ENOS,ET-1 and ETB-R immunoreactivities in the porcine mesometrial lymphatics during the estrous cycle

Abstract: Immunohistochemical localization and distribution of nitric oxide synthase (eNOS), endothelin (ET-1) and endothelin beta receptor (ETB-R) were investigated in precollector and collector lymph vessels in the broad ligament of the uterus during different phases of the estrous cycle in pigs. The polyclonal antibody for ET-1 and ETB-R and monoclonal antibody for eNOS isoform were used to perform observations on the light microscopic level. Immunoreactivities to ET-1, ETB-R and eNOS were observed in the endothelium of precollector and collector lymphangions but not in smooth muscle cells of the lymphatics examined. The staining for eNOS in the endothelial cells of all studied lymphatic vessels was stronger comparing to ET-1 and ETB-R. During the estrous cycle, only eNOS showed the correlation with the particular phases of the estrous cycle. The differences between ET-1 and ETB-R immunoreactivities were very slight and rather independent of the size or type of the lymphatic lymphangions and estrous cycle. The highest immunoreactivity level for eNOS was displayed by collector lymphangions with widened lumen in the follicular phase comparing to the precollector ones. During the luteal phase, a slight decrease in the reaction intensity was observed. The immunoreactivities for ET-1 in the endothelium of the studied vessels was not comparable with the presence or with the reactivity level of ETB-R. Optically stronger immunoreaction for ETB-R was observed in the cytoplasm of collector lymphangions in the follicular phase. eNOS, ET-1 and ETB-R were also present in the cytoplasm of the lymphatic valves. These results suggest that ET-1 and eNOS can play a role in the mechanisms regulating the vascular contractile activity, promoting lymph flow during the estrous cycle in the porcine broad ligament.     

Expression of VEGF-A,Flt-1, and Flk-1 in the arterial endothelial cells of the uterine broad ligament throughout the estrous cycle

The aim of the present study was to determine the immunoreactivity of vascular endothelial growth factor (VEGF-A) and its two receptors, viz., Flt-1 (fms-like tyrosine kinase) and Flk-1 (fetal liver kinase), on the surface of endothelial cells of the uterine artery and its branches and of the arcuate arteries in the area of the uterine broad ligament during various phases of the estrous cycle in the pig. We also investigated their expression to determine whether this was phase-related. The highest immunoreactivity for VEGF-A was observed in the uterine artery and arcuate arteries at the early luteal phase and in the branches of the uterine artery during the follicular phase of the estrous cycle. The strongest immunostaining intensity of Flt-1 was found in the uterine artery and its branches at the follicular phase and in arcuate arteries at the mid-luteal phase, whereas Flk-1 immunostaining was at its highest in the uterine artery at the mid-luteal phase and in the branches of the uterine artery and arcuate arteries at the follicular phase. Additionally, VEGF-A expression was assessed by semi-quantitative Western blot analysis, which revealed significantly higher levels of VEGF-A protein during the early luteal and the follicular phase of the estrous cycle (P < 0.001). The phase-related differences in the immunoreactivity and expression of VEGF-A and VEGF receptors suggest that these factors are hormone-dependent during the estrous cycle in the pig.     

Immunohistochemical localisation of ET-1 and eNOS in lymphatic stomata of the porcine broad ligament of the uterus

Immunohistochemical localization and distribution of endothelin (ET-1) and nitric oxide synthase (eNOS) were investigated in lymphatic stomata in areas of their special accumulation in the porcine broad ligament during the estrous cycle. The study was performed using polyclonal antibody for ET-1 and monoclonal antibody for eNOS. ET-1 and eNOS immunoreactivities were demonstrated in some thin endothelial lymphatic lacuna walls throughout the estrous cycle. In the mesothelial cell layer, ET-1 and eNOS were detected only in stomata-related cuboidal mesothelial cells, however, the intensity of the immunostaining and distribution of the positive cells varied during the cycle. These results suggest that ET-1 and eNOS can play a role in mechanisms regulating the tone of lymphatic stomata during the absorption and passage of fluids, particles and cells from the peritoneal cavity to lymphatic vessels in the porcine broad ligament.     

