Estrogen enhances epidermal growth factor-induced DNA synthesis in mammary epithelial cells

Estradiol (E₂) priming (1 nM for 48 h) of normal murine mammary gland epithelial cells significantly increased the response of those cells to epidermal growth factor (EGF)-induced DNA synthesis. The synergism between E₂ and EGF was evident in two aspects: After serum-free synchronization for 24 h, more cells entered the S-phase of the cell cycle after E₂ priming and when treated with 0.17 nM EGF (13%) than did control cells (1.3%) or cells treated with EGF (4%) or E₂ (3.5%) alone; further, the dose of EGF required to elicit maximal response was reduced an order of magnitude in estrogen-primed cells (0.17 nM) compared to controls (1.7 mM). Estrogen alone, however, did not increase DNA synthesis in these cells. Ligand binding studies indicate that these effects of estrogen on proliferating mammary epithelial cells may be explained, at least in part, by a 3.7-fold increase in the number of high affinity EGF-receptors observed in estrogen primed cells (7,300 receptors per cell) compared to estrogen deprived cells (1,960 receptors/cell). © 1993 Wiley-Liss, Inc.     

Progesterone stimulates DNA synthesis and lobulo-alveolar development in mammary glands in ovariectomized mice

The objective of this study was to determine whether sustained progesterone (P) use in the absence of estrogen could influence mammary development in mice. Three-week-old intact or ovariectomized mice were primed with subcutaneous (s.c.) cholesterol (C), estrogen (E), P, or estrogen and progesterone (E/P) together. Nine days after priming, mammary glands were removed and incubated as a whole organ in media supplemented with various combinations of lactogenic hormones. After 5 days in whole organ culture, glands were removed and end buds, alveolar buds and lobulo-alveoli were quantified. Glands from mice primed with C or E developed significantly less lobulo-alveoli than glands from mice primed with P or E/P. While the development was greater in animals treated with E/P compared to those treated with P, it was clear that P in the absence of E could still induce lobulo-alveolar development. We have shown in this paper that P, in the absence of E, can stimulate cell proliferation during priming. Subsequently, the P primed glands can differentiate in response to lactogenic hormones. J. Cell. Physiol. 180:298–304, 1999. © 1999 Wiley-Liss, Inc.     

Subcellular distribution of protein kinase C isoforms in gastric antrum smooth muscle of STZ-induced diabetic rats.

Contractile responses to carbachol (CCh), protein kinase C (PKC) activity and distribution of PKC isoforms in subcellular fractions isolated from gastric antrum smooth muscle of control and streptozotocin (STZ)-induced diabetic rats were examined. CCh induced concentration-dependent contraction in antrum smooth muscle from controls and diabetics, and this contraction was significantly greater in diabetics than in controls. In diabetics, the PKC activity in the nucleus fraction was significantly decreased by about 63% in the resting condition and that in the cytosol fraction was significantly increased by about 135% after the treatment with 10 microM CCh for 10 min compared to controls. Immunoblot analysis showed that 8 PKC isoforms (-alpha, -beta, -gamma, -delta, -epsilon, -zeta, -iota, -lambda) were expressed in rat antrum smooth muscle. The PKC-beta isoform was significantly decreased by about 47% in the nucleus fraction in the resting condition in diabetics compared to controls. The nucleus, cytosol and membrane fractions of this isoform were decreased in controls after the treatment with 10 microM CCh for 10 min whereas these fractions were unchanged in diabetics. The PKC-epsilon significantly increased by about 219% in the cytosol fraction of diabetics in the resting condition, but the distribution of this isoform was unchanged in controls and diabetics after the treatment with 10 microM CCh for 10 min. Results suggest that the diversity of PKC isoform-specific distribution and translocation may be related to abnormal contractility and intracellular signal transduction through the PKC pathway in diabetics.     

