No evidence of expression of two classes of natural antibiotics (cathelicidins and defensins) in a sample of platypus milk

Marsupial neonates are born without a fully functioning immune system, and are known to be protected in part by natural antimicrobial peptides present in their mother's milk. Monotreme neonates hatch at a similar stage in development, and it has been hypothesised that their survival in a non-sterile burrow also relies on the presence of natural antibiotics in their mother's milk. Here we review the field of monotreme lactation and the antimicrobial peptide complement of the platypus (Ornithorhynchus anatinus). Using reverse transcriptasepolymerase chain reaction of milk cell RNA from a sample of platypus milk, we found no evidence for the expression of cathelicidins or defensins in the milk. This was unexpected. We hypothesise that these natural antibiotics may instead be produced by the young platypuses themselves.

Characterisation of monotreme caseins reveals lineage-specific expansion of an ancestral casein locus in mammals

Using a milk-cell cDNA sequencing approach we characterised milk-protein sequences from two monotreme species, platypus (Ornithorhynchus anatinus) and echidna (Tachyglossus aculeatus) and found a full set of caseins and casein variants. The genomic organisation of the platypus casein locus is compared with other mammalian genomes, including the marsupial opossum and several eutherians. Physical linkage of casein genes has been seen in the casein loci of all mammalian genomes examined and we confirm that this is also observed in platypus. However, we show that a recent duplication of β-casein occurred in the monotreme lineage, as opposed to more ancient duplications of α-casein in the eutherian lineage, while marsupials possess only single copies of α- and β-caseins. Despite this variability, the close proximity of the main α- and β-casein genes in an inverted tail-tail orientation and the relative orientation of the more distant kappa-casein genes are similar in all mammalian genome sequences so far available. Overall, the conservation of the genomic organisation of the caseins indicates the early, pre-monotreme development of the fundamental role of caseins during lactation. In contrast, the lineage-specific gene duplications that have occurred within the casein locus of monotremes and eutherians but not marsupials, which may have lost part of the ancestral casein locus, emphasises the independent selection on milk provision strategies to the young, most likely linked to different developmental strategies. The monotremes therefore provide insight into the ancestral drivers for lactation and how these have adapted in different lineages.