References
- Alexander D.B., Iigo M., Abdelgied M. Ozeki K., Tanida S., Joh T., Takahashi S., Tsuda H.: Bovine lactoferrin and Crohn’s disease: a case report. Biochem. Cell Biol. 95, 133–141 (2017)
- Alexander D.B., Iigo M., Yamauchi K., Suzui M., Tsuda H.: Lactoferrin: an alternative view of its role in human biological fluids. Biochem. Cell Biol. 90, 279–306 (2012)
- Artym J., Zimecki M.: Rola laktoferyny w zakażeniach i zapaleniu. Forum Zakażeń, 4, 329–345 (2013)
- Artym J.: Laktoferyna – niezwykłe białko. Wydawnictwo Borgis, Warszawa (2012)
- Balmer S.E., Wharton B.A.: Diet and faecal flora in the newborn: lactoferrin. Arch. Dis. Child. 64, 1685–1690 (1989)
- Berding K., Donovan S.M. i wsp.: Prebiotics and bioactive milk fractions affect gut development, microbiota, and neurotransmitter expression in piglets. J. Pediatr. Gastroenterol. Nutr. 63, 688–697 (2016)
- Bezkorovainy A., Topouzian N.: The effect of metal chelators and other metabolic inhibitors on the growth of Bifidobacterium bifidus var. Pennsylvanicus. Clin. Biochem. 14, 135–141 (1981)
- Bruck W.M., Redgrave M., Tuohy K.M., Lönnerdal B., Graverholt G., Hernell O., Gibson G.R.: Effects of bovine α-lactalbumin and casein glycomacropeptide-enriched infant formulae on faecal microbiota in healthy term infants. J. Pediatr. Gastroenterol. Nutr. 43, 673–679 (2006)
- Buccigrossi V., de Marco G., Bruzzese E., Ombrato L., Bracale I., Polito G., Guarino A.: Lactoferrin induces concentration-dependent functional modulation of intestinal proliferation and differentiation. Pediatr. Res. 61, 410–414 (2007)
- Carmona F., Munoz-Robles V., Cuesta R., Gálvez N., Capdevila M., Maréchal J.D., Dominguez-Vera J.M.: Monitoring lactoferrin iron levels by fluorescence resonance energy transfer: a combined chemical and computational study. J. Biol. Inorg. Chem. 19, 439–447 (2014)
- Chen H.L., Lai Y.W., Chen C.S., Chu T.W., Lin W., Yen C.C., Lin M.F., Tu M.Y., Chen C.M.: Probiotic Lactobacillus casei expressing human lactoferrin elevates antibacterial activity in the gastrointestinal tract. Biometals, 23, 543–554 (2010)
- Chen P.W., Jheng T.T., Shyu C.L., Mao F.C.: Antimicrobial potential for the combination of bovine lactoferrin or its hydrolysate with lactoferrin-resistant probiotics against foodborne pathogens. J. Dairy Sci. 96, 1438–1446 (2013)
- Chen P.W., Ku Y.W., Chu F.Y.: Influence of bovine lactoferrin on the growth of selected probiotic bacteria under aerobic conditions. Biometals, 27, 905–914 (2014)
- Chissov V.I., Iakubovskaia R.I., Nemtsova E.R., Osipova N.A., Edeleva N.V., Utkin M.M., Zviagin A.A.: Antioxidants treatment of severe post-operative pyoinflammatory and septic complications. Khirurgiia (Mosk), 11, 14–19 (2008)
- Coppa G.V., Zampini L., Galeazzi T., Gabrielli O.: Prebiotics in human milk: a review. Dig. Liver Dis. 38 Suppl. 2, S291–S294 (2006)
- Debbabi H., Dubarry M., Rautureau M., Tomé D.: Bovine lactoferrin induces both mucosal and systemic immune response in mice. J. Dairy Res. 65, 283–293 (1998)
- Dix C., Wright O.: Bioavailability of a novel form of microencapsulated bovine lactoferrin and its effect on inflammatory markers and the gut microbiome: a pilot study. Nutrients, 10, pii: E1115 (2018)
