Tatyana I Logvinova

Animal Husbandry and Fodder Production. 2023. Vol. 106, no 4. Р. 164-177.

doi:10.33284/2658-3135-106-4-164

Review article

The use of propionic acid microorganisms: from theory to practice (review)

 

Tatyana I Logvinova1

1Federal Research Center for Animal Husbandry named after Academy Member LK Ernst, Dubrovitsy, Russia

1vijmikrob@mail.ru, https://orcig.org/0000-0001-7075-544X

 

Abstract. Stricter requirements for the quality of food products have significantly changed the requirements for the technology of production and processing of agricultural products, including animal origin. Feed antibiotics and hormonal growth stimulants are being replaced by new biotechnological methods and drugs. One of the widespread modern methods of suppressing opportunistic and pathogenic microflora is the use of special cultures of microorganisms-probiotics, the most famous of which are lactic acid and propionic acid microorganisms. The study of propionic acid bacteria, one of the most useful and widespread groups of microorganisms with antimicrobial, immunomodulatory and metabolic functions, is currently of great interest. Of particular practical interest is the possibility of producing biologically active compounds based on them, such as propionic acid, vitamin B12, trehalose and bacteriocins. The article discusses the biotechnological features of their use in various food, cosmetic and pharmaceutical products.

Keywords: propionic acid microorganisms, probiotic bacteria, bacteriocins, bioconservant, feed additives

Acknowledgments: the work was performed in accordance to the plan of research works for 2021-2023 Federal Research Center for Animal Husbandry named after Academy Member LK Ernst (FGGN-2021-0002).

For citation: Logvinova TI. The use of propionic acid microorganisms: from theory to practice (review). Animal Husbandry and Fodder Production. 2023;106(4):164-177. (In Russ.). https://doi.org/10.33284/2658-3135-106-4-164

