with the gastrointestinal tracts of abalone at various life stages for probiotic candidates[J]. Aquaculture Reports, 17: 100378. [13] Arani M M, Salati A P, Keyvanshokooh S, et al.2020. The effect of Pediococcus acidilactici on mucosal immune responses, growth, and reproductive performance in zebrafish (Danio rerio)[J]. Fish Physiology and Biochemistry, 47(1): 153-162. [14] Arani M M, Salati A P, Safari O, et al.2019. Dietary supplementation effects of Pediococcus acidilactici as probiotic on growth performance, digestive enzyme activities and immunity response in zebrafish (Danio rerio)[J]. Aquaculture Nutrition, 25(4): 854-861. [15] Arena M P, Capozzi V, Spano G, et al.2017. The potential of lactic acid bacteria to colonize biotic and abiotic surfaces and the investigation of their interactions and mechanisms[J]. Applied Microbiology and Biotechnology, 101(7): 2641-2657. [16] Arsene M M J, Davares A K L, Andreevna S L, et al.2021. The use of probiotics in animal feeding for safe production and as potential alternatives to antibiotics[J]. Veterinary World, 14(2): 319-328. [17] Axelsson L T.2004. Lactic Acid Bacteria: Classification and Physiology[M]. Marcel Dekker, Inc./CRC Press,New York, pp. 1-66. [18] Ayivi R D, Gyawali R, Krastanov A, et al.2020. Lactic acid bacteria: Food safety and human health applications[J]. Dairy, 1(3): 202-232. [19] Baarlen P V, Wells J M, Kleerebezem M, et al.2013. Regulation of intestinal homeostasis and immunity with probiotic Lactobacilli[J]. Trends in Immunology, 34(5): 208-215. [20] Balcázar J L, Vendrell D, Blas I D, et al.2008. Characterization of probiotic properties of lactic acid bacteria isolated from intestinal microbiota of fish[J]. Aquaculture, 278(1-4): 188-191. [21] Béné C, Arthur R, Norbury H, et al.2016. Contribution of fisheries and aquaculture to food security and poverty reduction: Assessing the current evidence[J]. World Development, 79: 177-196. [22] Brenda M S, Balcázar J L, Tania P S.2020. Effect of a novel postbiotic containing lactic acid bacteria on the intestinal microbiota and disease resistance of rainbow trout (Oncorhynchus mykiss)[J]. Biotechnology Letters, 42(10): 1957-1962. [23] Brown M.2011. Modes of action of probiotics: Recent developments[J]. Journal of Animal and Veterinary Advances, 10(14): 1895-1900. [24] Bueno D J, Casale C H, Pizzolitto R P, et al.2007. Physical adsorption of aflatoxin B1 by lactic acid bacteria and Saccharomyces cerevisiae: A theoretical Model[J]. Journal of Food Protection, 70(9): 2148-2154. [25] Cai J P, Zhao J, Wang Z, et al.2008. Lysis of vibrios by bdellovibrio‐and‐like organisms (BALOs) isolated from marine environment[J]. Journal of Food Safety, 28: 220-235. [26] Cárdenas N, Laiño J E, Delgado S, et al.2015. Relationships between the genome and some phenotypical properties of Lactobacillus fermentum CECT 5716, a probiotic strain isolated from human milk[J]. Applied Microbiology and Biotechnology, 99(10): 4343-4353. [27] Carr F J, Chill D, Maida N, 2002. The lactic acid bacteria: A literature survey[J]. Critical Reviews in Microbiology, 28(4): 281-370. [28] Chauhan A, Singh R.2019. Probiotics in aquaculture: A promising emerging alternative approach[J]. Symbiosis, 77(2), 99-113. [29] Crumlish M.2017. Bacterial diagnosis and control in fish and shellfish[M]//, Austin B, Newaj-Fyzul A (eds.). Diagnosis and Control of Diseases of Fish and Shellfish. John Wiley & Sons Ltd., US, pp. 