- Drago-Serrano M.E., Compos-Rodriguez R., Carrero J.C., de la Garza M.: Lactoferrin: balancing ups and downs of inflammation due to microbial infections. Int. J. Mol. Sci. 18, pii: E501 (2017)
- Du M., Liu M., Fan F., Shi P., Tu M.: Structure, function, and nutrition of lactoferrin (w) Mineral containing proteins: roles in nutrition, red. G. Zhao, Springer Nature Singapore Pte Ltd. 2017, s. 33–61
- Edde L., Hipolito R.B., Hwang F.F., Headon D.R., Shalwitz R.A., Sherman M.P.: Lactoferrin protects neonatal rats from gut-related systemic infection. Am. J. Physiol. Gastrointest. Liver Physiol. 281, G1140-G1150 (2001)
- EFSA Panel on Dietetic Products, Nutrition and Allergies: Scientific opinion on bovine lactoferrin. EFSA Journal, 10, 2701 (2012)
- ELFIN Investigators Group: Enteral lactoferrin supplementation for very preterm infants: a randomised placebo-controlled trial. Lancet, 393, 423–433 (2019)
- Felis G.E., Dellaglio F.: Taxonomy of Lactobacilli and Bifidobacteria. Curr. Issues Intest. Microbiol. 8, 44–61 (2007)
- Fornai M., Antonioli L. i wsp.: Protective effects of the combination Bifidobacterium longum plus lactoferrin against NSAID-induced enteropathy. Nutrition, 70, 110583 (2020)
- Gałęcka M., Basińska A., Bartnicka A.: Probiotyki – implikacje w praktyce lekarza rodzinnego. Forum Medycyny Rodzinnej, 12, 170–182 (2018)
- Garrido D., Nwosu C., Ruiz-Moyano S., Aldredge D., German J.B., Lebrilla C.B., Mills D.A.: Endo-β-N-acetylglucosaminidases from infant gut-associated bifidobacteria release complex N-glycans from human milk glycoproteins. Mol. Cell. Proteomics, 11, 775–785 (2012)
- Gibson G.R., Buddington R. i wsp.: Dietary prebiotics: current status and new definition. Food Science and Technology Bulletin: Functional Foods, 7, 1–19 (2010)
- Griffiths E.A., Duffy L.C., Schanbacher F.L., Dryja D., Leavens A., Neiswander R.L., Qiao H., DiRienzo D., Ogra P.: In vitro growth responses of bifidobacteria and enteropathogens to bovine and human lactoferrin. Dig. Dis. Sci. 48, 1324–1332 (2003)
- Grzywacz K., Butcher J., Romain G., Li J., Stintzi A.: The impact of probiotics and lactoferrin supplementation on piglet gastrointestinal microbial communities. Biometals, 32, 533–543 (2019)
- He J., Furmanski P.: Sequence specificity and transcriptional activation in the binding of lactoferrin to DNA. Nature, 373, 721–724 (1995)
- Hentges D.J., Marsh W.W., Petschow B.W., Thal W.R., Carter M.K.: Influence of infant diets on the ecology of the intestinal tract of human flora-associated mice. J. Pediatr. Gastroenterol. Nutr. 14, 146–152 (1992)
- Hirotani Y., Ikeda K., Kato R., Myotoku M., Umeda T., Ijiri Y., Tanaka K.: Protective effects of lactoferrin against intestinal mucosal damage induced by lipopolysaccharide in human intestinal Caco-2 cells. Yakugaku Zasshi, 128, 1363–1368 (2008)
- Hu W., Zhao J., Wang J., Yu T., Wang J., Li N.: Transgenic milk containing recombinant human lactoferrin modulates the intestinal flora in piglets. Biochem. Cell Biol. 90, 485–496 (2012)
- Jenssen H., Hancock R.E.: Antimicrobial properties of lactoferrin. Biochimie, 91, 19–29 (2009)
