Patterns of estrogen and progesterone receptors in rhesus monkey endometrium during secretory phase of normal menstrual cycle and preimplantation stages of gestation

Using validated methods, estradiol receptor (ER) and progesterone receptor (PgR) levels have been estimated in endometria collected in secretory phase of normal menstrual cycle and preimplantation stages of gestation from rhesus monkeys (Macaca mulatta). Endometrial PgR in both cytoplasmic and nuclear compartments decreased significantly (P less than 0.001) from day 2 to day 6 post-ovulation in both groups, but in fertile cycle, absolute levels of nuclear PgR remained significantly higher (P less than 0.05) on days 4, 5 and 6 of gestation, ER concentrations, both total (P less than 0.02), as well as cytoplasmic (P less than 0.01) declined significantly in secretory phase of normal menstrual cycle while nuclear ER levels remained unchanged. In the preimplantation period, ER patterns remained unvarying on days 2-6 of gestation in both cytoplasmic and nuclear compartments; their levels in nuclear fraction were significantly higher from day 3 onwards while, total cytoplasmic ER concentrations were higher from day 4 of gestation compared with the values obtained for secretory phase tissues from normal ovulatory cycles. No changes were, however, detected in apparent equilibrium dissociation constants (Kd) for the sex steroid receptors in endometria obtained from fertile and non-fertile cycles. It has been suggested that in prenidatory stage rhesus monkey endometrium elevated concentrations of nuclear ER and PgR possibly indicate higher degree of nuclear occupancy required for endometrial differentiation permitting blastocyst implantation.     

VEGF, bFGF, and their receptors in the endometrium of rhesus monkey during menstrual cycle and early pregnancy

A number of cytokines and growth factors are known to modulate proliferation and differentiation of human endometrium. In this study, the expression of vascular endothelial growth factor (VEGF), basic fibroblast growth factor (bFGF), and VEGF receptors, fms-like tyrosine kinase (Flt1) and kinase insert domain-containing region (KDR), and bFGF receptor 1 (Flg) were examined in the endometrium of rhesus monkey on Day 5, 10, 16, 20, 25 of menstrual cycle and on Day 19 of early pregnancy. Western blot analysis showed the specificity of the anti-human antibodies with the monkey tissue. The expression of mRNA and protein of VEGF was correlated with that of its receptor KDR, which was detected in epithelial, vascular, and myometrial cells. The localization of bFGF and its receptor Flg was similar to that of VEGF, except that the Flg was absent in the endothelial cells. Strong expression of VEGF and bFGF in the glandular epithelial cells was observed in the proliferative phase, declined in the secretory phase during the cycle. Stronger staining of these factors was also observed in the decidual cells of the pregnant uterus, as compared with the stromal cells of cycling uterus. No expression of Flt1 was detected in the tissue examined in this study. These data suggest that VEGF, bFGF, and their receptors play important roles in epithelial and stromal development, angiogenesis, and blood vessel function in the endometrium during the menstrual cycle and early pregnancy of the rhesus monkey.     

Ultrasonographic assessment of the endometrium in rhesus monkeys during the normal menstrual cycle

This study was undertaken to determine whether cyclical changes in the endometrium of the rhesus monkey could be observed by using ultrasound. Three indices of endometrial size were examined: the antero-posterior (or ventro-dorsal), longitudinal, and transverse diameters. Changes in the ultrasonic reflectivity of the endometrium were also assessed. We have attempted to correlate these endometrial parameters with the hormonal status of the animal. Ultrasonography was performed for an average of 12 consecutive days during 19 menstrual cycles. All ultrasonic recordings were normalized to the day of the estradiol (E2) peak (Day 0). We found that the reflectivity of the endometrium was dependent on the stage of the cycle: during the follicular phase, the endometrium appeared less echogenic (darker) compared to the myometrium; in the luteal phase, the endometrium was more echogenic (lighter). During the follicular phase (Days -9 to 0), there was a linear increase in the antero-posterior (p less than 0.001), longitudinal (p less than 0.05), and transverse (p less than 0.001) diameters. In the luteal phase (Days 1-15), no significant changes were observed in these diameters. An estimated endometrial volume (EEV) was obtained by the product of the antero-posterior, longitudinal, and transverse diameters. Each animal observed during the follicular phase (n = 14) exhibited a peak in the EEV, which correlated with the day of the E2 peak (p less than 0.01). From this study, we conclude that the sonographic appearance of the endometrium of the rhesus monkey reflects the cyclical changes that occur during the menstrual cycle.(ABSTRACT TRUNCATED AT 250 WORDS)     

