4.6 Article

Correlation between Pre-Ovulatory Follicle Diameter and Follicular Fluid Metabolome Profiles in Lactating Beef Cows

Journal

METABOLITES
Volume 11, Issue 9, Pages -

Publisher

MDPI
DOI: 10.3390/metabo11090623

Keywords

follicular fluid; metabolome; follicle size; induced ovulation; cumulus-oocyte complex; beef cattle

Funding

  1. USDA NIFA Hatch project [1022068]
  2. University of Tennessee AgResearch
  3. University of Tennessee Department of Animal Science

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In small beef cows, induced ovulation of small pre-ovulatory follicles leads to reduced pregnancy rates, embryo survival, and quality, potentially due to insufficient glucose metabolism capacity of cumulus cells in smaller follicles. The study explored the correlation between pre-ovulatory follicle diameter and follicular fluid metabolome profiles, identifying 18 metabolites significantly positively correlated with follicle diameter. This suggests altered glucose and amino acid metabolism may contribute to decreased developmental competence of oocytes when small pre-ovulatory follicles undergo induced ovulation.
Induced ovulation of small pre-ovulatory follicles reduced pregnancy rates, embryo survival, day seven embryo quality, and successful embryo cleavage in beef cows undergoing fixed-time artificial insemination. RNA-sequencing of oocytes and associated cumulus cells collected from pre-ovulatory follicles 23 h after gonadotropin-releasing hormone (GnRH) administration to induce the pre-ovulatory gonadotropin surge suggested reduced capacity for glucose metabolism in cumulus cells of follicles <= 11.7 mm. We hypothesized that the follicular fluid metabolome influences metabolic capacity of the cumulus-oocyte complex and contributes to reduced embryo cleavage and quality grade observed following induced ovulation of small follicles. Therefore, we performed a study to determine the correlation between pre-ovulatory follicle diameter and follicular fluid metabolome profiles in lactating beef cows (Angus, n = 130). We synchronized the development of a pre-ovulatory follicle and collected the follicular contents approximately 20 h after GnRH administration. We then performed ultra-high performance liquid chromatography-high resolution mass spectrometry (UHPLC-HRMS) metabolomic studies on 43 follicular fluid samples and identified 38 metabolites within pre-ovulatory follicles of increasing size. We detected 18 metabolites with a significant, positive correlation to follicle diameter. Individual and pathway enrichment analysis of significantly correlated metabolites suggest that altered glucose and amino acid metabolism likely contribute to reduced developmental competence of oocytes when small pre-ovulatory follicles undergo induced ovulation.

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