Presence of angiotensin II and expression of angiotensin II type-2 receptor in human fallopian tube

Progesterone receptor-dependent regulation of genes in the oviducts of female mice

Oviducts play a critical role in gamete and embryo transport, as well as supporting early embryo development. Progesterone receptor (PGR) is a transcription factor highly expressed in oviductal cells, while its activating ligand, progesterone, surges to peak levels as ovulation approaches. Progesterone is known to regulate oviduct cilia beating and muscular contractions in vitro, but how PGR may mediate this in vivo is poorly understood. We used PGR null mice to identify genes potentially regulated by PGR in the oviducts during the periovulatory period. Histologically, oviducts from PGR null mice showed no gross structural or morphological defects compared with normal littermates. However, microarray analysis of oviducts at 8 h posthuman chorionic gonadotropin revealed >1,000 PGR-dependent genes. Using reverse-transcription polymerase chain reaction (RT-PCR) we selected 10 genes for validation based on their potential roles in oocyte/embryo transport and support. Eight genes were confirmed to be downregulated ( Adamts1, Itga8, Edn3, Prlr, Ptgfr, Des, Myocd, and Actg2) and one upregulated ( Agtr2) in PGR null oviducts. Expression of these genes was also assessed in oviducts of naturally cycling mice during ovulation and day 1 and day 4 of pregnancy. Adamts1, Itga8, Edn3, Prlr, and Ptgfr were significantly upregulated in oviducts at ovulation/mating. However, most genes showed basal levels of expression at other times. The exceptions were Prlr and Ptgfr, which showed pulsatile increases on day 1 and/or day 4 of pregnancy. This is the first, comprehensive study to elucidate putative PGR-regulated genes in the oviduct and reveals key downstream targets potentially mediating oocyte and embryo transport.

Local Renin-Angiotensin system in the reproductive system

The renin-angiotensin system (RAS) is well known as regulator of electrolytes and blood pressure. Besides this function, there are numerous studies supporting the idea of a local tissue RAS. This system controls the local activity of the different RAS family members, especially of the functional proteins Angiotensin II and Angiotensin (1-7). Those antagonistically acting proteins have been described to be expressed in different organ systems including the human reproductive tract. Therefore, this local RAS has been suspected to be involved in the control and regulation of physiological and pathological conditions in the female reproduction tract. This review of the available literature summarizes the physiological influence of the RAS on the follicular development, ovarian angiogenesis, and placental- and uterine function. In addition, in the second part the role of the RAS concerning ovarian- and endometrial cancer becomes elucidated. This section includes possible novel therapeutic strategies via inhibition of RAS-mediated tumor growth and angiogenesis. Looking at a very complex system of agonistic and antagonistic tissue factors, it may be supposed that the RAS in the female reproduction tract will be of rising scientific interest in the upcoming years.

Angiotensin II secretion by the bovine oviduct is stimulated by luteinizing hormone and ovarian steroids

Angiotensin II (Ang II), a vasoactive peptide, is secreted by the bovine oviduct and is involved in modulation of local oviductal contraction. Ang II biosynthesis and release during the normal estrous cycle and the effects of luteinizing hormone (LH) and ovarian steroids on biosynthesis and secretion of Ang II were investigated. During the preovulatory period, increases in mRNA expression for Angiotensin converting enzyme 1 (ACE-1) and release of Ang II peptide were detected. Microdialysis of oviductal segments in vitro showed that LH alone significantly increased Ang II release, and combined infusion of LH+E(2)+P(4) caused an increase in Ang II release. In cultured oviductal epithelial cells, LH increased Ang II release and ACE-1 mRNA expression, and E(2)+P(4) enhanced stimulatory effect of LH on Ang II release and ACE-1 mRNA expression. Thus, it can be concluded that the oviductal Ang II system is upregulated by LH and ovarian steroids during the periovulatory period and may enhance local oviductal contraction. These events could stimulate transport of gametes to the fertilization site.

Clinical implications of the ovarian/endometrial renin-angiotensin-aldosterone system

New organ-specific functions of angiotensin II have recently been described: the importance of its role in the regulation of secretory epithelial function in many tissues including components of the reproductive tract has been documented. The source of angiotensin II in these tissues is the reproductive tract itself, and there is considerable evidence to suggest a distinct renin-angiotensin-aldosterone system in the ovary and uterus. Two main subtypes of angiotensin II receptors are recognized as angiotensin-receptor I and II, according to their sensitivity to the angiotensin II antagonists. However, the presence of angiotensin II receptors in the male and female reproductive tract suggests a multiplicity of roles that are unrelated to their primary functions or to each other. The renin-angiotensin-aldosterone system is a major determinant of sodium balance in pregnancy. More recently RT-PCR methods have revealed angiotensinogen transcription in the smooth muscle of spiral anteries of the decidua; a specific allele of this gene may be associated with hypertension in pregnancy as well as in pre-eclampsia. We investigated the evolution of plasma renin activity and aldosterone levels during normal and hypertensive pregnancy. Both were found to increase progressively during all three trimesters of normotensive pregnancy. Plasma renin activity in hypertensive women remained unchanged during all three trimesters of pregnancy. Plasma aldosterone levels in hypertensive women increased progressively during all three trimesters of pregnancy. However, plasma aldosterone levels remained significantly lower than the ones of normotensive pregnant women. These increased aldosterone levels were noticed despite unchanged renin levels. Further clinical studies investigating the renin-angiotensin-aldosterone system in the pathogenesis of pregnancy hypertension are needed. A renin-independent role of aldosterone in this pathological entity is suggested.

The fallopian tube and reproductive health

The fallopian tube is the essential link between the ovary and the uterus. Its transport mechanisms are now reasonably well understood and include orderly ovum transfer by the fimbria, and ovum/preembryo retention, with transport to the uterus on the third postovulatory day. Sperm/tube interaction ensures a reservoir and storage/activation system at the tubal isthmus. Ovum/tube interaction is driven by the HCO3 ion in the tubal secretions, which also supply pyruvate and other essential substances to the preembryo. Tubal function may be impaired/destroyed by salpingitis, a peritubal disease resulting from ruptured appendix, endometriosis, and ectopic pregnancy (often the result of prior tubal damage with partial occlusion or luminal adhesions). Prophylactic measures include counseling the patient on how to avoid sexually transmitted disease or inhibition of upward ascent of bacteria, and, in the case of ectopic pregnancy, how to use the most efficient contraceptive measures. The least intrusive transfer methods are helpful in avoiding tubal pregnancy following embryo transfer after in vitro fertilization, and results are improved by pretreatment removal of hydrosalpinges. Among adolescents, efforts should be made to preserve tubal function and to increase awareness of the importance of avoiding tubal disease with an eye to preserving future reproductive capacity.