Characterization of estrogen and progesterone receptors in monkey endometrium: methodology and effects of estradiol and/or progesterone on endometrium of castrate monkeys.

Appropriate methods for repeated surgical collection of endometrial tissue from rhesus monkeys, and characterization of cytosol and nuclear estrogen (E₂) and progesterone (P) receptors (R) are described. Tissue collection was made in the mid-luteal phase at abdominal fundal hysterotomy. Functional status of the ovaries was determined by visual inspection and RIA of E₂ and P in serum. Receptor assay procedures were devised permitting the measurement of total cytosol and nuclear receptor concentration. Sucrose density gradients of labelled cytosol were made and a 4S saturable binding component for ³H P and for ³H E₂ were found. Equilibrium dissociation constants of ³H E₂ and ³H R5020 were 2.1×10^?10M and 3.6 × 10^?9M, respectively. These binding characteristics are similar to those found in human endometrium and suggest that these surrogate primates have extensive utility in investigation of factors influencing E₂R and PR concentrations in endometrial tissue during the menstrual cycle and implantation. Simulated menstrual cycle were produced in 20 castrate monkeys by sequential treatment with estradiol and progesterone in silastic capsules. RIA of E₂ and P, and gonadotropins in peripheral serum provided assuredness of the hormonal status of each monkey under treatment. Cytosol and nuclear receptors for E₂ and P were measured in the endometrium after different intervals of the treatment. E₂ receptor (E₂R) levels were not changed during the estrogen sequence, but were lowered by progesterone therapy in both cytosol and nuclear components. Progesterone receptor (PR) synthesis in cytosol was induced by exogenous estrogen. The total concentration of PR decreased with the uptake of P by the cell; meanwhile, the ratio of cytosol to nuclear P receptors declined. These data suggest that this sequential estrogen-progesterone regimen induces the changes in E₂R and PR patterns in the endometrium of ovariectomized monkeys which occurs due to ovarian cyclicity in the normal menstrual cycle.     

The distribution of oestrogen and progesterone receptors in the human endometrial basal and functional layer during the normal menstrual cycle

The distribution of oestrogen and progresterone receptors in the human endometrial basal and functional layer during the normal menstrual cycle was investigated by means of an immunocytochemical technique. A cyclic pattern of receptor distribution was observed. The highest concentration of hormone receptors was observed in the basal layer, in accordance with the idea that this layer is the source of endometrial regeneration.     

Protein synthesis and secretion by the human endometrium during the menstrual cycle and the effect of progesterone in vitro

To identify markers of endometrial differentiation specimens of endometrium from the menstrual cycle were incubated in vitro with [35S]methionine, in the absence or presence of progesterone, and protein synthesis and secretion were studied by fluorographic analysis of one dimensional SDS/gradient polyacrylamide gels. Changes were demonstrated in the rate of synthesis and secretion of a number of endometrial proteins (EP) during the cycle and in response to progesterone. Endometrial proteins were classified into three groups: Group I-synthesized and secreted throughout the menstrual cycle and unaffected by progesterone exposure; Group II-synthesis and secretion associated with histological type of endometrium and unaffected by progesterone exposure, e.g. EP 13 (Mr 33,000) with proliferative, EP 15 (Mr 28,000) with secretory and EP 14 (Mr 32,000) with late secretory endometrium; Group III-synthesis and secretion regulated by progesterone exposure irrespective of source of endometrium, e.g. EP 9 (Mr 54,000) and 11 (Mr 45,000). The Group II proteins EP 14 and 15 were also the major secretory protein products of endometrium from first and second trimester pregnancy respectively, the native forms referred to as pregnancy-associated endometrial alpha 1- and alpha 2-globulins (alpha 1- and alpha 2-PEG). We conclude that EP 15 (alpha 2-PEG) represents a human analogue of uteroglobin.     