Expression and immunolocalization of endothelin peptides and its receptors, ETA and ETB, in the carotid body exposed to chronic intermittent hypoxia.

Increased levels of endothelin-1 (ET-1) in the carotid body (CB) contribute to the enhancement of chemosensory responses to acute hypoxia in cats exposed to chronic intermittent hypoxia (CIH). However, it is not known if the ET receptor types A (ETA-R) and B (ETB-R) are upregulated. Thus, we studied the expression and localization of ETA-R and ETB-R using Western blot and immunohistochemistry (IHC) in CBs from cats exposed to cyclic hypoxic episodes, repeated during 8 hr for 4 days. In addition, we determined if ET-1 is expressed in the chemoreceptor cells using double immunofluorescence for ET-1 and tyrosine hydroxylase (TH). We found that ET-1 expression was ubiquitous in the blood vessels and CB parenchyma, although double ET-1 and TH-positive chemoreceptor cells were mostly found in the parenchyma. ETAR was expressed in most chemoreceptor cells and blood vessels of the CB vascular pole. ETB-R was expressed in chemoreceptor cells, parenchymal capillaries, and blood vessels of the vascular pole. CIH upregulated ETB-R expression by approximately 2.1 (Western blot) and 1.6-fold (IHC) but did not change ETA-R expression. Present results suggest that ET-1,ETA-R, and ETB-R are involved in the enhanced CB chemosensory responses to acute hypoxia induced by CIH.     

Localization and correlation between NADPH-diaphorase and nitric oxide synthase isoforms in the porcine uterus during the estrous cycle

Nitric oxide (NO), a highly reactive free radical is involved in vasodilation, neurotransmission, hormone secretion, and reproduction. Since all known nitric oxide synthase (NOS) isoforms possess NADPH-diaphorase (NADPH-d) activity, NADPH-d histochemistry was used as a commonly accepted procedure for NOS identification. The aim of our study was to determine the cellular localization of NADPH-d, eNOS, and iNOS in the porcine uterus and the correlation between NADPH-d and NOS activity in the early, middle, late luteal, and follicular phase of the estrous cycle. Light-microscopic observations of the sections revealed the differential expression of the NADPH-d in the analyzed stages of the estrous cycle. The most intense staining was observed in the luminal epithelium in the late luteal phase and in some groups of the endometrial glands in all studied stages. Positive reaction was also found in the endothelial cells of blood vessels and in the myometrium itself. Immunostaining for eNOS was observed in the luminal and glandular epithelium in all studied stages, but no clear fluctuations were observed. The endothelium of both endometrial and myometrial blood vessels displayed pronounced eNOS immunostaining. Strong iNOS staining was observed in the luminal epithelium in the late luteal and follicular phase and in selected groups of endometrial glands. Thus, only NADPH-d and iNOS undergo cyclic changes in the studied stages of the estrous cycle. The differential expression of NADPH-d/NOS in the porcine uterine horn during the estrous cycle suggests a role for NO in modulating uterine function.     

