Human Endometrial Angiogenesis : An Immunohistochemical Study of the Endometrial Expression of Angiogenic Growth Factors and Their Corresponding Receptors

Sammanfattning: The human endometrium undergoes dramatic changes in morphology and function during the menstrual cycle. Recurrent angiogenesis (the formation of new blood vessels) is of utmost importance for oxygen supply and nourishment of the rapidly growing endometrial tissue. The importance of some growth factors known to stimulate new blood vessel formation both in vivo and in vitro in non-uterine tissues, for endometrial angiogenesis, was studied. Further, the possible relationship between the patterns of expression of some angiogenic growth factors and bleeding disturbances during the use of a progestin-only intrauterine contraceptive device was analyzed. Different ways of determining changes in the endometrial vascular density during the menstrual cycle were also evaluated. The expression of the angiogenic growth factors vascular endothelial growth factors (VEGF) A, B, C, and D, fibroblast growth factor 2 (FGF-2), and epidermal growth factor (EGF) and their receptors was analyzed using immunohistochemistry.VEGF-A, -B and -C, FGF-2 and EGF and their receptors were all found to be expressed in normal human endometrium, especially in and/or around blood vessels, supporting the hypothesis that these peptides most probably contribute to the regulation of angiogenesis and blood vessel function in normal human endometrium.There were differences in expression of some of the studied ligands and receptors in endometrium from users of an LNG-IUS with and without bleeding disturbances. We conclude that changes in the expression of these growth factors and receptors might be involved in the formation of fragile and dysfunctional blood vessels that subsequently give rise to bleeding disturbances.The three different methods that were applied for calculating endometrial blood vessel density showed similar results and none of them indicated any significant changes during the menstrual cycle. Angiogenesis thus seems to occur mainly by blood vessel elongation and the angiogenic activity is probably related to changes in endometrial thickness and coiling of the spiral arteries.