References

  1. Arifullina LR, Volkova GS. Consortium of bacteria as a basis for creating probiotic additives for livestock production. Storage and Processing of Farm Products. 2018;1:41-45.
  2. Beloborodova NV, Beloborodova SM. The metabolites of anaerobic bacteria (volatile fatty acids) and the reactivity of the macroorganism. Antibiotics and С 2000;2:28-36.
  3. Skoblikov NE, Kuznetsova TK, Glazov AF, Izhevsk NG, Denisenko EA, Moskalenko EA. Effect of combined selenium-containing probiotic preparation on growth performance and intestinal microbiocenosis of pigs. Scientific bases of increasing productivity of agricultural animals: a collection of scientific works Krasnodar: North Caucasus Research Institute of Animal Husbandry of RAAS. 2009;2:228-229.
  4. Volkova G, Kuksova E, Serba E. Use of probiotic bacteria in forage production. Compound Feed. 2019;6:55-56. doi: 25741/2413-287X-2019-06-3-074
  5. Vorob'eva Propionic acid bacteria. Moscow: MSU publishing house; 1995:288 p.
  6. Bisenova GN, Sarmurzina ZS, Almagambetov KKh, Torina AK, Boribayeva AZh. Study of bacteriocin-producing activity of isolates and collection cultures of lactic acid bacteria. News of Kazakhstan Science. 2016;1(127):86-98.
  7. Isaeva AV. Propionic acid bacteria and their peculiarities. International Academic Bulletin. 2018;3(23):64-66.
  8. Oleynikova EA, Kuznetsova TV, Saubenova MG, Rayymbekova LT, Shormanova MM, Aytzhanova AA. Propionibacteria in preservation of dairy products and increasing its nutritional and biological value. International Journal of Applied and Fundamental Research. 2017;10(1):94-97.
  9. Iskhakova AR. Efficient use of probiotics in gosling broiler breeding. Russian Electronic Scientific Journal. 2016;1(19):230-238.
  10. Golovneva NA, Rjabaja NE, Morozova AN, Samarcev AA, Mihaljuk AN. Feed additive based on propionic acid bacteria for correction of rumen digestion (Conference proceedings) Biotechnology: Achievements and prospects of development: materials of the V International Scientific and Practical Conference, (Pinsk, 25-26 November 2021). Pinsk: PolesSU; 2021:65-67.
  11. Kuznetsova TV, Khalymbetova AE, Saubenova MG. Solation and selection propionic acid bacteria having an antagonistic activity. Actualscience. 2015;1(2-2):19-20.
  12. Kurguzkin VN, Saranchina EF. Innovative technology of use of biological preparations for conservation of forages. Science in Central Russia. 2013;4:49-51.
  13. Lavrenova V Preservatives for livestock production. [Electronic resource]. Teknofid: [internet]. [2019]. Available from: https://teknofeed.org/2019/06/25/preservatives-for-livestock/ (cited 2023 Aug 28).
  14. Ryzhkova EP, Hao Li, Bykovchenko TV, Danilova IV, Polandova RD. Microbiological protection of wheat bread using a trophic chain of Lactobacillus delbrueckii and Propionibacterium freudenreichii. Biotechnology. 2009;2:29-37.
  15. Begunova AV, Rozhkova IV, Zvereva EA, Glazunova OA, Fedorova TV. Lactic and propionic acid bacteria: the formation of a community for the production of functional products with bifidogenic and  hypotensitive  Applied Biochemistry and Microbiology. 2019;55(6):566-577. doi: 10.1134/S0555109919060047
  16. Moskalenko EA, Zabashta NN. Application of lactobacilli and bacteria of propionic acid in nutrition of pigs. Collection of scientific papers of KRCAHVM. 2019;8(1):206-211. doi: 10.34617/ccdv-n571
  17. Orlova T. The study of the biological activity of propionic acid bacteria. The Scientific Heritage. 2021;79(2):31-33. doi: 24412/9215-0365-2021-79-2-31-33
  18. Orlova TN, Ott EF. The possibility of using propionic bacteria in farm animal and poultry diets as a source of vitamin B12. Bulletin of Altai State Agricultural University. No. 2019;8(178):135-138.
  19. Golovneva NA., Ryabaya NE, Morozova AN, Samartsev AA. Features of cultivation of propionic acid bacteria - components of biopreparations. Microbial biotechnology: fundamental and applied aspects: a collection of scientific articles Minsk: RUE «Izdatel'skij dom «Belaruskaja navuka». 2018;10:32-44.
  20. Sverchkova N, Kolomiets E. Probiotic preparations for veterinary and feed production. Science and Innovations. 2016;5(159):38-39.
  21. Khaeva OE, Ikoeva LP. Isolation and study of propionic acid bacteria resistance to acid stress. Proceedings оf Gorsky State Agrarian University. 2018;55:2:152-156.
  22. Khamagaeva IS, Boyarineva IV, Potapchuk NYu. The study of probiotic properties of combined starter. Food Processing: Techniques аnd Technology. 2013;1(28):54-58.
  23. Vorob’eva LI, Rogozhin EA, Khodzhaev EYu, Volodyazhkin RA, Samoylenkov VA. Characterization and stress-protective action of saccharomyces cerevisiae extracellular peptide factors on propionic acid bacteria. Microbiology. 2017;86(6):684-695. doi: 7868/S0026365617060155
  24. Ben-Shushan G, Zakin V, Gollop N. Two different propionicins produced by Propionibacterium thoenii P-127. Peptides. 2003;24(11):1733- doi: 10.1016/j.peptides.2003.08.018
  25. Borawska J, Warmińska-Radyko I, Darewicz M. Charakterystyka i znaczenie bakterii rodzaju Propionibacterium w produkcji żywności i pasz. Med Wet. 2010;66(8):534-
  26. Brede DA, Faye T, Johnsborg O, Оdegаrd I, Nes IF, Holo H. Molecular and genetic characterization of propionicin F, a bacteriocin from Propionibacterium freudenreichii. Appl Environ Microbiol. 2004;70(12):7303- doi:10.1128/AEM.70.12.7303-7310.2004
  27. Cabo ML, Murado MA, González MP, Pastoriza L. Effects of aeration and pH gradient on nisin production. A mathematical model. Enzym Microb Technol. 2001;29(4-5):264- doi: 10.1016/S0141-0229(01)00378-7