Uterine and ovarian blood flow during the estrous cycle in mares

Uterine and ovarian blood flow was investigated in four mares during two consecutive estrous cycles using transrectal color Doppler sonography. The uterine and ovarian arteries of both sides were scanned to obtain waves of blood flow velocity. The pulsatility index (PI) reflected blood flow. There were significant time trends in PI values of all uterine and ovarian blood vessels during the estrous cycle (P < 0.05). PI values did not differ between the uterine arteries ipsi- and contralateral to the corpus luteum or the ovulatory follicle. PI values of the uterine arteries showed a wave shaped profile throughout the estrous cycle. The highest PI values occurred on Days 0 and 1 (Day 0 = ovulation) and around Day 11, and the lowest PI values were measured around Days 5 and -2 of the estrous cycle. During diestrus (Days 0-15) PI values of the ovarian artery ipsilateral to the corpus luteum were significantly lower than PI values of the contralateral ovarian artery (P < 0.0001). No differences (P > 0.05) in resistance to ovarian blood flow occurred between sides during estrus (Days -6 to -1). In this cycle stage PI values decreased in both ovarian vessels (P < 0.05). During diestrus, high PI values of the ovarian artery ipsilateral to the corpus luteum were measured between Days 0 and 2, followed by a decline until Day 6 (P < 0.05). From this time on, the resistance to blood flow increased continuously until Day 15 (P < 0.05). The cyclic blood flow pattern in the contralateral ovarian artery was similar to that in the uterine arteries (r = 0.68; P < 0.0001). No correlations occurred between the diameter of the corpus luteum and the PI values of the ipsilateral ovarian artery (P > 0.05) during diestrus. During estrus, there was a negative relationship between growth of the diameter of the ovulatory follicle and changes in PI values of the dominant ovarian artery (r = -0.41; P < 0.05). PI values of the uterine arteries and of the ovarian artery ipsilateral to the ovulatory follicle were negatively related to estrogen (E) levels in plasma during estrus (uterine arteries: r = -0.21; P < 0.05; dominant ovarian artery: r = -0.35; P < 0.05). In diestrus, PI values of the dominant ovarian artery were negatively related to plasma progesterone levels (r = -0.38; P < 0.0001), but not the PI values of the uterine arteries (P > 0.05). The findings of this study show that there are characteristic changes in blood supply of the uterus and the ovaries throughout the equine estrous cycle. There are negative correlations between resistance to blood flow in the uterine and ovarian arteries and the plasma estrogen levels during estrus. In diestrus, there is a negative relationship between the resistance to ovarian blood flow and the progesterone levels.     

Distribution of NADPH-diaphorase and nitric oxide synthase (NOS) in different regions of porcine oviduct during the estrous cycle.

Nitric oxide synthase (NOS) is responsible for the biological production of nitric oxide (NO) in several organs, including those of the reproductive tract. We investigated potential changes in NADPH-diaphorase (NADPH-d) activity (marker for NOS activity) and the presence and distribution of NOS in the porcine oviduct. Tissues were obtained from gilts (n=16) on different days of the estrous cycle. One fallopian tube was used for histo- and immunohistochemistry and the other for Western blotting analysis. NADPH-d activity was much higher in the epithelium of the mucosa than in the myosalpinx. The highest activity of NADPH-d was always found in the epithelium of the isthmus. The intensity of the reaction (arbitrary units +/- SEM) in isthmus epithelium increased from the postovulatory period until early proestrus (96.2 +/- 11.2) and then gradually decreased. The lowest intensity of NADPH-d reaction in the epithelium of the isthmus was seen at estrus (58.4 +/- 7.7). The most intense NADPH-d activity in myosalpinx of all parts of the oviduct was observed at the postovulatory stage of the estrous cycle (isthmus 38.3 +/- 2.5; ampulla 35.6 +/- 4.2; infundibulum 24.7 +/- 0.8) and then decreased during the remaining stages of the estrous cycle (p< 0.001). The presence of endothelial NOS (eNOS) was detected in epithelial cells of mucosa and in endothelium of vascular tissues and myosalpinx during all studied days of the estrous cycle. The positive reaction for inducible NOS (iNOS) was restricted only to the endothelium of lymph vessels and some blood vessels. Because our Western blotting analysis revealed that porcine oviduct contains eNOS but not iNOS, we suggest that eNOS is the main isoform of NOS expressed in the porcine oviduct. We concluded that the different activity of NADPH-d in the various regions of the oviduct, accompanied by changes in its activity during the course of the estrous cycle, could indicate an important role of NO in regulation of tubal function.     

鼠兔子宫血管铸型的光镜和扫描电镜观察

用光镜和扫描电镜观察了ＡＢＳ丁酮溶液灌注的达乌尔鼠兔子宫血管与微血管构筑情况。子宫大部分血液来自子宫动脉,小部分来自生殖动脉。各弓状动脉进入宫壁后,即在宫壁内分支形成３个血管层：浆膜层、大血管层和粘肌层。研究发现鼠兔子宫内膜血管呈树杆状或有轻度弯曲向腔面垂直穿行,直至浅层分支形成毛细血管网和较大的窦状毛细血管;其内膜血管形态与有月经的人子宫内膜螺旋动脉明显差异。文中还对子宫微血管构筑与月经产生机制     