Expression of calbindin-D28k and its regulation by estrogen in the human endometrium during the menstrual cycle

Human endometrium resists embryo implantation except during the 'window of receptivity'. A change in endometrial gene expression is required for the development of receptivity. Uterine calbindin-D28k (CaBP-28k) is involved in the regulation of endometrial receptivity by intracellular Ca2+. Currently, this protein is known to be mainly expressed in brain, kidneys, and pancreas, but potential role(s) of CaBP-28k in the human uterus during the menstrual cycle remain to be clarified. Thus, in this study we demonstrated the expression of CaBP-28k in the human endometrium in distinct menstrual phases. During the human menstrual cycle, uterine expression levels of CaBP-28k mRNA and protein increased in the proliferative phase and fluctuated in these tissues, compared with that observed in other phases. We assessed the effects of two sex-steroid hormones, 17beta-estradiol (E2) and progesterone (P4), on the expression of CaBP-28k in Ishikawa cells. A significant increase in the expression of CaBP-28k mRNA was observed at the concentrations of E2 (10(-9 to -7) M). In addition, spatial expression of CaBP-28k protein was detected by immunohistochemistry. CaBP-28k was abundantly localized in the cytoplasm of the luminal and glandular epithelial cells during the proliferative phases (early-, mid-, late-) and early-secretory phase of menstrual cycle. Taken together, these results indicate that CaBP-28k, a uterine calcium binding protein, is abundantly expressed in the human endometrium, suggesting that uterine expression of CaBP-28k may be involved in reproductive function during the human menstrual cycle.     

Fas, FasL, Bcl-2, and Bax in the endometrium of rhesus monkey during the menstrual cycle

To study possible role and regulation of apoptosis occurred in primate endometrium, the expression of apoptosis-related molecules, Fas, FasL, B cell lymphoma/leukaemia-2 (Bcl-2), and Bax were analyzed in relation to occurrence of apoptosis and proliferation in the cycling endometrium of the rhesus monkey using immunohistochemistry and Western blot. The cell apoptosis and proliferation were evaluated by means of in situ 3'-end labeling and Ki67 immunostaining, respectively. The results showed that the expressions of Fas, Fas ligand (FasL), Bcl-2, and Bax were co-localized predominantly in the epithelial cells of the endometrium. Modest Fas staining with no obvious change was detected throughout the menstrual cycle, while the levels of FasL and Bax protein in the epithelial cells increased in the secretory phase when apoptosis was most prevalent. In contrast, epithelial immunostaining for Bcl-2 was maximal during the proliferative phase and decreased in the secretory phase. Bcl-2 immunoreactivity was also detected in some immunocytes. The coordinated expression of Fas, FasL, Bcl-2, and Bax in the cycling endometrium of the rhesus monkey suggests that the cyclic changes in endometrial growth and regression may be regulated by the balance of these factors under the action of ovary steroids.     

Radioimmunoassay of plasma and salivary progesterone during the menstrual cycle

We have developed specific and sensitive radioimmunoassays for progesterone in saliva (SP4) easily applicable in routine practice to assess ovarian function. One of them uses [³H]progesterone, the other 3-CMO-[¹²⁵I]histamin as tracer. The reliability criteria of both techniques have been controlled and the results obtained with the two methods in 50 saliva samples are correlated well. Our clinical study has been chiefly done with [³H]progesterone. In the present study we reported the values obtained daily during the greatest part of the menstrual cycle in 14 normal cases and they are in agreement with previous reports. The use of [¹²⁵I]tracer, by increasing the sensitivity of the RIA and shortening the duration of the assay, improves the use of SP4 as a practical non-invasive sampling alternative for many clinical situations involving evaluation of the ovarian function.     

