Journal
INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES
Volume 22, Issue 13, Pages -Publisher
MDPI
DOI: 10.3390/ijms22137131
Keywords
cryptorchidism; estrogens; G protein-coupled receptor; horse
Funding
- Ministry of Science and Higher Education [SUB/2020-080100-D016]
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The study revealed changes in the distribution of polysaccharide content in cryptorchid testes, suggesting a potential link between disrupted GPER signaling and elevated estrogen levels. Decreased expression of GPER and downstream molecules cAMP and Ca2+ in cryptorchid testes indicates their role in testis pathology. GPER may be a key player in testis development and function, serving as a possible new biomarker for horse testes in health and disease.
Cryptorchidism in horses is a commonly occurring malformation. The molecular basis of this pathology is not fully known. In addition, the origins of high intratesticular estrogen levels in horses remain obscure. In order to investigate the role of the G-protein-coupled membrane estrogen receptor (GPER) and establish histological and biochemical cryptorchid testis status, healthy and cryptorchid horse testes were subjected to scanning electron microscopy analysis, histochemical staining for total protein (with naphthol blue black; NBB), acid content (with toluidine blue O; TBO), and polysaccharide content (with periodic acid-Schiff; PAS). The expression of GPER was analyzed by immunohistochemistry and Western blot. GPER-mediated intracellular cAMP and calcium (Ca2+) signaling were measured immunoenzymatically or colorimetrically. Our data revealed changes in the distribution of polysaccharide content but not the protein and acid content in the cryptorchid testis. Polysaccharides seemed to be partially translocated from the interstitial compartment to the seminiferous tubule compartment. Moreover, the markedly decreased expression of GPER and GPER downstream molecules, cAMP and Ca2+, suggests their potential role in testis pathology. Increased estrogen levels in cryptorchid conditions may be linked to disturbed GPER signaling. We postulate that GPER is a prominent key player in testis development and function and may be used as a new biomarker of horse testis in health and disease.
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