The influence of reproductive phase on lipopolysaccharide stimulation of prostacyclin production and cyclooxygenase-2 protein concentrations in reproductive and systemic arteries of the sheep

Cyclooxygenase, the enzyme that converts arachidonate to prostaglandins, plays a regulatory role in vasodilation under normal and pathological conditions. Studies were conducted to determine the effects of reproductive phase and lipopolysaccharide (LPS) on production of PGI2 and amounts of cyclooxygenase protein in uterine, mammary, mesenteric, and renal arteries. Arteries were collected from ewes during the follicular (Day 0 = estrus) or luteal (Day 10) phase of the estrous cycle and were cultured in the presence of LPS. After 24 h, media were collected and analyzed for 6-keto-PGF1alpha, the stable metabolite of PGI2. In addition, arteries were collected and homogenized and the relative concentration of cyclooxygenase was determined via Western analysis. Lipopolysaccharide stimulated PGI2 production in all four-artery types from both follicular and luteal phase ewes (p < 0.001). Upon LPS stimulation, uterine and mammary arteries produced more PGI2 compared to mesenteric and renal arteries (p = 0.04). The phase of estrous cycle did not affect PGI2 production by any of the artery populations exposed to LPS (p = 0.35). There was no cyclooxygenase-2 in untreated uterine and mammary arteries and no cyclooxygenase-2 was detected in untreated or LPS-treated mesenteric and renal arteries. In contrast, LPS-treated uterine and mammary arteries from luteal phase ewes had higher (p = 0.064) cyclooxygenase-2 concentrations than those from follicular phase ewes. These results suggest that the hormone conditions of the follicular (high estrogen) and luteal (high progesterone) phases of the ovarian cycle play a role in regulating uterine and mammary artery but not mesenteric and renal artery response to LPS.     

Localization of neuropeptide Y and norepinephrine in the porcine ovarian artery and their influence on the local blood pressure

The aim of the present study was to determine: (i) the presence of dopamine-beta-hydroxylase (DbetaH)- and neuropeptide Y (NPY)-immunoreactive (IR) nerve fibres in the wall of the porcine ovarian artery, (ii) the influence of NPY and norepinephrine (NE) on the contractile activity of the pig ovarian arteries, and (iii) the pharmacological analysis of the interaction between NPY and NE in the isolated porcine ovarian arteries collected from immature pigs and from animals in different days of the estrous cycle. Ovarian arteries for immunohistochemistry and isolated arteries for pharmacological studies were excised from immature pigs and mature animals on days 1-5, 8-13 and 17-20 of the estrous cycle. The study showed that both DbetaH- and NPY-IR nerve fibres were present in the pig ovarian arteries in all periods examined, and, that in some fibres DbetaH and NPY were co-localized. Both NE (10(-6) M) and NPY (10(-7) M) increased blood pressure of examined preparations, however, NE caused stronger changes in the vessel wall tension (P<0.001), than did NPY. NE significantly increased (P<0.001) blood pressure of all isolated arteries, however, this response was stronger in vessels from days 1-5 of the cycle, when compared to days 8-13 (P<0.01), 17-20 and immature pigs (P<0.001). NPY increased significantly blood pressure in isolated arteries from days 8-13 and 17-20 of the cycle (P<0.001), while in preparations taken from immature pigs and animals on days 1-5 of the estrous cycle this response was somewhat weaker (P<0.01). A higher elevation (P<0.001) of blood pressure after NPY administration was observed in isolated arteries from days 17-20 of the cycle, when compared to vessels from days 1-5 and 8-13 and those from immature pigs. Moreover, NE significantly intensified (P<0.001) an increase in the blood pressure in isolated arteries pre-treated with NPY in all periods examined. NPY insignificantly (P>0.05) potentiated increase of blood pressure in NE pre-treated vessels of immature pigs and in isolated arteries from days 17-20 of the cycle and significantly (P<0.05) in vessels from days 1-5 and 8-13 of the estrous cycle. Our results indicate that DbetaH- and NPY-IR nerve fibres are present in the pig ovarian arteries. NE and NPY administered alone increased blood pressure in the pig isolated ovarian artery and simultaneous administration of both substances caused each other potentiation of vasocontractile effect, however, the strength of observed changes was dependent on the stage of the estrous cycle.     