Diabetes abolishes the vascular protective effects of estrogen in female rats

Estrogen is known to exert a protective effect against cardiovascular disease. However, women with diabetes have three times the risk as compared with age-matched non-diabetic women. Our previous study on aortic rings of ovariectomized (OVX) female rats treated with 17-beta-estradiol (E2) demonstrated that the beneficial effect of estrogen is related to the basal release of NO from endothelial cells. In the present study, in order to understand why estrogen protection is abolished in diabetes, we tested vascular responses in OVX, streptozotocin-diabetic female rats and their non-diabetic controls receiving or not E2 replacement. Concentration-response curves to norepinephrine (NE) showed attenuation of the contractile response in E2-treated diabetic, with respect to non-diabetic preparations. This response was further impaired in diabetic, E2-deprived rats. The basal release of NO, as evaluated by concentration-related responses to N(G)-methyl-L-arginine acetate in NE-precontracted aortic rings, was found to be impaired in E2-treated diabetic rats, no further effect being induced by E2 deprivation. The endothelium-dependent relaxation produced by carbachol did not change between groups, whereas the relaxation produced by histamine was enhanced by both diabetes and E2 deprivation. However, E2 treatment counteracted the response to histamine only in preparations from non-diabetic animals. Finally, the relaxation induced by sodium nitroprusside, an endothelium-independent relaxant agent, was comparable between groups. These findings suggest that the lack of protective effects of estrogen in diabetes may be mainly ascribed to the failure of estrogen to reverse the impaired basal release of NO and the abnormal relaxation to histamine, which are observed in the aorta of diabetic rats.     

Does estradiol treatment normalize the hypothalamic-pituitary-adrenal axis in streptozotocin-induced ovariectomized diabetic female rats?

We recently found circulating corticosterone (CS) levels to be significantly lower in diabetic female rats as compared with proestrous control animals. This reduction in CS was correlated with the hypoestrogenic state of the diabetic female. It was the purpose of this study to evaluate basal and corticotropin releasing hormone (CRH)-stimulated CS secretion in ovariectomized (OVX) control (C) and streptozotocin-induced diabetic (D) rats given blank, 5 mcg and 20 mcg estradiol (E2) implants to determine if adrenal CS secretion in the diabetic is normalized by E2 treatment. After 3 weeks of diabetes, pituitary-adrenal function was assessed in rats from each group with a CRH stimulation test. The remaining rats were sacrificed for determination of CS, E2, testosterone and fructosamine in serum. Suppressed CS secretion in OVX female diabetic rats was partially restored with E2 therapy. Basal CS levels were significantly higher in 20 mcg E2 treated C and D rats compared with OVX rats. However, C rats had significantly higher basal CS compared with D rats in similarly E2 treated groups. The CS response to CRH stimulation was not different between OVX female diabetic and control rats. Estrogen enhanced the CS response to CRH stimulation in control animals but not in diabetic animals suggesting altered estrogen action at the pituitary level in diabetic animals.     

Effect of sera from male type 2 (non-insulin-dependent) diabetics on human aortic smooth muscle cells in culture

The effect of sera from male type 2 (non-insulin dependent) diabetics in variable metabolic control on the proliferation of, and on the synthesis of hyaluronic acid and collagen in human aortic smooth muscle cells (HSMCs) in culture was studied. Pooled sera from diabetics in poor metabolic control either with or without antidiabetic drugs stimulated the proliferation and hyaluronic acid synthesis of the cells more than did pooled serum from healthy controls. On the other hand, pooled serum from diabetics in good metabolic control did not have a higher stimulatory effect on the growth of HSMCs than pooled control serum. Indeed, it increased the synthesis of hyaluronic acid similarly as did the pooled serum from poorly controlled diabetics. The synthesis of collagen was not affected by pooled diabetic sera. When the effects of 14 male diabetic sera were individually measured using the same functions of HSMCs, metabolic control of diabetes did not correlate with various activities of diabetic sera on HSMCs. The results show that sera of type 2 diabetics contain factors affecting the functions of HSMCs. The activity of the factors on cell proliferation is related to some extent to the degree of glycemic control, as shown in experiments with serum pools, but experiments with individual sera show that other serum properties unrelated to the metabolic control of diabetes are also of importance.     

