W Amselgruber scite author profile

Locally produced growth factors may have important modulatory roles in final ovarian follicular growth. The aim of this study was to investigate the possible participation of vascular endothelial growth factor (VEGF) and basic fibroblast growth factor (FGF2) in bovine follicles during final growth. Ovaries were collected from a slaughterhouse within 10-20 min after exsanguination. A classification of follicles into five groups (<0·5; >0·5-5; >5-20; >20-180; >180 ng/ml) was performed according to the follicular fluid (FF) oestradiol-17 content. For a better characterisation of classes the mRNA expressions of FSH receptor, LH receptor and aromatase cytochrome P450 in theca interna (TI) and granulosa cells (GC) were determined. Analysis of VEGF transcript by RT-PCR showed that GC and theca cells express predominantly the smallest isoforms (VEGF 121 and VEGF 165 ). VEGF mRNA expression in both tissues (TI and GC) and VEGF protein concentration in total follicle tissue increased significantly (and correlated) with developmental stages of follicle growth. The expression of mRNA for VEGF receptor (VEGFR)-1 and VEGFR-2 was very weak in GC, without any regulatory change during final follicle growth. In contrast, TI showed strong expression of mRNA for both receptors in all follicle classes examined. VEGF protein concentrations in FF increased significantly and continuously to maximum levels in preovulatory follicles. As shown by immunohistochemistry, VEGF protein was clearly localised in TI and GC of preovulatory follicles. FGF2 and FGF receptor (FGFR) mRNA expression in TI increased significantly during final growth of follicles. In contrast, the FGF2 and FGFR mRNA expression in GC was very weak and without any regulatory change during follicle growth. Histological observation revealed that FGF2 protein was localised in theca tissue (cytoplasm of endothelial cells and pericytes) but not in GC.Our results suggest that VEGF and FGF families are involved in the proliferation of capillaries that accompanies the selection of the preovulatory follicle resulting in an increased supply of nutrients and precursors, and therefore supporting the growth of the dominant follicle.

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Production and localisation of angiotensin II in the bovine early corpus luteum: a possible interaction with luteal angiogenic factors and prostaglandin F2 alpha

Kobayashi

Berisha²,

Amselgruber³

et al. 2001

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The newly formed corpus luteum (CL) rapidly develops after ovulation and has the features of active vascularisation and mitosis of steroidogenic cells. These stage-specific mechanisms also may contribute to gain the function of prostaglandin F2 (PGF2 )-resistant CL at this stage. Recent studies suggest that the vasoactive peptide angiotensin II (Ang II) regulates luteal function. Thus, this study aimed to investigate (i) the expression of angiotensinconverting enzyme (ACE) mRNA by RT-PCR and the ACE protein expression by immunohistochemistry, (ii) the effects of angiogenic growth factors, basic fibroblast growth factor (bFGF) and vascular endothelial growth factor (VEGF), on the secretion of Ang II, PGF2 , progesterone and oxytocin (OT), and (iii) the effects of luteal vasoactive peptides (Ang II and endothelin-1 (ET-1)) or OT on the secretion of PGF2 , progesterone and OT from bovine early CL (days 3-4 of the oestrous cycle), and evaluate a possible interaction of these substances with PGF2 . The expression of mRNA for ACE was found in theca interna of mature follicle, early CL and endothelial cells from developing CL as well as pituitary and kidney, but granulosa cells of mature follicle were negative. The immunohistochemical analysis revealed that blood capillaries (endothelial cells) were stained for ACE, but luteal cells were negative in early CL. To examine the effects of substances on the secretory function of the CL, an in vitro microdialysis system was used as a model. The infusion of bFGF and VEGF stimulated Ang II and PGF2 secretion as well as progesterone, but not OT secretion in early CL. The infusion of Ang II after PGF2 infusion continued the stimulatory effect on progesterone and OT release within early CL until 3 h thereafter. However, the infusion of ET-1 alone had no effect on progesterone or OT release. The infusion of luteal peptides such as Ang II and OT stimulated PGF2 secretion, whereas the infusion of ET-1 did not. In conclusion, the overall results of this study indicate that a functional angiotensin system exists on the endothelial cells of early CL, and that angiogenic factors bFGF and VEGF upregulate luteal Ang II and PGF2 secretion, which fundamentally supports the mechanism of progesterone secretion in bovine early CL. This idea supports the concept that the local regulatory mechanism involved in active angiogenesis ensures the progesterone secretion in the developing CL in vivo.

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Stimulatory and synergistic effects of luteinising hormone and insulin like growth factor 1 on the secretion of vascular endothelial growth factor and progesterone of cultured bovine granulosa cells

Schams¹,

Kosmann²,

Berisha³

et al. 2001

Exp Clin Endocrinol Diabetes

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Vascular endothelial growth factor (VEGF) is the most important factor in the regulation of angiogenesis. Associated with luteinisation and formation of corpus luteum (CL) are alterations in luteal vascularity. The aim of the study was to test under in vitro conditions the stimulation of VEGF and progesterone (P) secretion of bovine granulosa cells by LH, IGF1 (insulin like growth factor) or by factors known to be produced by luteinised granulosa cells or in the early CL. Localisation of VEGF protein in preovulatory follicle and early CL were achieved by immunohistochemistry. LH and IGF1 stimulated dose dependently and significantly P and VEGF when tested alone. Both hormones added simultaneously had clear additive and even more interesting far greater (synergistic) effects on P with LH (0.1 ng/ml) plus 5 or 10 ng IGF1. In contrast, VEGF was stimulated only additively with 0.1 ng/ml of LH plus 5 or 10 ng IGF1. But with the higher dose of LH (1 ng/ml) additionally to the additive effect a tendency for a synergistic action (which was significant with 1 ng LH plus 5 ng IGF1/ml) was observed. Endothelin, oxytocin, progesterone, atrial natiuretic peptide, angiotensin II, prostaglandin F2 alpha alpha, prostaglandin E2, cortisol, fibroblast growth factor 1 and 2 and growth hormone showed no effect neither on P nor on VEGF. Tumour necrosis factor alpha (TNF alpha) stimulated (P < 0.05) VEGF with 10 or 100 ng/ml but not P. TPA (12-0 tetra decaenoyl-phorbol-13-acetate) or Ca2+ ionophore did not show a stimulatory effect in contrast to forskolin which increased P and VEGF secretion dose dependently. The VEGF protein was localised in follicle (granulosa cells, theca cells and some endothelial cells) and early (about 24 h after ovulation) CL (granulosa-lutein cells and endothelial cells). The same signalling pathway by stimulation of cAMP production and proteinkinase A activation for luteinisation and neo-vascularisation demonstrates a close temporal and spatial relationship of these normal physiological processes.

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W Amselgruber

Expression and localisation of vascular endothelial growth factor and basic fibroblast growth factor during the final growth of bovine ovarian follicles

Production and localisation of angiotensin II in the bovine early corpus luteum: a possible interaction with luteal angiogenic factors and prostaglandin F2 alpha

Stimulatory and synergistic effects of luteinising hormone and insulin like growth factor 1 on the secretion of vascular endothelial growth factor and progesterone of cultured bovine granulosa cells

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