- Johnston W.H., Ashley C., Yeiser M., Harris C.L., Stolz S.I., Wampler J.L., Wittke A., Cooper T.R.: Growth and tolerance of formula with lactoferrin in infants through one year of age: double-blind, randomized, controlled trial. BMC Pediatr. 15, 173 (2015)
- Joint FAO/WHO Working Group report on drafting guidelines for the evaluation of probiotics in food: guidelines for the evaluation of probiotics in food. London, Ontario, Canada, April 30 and May 1 (2002)
- Jurkowski M., Błaszczyk M.: Charakterystyka fizjologiczno-biochemiczna bakterii fermentacji mlekowej. Kosmos, 61, 493–504 (2012)
- Karav S., Le Parc A., Leite Nobrega de Moura Bell J.M., Frese S.A., Kirmiz N., Block D.E., Barile D., Mills D.A.: Oligosaccharides released from milk glycoproteins are selective growth substrates for infant-associated Bifidobacteria. Appl. Environ. Microbiol. 82, 3622–3630 (2016)
- Kawaguchi S., Hayashi T., Masano H., Okuyama K., Suzuki T., Kawase K.: A study concerning the effect of lactoferrin-enriched infant formula on low birth weight infants. Perinatal Medicine, 19, 557–562 (1989)
- Kim W.S., Kafley S., Rahman M.M., Shimazaki K.: Characterization of bovine lactoferrin C-lobe on bifidobacteria and pathogenic bacteria. Milchwissenschaft, 67, 246–249 (2012)
- Kim W.S., Ohashi M., Tanaka T., Kumura H., Kim G.Y., Kwon I.K., Goh J.S., Shimazaki K.: Growth-promoting effects of lactoferrin on L. acidophilus and Bifidobacterium spp. Biometals, 17, 279–283 (2004)
- Kim W.S., Tanaka T., Kumura H., Shimazaki K.: Lactoferrin-binding proteins in Bifidobacterium bifidum. Biochem. Cell Biol. 80, 91–94 (2002)
- Kodama A.: The biotyping of bifidobacterium isolated from healthy infants in Wakayama and Osaka district; bifidobacterium growth promoting activities of human milk casein and lactoferrin. Pediatr. Int. 25, 486 (1983)
- Kruzel M.L., Harari Y., Chen C.Y., Castro G.A.: Lactoferrin protects gut mucosal integrity during endotoxemia induced by lipopolysaccharide in mice. Inflammation, 24, 33–44 (2000)
- Kruzel M.L., Olszewska P., Pazdrak B., Krupinska A.M., Actor J.K.: New insights into the systemic effects of oral lactoferrin: transcriptome profiling. Biochem. Cell Biol. DOI: 10.1139/bcb-2020-0069 (2020)
- Kruzel M.L., Zimecki M., Actor J.K.: Lactoferrin in a context of inflammation-induced pathology. Front. Immunol. 8, 1438 (2017)
- Kuśmierska A., Fol M.: Właściwości immunomodulacyjne i terapeutyczne drobnoustrojów probiotyczych. Probl. Hig. Epidemiol. 95, 529–540 (2014)
- Langhorst J., Boone J.: Fecal lactoferrin as a noninvasive biomarker in inflammatory bowel diseases. Drugs Today (Barc), 48, 149–161 (2012)
- Li L., Ren F., Yun Z., An Y., Wang C., Yan X.: Determination of the effects of lactoferrin in a preclinical mouse model of experimental colitis. Mol. Med. Rep. 8, 1125–1129 (2013)
- Liang L., Wang Z.J., Ye G., Tang X.Y., Zhang Y.Y., Kong J.X., Du H.H.: Distribution of lactoferrin is related with dynamics of neutrophils in bacterial infected mice intestine. Molecules, 25, 1496 (2020)
- Liepke C., Adermann K., Raida M., Mägert H.J., Forssmann W.G., Zucht H.D.: Human milk provides peptides highly stimulating the growth of bifidobacteria. Eur. J. Biochem. 269, 712–718 (2002)