Expression of vascular endothelial growth factor receptors in the human endometrium: modulation during the menstrual cycle

Angiogenesis is fundamental for human endometrial development and differentiation necessary for implantation. These vascular changes are thought to be mediated by the vascular endothelial growth factor (VEGF), whose specific receptors have not been examined in detail thus far. We conducted the present study to determine, by immunocytochemistry and computerized image analysis of the functionalis, the expression and modulation of the receptors Flk-1/KDR and Flt-1, which mediate VEGF effects on endothelial mitogenicity, chemotaxis, and capillary permeability. VEGF receptors are expressed mainly in endometrial endothelial cells, with variations of intensity and number of stained capillaries related to the phase of the cycle. The number of capillaries immunostained for Flk-1/KDR was maximal in the proliferative phase (ratio Flk-1/CD34: 1), twice as high as the number of Flt-1-expressing capillaries (ratio Flt-1/CD34: 0.47). The staining intensity for Flk-1 decreased during the late proliferative and early secretory phases, to increase again in the midsecretory period. The number of Flt-1-labeled capillaries was about 2-fold higher in the secretory than in the proliferative phase; however, the proportion of Flt-1-positive cells did not change, owing to the associated increase in vascular density that characterizes progression of the functionalis from the proliferative to the secretory stage. The staining intensity for Flt-1 was higher during the late proliferative and secretory phases (especially in the midsecretory phase) and the premenstrual period. In contrast, the proportion of capillaries expressing Flk-1/KDR decreased in the secretory phase (ratio Flk-1/Von Willebrand factor: 0.55). Enhanced expression of Flk-1/KDR, and of Flt-1, on narrow capillary strands at the beginning of and during the proliferative phase may account for the rapid capillary growth associated with endometrial regeneration following menstrual shedding. The high coexpression of Flk-1/KDR and Flt-1 observed on capillaries during the midsecretory period correlates with an increase of endometrial microvascular density and of permeability characteristic of this phase of the cycle, which is a prerequisite for implantation. Finally, strong expression of Flt-1, but not Flk-1/KDR, was observed on dilated capillaries during the premenstrual period and the late proliferative phase, suggesting preferential association of Flt-1 with nonproliferating capillaries at those times; activation of this receptor by VEGF could be involved in premenstrual vascular hyperpermeability, edema, and extravasation of leukocytes. In addition to the endothelial localization, we found that epithelial cells expressed Flt-1 and Flk-1/KDR. We conclude that Flt-1 and Flk-1/KDR in the functionalis are modulated in parallel or independently according to the phase of the cycle, and that these changes are responsible for VEGF actions on endometrial vascular growth and permeability. The molecular mechanisms concerning these regulations will require further investigation.     

Localization of estrogen and progesterone receptors in the endometrium of common marmosets Callithrix jacchus

In the present study, changes in the immunohistochemical localization of endometrial estrogen receptor (ER) and progesterone receptor (PR) during various stages of the ovarian cyclicity in common marmoset, have been reported. Ovarian cyclicity was monitored by estimating plasma estradiol and progesterone. During the early follicular phase, weak ER immunolocalization was observed in the endometrial stroma. During the late follicular phase under the influence of rising estradiol levels, stromal ER localization was intense. During the luteal phase, ER localization was absent in the stroma indicating that high concentrations of progesterone suppressed ER. PR localization was not observed in the stroma during the early follicular phase, while weak staining was seen in the stroma during the late follicular phase. PR localization was maximum during the mid luteal phase. However in marmoset, endometrial ER and PR localization was restricted only to the stroma. This unique feature may be due to the characteristic reproductive profile of this nonmenstruating species and needs to be studied further. Thus it can be hypothesized that in the marmoset endometrium, steroid hormone mediated effects possibly occur directly in the stroma and are then transmitted to the epithelium by autocrine/paracrine action of growth factors and cytokines.     

