Comparison of prepartum blood parameters in dairy cows with postpartum ketosis and new risk prediction candidates

Choi, Won; Ro, Younghye; Choe, Eunhui; Hong, Leegon; Kim, Dohee; Kim, Seongdae; Yoon, Ilsu; Kim, Danil

doi:10.3389/fvets.2023.1161596

Cited by 4 publications

(1 citation statement)

References 49 publications

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“…However, the changes in plasma NEFA levels in cows with ketosis during the 10 days before parturition differed between parities. Unlike multiparous cows, primiparous cows do not differ 10 days before parturition ( Choi et al, 2023 ). The results of this study showed that energy-related indices such as NEFA, BHB, glucose, insulin, and RQUICKI may not predict postpartum ketosis in primiparous cows.…”

Section: Discussionmentioning

confidence: 99%

Screening for potential warning biomarkers in cows with ketosis based on host–microbiota co-metabolism analysis

Du,

Luo,

Huang

et al. 2024

Front. Microbiol.

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IntroductionThe risk of ketosis is assessed by monitoring changes in plasma metabolites and cow behavior during the peripartum period. However, little is known about changes in the fecal bile acid and microbiota of cows before parturition. Therefore, this study clarified the bile acid profile and screened potential warning biomarkers in heifers 7 days before calving.MethodsNinety healthy cows were tracked in the transition period, and plasma and feces were collected 7 days before calving, on calving day, and 7 days after calving. The cows were divided into ketosis and healthy groups based on the blood β-hydroxybutyric acid levels from day 7 after calving. The levels of serum biochemical indices were measured at three time points using commercial kits. Ten cows in the ketosis group (KET-7) and 10 healthy cows (HEA-7) were randomly selected 7 days before calving for metabolome and 16S rRNA amplicon sequencing.ResultsNo significant differences in serum energy-related indices were observed 7 days before calving. The major bile acids in the feces of the KET-7 group were non-conjugated secondary bile acids (UnconSBA). Differential bile acids were primarily derived from UnconSBA. The potential ketosis warning metabolite in feces for 7 days before delivery was isodeoxycholic acid. The abundance of Rikenellaaceae-RC9-gut-group in the KET-7 group increased, whereas the abundance of Oscillospiraceae UCG-010 bacteria significantly decreased. Lactobacillus and Prevotella-9 in feces were potential warning biomarkers for ketosis in dairy cows 7 days before calving. The variation in differential bile acids in the plasma, consistent with the feces, was mainly derived from UnconSBA. Lithocholic acid in the plasma was a potential ketosis warning metabolite 7 days before delivery.ConclusionKetotic cows experienced bile acid metabolism disorders 7 days before calving, and the gut microbiota was closely related to bile acid metabolism disorders. Future studies should investigate the relationship between secondary bile acids and the development of ketosis.

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Section: Discussionmentioning

confidence: 99%

Screening for potential warning biomarkers in cows with ketosis based on host–microbiota co-metabolism analysis

Du,

Luo,

Huang

et al. 2024

Front. Microbiol.

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Multiomics reveals blood differential metabolites and differential genes in the early onset of ketosis in dairy cows

Ping,

Xuehu,

Chunli

et al. 2024

Genomics

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Melatonin alleviates palmitic acid-induced mitochondrial dysfunction by reducing oxidative stress and enhancing autophagy in bovine endometrial epithelial cells

Wang,

Gong,

Heng

et al. 2024

J Animal Sci Biotechnol

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Background Negative energy balance (NEB) typically occurs in dairy cows after delivery. Cows with a high yield are more likely to experience significant NEB. This type of metabolic imbalance could cause ketosis, which is often accompanied by a decline in reproductive performance. However, the molecular mechanisms underlying NEB have yet to be fully elucidated. During excessive NEB, the body fat is extensively broken down, resulting in the abnormal accumulation of non-esterified fatty acids (NEFAs), represented by palmitic acid (PA), within the uterus. Such an abnormal accumulation has the potential to damage bovine endometrial epithelial cells (BEECs), while the molecular mechanisms underlying its involvement in the PA-induced injury of BEECs remains poorly understood. Melatonin (MT) is recognized for its regulatory role in maintaining the homeostasis of mitochondrial reactive oxygen species (mitoROS). However, little is known as to whether MT could ameliorate the damage incurred by BEECs in response to PA and the molecular mechanism involved. Results Analysis showed that 0.2 mmol/L PA stress increased the level of cellular and mitochondrial oxidative stress, as indicated by increased reactive oxygen species (ROS) level. In addition, we observed mitochondrial dysfunction, including abnormal mitochondrial structure and respiratory function, along with a reduction in mitochondrial membrane potential and mitochondrial copy number, and the induction of apoptosis. Notably, we also observed the upregulation of autophagy proteins (PINK, Parkin, LC3B and Ubiquitin), however, the P62 protein was also increased. As we expected, 100 μmol/L of MT pre-treatment attenuated PA-induced mitochondrial ROS and restored mitochondrial respiratory function. Meanwhile, MT pretreatment reversed the upregulation of P62 induced by PA and activated the AMPK-mTOR-Beclin-1 pathway, contributing to an increase of autophagy and decline apoptosis. Conclusions Our findings indicate that PA can induce mitochondrial dysfunction and enhance autophagy in BEECs. In addition, MT is proved to not only reduce mitochondrial oxidative stress but also facilitate the clearance of damaged mitochondria by upregulating autophagy pathways, thereby safeguarding the mitochondrial pool and promoting cellular viability. Our study provides a better understanding of the molecular mechanisms underlying the effect of an excess of NEB on the fertility outcomes of high yielding dairy cows.

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Comparison of prepartum blood parameters in dairy cows with postpartum ketosis and new risk prediction candidates

Cited by 4 publications

References 49 publications

Screening for potential warning biomarkers in cows with ketosis based on host–microbiota co-metabolism analysis

Screening for potential warning biomarkers in cows with ketosis based on host–microbiota co-metabolism analysis

Multiomics reveals blood differential metabolites and differential genes in the early onset of ketosis in dairy cows

Melatonin alleviates palmitic acid-induced mitochondrial dysfunction by reducing oxidative stress and enhancing autophagy in bovine endometrial epithelial cells

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