Central genomic regulation of the expression of oestrous behaviour in dairy cows: a review

The expression of oestrous behaviour in Holstein Friesian dairy cows has progressively decreased over the past 50 years. Reduced oestrus expression is one of the factors contributing to the current suboptimal reproductive efficiency in dairy farming. Variation between and within cows in the expressi...

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Bibliographic Details
Published in:Animal (Cambridge, England) England), 2014-05, Vol.8 (5), p.754-764
Main Authors: Woelders, H., van der Lende, T., Kommadath, A., te Pas, M. F. W., Smits, M. A., Kaal, L. M. T. E.
Format: Article
Language:English
Subjects:
amygdala
animal ovaries
Animals
anterior pituitary
blood
brain
Brain - physiology
Cattle - genetics
Cattle - physiology
dairy cow
dairy cows
dairy farming
estradiol
Estradiol - blood
Estrogens - blood
estrus
Estrus - genetics
Estrus - physiology
estrus detection
Female
female sexual-behavior
gene expression
Gene Expression Regulation
genes
Genomics
guinea-pigs
high feed-intake
hippocampus
Holstein
hypothalamus
liver blood-flow
mediobasal hypothalamus
metabolic-clearance rate
metabolism
oestrus
Physiology and functional biology of systems
preoptic area
progesterone
Progesterone - blood
Reproduction - genetics
Reproduction - physiology
reproductive efficiency
rodents
sexual behavior
Sexual Behavior, Animal - physiology
sexual behaviour
Signal Transduction
steroids
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Summary:The expression of oestrous behaviour in Holstein Friesian dairy cows has progressively decreased over the past 50 years. Reduced oestrus expression is one of the factors contributing to the current suboptimal reproductive efficiency in dairy farming. Variation between and within cows in the expression of oestrous behaviour is associated with variation in peripheral blood oestradiol concentrations during oestrus. In addition, there is evidence for a priming role of progesterone for the full display of oestrous behaviour. A higher rate of metabolic clearance of ovarian steroids could be one of the factors leading to lower peripheral blood concentrations of oestradiol and progesterone in high-producing dairy cows. Oestradiol acts on the brain by genomic, non-genomic and growth factor-dependent mechanisms. A firm base of understanding of the ovarian steroid-driven central genomic regulation of female sexual behaviour has been obtained from studies on rodents. These studies have resulted in the definition of five modules of oestradiol-activated genes in the brain, referred to as the GAPPS modules. In a recent series of studies, gene expression in the anterior pituitary and four brain areas (amygdala, hippocampus, dorsal hypothalamus and ventral hypothalamus) in oestrous and luteal phase cows, respectively, has been measured, and the relation with oestrous behaviour of these cows was analysed. These studies identified a number of genes of which the expression was associated with the intensity of oestrous behaviour. These genes could be grouped according to the GAPPS modules, suggesting close similarity of the regulation of oestrous behaviour in cows and female sexual behaviour in rodents. A better understanding of the central genomic regulation of the expression of oestrous behaviour in dairy cows may in due time contribute to improved (genomic) selection strategies for appropriate oestrus expression in high-producing dairy cows.
ISSN:1751-7311
1751-732X
1751-732X
DOI:10.1017/S1751731114000342