Effects of estradiol-17 beta and estriol on their binding sites in the rabbit uterus

1. Receptors for estradiol-17 beta (E2) and estriol (E3) were detected in the rabbit uterus. 2. Saturation analysis of estrogen binding sites in the cytosol showed that the dissociation constants of E2 and E3 for the high affinity binding sites were 1.8 +/- 0.5 nM and 2.3 +/- 0.3 nM, respectively, when dextran-coated charcoal was used to isolate free and bound ligands. 3. To eliminate non-specific (cross) bindings to their receptors, effects of unlabeled E2 and E3 on [3H]E3 and [3H]E2 bindings was examined. 4. [3H]E2 cytosol binding was observed to be specific for E2 and [3H]E3 cytosol binding was more specific for E3. 5. E2 priming to rabbits increased the binding sites for both E2 and E3, which was also more potent than E3 priming. 6. Moreover, the increase in E2 binding sites was greater than that in E3 binding sites. 7. These findings may suggest that there are separate binding sites for E2 and E3 in rabbit uterus and that synthesis of their binding sites is regulated by E2 but not E3.     

Sphingosine kinase 2 is a nuclear protein and inhibits DNA synthesis

Sphingosine kinase-1 (SPHK1) is a key enzyme catalyzing the formation of an important bioactive lipid messenger, sphingosine 1-phosphate, and is implicated in the regulation of cell proliferation and antiapoptotic processes. Biological features of another isozyme SPHK2, however, remain unclear. The present studies were undertaken to characterize SPHK2 by comparison with SPHK1. When SPHK2 was transiently expressed in various cell lines, it was localized in the nuclei as well as in the cytosol, whereas SPHK1 was distributed in the cytosol but not in the nucleus. We have mapped a functional nuclear localization signal (NLS) to the N-terminal region of SPHK2. We have observed that the expression of SPHK2 in various cell types causes inhibition of DNA synthesis, resulting in the cell cycle arrest at G1/S phase. We have also demonstrated that an NLS mutant of SPHK2, SPHK2R93E/R94E, failed to enter the nucleus and to inhibit DNA synthesis. Moreover, a fusion protein, NLS-SPHK1, where SPHK1 was fused to the NLS sequence of SPHK2 acquired the ability to enter nuclei and inhibited DNA synthesis. These results indicate that SPHK2 localizes in the nuclei and causes inhibition of DNA synthesis, and this may affect subsequent cellular events.     

Regulation of estrogen-stimulated lordosis behavior and hypothalamic progestin receptor induction by antiestrogens in female rats

Two estrogen antagonists, CI-628 (CI) and tamoxifen (TX), were used to examine the relationship between estrogen priming of lordosis behavior and progestin receptor induction in the hypothalamus-preoptic area (HPOA) of ovariectomized female rats. Lordosis behavior was assessed by measuring lordosis quotients (LQ) in response to injection of 2 micrograms of estradiol benzoate (EB) followed 48 hr later by 500 micrograms of progesterone (P). Behavior testing began 4 hr after P injection. The effects of antiestrogens were assessed by injecting CI and TX (1-2 mg) from 0 to 48 hr prior to EB. Levels of cytosol progestin receptor in the HPOA were determined by quantifying the specific binding of 0.5 nM [3H]R5020 to cytosols from animals receiving the same EB and antiestrogen treatments used in behavioral testing. TX given concurrently with or CI given 2 hr before EB abolished both lordosis behavior and induction of HPOA progestin receptors. In contrast, CI given 12 hr prior to EB abolished lordosis but permitted a 95% elevation in the concentration of progestin binding sites in the HPOA. TX or CI given 48 hr before EB resulted in moderate levels of lordosis (mean LQs from 56 to 69) and induction of HPOA progestin receptors from 85 to 130% above noninjected controls. However, CI given 24 hr prior to EB produced less than a 40% increase in brain R5020 binding even though lordosis behavior was equivalent to that seen in the 48-hr animals (mean LQ = 53). These data indicate that the effects of antiestrogens on female sexual behavior and on the synthesis of brain progestin receptors depend on which antiestrogen is used and the time interval between administration of estrogen and antiestrogen. They also demonstrate that under some conditions estrogen induction of cytosol progestin receptors in the HPOA can be dissociated from estrogen priming of lordosis behavior in rats.     