- Linares D.M., Gómez C., Renes E., Fresno J.M., Tornadijo M.E., Ross R.P., Stanton C.: Lactic acid bacteria and bifidobacteria with potential to design natural biofunctional health-promoting dairy foods. Front. Microbiol. 8, 846 (2017)
- Lizzi A.R., Carnicelli V., Clarkson M.M., Di Giulio A., Oratore A.: Lactoferrin derived peptides: mechanisms of action and their perspectives as antimicrobial and antitumoral agents. Mini Rev. Med. Chem. 9, 687–695 (2009)
- Loh S. Jr, Maznah I.: The effect of different milks and milk proteins on the growth of Bifidobacterium infantis ATCC 27920 in vitro. Malays J. Nutr. 5, 61–70 (1999)
- Manzoni P., Farina D. i wsp.: Bovine lactoferrin supplementation for prevention of late-onset sepsis in very low-birth-weight neonates: A randomized trial. Jama, 302, 1421–1428 (2009)
- Markowiak P., Śliżewska K.: Effect of probiotics, prebiotics, and synbiotics on human health. Nutrients, 9, 1021 (2017)
- Marlicz W., Loniewski I., Grimes D.S., Quigley E.M.: Nonsteroidal anti-inflammatory drugs, proton pump inhibitors, and gastrointestinal injury: contrasting interactions in the stomach and small intestine. Mayo Clin. Proc. 89, 1699–709 (2014)
- Mastromarino P., Capobianco D., Campagna G., Laforgia N., Drimaco P., Dileone A., Baldassarre M.E.: Correlation between lactoferrin and beneficial microbiota in breast milk and infant’s feces. Biometals, 27, 1077–1086 (2014)
- Meyer M.P., Alexander T.: Reduction in necrotizing enterocolitis and improved outcomes in preterm infants following routine supplementation with Lactobacillus GG in combination with bovine lactoferrin. J. Neonatal.-Perinat. Med. 10, 249–255 (2017)
- Miller-Catchpole R., Kot E., Haloftis G., Furmanov S., Bezkorovainy A.: Lactoferrin can supply iron for the growth of Bifidobacterium breve. Nutr. Res. 17, 205–213 (1997)
- Oda H., Wakabayashi H., Yamauchi K., Abe F.: Lactoferrin and bifidobacteria. Biometals, 27, 915–922 (2014)
- Oda H., Wakabayashi H., Yamauchi K., Sato T., Xiao J.Z., Abe F., Iwatsuki K.: Isolation of a bifidogenic peptide from the pepsin hydrolysate of bovine lactoferrin. Appl. Environ. Microbiol. 79, 1843–1849 (2013)
- Panasiuk A., Kowalińska J.: Mikrobiota przewodu pokarmowego. Wydawnictwo Lekarskie PZWL, Warszawa 2019
- Paul M., Somkuti G.A.: Hydrolytic breakdown of lactoferricin by lactic acid bacteria. J. Ind. Microbiol. Biotechnol. 37, 173–178 (2010)
- Penders J., Thijs C., Vink C., Stelma F.F., Snijders B., Kummeling I., van den Brandt P.A., Stobberingh E.E.: Factors influencing the composition of the intestinal microbiota in early infancy. Pediatrics, 118, 511–521 (2016)
- Perez-Munoz M.E., Arrieta M.C., Ramer-Tait A.E., Walter J.: A critical assessment of the “sterile womb” and “in utero colonization” hypotheses: implications for research on the pioneer infant microbiome. Microbiome, 5, 48 (2017)
- Petschow B.W., Talbott R.D., Batema R.P.: Ability of lactoferrin to promote the growth of Bifidobacterium spp. in vitro is independent of receptor binding capacity and iron saturation level. J. Med. Microbiol. 48, 541–549 (1999)
- Petschow B.W., Talbott R.D.: Response of bifidobacterium species to growth promoters in human and cow milk. Pediatric Res. 29, 208–213 (1991)
