Antibacterial potential of donkey’s milk disclosed by untargeted proteomics.
Abstract: Donkey's milk (DM) has been extensively investigated as a valuable substitute of breast milk, often suitable to manage cow's milk protein allergy in infants. DM exhibits potent inhibitory properties against numerous microbial species. Although oligosaccharides and lipids might contribute to the antimicrobial potential, the current inventory of proteins is not able to justify the low count of microorganisms generally observed in DM. The shotgun proteomic analysis of fractionated DM disclosed a set of 94 gene products, 41% of which have documented antimicrobial activity or are involved in transferring the passive immunity to the donkey offspring. The concerted action of lysozyme, lactoferrin, immunoglobulins provides the molecular basis for part of the DM antibacterial potential. The pH -4.6 insoluble fraction contained significant levels of L-amino acid oxidase, identified with 11 unique peptides matching the horse homologue gene product. This enzyme catalyses the oxidative deamination of amino acids into ketoacids, producing ammonia and HO. κ-casein, likely occurring as a fully O-glycosylated protein, may concur to inhibit the adhesion of pathogenic microorganisms, along with other glycoproteins. Proteomics supports the alimentary use of DM not only as a substitute of human milk in early infancy, but also for growing children, convalescent, elderly people and general population. SIGNIFICANCE: Donkey's milk (DM) is acquiring increasing popularity because it is a suitable substitute of the human milk, when breastfeeding is not possible and infants suffer from cow's milk allergy. DM is characterized by a much lower microbial load compared to ruminants' milk. This feature has been traditionally attributed to the high content of lysozyme. DM exhibits potent activity against a broad range of bacteria, viruses and fungi, suggesting that other protein components can be responsible of the antimicrobial potential. The gel-free proteomic analysis of pH 4.6-insoluble and soluble (whey) fractions demonstrated that DM contains a large number of gene products involved in antimicrobial mechanisms and in transferring passive immunity to the donkey offspring. DM contains relatively high levels of L-amino acid oxidase that catalyses the oxidative deamination of amino acid substrates into ketoacids, with production of ammonia and HO. In combination with lysozyme, lactoferrin and immunoglobulins, the presence of L-amino acid oxidase provides the molecular basis of the antibacterial potential observed for DM. Considered the low microbial load, DM can be sanitated at mild conditions, thereby preserving many of the native nutritional traits. Thus, DM can be considered a safe and nutritionally valid alimentary resource for growing children, convalescent, elderly people and general population. Data of this study represent the largest inventory of proteins identified in Equidae milk, so far.
Copyright © 2020 Elsevier B.V. All rights reserved.
Publication Date: 2020-10-08 PubMed ID: 33038512DOI: 10.1016/j.jprot.2020.104007Google Scholar: Lookup
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Summary
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This research article explores the antibacterial properties of donkey’s milk (DM), focusing on its potential as a substitute for human milk for infants, especially those who are allergic to cow’s milk proteins, and its use for growing children, convalescent and elderly individuals, and the general population. Donkey’s milk shows strong antimicrobial activity, which the study attributes to the presence of certain proteins and enzymes.
Proteomic Analysis of Donkey’s Milk
- The study conducts a shotgun proteomic analysis of donkey’s milk, revealing 94 gene products. Notably, 41% of these have documented antimicrobial activity or play a role in transferring passive immunity to the donkey offspring.
- A significant fraction of the antibacterial potential of DM is provided by the combined actions of lysozyme, lactoferrin, and immunoglobulins.
Key Components Contribute to the Antibacterial Potential
- The analysis indicates that the insoluble fraction at pH 4.6 contains substantial levels of L-amino acid oxidase. This enzyme catalyses the oxidative deamination of amino acids into ketoacids, producing ammonia and hydrogen peroxide.
- DM’s antimicrobial potential can also be attributed to κ-casein, which likely exists as a fully O-glycosylated protein and helps to inhibit the adhesion of pathogenic microorganisms. Additionally, other glycoproteins might play a similar role.
A Nutritious and Safe Food Resource
- The research supports the use of DM as an alternative to human milk in early infancy, given its low microbial load and the fact that it contains a range of proteins involved in antimicrobial mechanisms and the transfer of passive immunity.
- As DM can be sanitized under mild conditions, many of its native nutritional traits are preserved, thus increasing its potential use as a beneficial food resource for various population groups.
- The study indicates that DM, with its high content of lysozyme, exhibits potent activity against a wide variety of bacteria, viruses, and fungi.
Significance of the Study
- This research underlines the increasing popularity of DM due to its similarities with human milk and its suitability as a substitute when breastfeeding is not possible or infants exhibit allergies to cow’s milk.
- The study provides the most extensive inventory of proteins found in Equidae (horse family) milk to date, showcasing its wide medicinal and nutritional value.
Cite This Article
APA
(2020).
Antibacterial potential of donkey’s milk disclosed by untargeted proteomics.
J Proteomics, 231, 104007.
https://doi.org/10.1016/j.jprot.2020.104007 Publication
Researcher Affiliations
MeSH Terms
- Aged
- Animals
- Anti-Bacterial Agents / pharmacology
- Anti-Infective Agents
- Equidae
- Horses
- Humans
- Hydrogen Peroxide
- Milk Proteins
- Proteomics
Citations
This article has been cited 9 times.- Papademas P, Mousikos P, Aspri M. Valorization of donkey milk: Technology, functionality, and future prospects.. JDS Commun 2022 May;3(3):228-233.
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- Yang L, Zhao Z, Luo D, Liang M, Zhang Q. Global Metabolomics of Fireflies (Coleoptera: Lampyridae) Explore Metabolic Adaptation to Fresh Water in Insects.. Insects 2022 Sep 10;13(9).
- Mureşan A, Mureşan C, Siteavu M, Avram E, Bochynska D, Taulescu M. An Outbreak of Equine Herpesvirus-4 in an Ecological Donkey Milk Farm in Romania.. Vaccines (Basel) 2022 Mar 18;10(3).
- Pei J, Mei J, Yu H, Qiu W, Xie J. Effect of Gum Tragacanth-Sodium Alginate Active Coatings Incorporated With Epigallocatechin Gallate and Lysozyme on the Quality of Large Yellow Croaker at Superchilling Condition.. Front Nutr 2021;8:812741.
- Proikakis SC, Bouroutzika EV, Anagnostopoulos AK, Tsangaris GT. Proteomic data of donkey's milk.. Data Brief 2021 Dec;39:107507.
- Wang Y, Miao X, Zhao Z, Wang Y, Li S, Wang C. Transcriptome Atlas of 16 Donkey Tissues.. Front Genet 2021;12:682734.
- Zhang X, Jiang B, Ji C, Li H, Yang L, Jiang G, Wang Y, Liu G, Liu G, Min L, Zhao F. Quantitative Label-Free Proteomic Analysis of Milk Fat Globule Membrane in Donkey and Human Milk.. Front Nutr 2021;8:670099.
- Verna G, Sila A, Liso M, Mastronardi M, Chieppa M, Cena H, Campiglia P. Iron-Enriched Nutritional Supplements for the 2030 Pharmacy Shelves.. Nutrients 2021 Jan 26;13(2).
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