Biological effects of milk proteins and their peptides with emphasis on those related to the gastrointestinal ecosystem

Antonella Baldi; Politis Ioannis; Pecorini Chiara; Fusi Eleonora; Chronopoulou Roubini; Dell'Orto Vittorio

doi:10.1017/S002202990500110X

Abstract

The protein fraction of milk contains several components with physiological significance for the development of the newborn. Among them, immunomodulatory peptides and lactoferrin exemplify the complexity of biologically active substances of milk. Immunomodulatory peptides have latent activity within the native protein and are generated after proteolysis during gastrointestinal transit. Once they are generated, they modulate mucosal immunity, possibly by guiding the local immune system until it develops its full functionality. Lactoferrin is another milk bioactive compound with nutritional and health promoting properties; it modulates the microbial intestinal environment, displays anti-microbial activity against various pathogens and stimulates the establishment of beneficial microflora. The following overview focuses on the importance of immunomodulatory peptides and lactoferrin for the maturation of intestine and immune system that are functionally immature in the newborn.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Donovan, Sharon M. 2006. Role of human milk components in gastrointestinal development: Current knowledge and future NEEDS. The Journal of Pediatrics, Vol. 149, Issue. 5, p. S49.

German, J. Bruce Schanbacher, Floyd L. Lönnerdal, Bo Medrano, Juan F. McGuire, Mark A. McManaman, James L. Rocke, David M. Smith, Timothy P. Neville, Margaret C. Donnelly, Paul Lange, Matthew and Ward, Robert 2006. International milk genomics consortium. Trends in Food Science & Technology, Vol. 17, Issue. 12, p. 656.

Argyri, Konstantina Miller, Dennis D. Glahn, Raymond P. Zhu, Le and Kapsokefalou, Maria 2007. Peptides Isolated from in Vitro Digests of Milk Enhance Iron Uptake by Caco-2 Cells. Journal of Agricultural and Food Chemistry, Vol. 55, Issue. 25, p. 10221.

Hoppe, Camilla Andersen, Gregers S. Jacobsen, Stine Mølgaard, Christian Friis, Henrik Sangild, Per T. and Michaelsen, Kim F. 2008. The Use of Whey or Skimmed Milk Powder in Fortified Blended Foods for Vulnerable Groups. The Journal of Nutrition, Vol. 138, Issue. 1, p. 145S.

Giuffrida, M.G. Cavaletto, M. Lamberti, C. Dellavalle, G. Fabris, C. Conti, A. Sabatino, G. Testa, T. Coscia, A. Giuliani, F. and Bertino, E. 2008. Proteolysis of Milk Fat Globule Membrane Proteins in Preterm Milk: A Transient Phenomenon with a Possible Biological Role?. International Journal of Immunopathology and Pharmacology, Vol. 21, Issue. 4, p. 959.

Politis, Ioannis and Chronopoulou, Roubini 2008. Bioactive Components of Milk. Vol. 606, Issue. , p. 253.

Rosetta, L. and Baldi, A. 2008. Bioactive Components of Milk. Vol. 606, Issue. , p. 467.

Manhani, Marianna Nascimento Cruz, Julia Maria Costa Ferreira, Daniela Marques de Lima Mota Abdallah, Vânia Olivetti Steffen and Souza, Maria Aparecida de 2008. IgA1 levels in milk and serum samples from intestinal parasite-infected or normal puerperae. Memórias do Instituto Oswaldo Cruz, Vol. 103, Issue. 5, p. 511.

2009. Review of the potential health impact of β-casomorphins and related peptides. EFSA Journal, Vol. 7, Issue. 2, p. 231r.

Kekkonen, R. and Peuhkuri, K. 2009. Dairy-Derived Ingredients. p. 238.

Pecorini, Chiara Rebucci, Raffaella Truchet, Sandrine and Baldi, Antonella 2009. In vitroeffects of lactoferrin on intestinal and mammary epithelial cell lines. Italian Journal of Animal Science, Vol. 8, Issue. sup2, p. 643.

Murphy, E. Murphy, C. and O'Mahony, L. 2009. Microbiology and Aging. p. 153.

Michaelsen, Kim F. Hoppe, Camilla Roos, Nanna Kaestel, Pernille Stougaard, Maria Lauritzen, Lotte Mølgaard, Christian Girma, Tsinuel and Friis, Henrik 2009. Choice of Foods and Ingredients for Moderately Malnourished Children 6 Months to 5 Years of Age. Food and Nutrition Bulletin, Vol. 30, Issue. 3_suppl3, p. S343.

Russ, Anna Barnett, Matthew McNabb, Warren Anderson, Rachel Reynolds, Gordon and Roy, Nicole 2010. Post-weaning effects of milk and milk components on the intestinal mucosa in inflammation. Mutation Research/Fundamental and Molecular Mechanisms of Mutagenesis, Vol. 690, Issue. 1-2, p. 64.

Pecorini, Chiara Sassera, Davide Rebucci, Raffaella Saccone, Francesca Bandi, Claudio and Baldi, Antonella 2010. Evaluation of the protective effect of bovine lactoferrin against lipopolysaccharides in a bovine mammary epithelial cell line. Veterinary Research Communications, Vol. 34, Issue. 3, p. 267.

de Medina, Fermín Sánchez Daddaoua, Abdelali Requena, Pilar Capitán-Cañadas, Fermín Zarzuelo, Antonio Dolores Suárez, María and Martínez-Augustin, Olga 2010. New insights into the immunological effects of food bioactive peptides in animal models of intestinal inflammation. Proceedings of the Nutrition Society, Vol. 69, Issue. 3, p. 454.

Clop, A. Zidi, A. and Amills, M. 2010. Identification of positively selected sites in the goat kappa casein (CSN3) gene. Animal Genetics, Vol. 41, Issue. 3, p. 332.

Uniacke-Lowe, Therese Huppertz, Thom and Fox, Patrick F. 2010. Equine milk proteins: Chemistry, structure and nutritional significance. International Dairy Journal, Vol. 20, Issue. 9, p. 609.

Sanders, Mary Ellen and Marco, Maria L. 2010. Food Formats for Effective Delivery of Probiotics. Annual Review of Food Science and Technology, Vol. 1, Issue. 1, p. 65.

Tidona, Flavio Sekse, Camilla Criscione, Andrea Jacobsen, Morten Bordonaro, Salvatore Marletta, Donata and Vegarud, Gerd Elisabeth 2011. Antimicrobial effect of donkeys’ milk digested in vitro with human gastrointestinal enzymes. International Dairy Journal, Vol. 21, Issue. 3, p. 158.

Download full list

Article contents

Biological effects of milk proteins and their peptides with emphasis on those related to the gastrointestinal ecosystem

Abstract

Keywords

Access options

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Biological effects of milk proteins and their peptides with emphasis on those related to the gastrointestinal ecosystem

Abstract

Keywords

Access options

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests