Abstract
This study aimed to examine the effect of follicle-stimulating hormone (FSH), luteinizing hormone (LH), prolactin (PRL), and growth hormone (GH) on Aquaporin 5 (AQP5) expression in granulosa (Gc) and theca cells (Tc) from medium (MF) and large (LF) ovarian follicles of pigs. The results showed that GH significantly decreased the expression of AQP5 in Gc from MF in relation to the control. In the Gc of large follicles, PRL stimulated the expression of AQP5. However, the increased expression of AQP5 in the Tc of LF was indicated by GH and PRL in relation to the control. A significantly higher expression of the AQP5 protein in the Gc from MF and LF was indicated by FSH and PRL. In co-cultures, an increased expression of AQP5 was observed in the Gc from LF incubated with LH, PRL, and GH. A significantly increased expression of AQP5 was also observed in co-cultures of Tc from all type of follicles incubated with LH, whereas PRL stimulated the expression of AQP5 in Tc from MF. Moreover, AQP5 protein expression increased in the co-culture isolated from MF and LF after treatment with FSH, LH, PRL, and GH. AQP5 immunoreactivity was observed in the cytoplasm, mainly in the perinuclear region and endosomes, as well as in the cell membranes of Gc and Tc from the LF and MF.
Highlights
Fluid transport across cellular barriers in biological tissues results from water transport driven by osmotic gradients or hydrostatic pressure differences
Aquaporin 5 (AQP5) mRNA expression significantly decreased in the granulosa cells (Gc) cells isolated from medium follicles after a 24 h culture with growth hormone (GH) compared to the control (p < 0.05; Figure 1A)
The study found that follicle-stimulating hormone (FSH), luteinizing hormone (LH), prolactin (PRL), and growth hormone (GH) regulated AQP1 expression in the ovarian follicular cells of pigs
Summary
Fluid transport across cellular barriers in biological tissues results from water transport driven by osmotic gradients or hydrostatic pressure differences. AQPs are expressed in a wide range of tissues, often spatially located within a certain region of the cell. This enables them to play a central role in physiological processes in the flow of water through those tissues, which typically triggers the cell volume regulation mechanism. The involvement of these small proteins in cell adhesion, migration, proliferation, and cell differentiation has been defined [3]. As a result of stimulation of the α1-adrenergic receptor, AQP5 translocates from intracellular membranes to the apical membranes of rat parotid gland cells [7]
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