Triplex Doppler evaluation of uterine arteries in cyclic and pregnant domestic cats

The aims were to determine resistance index (RI) and pulsatility index (PI) in the uterine arteries of cyclic and pregnant domestic cats comparing the left and right uterine horns, as well as the majority or minority uterine horns, based on fetus number per horn; to determine the presence or absence of an early diastolic notch (EDN) in the uterine artery of pregnant queens. Ten domestic cats were followed during one cycle and one pregnancy until 63rd days after mating. The estrous cycle length was 16 ± 9.57 days. The uterine horn with the highest number of fetuses (majority uterine horn - MUH) presented 2.0 ± 1.0 fetus and the lower (minority uterine horn - miUH) presentes 0.78 ± 0.67 fetus. There were no differences in indexes between uterine arteries during the cycles and pregnancies. The RI and PI of MUH were lower than miUH (P<0.05). Uterine artery of the MUH presented lower indexes than miUH during the acceptance period (P<0.05). On D14 of pregnancy, uterine artery presented reductions in both indexes for the miUH. On D56, the PI was reduced in the miUH. The indexes depended on the week of pregnancy. EDN was present on the uterine arteries of all cats until D35, but disappeared by D49. The blood flow varied according to the category of horn.     

The effects of superior ovarian nerve sectioning on ovulation in the guinea pig

The effects on spontaneous ovulation associated with the unilateral or bilateral sectioning of the superior ovarian nerves (SON) were analyzed in guinea pigs at different time intervals of the estrous cycle. Day 1 of the estrous cycle was defined as the day when the animal presents complete loss of the vaginal membrane (open vagina). Subsequent phases of the cycle were determined by counting the days after Day 1. All animals were autopsied on the fifth day of the estrous cycle after surgery. Sectioning the right, left, or both SONs on day 5 (early luteal phase) resulted in a significant increase in the number of fresh corpora lutea. Ovulation increased significantly when the left SON (L-SON) was sectioned during late follicular phase (day 1) and medium luteal phase (day 8). When surgery was performed on days 1 or 8, neither sectioning the right SON (R-SON) nor sectioning the SON bilaterally had an apparent effect on ovulation rates. Similarly, ovulation rates were not affected when unilateral (right or left) or bilateral sectioning of the SON was performed during late luteal phase two (day 12). Unilateral or bilateral sectioning of the SON performed during the early luteal phase (day 5) was associated with a significant decrease in uterine weight. A comparable effect was observed when the L-SON was sectioned during late follicular phase (day 1), or medium luteal phase (day 8). No effects on uterine weight were observed when unilateral or bilateral sectioning of the SON was performed during late luteal phase. Our results suggest that in the guinea pig the SON modulates ovulation, and that the degree of modulation varies along the estrous cycle. The strongest influence of the SONs on ovulation occurs during early luteal phase, and decrease thereafter, being absent by late luteal phase. In addition, sectioning the left or the right SON caused different responses by the ovaries of adult guinea pigs. This paper discusses the mechanisms by which ovulation increased when the SON was surgically cut.     

慢性缺氧对大鼠肺内皮素表达的影响

本文以ＡＢＣ法和原位杂交技术,观察了慢性缺氧时大鼠肺组织内内皮素－１（ＥＴ－１）的表达情况,结果发现：①正常肺血管内皮细胞有少许ＥＴ－１样阳性染色物质呈现。②缺氧ＩＷ后,肺内ＥＴ－１含量增加,主要位于肺血管内皮细胞和支气管粘膜上皮细胞。③缺氧２Ｗ和３Ｗ后,ＥＴ１阳性免疫物质进一步增加,于肺泡细胞内也见到阳性染色。④缺氧１Ｗ后肺内ＥＴ－１ｍＲＮＡ表达增加,缺氧２Ｗ和３Ｗ后,ＥＴ－１ｍＲＮＡ的表达进一步加强。提示缺氧可刺激肺内ＥＴ－１ｍＲＮＡ的表达,慢性缺氧时肺内ＥＴ－１持续分泌增加,这可能是缺氧性肺动脉高压发生的重要因素之一。     