The potentiation of estrogen on insulin-like growth factor I action in MCF-7 human breast cancer cells includes cell cycle components

To gain insight into the mechanisms involved in the cross-talk between IGF-1 receptor (IGF-1R) and estrogen receptor signaling pathways, we used MCF-7-derived cells (SX13), which exhibit a 50% reduction in IGF-1R expression. Growth of NEO cells (control MCF-7 cells) was stimulated by both IGF-1 and estradiol (E2), and the addition of both mitogens resulted in a synergistic response. Estrogen enhanced IGF-1R signaling in NEO cells, but this effect was markedly diminished in SX13 cells. Estrogen was also able to potentiate the IGF-1 effect on the expression of cyclin D1 and cyclin E and on the phosphorylation of retinoblastoma protein in control but not in SX13 cells. IGF-1 increased the protein level of p21 and the luciferase activity of the p21 promoter, whereas it only reduced the protein level of p27 without affecting p27 promoter activity. Estrogen did not affect the p21 inhibitor, but it decreased the protein level of p27 and the p27 promoter luciferase activity. These effects of both mitogens were also observed at the level of association of both cyclin-dependent kinase inhibitors with CDK2 suggesting that IGF-1 and E2 affect the activity of both p21 and p27. Taken together, these data suggest that in MCF-7 cells, estrogen potentiates the IGF-1 effect on IGF-1R signaling as well as on the cell cycle components. Moreover, IGF-1 and E2 regulate the expression of p21 and p27 and their association with CDK2 differently.     

Non-stoichiometric nuclear-cytoplasmic redistribution of estrogen receptor in adult rat uterus, following estradiol injection

In immature and ovariectomized rats acutely injected with estradiol (E2), accumulation of estradiol receptor complexes (E2R) from the uterine cytosol to the nucleus has been shown to be quantitative by numerous investigators. In the present study, translocation of E2R from the cytosol to the nuclear fraction in adult and ovariectomized estrogen prestimulated rats was analyzed. Twenty micrograms of E2, dissolved in saline containing 10% ethanol and 1 g% bovine serum albumin (B.S.A.) were injected intraperitoneally to the animals and 2 h later E2R in the cytosol and crude nuclear fractions were assayed by exchange techniques. Unlike a 91% recovery of the depleted cytosol E2R in the nuclear fraction of ovariectomized rats, only 39.2 and 27.5% were recovered in the adult and ovariectomized estrogen prestimulated rat uterus respectively. Moreover, depending on the temperature and duration of nuclear suspension incubation, from 18 up to 80% of the recovered nuclear E2R were solubilized in the incubation medium and nuclear post-incubation washes and could be measured by hydroxylapatite treatment (HAP). Saturation assays showed a plateau from 12 nM E2 3H onwards up to 80 nM. The Kd values computed for the receptors in the nucleus and HAP in all the three groups were of the order of 2 X 10(-9) M. In conclusion, after E2 administration to adult or ovariectomized estrogen prestimulated rats, a stoichiometric recovery of the depleted cytosol E2R in the nuclear fraction was not observed, even when leakage of nuclear receptor into the medium in course of exchange was taken into account. Chronic estrogenization appeared to modify the dynamics of uterine receptor.     

