Changes in vaginal microbiome of beef cows enrolled in estrous synchronization protocols and its relation to fertility
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Abstract
Estrus synchronization (ES) is a valuable technology that can help beef cow-calf producers to overcome infertility caused by prolonged anestrus. Protocols for ES that use progesterone (P4) supplementation are of particular value to cows with prolonged postpartum anestrus as P4 triggers them to begin cycling and allows them to have fertility similar to that of cycling cows. Supplementation of P4 intravaginally with the use of a controlled internal drug release device (CIDR) improves cycle induction when compared to oral administration of P4. Vaginitis has been reported as a side effect to CIDR use in cattle, which raises concerns about its downstream effects on fertility. More specifically, the effects of CIDR use on the vaginal environment requires exploration, as no studies have explored the changes in vaginal microbiome in response to CIDR based ES protocols. In cattle, the vaginal microbiome has not been widely explored. On the contrary, the human vaginal microbiome is a well-defined environment, rich in bacteria from the genus Lactobacillus, which are responsible for promoting an environment of acidic pH. The dominance of Lactobacillus in the human vagina, however, fluctuates according to steroid hormone concentrations, and disruptions in the vaginal environment will cause depletion of Lactobacillus species, increase in vaginal pH and decreased fertility. Based on this data in humans, our objectives were to describe incidence of vaginitis caused by the CIDR in beef cows, as well as the vaginal microbiome changes in response to CIDR based protocols, and explore their relation to fertility. We found high incidences of vaginitis caused by CIDR use, yet CIDR-induced vaginitis did not negatively affect pregnancy outcomes. However, at CIDR withdrawal, there was decreased bacterial diversity, increased vaginal pH, increased bacterial abundance, and increased vaginal inflammation when compared to what was observed prior to CIDR insertion. Furthermore, abundance of bacteria, vaginal inflammation, and bacterial diversity, but not vaginal pH, were restored to normal values by the day of timed artificial insemination. This important finding suggests that although the vaginal microbiome was disrupted by the use of CIDR, the vaginal microbiome is resilient and capable of restoring its natural conditions without intervention. Finally, cows that ultimately became pregnant were found to have had increased bacterial diversity and decreased vaginal pH prior to protocol initiation, suggesting that the vaginal microbiome may play a role in individual cow fertility. In conclusion, our results indicate that for beef cows a more diverse vaginal microbiome with decreased vaginal pH presents greater resilience of the microbiome towards disruptions caused by an ES protocol, which is translated in greater pregnancy success.