Variations in free secretory component levels in mucosal secretions of the rat

The present studies were conducted to compare the levels of free secretory component (SC) in a number of rat mucosal secretions and to determine whether SC content varies significantly during the four stages of the estrous cycle. Levels of SC, as measured by radioimmunoassay, were markedly different in various external secretions. Bile contained the highest amount, irrespective of whether SC was normalized to volume or protein. Concentrations of SC in saliva or uterine fluid from intact rats were approximately 20- to 30-fold less than measured in bile. When SC levels were normalized to protein, the SC to protein ratios in uterine, vaginal, and respiratory secretions were six to 18 times greater than values calculated in salivary and small intestinal fluids. Analysis of SC levels in mucosal secretions during the estrous cycle indicated significant variations occur in uterine and vaginal samples, but not in saliva or small intestinal secretions. In the uterine lumen, SC levels were highest at proestrus, partially elevated at estrus, and lowest at both days of diestrus. In contrast, vaginal SC levels were maximal at estrus and reduced at all other stages of the cycle. Immunoglobulin A content was also measured in uterine and vaginal secretions during the estrous cycle. Significant changes in IgA levels were found and these coincided with the changing pattern of SC. These results suggest hormones may modulate SC levels in reproductive tissues. In addition, our findings indicate variations in SC during the estrous cycle may direct the movement of IgA from tissue to lumen.     

The effect of the estrous cycle on the expression of prepro-orexin gene and protein and the levels of orexin A and B in the porcine pituitary

Hypothalamic peptides orexin A (OXA) and orexin B (OXB) are derived from the proteolytic cleavage of a common precursor molecule, prepro-orexin (PPO). They act via two orexin receptors (OX1R and OX2R), which belong to the G-protein coupled receptor superfamily. Orexins are implicated in the regulation of arousal states, energy homeostasis and reproductive neuroendocrine function. The objective of this study was to investigate the presence and changes in orexin expression in the porcine pituitary during the estrous cycle. Adenohypophysis (AP) and neurohypophysis (NP) tissue samples were harvested on days 2 to 3, 10 to 12, 14 to 16, and 17 to 19 of the estrous cycle. The expression of the PPO gene increased in AP and NP during the estrous cycle. The highest PPO protein concentrations in AP were reported on days 2 to 3 (P<0.05), and in NP – on days 10 to 12 and 17 to 19 (P<0.05). The expression of PPO mRNA was lower in AP than in NP, but PPO protein levels were higher in AP. In AP, OXA immunoreactivity was higher (P<0.05) on days 10 to 12 and 14 to 16. In NP, the highest (P<0.05) content of the analyzed protein was observed on days 10 to 12 and the lowest (P<0.05) – on days 14 to 16 and 17 to 19. OXB immunoreactivity in AP reached the highest level (P<0.05) on days 2 to 3, and the lowest level (P<0.05) was determined on days 10 to 12 and 17 to 19. OXB protein concentrations in NP peaked (P<0.05) on days 10 to 12 of the cycle. Our study was the first experiment to demonstrate the expression of the orexin gene and orexin proteins in the porcine pituitary and the correlations between expression levels and the phase of the estrous cycle.     

A collaboration of aquaporins handles water transport in relation to the estrous cycle in the bitch uterus