Induction of porcine uterine estrogen sulfotransferase activity by progesterone

Studies have been carried out which were designed to examine the hormonal requirement for the appearance of estrogen sulfotransferase activity in porcine uteri. Mature, ovariectomized (OVX) gilts were housed for 3 weeks before being treated with various regimens of estradiol-17 beta (E2) and progesterone (P). Uteri were then removed, minced, incubated for 2 h with [3H] E2 (10(-8) M) and Na2 35SO4 (10(-4) M) and the labeled metabolic products were extracted and analyzed. Endometrial samples were also taken for the determination of E2 and P cytoplasmic and nuclear receptors (R). It was found that 4 daily injections of 250 micrograms of E2 was sufficient to bring plasma E2 concentrations to that representative of a normal estrous cycle (approx. 30 pg/ml) and to induce cytoplasmic PR to high levels (7000--19000 fmol/mg DNA). Estrogen sulfotransferase activity, which was negligible in OVX and E2-treated pigs, increased to near normal secretory levels (4 pmol product/h per 0.4 g tissue) only in pigs primed with E2 and subsequently treated with E2 and P (25--250 mg/day, 3 days). This treatment also brought about the translocation of PR to the nuclear compartment. The steroid alcohol sulfotransferase activity in these tissues decreased upon ovariectomy and remained unaffected by the hormone treatments. Endometria from treated and untreated pigs were cultured for a period up to 7 days. During this time E2 (10(-8) M) induced and/or maintained PR and P (10(-6) M) was shown to stimulate estrogen sulfurylation concomitant with the translocation of PR to the nucleus. These studies have demonstrated that, in OVX pigs and endometrial cultures, P stimulated uterine estrogen sulfotransferase activity to a level normally found in secretory uteri. In order for P to bring about elevated levels of estrogen sulfurylation it was necessary that the endometrium contain adequate concentrations of cytoplasmic PR (which required E2 priming of the system) and the P receptor complex must display nuclear translocation.     

Effects of actinomycin D and estrogen priming on decidual growth in ovariectomized mice.

Ovariectomized mice were primed for 2 days with estradiol and/or actinomycin D. In order to evaluate the effects of these treatments on endometrial cell proliferation, colchicine and [3H]-thymidine were administered shortly before killing groups of animals at days 4 and 5 after priming (the latter groups received 500 micrograms progesterone plus 10 ng estradiol 24 h before killing). The same priming treatments were administered 3 days before starting hormonal treatment eliciting uterine sensitivity to decidualization (incuded by intrauterine oil injection). The comparison of labeling and mitotic indices and of decidual tissue weights between experimental groups showed that under such conditions: (1) actinomycin D only partly inhibits the effects of estrogen priming: the increase in cell division obtained on day 4 after priming remains unchanged in all three endometrial components while the increase in stromal mitotic activity at day 5 and further decidual growth are reduced, (2) since the inhibition rate of these parameters is greater in non-primed than in primed animals, it appears that estrogen priming counteracts the antagonistic action of actinomycin D.     

Estrogen effect on post-exercise skeletal muscle neutrophil infiltration and calpain activity

We hypothesized that estrogen administration would attenuate skeletal muscle neutrophil infiltration, indices of muscle membrane disruption, and muscle calpain activity shortly after the termination of exercise. Ovariectomized female rats were implanted with either an estogen pellet (25 mg beta-estradiol) or a placebo pellet. Two weeks postimplant, animals were killed either at rest or 1 h after running exercise (60 min at 21 m x min(-1), 12% grade). The 4 experimental groups (n = 12) used were: unexercised placebo (UP), unexercised estrogen (UE), exercised placebo (EP), and exercised estrogen (EE). Blood samples were analyzed for creatine kinase (CK) activity and estradiol content. Plantaris and gastrocnemius muscles were removed and histochemical determination of neutrophil content or biochemical determination of myeloperoxidase (MPO), glucose-6-phosphate dehydrogenase (G6PD), and calpain-like activity determined. Estrogen supplemented animals had 10-20-fold higher circulating estradiol levels than placebo animals. EP animals had significantly higher (P < 0.05) circulating CK activities than EE or unexercised animals. Muscle neutrophil concentrations were significantly (P < 0.01) elevated in EP and EE groups compared with unexercised controls, with EP muscle neutrophil levels also being over 60% greater (P < 0.05) than in EE animals. EP animals also had higher (P < 0.05) muscle MPO activities than unexercised or EE animals. Muscle G6PD activities were not significantly different between any groups. Muscle caplain-like activities were 80% higher (P < 0.01) in EP animals than EE animals with calpain-like activities in EE animals similar to unexercised groups. These results indicate that estrogen supplementation in ovariectomized rats attenuated 1-h post-exercise serum CK activities, muscle neutrophil infiltration, MPO activities, and calpain-like activities when compared with exercised, unsupplemented animals. This supports the possibility of a relationship between estrogen, calpain dependent production of neutrophil chemo-attractant peptides, and 1-h post-exercise skeletal muscle neutrophil infiltration.     

