Litcius/Paper detail

Generation of a novel three-dimensional scaffold-based model of the bovine endometrium

MC. Díez, Stefan Przyborski, Ana del Cerro, Marta Alonso‐Guervós, Tania Iglesias, S. Carrocera, MA. García, M Fernández, Luís Garcia Alonso, M. Muñoz

2023Veterinary Research Communications12 citationsDOIOpen Access PDF

Abstract

Abstract Bovine in vitro endometrial models that resemble tissue function in vivo are needed to study infertility, long-term uterine alterations induced by pathogens and impact of endocrine disruptor chemicals on reproductive function and other reproductive system complications that cause high economic losses in livestock species. The present study aimed to generate an innovative, reproducible, and functional 3D scaffold-based model of the bovine endometrium structurally robust for long term-culture. We developed a multicellular model containing both endometrial epithelial and stromal cells. Epithelial cells organized to form a luminal-like epithelial layer on the surface of the scaffold. Stromal cells produced their own extracellular matrix forming a stable subepithelial compartment that physiologically resembles the normal endometrium. Both cell types released prostaglandin E 2 and prostaglandin F 2α following a treatment with oxytocin and arachidonic acid. Additionally signal pathways mediating oxytocin and arachidonic acid stimulation of prostaglandin synthesis were analyzed by real time PCR (RT-PCR). Oxytocin receptor ( OXTR ), prostaglandin E 2 receptor 2 ( EP2 ), prostaglandin E 2 receptor 4 ( EP4 ), prostaglandin F receptor ( PTGFR ), prostaglandin E synthase ( PTGES ), PGF-synthase ( PGFS ) and prostaglandin-endoperoxide synthase 2 ( COX-2 ) expression was detected in both control and treatment groups, however, only significant changes in abundance of OXTR mRNA transcripts were found. The results obtained by this study are a step forward in bovine in vitro culture technology. This 3D scaffold-based model provides a platform to study regulatory mechanisms involved in endometrial physiology and can set the basis for a broader tool for designing and testing novel therapeutic strategies for recurrent uterine pathologies.

Topics & Concepts

Prostaglandin E2 receptorEndometriumOxytocin receptorStromal cellProstaglandinBiologyOxytocinProstaglandin E2Arachidonic acidReceptorCell biologyInternal medicineEndocrinologyAndrologyBiochemistryMedicineCancer researchEnzymeAgonistReproductive System and PregnancyReproductive Physiology in LivestockReproductive Biology and Fertility