- Rahman M., Kim W.S., Kumura H., Shimazaki K.: Bovine lactoferrin region responsible for binding to bifidobacterial cell surface proteins. Biotechnol. Lett. 31, 863–868 (2009)
- Rahman M.M., Kim W.S., Ito T., Kumura H., Shimazaki K.: Examination of bovine lactoferrin binding to bifidobacteria. Prikl. Biokhim. Mikrobiol. 44, 529–532 (2008)
- Rahman M.M., Kim W.S., Ito T., Kumura H., Shimazaki K.: Growth promotion and cell binding ability of bovine lactoferrin to Bifidobacterium longum. Anaerobe, 15, 133–137 (2009)
- Rahman M.M., Kim W.S., Kumura H., Shimazaki K.: Screening of Bifidobacterium spp. based on in vitro growth responses to bovine lactoferrin. Int. J. Food Sci. Technol. 45, 453–458 (2010)
- Roberts A.K., Chierici R., Sawatzki G., Hill M.J., Volpato S., Vigi V.: Supplementation of an adapted formula with bovine lactoferrin: 1. Effect on the infant faecal flora. Acta Paediatr. 81, 119–124 (1992)
- Saito H., Miyakawa H., Ishibashi N., Tamura Y., Hayasawa H., Shimamura S.: Effect of iron-free and metal-bound forms of lactoferrin on the growth of bifidobacteria, E. coli and S. aureus. Biosci. Microflora, 15, 1–7 (1996)
- Sherman M.P., Bennett S.H., Hwang F.F., Yu C.: Neonatal small bowel epithelia: Enhancing anti-bacterial defense with lactoferrin and Lactobacillus GG. Biometals, 17, 285–289 (2004)
- Sherman M.P., Sherman J., Arcinue R., Niklas V.: Randomized control trial of human recombinant lactoferrin: a substudy reveals effects on the fecal microbiome of Very Low BirthWeight Infants. J. Pediatrics, 173 Suppl, S37–S42 (2016)
- Shimazaki K., Kushida T., Takase M.: Lactoferrin-binding protein detected in bifidobacteria is GAPDH: a hypothesis of growth promotion of bifidobacteria by lactoferrin using the text mining approach, abstr OIII-3, p. 38. Abstr. 10th Int., Conf. Lactoferrin, Mazatlan Sinaloa, Mexico (2011)
- Shoji H., Oguchi S., Shinohara K. Shimizu T., Yamashiro Y.: Effects of iron-unsaturated human lactoferrin on hydrogen peroxide-induced oxidative damage in intestinal epithelial cells. Pediatr. Res. 61, 89–92 (2007)
- Suzuki N., Iida N. i wsp.: Effects of enteric-coated lactoferrin tablets containing Lactobacillus brevis subs. coagulans on fecal properties, defecation frequency and intestinal microbiota of Japanese women with a tendency for constipation: a randomized placebo-controlled crossover trial. Biosci. Microbiota Food Health, 32, 13–21 (2013)
- Szewczyk A., Witecka A., Kiersztan A.: Rola mikrobioty jelitowej w patogenezie chorób neuropsychiatrycznych i neurodegeneracyjnych. Postepy Hig. Med. Dosw. 73, 865–886 (2019)
- Tang X.S., Shao H., Li T.J., Tang Z.R., Huang R.L., Wang S.P., Kong X.F., Wu X., Yin Y.L.: Dietary supplementation with bovine lactoferrampin-lactoferricin produced by Pichia pastoris fedbatch fermentation affects intestinal microflora in weaned piglets. Appl. Biochem. Biotechnol. 168, 887–898 (2012)
- Tang Z., Tu Q. i wsp.: Effects of dietary supplementation with an expressed fusion peptide bovine lactoferricin-lactoferrampin on performance, immune function and intestinal mucosal morphology in piglets weaned at age 21 d. Br. J. Nutr. 101, 998–1005 (2009)