5-18. [30] Dawood M A O, Koshio S, Ishikawa M, et al.2016. Effects of dietary supplementation of Lactobacillus rhamnosus or/and Lactococcus lactis on the growth, gut microbiota and immune responses of red sea bream, Pagrus major[J]. Fish and Shellfish Immunology, 49: 275-285. [31] Dawood M A O, Koshio S.2018. Vitamin C supplementation to optimize growth, health and stress resistance in aquatic animals[J]. Reviews in Aquaculture, 10(17): 334-350. [32] Falcinelli S, Picchietti S, Rodiles A, et al.2015. Lactobacillus rhamnosus lowers zebrafish lipid content by changing gut microbiota and host transcription of genes involved in lipid metabolism[J]. Scientific Reports, 5: 9336. [33] Fekaninová A, Koová J, Mudroňová D, et al.2019. Characterization of two novel lactic acid bacteria isolated from the intestine of rainbow trout (Oncorhynchus mykiss, Walbaum) in Slovakia[J]. Aquaculture, 506: 294-301. [34] Feng J C, Liu S S, Zhu C J, et al.2022. The effects of dietary Lactococcus spp. on growth performance, glucose absorption and metabolism of common carp, Cyprinus carpio L[J]. Aquaculture, 546: 737394. [35] FAO, 2020. The state of world fisheries and aquaculture. Sustainability in action[R]. https://www.fao.org/publications/sofia/2020/en/. [36] FAO, WHO.2001. Health and nutritional properties of probiotics in food including powder milk with live lactic acid bacteria[R]. Córdoba, Argentina: Joint FAO/WHO Expert Consultation. [37] Guo G X, Li C, Xia B, et al.2020. The efficacy of lactic acid bacteria usage in turbot Scophthalmus maximus on intestinal microbiota and expression of the immune related genes[J]. Fish and Shellfish Immunology, 100: 90-97. [38] Gupta R, Jeevaratnam K, Fatima A.2018. Lactic acid bacteria: Probiotic characteristic, selection criteria, and its role in human health (a review)[J]. Journal of Emerging Technologies and Innovative Research, 5(10): 411-424. [39] Hamid T H T A, Khan A J, Jalil M F, et al.2012. Isolation and screening of lactic acid bacteria, Lactococcus lactis from Clarias gariepinus (African catfish) with potential use as probiotic in aquaculture[J]. African Journal of Biotechnology, 11(29): 7494-7499. [40] Haskard C A, El-Nezami H S, Kankaanpaa P E, et al.2001. Surface binding of aflatoxin B1 by lactic acid bacteria[J]. Applied and Environmental Microbiology, 67(7): 3086-3091. [41] He L H, Ren L F, Li J F, et al.2020. Intestinal flora as a potential strategy to fight SARS-CoV-2 infection[J]. Frontiers in Microbiology, 11: 1388. [42] Kareem K Y, Ling F H, Chwen L T, et al.2014. Inhibitory activity of postbiotic produced by strains of Lactobacillus plantarum using reconstituted media supplemented with inulin[J]. Gut Pathogens, 6(1): 23. [43] Klaenhammer T R.1988. Bacteriocins of lactic acid bacteria[J]. Biochimie, 70(3): 337-349. [44] Knipe H, Temperton B, Lange A, et al.2020. Probiotics and competitive exclusion of pathogens in shrimp aquaculture[J]. Reviews in Aquaculture, 13: 324-352. [45] Kong Y D, Li M, Chu G S, et al.2021. The positive effects of single or conjoint administration of lactic acid bacteria on Channa argus: Digestive enzyme activity, antioxidant capacity, intestinal microbiota and morphology[J]. Aquaculture, 531: 735852. [46] Kong Y D, Li M, Li R M, et al.2020. Evaluation of cholesterol lowering property and antibacterial activity of two potential lactic acid bacteria isolated from the intestine of snakehead fish (Channa argus)[J]. Aquaculture