38 Developmental competence of bovine cumulus–oocyte complexes collected from cows fed rumen-protected methionine and lysine

M. Ritz; A. Gonzalez; A.-S. Fries; T. Scheu; N. Blad-Stahl; F. Kotarski; G. Schuler; C. Koch; C. Wrenzycki

doi:10.1071/RDv33n2Ab38

RESEARCH ARTICLE

38 Developmental competence of bovine cumulus–oocyte complexes collected from cows fed rumen-protected methionine and lysine

M. Ritz ^A , A. Gonzalez ^A , A.-S. Fries ^A , T. Scheu ^B , N. Blad-Stahl ^A , F. Kotarski ^A , G. Schuler ^A , C. Koch ^B and C. Wrenzycki ^A

+ Author Affiliations

- Author Affiliations

^A Chair for Molecular Reproductive Medicine, Clinic for Veterinary Obstetrics, Gynecology and Andrology, Faculty of Veterinary Medicine, Giessen, Germany;

^B Educational and Research Centre for Animal Husbandry, Hofgut Neumühle, Münchweiler an der Alsenz, Germany

Reproduction, Fertility and Development 33(2) 126-126 https://doi.org/10.1071/RDv33n2Ab38
Published: 8 January 2021

Abstract

Supplementation of rumen-protected amino acids (RPAA) has proven to be an effective tool to supply limiting AA in dairy diets. Methionine and lysine are the two most limiting AA for lactating dairy cows. Recently, it has been shown that methionine supplementation seems to affect pre-implantation embryos collected from superovulated cows enhancing their developmental competence because there is strong evidence that endogenous lipid reserves serve as an energy substrate (Acosta et al. 2016 Theriogenology 85, 1669–1679). Moreover, higher concentrations of methionine were determined in the follicular fluid of the first dominant follicle postpartum in cows supplemented with rumen-protected methionine and rumen-protected choline from 21 days before calving to 30 days postpartum and it was assumed that higher methionine concentrations in the follicular fluid could affect oocyte quality (Acosta et al. 2017 Theriogenology 96, 1–9). There is no information available so far regarding the effect of a combined methionine and lysine supplementation (each rumen-protected) on oocyte quality. Therefore, the objective of this study was to evaluate the effect of a combined methionine and lysine supplementation during early to mid-lactation on the developmental competence of oocytes collected from lactating dairy cows (days 0 to 100 p.p.). Thirty pregnant multiparous German Holstein dairy cows were grouped 3 weeks before their expected calving date, receiving identical diets. After calving, they were randomly allocated to 2 groups fed a total mixed ration supplemented with (N = 14 cows; RPAA) or without (N = 16 cows; CON) LysiGEM^TM (encapsulated lysine; Kemin Industries) and Metasmart Dry^TM (isopropyl ester of the hydroxylated analogue of methionine adsorbed onto a silicon dioxide carrier; Adisseo). Starting from 45 days p.p., animals from both groups were submitted to an ovum pickup (OPU) session once a week for at least 8 weeks. Collected cumulus–oocyte complexes (COC) were subjected to a standard in vitro production (IVP) protocol (Stinshoff et al. 2014 Reprod. Fertil. Dev. 26, 502–10) including IVM, IVF, and in vitro culture (IVC). Cleavage and developmental rates up to the morula/blastocyst stage were recorded on Days 3, 7, and 8. In total, 1211 follicles have been aspirated from RPAA animals compared with 1413 from CON animals, from which 742 and 885 COC were collected, respectively. The calculated recovery rate based on the number of aspirated follicles and collected COC was similar for both groups (61.3 ± 29.4% vs. 62.6 ± 33.5%). Cleavage and developmental rates based on 240 (RPAA group) and 299 (CON group) COC also showed similar results [RPAA: 84.1 ± 5.9% (202/240), 18.3 ± 4.4% (44/240), 18.8 ± 4.7% (45/240); CON: 81.9 ± 8.6% (245/299), 15.4 ± 8.9% (46/299), 16.7 ± 8.4% (50/299)]. In conclusion, supplementation of RPAA (methionine and lysine) had no beneficial effect on the developmental competence of COC obtained from these animals compared with those collected from cows fed the diet without RPAA supplementation.