Dynamic Regulation of HIF1α and Oxygen-Sensing Factors in Cyclic Bovine Corpus Luteum and During LPS Challenge

Dynamic Regulation of HIF1α and Oxygen-Sensing Factors in Cyclic Bovine Corpus Luteum and During LPS Challenge

Understanding the corpus luteum (CL) and its role in cattle reproduction is crucial, particularly as it is a progesterone source for the establishment and maintenance of pregnancy. Reduced oxygen levels significantly impact these processes. This study investigated the effects of the luteal stage on...

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Bibliographic Details
Main Authors: Luiz Antonio Berto Gomes, Olivia Eilers Smith, Heinrich Bollwein, Mariusz Pawel Kowalewski
Format: Article
Language:English
Published: MDPI AG 2025-02-01
Series:Animals
Subjects:
bovine corpus luteum
hypoxia
HIF1α
LPS
Online Access:https://www.mdpi.com/2076-2615/15/4/595
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Summary:Understanding the corpus luteum (CL) and its role in cattle reproduction is crucial, particularly as it is a progesterone source for the establishment and maintenance of pregnancy. Reduced oxygen levels significantly impact these processes. This study investigated the effects of the luteal stage on the spatio-temporal gene expression patterns of HIF1α and oxygen-sensing factors, as well as the impact of lipopolysaccharide (LPS)-induced inflammation on these factors. Endothelial inflammatory responses were also addressed. The samples included CL collected at the early, mid, and late stages, as well as biopsies from mid-luteal stage cows treated either with saline (controls) or LPS. Samples collected in subsequent cycles assessed potential carryover effects. RT-PCR revealed upregulation of HIF1α, PHD1, PHD3, FIH, and VHL encoding genes in the mid-luteal stage. In situ hybridization revealed the compartmentalization of HIF1α and its regulators within the luteal and endothelial cells, suggesting their cell-specific roles. LPS treatment affected <i>PHD1</i> and <i>PHD3</i> expression, while increasing endothelial pro-inflammatory factors <i>ICAM1</i> and <i>NFκB</i>, suggesting vascular inflammation and modulated oxygen sensing. These findings reveal new insights into the spatio-temporal expression of HIF1α-regulating factors in the CL, highlighting their potential role in controlling luteal function, detailing their cellular compartmentalization, and the effects of LPS-mediated inflammatory responses.
ISSN:2076-2615

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