Reports, 17: 100342. [47] Kuebutornye F K A, Abarike E D, Lu Y.2019. A review on the application of Bacillus as probiotics in aquaculture[J]. Fish and Shellfish Immunology, 87: 820-828. [48] Lahtinen S J, Haskard C A, Ouwehand A C, et al.2004. Binding of aflatoxin B1 to cell wall components of Lactobacillus rhamnosus strain GG[J]. Food Additives and Contaminants, 21(2): 158-164. [49] Leblanc J G, Laiño J E, Valle M, et al.2011. B‐Group vitamin production by lactic acid bacteria-current knowledge and potential applications[J]. Journal of Applied Microbiology, 111(6): 1297-1309. [50] Leblanc J G, Milani C, Giori G S, et al.2013. Bacteria as vitamin suppliers to their host: A gut microbiota perspective[J]. Current Opinion in Biotechnology, 24(2): 160-168. [51] Lee J S, Damte D, Lee S J, et al.2014. Evaluation and characterization of a novel probiotic Lactobacillus pentosus PL11 isolated from Japanese eel (Anguilla japonica) for its use in aquaculture[J]. Aquaculture Nutrition, 21(4): 444-456. [52] Leite G S, Resende A S, West N P, et al.2018. Probiotics and sports: is it a new magic bullet?[J]. Nutrition, 60: 152-160. [53] Lim Y T, Yong S K, Lim L S, et al.2020. Characterization and identification of bacteriocin-like substances producing lactic acid bacteria from the intestine of freshwater crayfish, Cherax quadricarinatus[J]. International Journal of Aquatic Science, 11(1): 52-60. [54] Liu M M, Guo W, Wu F, et al.2016. Dietary supplementation of sodium butyrate may benefit growth performance and intestinal function in juvenile grass carp (Ctenopharyngodon idellus)[J]. Aquaculture Research, 1-10. [55] Loh J Y, Chan H K, Yam H C, et al.2020. An overview of the immunomodulatory effects exerted by probiotics and prebiotics in grouper fish[J]. Aquaculture International, 28(2): 729-750. [56] Ma J, Bruce T J, Jones E M, et al.2019. A review of fish vaccine development strategies: Conventional methods and modern biotechnological approaches[J]. Microorganisms, 7(11): 569. [57] Manaia C M, Macedo G, Kassinos D F, et al.2016. Antibiotic resistance in urban aquatic environments: Can it be controlled?[J]. Applied Microbiology and Biotechnology, 100(4): 1543-1557. [58] Mao L, Wu X, Yan Q, et al.2016. Incidence of antimicrobial-resistance genes and integrons in antibiotic-resistant bacteria isolated from eels and aquaculture ponds[J]. Diseases of Aquatic Organisms, 120(2): 115-123. [59] Mao Y, Zhang X, Xu Z.2020. Identification of antibacterial substances of Lactobacillus plantarum DY‐6 for bacteriostatic action[J]. Food Science and Nutrition, 8(6): 2854-2863. [60] Marathe M Y, Ghosh J.2009. Study of proteinase activity of Lactobacillus plantarum NCIM 2083[J]. International Journal of Genetics and Molecular Biology, 1(1): 1-5. [61] Martinez M P, Gonzalez Pereyra M L, Pena G A, et al.2017. Pediococcus acidolactici and Pediococcus pentosaceus isolated from rainbow trout ecosystem have probiotic and ABF1 adsorbing/degrading abilities in vitro[J]. Food Additives and Contaminants Part A, 34(12): 2118-2130. [62] Masuda M, Ide M, Utsumi H, et al.2012. Production potency of folate, vitamin B12, and thiamine by lactic acid bacteria isolated from Japanese pickles[J]. Bioscience, Biotechnology, and Biochemistry, 11(76): 2061-2067. [63] Medveďová A, Liptáková D, Hudecová A, et al.2008. Quantification of the growth competition of lactic acid bacteria: A case of co-culture with Geotrichum candidum and