Metabolite concentrations in follicular fluid may explain differences in fertility between heifers and lactating cows

Bender, Katrin; Walsh, S.W.; Evans, A.C.O.; Fair, Trudee; Brennan, Lorraine

doi:10.1530/rep-10-0068

Cited by 138 publications

(125 citation statements)

References 45 publications

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“…Lipid analysis of follicular fluid revealed that ω-6 and ω-3 fatty acid families are the most abundant polyunsaturated fatty acids (PUFAs) in the follicle [6]. These findings strengthen the hypothesis that dietary supplementation of ω-6 and/or ω-3-fatty acids has an important role in oocyte quality and development [7].…”

Section: Introductionsupporting

confidence: 58%

Effect of Linolenic acid during in vitro maturation of ovine oocytes: embryonic developmental potential and mRNA abundances of genes involved in apoptosis

Veshkini

Asadi

Khadem

et al. 2015

J Assist Reprod Genet

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Purpose To study the effect of α-linolenic acid (ALA) on meiotic maturation, mRNA abundance of apoptosis-related (Bax and Bcl-2) molecules, and blastocyst formation in ovine oocytes. Methods A preliminary experiment was conducted to analyze the concentration of ALA in Bsmall^(≤2 mm) and Blarge( ≥6 mm) follicles using gas chromatography/mass spectrometry analysis. The concentration of ALA in small and large follicles was determined to be in a range of 75.4 to 125.7 μM,

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Section: Introductionsupporting

confidence: 58%

Effect of Linolenic acid during in vitro maturation of ovine oocytes: embryonic developmental potential and mRNA abundances of genes involved in apoptosis

Veshkini

Asadi

Khadem

et al. 2015

J Assist Reprod Genet

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“…By day 44 post-partum, follicular fluid NEFA levels have increased to match that in serum, yet follicular fluid is selectively enriched with palmitic, oleic and linoleic fatty acids (Leroy et al 2005a). These studies highlight that serum NEFA levels are dynamic, increasing dramatically at parturition; and that during lactation follicular fluid NEFA also increase but display a distinct fatty acid profile compared with serum (Leroy et al 2005a, Bender et al 2010. Oocytes of repeat breeder dairy cows were also shown to contain significantly more lipid than oocytes from virgin heifers, even though the COCs isolated from both types of animals were classified as normal good quality (Awasthi et al 2010).…”

Section: Lactation In Dairy Cowsmentioning

confidence: 93%

“…The follicular fluid of both heifers and lactating cows was shown to contain primarily linoleic, oleic, stearic and palmitic acids: however, compared with heifers, the cows had higher levels of at least 24 different fatty acids in follicular fluid, particularly palmitic acid and stearic acid and lower levels of docosahexaeonic acid (Bender et al 2010). In dairy cows, circulating triglyceride levels decrease at parturition, while NEFA levels increase dramatically, relative changes that are also reflected in the follicular fluid (Leroy et al 2004b).…”

Section: Lactation In Dairy Cowsmentioning

confidence: 99%

Lipids and oocyte developmental competence: the role of fatty acids and β-oxidation

2014

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Metabolism and ATP levels within the oocyte and adjacent cumulus cells are associated with quality of oocyte and optimal development of a healthy embryo. Lipid metabolism provides a potent source of energy and its importance during oocyte maturation is being increasingly recognised. The triglyceride and fatty acid composition of ovarian follicular fluid has been characterised for many species and is influenced by nutritional status (i.e. dietary fat, fasting, obesity and season) as well as lactation in cows. Lipid in oocytes is a primarily triglyceride of specific fatty acids which differ by species, stored in distinct droplet organelles that re-localise during oocyte maturation. The presence of lipids, particularly saturated vs unsaturated fatty acids, in in vitro maturation systems affects oocyte lipid content as well as developmental competence. Triglycerides are metabolised by lipases that have been localised to cumulus cells as well as oocytes. Fatty acids generated by lipolysis are further metabolised by b-oxidation in mitochondria for the production of ATP. b-oxidation is induced in cumulus-oocyte complexes (COCs) by the LH surge, and pharmacological inhibition of b-oxidation impairs oocyte maturation and embryo development. Promoting b-oxidation with L-carnitine improves embryo development in many species. Thus, fatty acid metabolism in the mammalian COC is regulated by maternal physiological and in vitro environmental conditions; and is important for oocyte developmental competence.

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“…In addition, Bender et al (2010) suggested that the metabolites present in the follicular fluid might be used as markers of oocyte maturation ability as well as of the subsequent embryo development. They investigated the metabolomic profile of follicular fluid obtained from the dominant follicle of lactating cows and heifers using gas chromatography mass spectrometry.…”

Section: Non-invasive Methods For Quality Assessment Of Oocytes/embryosmentioning

confidence: 99%

Selected molecular and microfluidic aspects of mammalian oocyte maturation-perspectives: a review

Kempisty¹,

Bukowska²,

Piotrowska³

et al. 2011

Vet. Med. - Czech

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ABSTRACT:Maturation of oocytes is the most important stage, which determines the subsequent successful fertilization, zygote formation, attainment of blastocyst stage, normal embryo growth and development, as well as appropriate implantation. Since in some species of mammals the efficiency of IVM maturation is still very low, many studies have focused on new combinations of media supplements. In some species of mammals, including pigs, mice, bovines, goats and dogs, EGF, BSA, and progesterone are successfully used as an enhancer of the IVC system. Application of the Lab-on-Chip system in reproductive biology opens new possibilities for the development of techniques available for the assessment of the developmental competency or potency manifested by mammalian oocytes and embryos. In most cases, the Lab-on-Chip system was used in mice. However, an increasing number of examples are available in which the system has been applied to evaluate porcine and bovine gametes and embryos. In this article, the role of EGF, BSA and progesterone is described in relation to maturation efficiency of mammalian oocytes. Moreover, the possibilities of using microfluidics (Lab-on-Chip) for the detection of oocyte developmental competency are also shown.

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Metabolite concentrations in follicular fluid may explain differences in fertility between heifers and lactating cows

Cited by 138 publications

References 45 publications

Effect of Linolenic acid during in vitro maturation of ovine oocytes: embryonic developmental potential and mRNA abundances of genes involved in apoptosis

Effect of Linolenic acid during in vitro maturation of ovine oocytes: embryonic developmental potential and mRNA abundances of genes involved in apoptosis

Lipids and oocyte developmental competence: the role of fatty acids and β-oxidation

Selected molecular and microfluidic aspects of mammalian oocyte maturation-perspectives: a review

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