- Tian H., Maddox I.S., Ferguson L.R., Shu Q.: Influence of bovine lactoferrin on selected probiotic bacteria and intestinal pathogens. Biometals, 23, 593–596 (2010)
- Titov E.I., Tikhomirova N.A., Ionova I.I., Gorlov I.F., Slozhenkina M.I., Mosolova N.I., Zlobina E.Y.: Growth stimulating effect of bovine milk lactoferrin on dermal cells and probiotic bacteria. Emir. J. Food Agr. 28, 540–546 (2016)
- Tomita M., Wakabayashi H., Yamauchi K., Teraguchi S., Hayasawa H.: Bovine lactoferrin and lactoferricin derived from milk: production and applications. Biochem. Cell Biol. 80, 109–112 (2002)
- Troost F.J., Saris W.H., Brummer R.J.: Recombinant human lactoferrin ingestion attenuates indomethacin-induced enteropathy in vivo in healthy volunteers. Eur. J. Clin. Nutr. 57, 1579–1585 (2003)
- Valenti P., Rosa L., Capobianco D., Lepanto M.S., Schiavi E., Cutone A., Paesano R., Mastromarino P.: Role of lactobacilli and lactoferrin in the mucosal cervicovaginal defense. Front. Immunol. 9, 376 (2018)
- Vega-Bautista A., de la Garza M., Carrero J.C., Campos-Rodríguez R., Godínez-Victoria M., Drago-Serrano M.E.: The impact of lactoferrin on the growth of intestinal inhabitant bacteria. Int. J. Mol. Sci. 20, pii: E4707 (2019)
- Wang B., Timilsena Y.P., Blanch E., Adhikari B.: Lactoferrin: structure, function, denaturation and digestion. Crit. Rev. Food Sci. Nutr. 59, 580–596 (2019)
- Wang Y., Han F., Xu Z.: Developmental gene expression of lactoferrin in duodenum and effect of weaning age on gene expression of lactoferrin in piglets. Arch. Anim. Nutr. 60, 1–9 (2006)
- Weinberg E.D.: The Lactobacillus anomaly: total iron abstinence. Perspect. Biol. Med. 40, 578–583 (1997)
- Wharton B.A., Balmer S.E., Scott P.H.: Faecal flora in the newborn. Effect of lactoferrin and related nutrients. Adv. Exp. Med. Biol. 357, 91–98 (1994)
- Wołkowicz T., Januszkiewicz A., Szych J.: Mikrobiom przewodu pokarmowego i jego dysbiozy jako istotny czynnik wpływający na kondycję zdrowotną organizmu człowieka. Med. Dośw. Mikrobiol. 66, 223–235 (2014)
- Woodman T., Strunk T., Patole S., Hartmann B., Simmer K., Currie A.: Effects of lactoferrin on neonatal pathogens and Bifidobacterium breve in human breast milk. PLoS ONE, 13, e0201819 (2018)
- Wu J., Chen J., Wu W., Shi J., Zhong Y., van Tol E.A., Tang Q., Cai W.: Enteral supplementation of bovine lactoferrin improves gut barrier function in rats after massive bowel resection. Br. J. Nutr. 112, 486–492 (2014)
- Zhang P., Sawicki V., Lewis A., Nuijens J.H., Neville M.C., Zhang P.: Human lactoferrin in the milk of transgenic mice increases intestinal growth in ten-day-old suckling neonates. Adv. Exp. Med. Biol. 501, 107–113 (2001)
- Zimecki M., Artym J., Chodaczek G., Kocięba M., Rybka J., Skorska A., Kruzel M.: Glycomacropeptide protects against experimental endotoxemia and bacteremia in mice. EJPAU, 9, (2006)
- Zimecki M., Spiegel K., Właszczyk A., Kübler A., Kruzel M.L.: Lactoferrin increases the output of neutrophil precursors and attenuates the spontaneous production of TNF-alpha and IL-6 by peripheral blood cells. Arch. Immunol. Ther. Exp. (Warsz), 47, 113–118 (1999)