Staphylococcus aureus[J]. Acta Chimica Slovaca, 1(1): 192-207. [64] Meng J, Wang Y Y, Hao Y P.2021. Protective function of surface layer protein from Lactobacillus casei fb05 against intestinal pathogens in vitro[J]. Biochemical and Biophysical Research Communications, 546: 15-20. [65] Mohamad N, Manan H, Sallehhuddin M, et al.2020. Screening of lactic acid bacteria isolated from giant freshwater prawn (Macrobrachium rosenbergii) as potential probiotics[J]. Aquaculture Reports, 18(22): 100523. [66] Mohammadian T, Nasirpour M, Tabandeh M R, et al.2019. Administrations of autochthonous probiotics altered juvenile rainbow trout Oncorhynchus mykiss health status, growth performance and resistance to Lactococcus garvieae, an experimental infection[J]. Fish and Shellfish Immunology, 86: 269-279. [67] Muhialdin B J, Saari N, Hussin A S M.2020. Review on the biological detoxification of mycotoxins using lactic acid bacteria to enhance the sustainability of foods supply[J]. Molecules, 25: 1-12. [68] Naiel M, Farag M R, Gewida A, et al.2021. Using lactic acid bacteria as an immunostimulants in cultured shrimp with special reference to Lactobacillus spp[J]. Aquaculture International, 29: 219-231. [69] Perdigón G, Fuller R, Raya R.2001. Lactic acid bacteria and their effect on the immune system[J]. Current Issues in Intestinal Microbiology, 2(1): 27-42. [70] Pessione E.2012. Lactic acid bacteria contribution to gut microbiota complexity: Lights and shadows[J]. Frontiers in Cellular and Infection Microbiology, 2: 86. [71] Ren D Y, Zhu J W, Gong S J, et al.2018. Antimicrobial characteristics of lactic acid bacteria isolated from homemade fermented foods[J], BioMed Research International, 2018: 5416725. [72] Reverter M, Sarter S, Caruso D, et al.2020. Aquaculture at the crossroads of global warming and antimicrobial resistance[J]. Nature Communications, 11(1): 1-8. [73] Ringø E, Doan H V, Lee S H, et al.2020. Probiotics, lactic acid bacteria and bacilli: interesting supplementation for aquaculture[J]. Journal of Applied Microbiology, 129: 116-136. [74] Ringø E, Hoseinifar S H, Ghosh K, et al.2018. Lactic acid bacteria in finfish: An update[J]. Frontiers in Microbiology, 9: 1818. [75] Rohit S, Singh S B, Deepika B, et al.2012. Efficacy and potential of lactic acid bacteria modulating human health[J]. International Journal of Pharma and Bio Sciences, 3(4): 935-948. [76] Rossoni R D, de Camargo Ribeiro F, de Barros P P, et al. 2020. A prerequisite for health: Probiotics[M]//, Kambouris M E (eds.), Microbiomics. Academic Press, 225-244. [77] Sahnouni F, Boutiba-Matallah A, Bouthadi D.2014. Characterization of bacteriocin produced by Lactococcus lactis ssp. lactis strains isolated from marine fish caught in the Algerian west coast[J]. Journal of Agricultural and Natural Sciences, 2: 1838-1843. [78] Sandra T S, Barlow J, Costabile A, et al.2013. Antipathogenic activity of probiotics against Salmonella typhimurium and Clostridium difficile in anaerobic batch culture systems: Is it due to synergies in probiotic mixtures or the specificity of single strains?