Fluid movement through uterine cell membranes is crucial, as it can modulate the tissue imbibition pattern in the different phases of the estrous cycle. To gain insight into the mechanisms underlying steroid-controlled water handling, the presence and distribution of aquaporins (AQPs), integral membrane channel proteins permitting rapid passive water movement, was explored in bitch uterine tissues. Immunohistochemistry and Western immunoblot analysis were used to study the presence of AQP1, AQP2, and AQP5 in the layers of the bitch uterine wall during the different estrous phases. Presence of endothelial nitric oxide-generating enzyme NO synthase (NOS3) was also investigated, as it is known that the vasodilator NOS3 might be involved in the development of uterine edema. The results demonstrated the following: (1) AQP1, AQP2, and AQP5 were present in the uterus of cycling bitches. (2) AQP1 was localized within uterine mesometrial, myometrial, and endometrial blood vessels and in the circular and longitudinal layers of myometrium. AQP1 localization and expression were unaffected by the estrous cycle. (3) The estrogenic milieu was probably at the basis of AQP2 expression in the glandular and luminal epithelium of the endometrium. (4) AQP5 water channels were present in the apical plasma membrane of uterine epithelial cells in coincidence with plasma progesterone increase. (5) NOS3 was localized in the myometrial and epithelial tissues as well as in blood vessels indicating a contribution of this vasoactive peptide to the uterine imbibition processes. Thus, we can hypothesize that a functional and distinctive collaboration exists among diverse AQPs in water handling during the different functional uterine phases.     

Changes in tissue histamine during the estrous cycle, pregnancy and pseudopregnancy in the golden hamster

The histamine content of reproductive tissues and skeletal muscle was determined in the golden hamster during the estrous cycle, pregnancy, and pseudopregnancy. Histidine decarboxylase activity was measured in uterine implantation sites and intersites from Day 4 to Day 10 of pregnancy. Histidine decarboxylase was also measured in mesometria and placentas on selected days of gestation. During the estrous cycle, uterine and skeletal muscle histamine levels were highest on Day 2 and lowest on Day 4 of the cycle. The ovarian histamine content did not change significantly among the different stages of the cycle. While the histamine content of uterine implantation sites of attachment was high on Days 4 and measurable on Days 5 and 6 of pregnancy, the levels were below the limits of detection by Day 7. On the other hand, the highest levels of histamine were in the uterine interimplantation sites on Days 8 and 9. The ovarian levels of histamine were highest on Day 13 of pregnancy. Histamine in skeletal muscle did not change significantly during pregnancy. The histidine decarboxylase activity in the implantation sites began rising on Day 9 and increased dramatically on Day 10. Placental histidine decarboxylase activity was very high on Days 13 and 15. Overall, we observed changes in uterine and skeletal muscle histamine during the estrous cycle that may be explainable in light of previously reported changes in mast cell numbers and circulating estrogens. During pregnancy, histamine levels of implantation sites and implantation intersites varied, as did the histamine content of ovarian tissue. Histidine decarboxylase activity rises in the uterus and placental tissue after the formation of the placenta.     

Interaction of 4-hydroxylated estradiol and potential-sensitive Ca2+ channels in altering uterine blood flow during the estrous cycle and early pregnancy in gilts

This study was conducted to define further the role of catechol estrogens (CE) as intermediates in estrogen-stimulated uterine hyperemia. Previous studies from our laboratory strongly suggest that changes in uterine blood flow (UBF) result from alterations in uterine arterial tone (distensibility) and/or contractility (reactivity to alpha 1-adrenergic agonists). Tone changes appear to set the baseline rate of flow, whereas contractility changes result in short-term reductions in luminal diameter. Changes in uterine arterial tone and contractility result from alterations in Ca2+ uptake through potential-sensitive channels (PSCs) and receptor-operated channels (ROCs), respectively. Uterine and mesenteric arteries were removed from 6 gilts at estrus (Day 0), 9 gilts on Day 13 of gestation (high estrogen, high UBF), and 8 gilts on Day 13 of the estrous cycle (low estrogen, low UBF). Arterial measurements included initial tone (baseline perfusion pressure [BPP] to a constant intraluminal flow) and increased tone after exposure to KCl, the contractility in response to the alpha 1-agonist phenylephrine, and specific uptake of 45Ca before and after exposure to the CE 4-hydroxylated estradiol (4OH-E2). Contractility of uterine arteries from Day 13 nonpregnant (NP) and Day 13 pregnant (P) gilts to phenylephrine were similar and significantly greater (p less than 0.01) than contractility of vessels from estrous gilts. The BPP and responses of uterine arteries from Day 13 NP gilts to KCl were greater (p less than 0.05) than the BPP and responses of arteries from Day 13 P and estrous gilts, which were similar to each other.(ABSTRACT TRUNCATED AT 250 WORDS)