  28. Cao GT, Zeng XF, Chen AG, Zhou L, Zhang L, Xiao YP, Yang CM. Effects of a probiotic, Enterococcus faecium, on growth performance, intestinal morphology, immune response, and caecal microflora in broiler chickens challenged with Escherichia coli K88. Poultry Science. 2013;92(11):2949-2955. doi: 3382/ps.2013-03366
  29. Cintas LM, Casaus P, Herranz C, Nes IF, Hernandez PE. Review: bacteriocins of  lactic acid bacteria. Food Sci Tech Int. 2001;7(4):281- doi: 10.1106/R8DE-P6HU-CLXP-5RYT
  30. Cleveland J, Montville T, Nes IF, Chikindas ML. Bacteriocins: safe, natural antimicrobials for food preservation. Int J Food Microbiol. 2001;71(1):1- doi: 10.1016/S0168-1605(01)00560-8
  31. Crofts TS, Erica C Seth, Amrita B Hazra, Michiko E Taga. Cobamide structure depends on both lower ligand availability and CobT substrate specificity. Chem Biol. 2013;20(10):1265- doi: 10.1016/j.chembiol.2013.08.006
  32. Divek VTN, Kollanoor-Johny A. Effect of Propionibacterium freudenreichii on salmonella multiplication, motility, and association with avian epithelial cells. Poult Sci. 2016;96(5):1376- doi: 10.3382/ps/pew367
  33. Faye T, Langsrud T, Nes IF, Holo H. Biochemical and genetic characterization of propionicin T1, a new bacteriocin from Propionibacterium thoeni. Appl Environ Microbiol. 2000;66(10):4230- doi:10.1128/AEM.66.10.4230-4236.2000
  34. Foligne B, Deutsch S-M, Breton J, Cousin FJ, Dewulf J, Pot B, Jan G. Promising immunomodulatory effects of selected strains of dairy propionibacteriaas evidenced in vitro and in vivo. Appl Environ Microbiol. 2010;76(24):8259- doi: 10.1128/AEM.01976-10
  35. Gabriela Z. Dairy рropionibacteria: less conventional probiotics to improve the human and animal health. In: Rigobelo EC, editor. Probiotic in Animals. InTech; 2012:153-202. doi: 10.5772/50320
  36. Guan N, Shin Hyun-dong, Chen RR, Li J, Liu L, Du G, Chen J. Understanding of how Propionibacterium acidipropionici respond to propionic acid stress at the level of proteomics. Sci Rep 2014;695:1- doi: 10.1038/srep06951
  37. Guan N, Zhuge X, Li J, Shin Hyun-Dong, Wu J et al. Engineering propionibacteria as versatile cell factories for the production of industrially important chemicals: advances, challenges, and prospects. Appl Microbiol Biotechnol. 2015;99(2):585- doi: 10.1007/s00253-014-6228-z
  38. Kekkonen RA, Lummela N,  Karjalainen H,  Latvala S,  Tynkkynen S, Jarvenpaa S,  Kautiainen H, Julkunen I,  Vapaatalo H,  Korpela R.  Probiotic intervension has strain-specific anti-inflammatory effects inhealthy adults. World J Gastroenterol. 2008;14(13):2029-  doi: 10.3748/wjg.14.2029
  39. Macori G, Cotter PD. Novel insights into the microbiology of fermented dairy foods. Curr Opin Biotechnol. 2018;49:172-178. doi: 1016/j.copbio.2017.09.002
  40. Marco ML, Heeney D, Binda S, Cifelli CJ, Cotter PD, Foligne B, Ganzle M, Kort R, Pasin G, Pihlanto A, Smid EJ, Hutkins R. Health benefits of fermented foods: microbiota and beyond. Curr Opin Biotechnol. 2017;44:94-102. doi: 1016/j.copbio.2016.11.010
  41. Marеchal CL, Peton V, Ple C et al. Surface proteins of Propionibacterium freudenreichii are involved in its anti-inflammatory properties. Journal of 2015;113:447-461. doi: 10.1016/j.jprot.2014.07.018
  42. Meile L, Gwenaelle LB, Thierry A. Safety assessment of dairy microorganisms: Propionibacterium and Bifidobacterium. Int J Food Microbiol. 2008;126(3):316- doi: 10.1016/j.ijfoodmicro.2007.08.019
  43. Piwowarek K, Lipinska E, Hac-Szymanczuk E, Kieliszek M, Ścibisz I. Propionibacterium spp. – source of propionic acid, vitamin B12 and other metabolites important for the industry. Appl Microbiol Biotechnol. 2018;102(2):515-538. doi: 10.1007/s00253-017-8616-7
  44. Poonam, Sarang DP, Sudhir KT,  Sachinandan DeRameshwar S. Multifaceted at tributes of dairy propionibacteria: a review. World J Microbiol Biotechnol. 2012;11(28):3081- doi: 10.1007/s11274-012-1117-z
  45. Ranadheera RDCS, Baines SK, Adams MC. Importance of food in probiotic efficacy. Food Research International. 2010;43:1- doi: 10.1016/j.foodres.2009.09.009
  46. Ratnam P, Barefoot SF, Prince LD, Bodine AB, McCaskill LH. (1999) Partial purification and characterization of a bacteriocin produced by Propionibacterium jenseni B1264. Le Lait. 1999;79(1):125- doi: 10.1051/lait:1999110
  47. Santos F, Vera JL, Valdez GF et al. Pseudovitamin B12 is the corrinoid produced by Lactobacillus reuteriCRL1098 under anaerobic conditions. FEBS Lett. 2007;581(25):4865- doi: 10.1016/j.febslet.2007.09.012
  48. Seo JK, Kim S-W, Santi, et al. Direct-fed Microbials for Ruminant Animals. Asian-Aust Anim Sci. 2010;23(12):1657- doi: 10.5713/ajas.2010.r.08
  49. Wang Z, Yang ST. Propionic acid production in glycerol/glucose co-fermentation by Propionibacterium freudenreichii subsp. Shermanii. Bioresour Technol. 2013;137:116- doi: 10.1016/j.biortech.2013.03.012
  50. Zhang ZF, Kim IH. Effects of multistrain probiotics on growth performance, apparent ileal nutrient digestibility, blood characteristics, cecal microbial shedding, and excreta odor contents in broilers. Poultry Science. 2014;93(2):364-370. doi: 3382/ps.2013-03314
 

Information about the authors:

Tatiana I Logvinova, Cand. Sci. (Biology), Researcher at the Microbiology Laboratory, Federal Research Center for Animal Husbandry named after Academy Member LK Ernst, 60 Dubrovitsy, Podolsk district, Moscow region, 142132, 60, tel.: 8(4967)651133.

The article was submitted 25.09.2023; approved after reviewing 12.10.2023; accepted for publication 11.12.2023.

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