Luteinizing hormone receptors in ovaries of the cynomolgus monkey (Macaca fascicularis) during the menstrual cycle

Ovarian luteinizing hormone (LH) receptors were characterized using ovarian tissues from 17 cynomolgus monkeys at different phases of the menstrual cycle. Low binding affinity receptors for ¹²⁵I-LH were observed throughout the menstrual cycle. The binding affinity of these receptors for LH (< 12 × 10¹⁰ M^?1) was approximately the same as that of ovarian LH receptors previously reported in human and nonhuman primates. In addition, high-affinity receptors (17?85 × 10¹⁰ M^?1) were also detected at the mid-luteal phase, during which a large functional corpus luteum was present. Thus the high-affinity LH receptors appear with the formation of the corpus luteum and disappear with its regression. Almost no fluctuation of binding capacity was observed throughout the menstrual cycle (32?112 fmol/ mg of ovarian tissue). The high-affinity LH receptor was judged to be derived from the functional corpus luteum.     

Histochemical study of the enzymes of glycogen metabolism in the human endometrium during the normal menstrual cycle]

The content of glycogen in the human endometrium is dependet on the activity of enzymes involved in processes of synthesis and dissociation of glicogen: glycogen-synthetase, phosphorilase and glycogen-6-phosphatase. The activation of "D" form of glycogensynthetase dependent on glucose-6-phosphate and the increase of the glycoogen quantity in the endometrium glands epithelium is observed in the period of growing gestagenic function of the ovaries. At the end of the secretory phase there occurs activation of the glycogen dissociation enzme-phosphorilase which goes in parallel with abrupt inhibition of the glycogensynthetase activity and disappearance or glycogen from the gland epithelium. The inhibition of glycogen synthetase is conditioned by a decreased level of intracellular glucose-6-phosphate which appears due to activation of glucose-6-phosphate in this period.     

Determination of plasma progesterone using thin layer chromatography during pregnancy and normal menstrual cycle]

Plasma progesterone levels were measured during pregnancy and the normal human menstrual cycle by thin-layer densitometry of a specific fluorescence reaction for delta4-3-ketosteroids. 94 determinations were carried out from the 7th week of pregnancy until term. 84 plasma progesterone concentrations were estimated between day 16 and day 26 and other 10 during the preovulatory phase of the normal menstrual cycle.     

Lipid metabolism and coagulation during the normal menstrual cycle

To examine the effects of sex-hormones on lipids, lipoproteins and coagulation in the normal menstrual cycle 37 women had blood samples taken early in the follicular phase (low estrogen) at the midcycle (high estrogen) and late in the luteal phase (high estrogen and high progesterone) under the best possible uniform and basal conditions. No significant changes (P greater than 0.05) in lipids and lipoproteins (including the HDL subfractions and apolipoproteins) were found throughout the menstrual cycle. In the coagulation system antithrombin III and factor VII did not change (P greater than 0.05). Fibrinogen, however, showed a significant (P less than 0.05) increase in the luteal phase compared to the follicular phase and midcycle. Fibrinogen showed a significant positive correlation (r = 0.2766; P less than 0.01) with progesterone, so the rise in fibrinogen in the luteal phase could be a progesterone effect. This longitudinal study performed on a large number of women under basal conditions showed that it seems of minor importance to define exact days of the cycle for analysing lipids and lipoproteins e.g. as controls in a study of lipid metabolism in women taking sex-hormones. For coagulation studies the cycle days may, however, be of importance.     

Cyclic changes in phospholipid content and composition in human endometrium during the menstrual cycle

A significant increase in total phospholipid content of the endometrium took place during the secretory phase of the human menstrual cycle (26% increase from mid-proliferative to premenstrual stage). The major phospholipid, phosphatidylcholine, was increased by 30%, whereas phosphatidylethanolamine was unchanged. Phosphatidyl-serine and -inositol underwent the largest percentage increases (40%). Phosphatidic acid levels were the only ones to decrease (-52%), a finding consistent with the role of this lipid as precursor of the increased phospholipids. The changes did not markedly affect phospholipid composition, except for a significant decrease in the proportions of phosphatidate and phosphatidylethanolamine. Arachidonate and eicosatrienoate (n-6) were the major polyunsaturated fatty acids. C22 tetra-, penta- and hexa-enoic fatty acids of the n-3 and n-4 families were also present in all major endometrial glycerophospholipids throughout the cycle. The mass changes in phospholipids during the cycle occurred without alteration of their fatty acid composition.