Maternal transmission as a microbial symbiont sieve, and the absence of lactation in male mammals.

Gut microbiomes of mammals carry a complex symbiotic assemblage of microorganisms. Feeding newborn infants milk from the mammary gland allows vertical transmission of the parental milk microbiome to the offspring's gut microbiome. This has benefits, but also has hazards for the host population. Using mathematical models, we demonstrate that biparental vertical transmission enables deleterious microbial elements to invade host populations. In contrast, uniparental vertical transmission acts as a sieve, preventing these invasions. Moreover, we show that deleterious symbionts generate selection on host modifier genes that keep uniparental transmission in place. Since microbial transmission occurs during birth in placental mammals, subsequent transmission of the milk microbiome needs to be maternal to avoid the spread of deleterious elements. This paper therefore argues that viviparity and the hazards from biparental transmission of the milk microbiome, together generate selection against male lactation in placental mammals. Lactation allows vertical microbiome transmission from the parent to the offspring in mammals. Here, the authors create a mathematical model to argue that uniparental transmission prevents the invasion of deleterious microbes and suggest that this may generate selection against male lactation. [ABSTRACT FROM AUTHOR]