Bovine colostrum induces the differentiation of human primary keratinocytes

Bovine colostrum induces the differentiation of human primary keratinocytes

Bovine colostrum, the first milk secreted by the mammary glands of cows shortly after they have given birth, provides a natural source of bioactive substances helpful to promote tissue development and repair, and to maintain a healthy immune system. Owing to its properties, the use of colostrum in t...

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Bibliographic Details
Published in:The FASEB journal Vol. 34; no. 5; pp. 6302 - 6321
Main Authors: Kovacs, Daniela, Maresca, Vittoria, Flori, Enrica, Mastrofrancesco, Arianna, Picardo, Mauro, Cardinali, Giorgia
Format: Journal Article
Language:English
Published: United States 01-05-2020
Subjects:
Animals
Cattle
Cell Differentiation
Cells, Cultured
Colostrum - metabolism
cutaneous homeostasis
EGFR‐PI3K signaling pathway
Female
filaggrin
Humans
Intermediate Filament Proteins - metabolism
Keratinocytes - cytology
Keratinocytes - metabolism
Pregnancy
Skin - cytology
Skin - metabolism
EGFR-PI3K signaling pathway
filaggrin
cutaneous homeostasis
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Summary:Bovine colostrum, the first milk secreted by the mammary glands of cows shortly after they have given birth, provides a natural source of bioactive substances helpful to promote tissue development and repair, and to maintain a healthy immune system. Owing to its properties, the use of colostrum in the treatment of human diseases is under investigation. We evaluated the biological activity of colostrum on human primary keratinocytes, focusing on its effects with regard to a proliferation/differentiation balance. Using cellular and molecular approaches, we showed that colostrum favors a cell cycle withdrawal by increasing the expression of p21/WAF1 and p27/KIP1. It also promotes the transition of keratinocytes from a proliferating to a differentiating state, as assessed by a decrease in keratin 5 and an increase in keratin 16. We demonstrated the ability of colostrum to induce the expression of early and late differentiation markers (keratin 1, involucrin, and filaggrin) and the synthesis of caspase 14 and bleomycin hydrolase, the two main enzymes involved in filaggrin maturation. Moreover, we showed that bovine colostrum is able to promote keratinocyte stratification and terminal differentiation not only in two‐dimensional (2D), but also in a more physiological system of three‐dimensional (3D) skin equivalents. Finally, we demonstrated that colostrum stimulates cell differentiation through the PI3K/PLC‐γ1/PKCα pathways mainly associated to tyrosine kinase receptors. These results suggest the possibility to benefit from colostrum properties for the treatment of skin diseases characterized by altered differentiation and perturbed barrier function.
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ISSN:0892-6638
1530-6860
DOI:10.1096/fj.201900103RRR