[J]. Anaerobe, 24: 60-65. [79] Selim K M, El-Sayed H M, El-Hady M A, et al.2019. In vitro evaluation of the probiotic candidates isolated from the gut of Clarias gariepinus with special reference to the in vivo assessment of live and heat-inactivated Leuconostoc mesenteroides and Edwardsiella spp[J]. Aquaculture International, 27: 33-51. [80] Semova I, Carten J, Stombaugh J, et al.2012. Microbiota regulate intestinal absorption and metabolism of fatty acids in the zebrafish[J]. Cell Host and Microbe, 12(3): 277-288. [81] Sha Y J, Wang L, Liu M, et al.2016. Effects of lactic acid bacteria and the corresponding supernatant on the survival, growth performance, immune response and disease resistance of Litopenaeus vannamei[J]. Aquaculture, 452: 28-36. [82] Sharifuzzaman S M, Austin B.2017. Probiotics for disease control in aquaculture[M]//, Austin B, Newaj-Fyzul A (eds.), Diagnosis and Control of Diseases of Fish and Shellfish. John Wiley & Sons Ltd., US, 189-222. [83] Stiles M E, Holzapfel W H.1997. Lactic acid bacteria of foods and their current taxonomy[J]. International Journal of Food Microbiology, 36(1): 1-29. [84] Tarkhani R, Imani A, Hoseinifar S H, et al.2020. Comparative study of host-associated and commercial probiotic effects on serum and mucosal immune parameters, intestinal microbiota, digestive enzymes activity and growth performance of roach (Rutilus rutilus caspicus) fingerlings[J]. Fish and Shellfish Immunology, 98: 661-669. [85] Truong G H, Chi C C, Phuong N T, et al.2018. Effects of synbiotic containing Lactobacillus plantarum 7-40 and galactooligosaccharide on the growth performance of white shrimp, Litopenaeus vannamei[J]. Aquaculture Research, 49(7): 2416-2428. [86] Tyson J, Sockett R E.2017. Predatory bacteria: Moving from curiosity towards curative[J]. Trends in Microbiology, 25(2): 90-91. [87] Vieco-Saiz N, Belguesmia Y, Raspoet R, et al.2019. Benefits and inputs from lactic acid bacteria and their bacteriocins as alternatives to antibiotic growth promoters during food-animal production[J]. Frontiers in Microbiology, 10. DOI:10.3389/fmicb.2019.00057. [88] Villamil L, Tafalla C, Figueras A, et al.2002. Evaluation of immunomodulatory effects of lactic acid bacteria in turbot (Scophthalmus maximus)[J]. Clinical and Vaccine Immunology, 9(6): 1318-1323. [89] Vincent A T, Gauthier J, Derome N, et al.2019. The Rise and Fall of Antibiotics in Aquaculture[M]. Laval City, Canada: Springer International Publishing, 1-19. [90] Wang C, Chuprom J, Wang Y, et al.2020. Beneficial bacteria for aquaculture: nutrition, bacteriostasis and immunoregulation[J]. Journal of Applied Microbiology, 128(13): 28-40. [91] Wang G, Jin X.2019. Lactic acid bacteria in animal breeding and aquaculture[M]//, Chen W (eds.), Lactic Acid Bacteria. Singapore: Springer, pp. 257-283. [92] Wang J L, Feng J C, Liu S S, et al.2021. The probiotic properties of different preparations using Lactococcus lactis Z-2 on intestinal tract, blood and hepatopancreas in Cyprinus carpio[J]. Aquaculture, 543: 736911. [93] Yang J, Bhargava P, Mccloskey D, et al.2017. Antibiotic-induced changes to the host metabolic environment inhibit drug efficacy and alter immune function[J]. Cell Host and Microbe, 22(6): 757-765. e3. [94] Ying L A, Xlb C, Li Y A, et al.2020. Complicated interactions between bio-adsorbents and mycotoxins during mycotoxin adsorption: Current research and future prospects[J]. Trends in Food Science and Technology, 96: 127-134. [95] Zacharof M P, Lovitt R W.2012. Bacteriocins produced by lactic acid bacteria a review article[J]. Apcbee Procedia, 2: 50-56. [96] Zhao L L, Wei J Y, Zhao H F, et al.2018. Detoxification of cancerogenic compounds by lactic acid bacteria strains[J]. Critical Reviews in Food Science and Nutrition, 58(16): 2727-2742.