Estrogen- and progesterone-dependent secretory changes in the uterus of the sheep.

This study was undertaken to determine the effects of 17 beta-estradiol (E) and progesterone (P) on polypeptide synthesis and release from the uterus of the sheep. Uterine flushings (UF) and endometrium were obtained from ovariectomized untreated animals, ovariectomized animals treated with E (approximately 5-10 pg/ml) for 6 days (6E) and ovariectomized animals primed with E for 6 days then treated with P (approximately 1.5-3 ng/ml), in the continued presence of E, for an additional 6 days (6EP). Endometrium was cultured (24 h) in the presence of 3H-leucine (3H-leu) or 3H-glucosamine (3H-glcN), and newly synthesized and released proteins were detected in culture media by fluorography of 10% SDS gels. The quantity of proteins in UF and radiolabeled proteins in explant culture media did not change between treatment groups (p < 0.05). Qualitative changes in the synthesis and release of proteins were observed depending on the steroid treatment. An M(r) 57,000 protein was present in UF and 3H-leu-labeled culture media obtained from animals treated only with E and an M(r) > 200,000 was present in 3H-leu-labeled culture media of endometrium obtained from 6E and 6EP animals. An M(r) 44,000 protein was present only in UF from 6EP animals but could not be detected in endometrial culture media from animals undergoing this steroid treatment. These data show that the endometrium of the ovariectomized sheep undergoes alterations in secretory protein patterns which depend on the presence of E and P.     

Cyclic AMP-binding protein and estrogen receptor: antagonism during nuclear translocation in a hormone-dependent mammary tumor

Incubation of nuclei from hormone-dependent rat mammary tumors with its cytosol activated with 5 nM 17β-estradiol resulted in a 4-fold increase of nuclear estrogen binding activity over the control nuclei. The presence of 100 nM cAMP in the activated cytosol inhibited this nuclear uptake of estrogen receptor by 50%. Conversely, incubation of the nuclei with cytosol activated with 100 nM cAMP increased nuclear cAMP binding and cAMP-dependent protein kinase activity 4-fold, while the presence of 5 nM 17β-estradiol in the activated cytosol inhibited the nuclear cAMP binding and the protein kinase activity by 50%. No competition was found between estrogen and cAMP for each other's cytoplasmic binding proteins or the nuclear acceptor sites. These data suggest that a mutual antagonism exists between the cAMP-binding protein and estrogen receptor during their nuclear translocation.     

Estrogen receptor alpha rapidly activates the IGF-1 receptor pathway

Estrogen and insulin-like-growth factor 1 (IGF-1) are potent mitogenic stimuli that share important properties in the control of cellular proliferation. However, the coupling between the signaling cascades of estrogen receptors alpha and beta and the IGF-1 receptor (IGF-1R) is poorly understood. Therefore, we selectively transfected estrogen receptor alpha or beta in COS7 and HEK293 cells, which contain IGF-1R. In presence of estrogen receptor alpha but not beta, 17beta-estradiol (E2) rapidly induces phosphorylation of the IGF-1R and the extracellular signal-regulated kinases 1/2. Furthermore, upon stimulation with E2, estrogen receptor alpha but not beta bound rapidly to the IGF-1R in COS7 as well as L6 cells, which express all investigated receptors endogenously. Control experiments in the IGF-1R-deficient fibroblast cell line R(-) showed that after stimulation with E2 only estrogen receptor alpha bound to the transfected IGF-1R. Overexpression of dominant negative mitogen-activated protein kinases kinase inhibited this effect. Finally, estrogen receptor alpha but not beta is required to induce the activation of the estrogen receptor-responsive reporter ERE-LUC in IGF-1-stimulated cells. Taken together, these data demonstrate that ligand bound estrogen receptor alpha is required for rapid activation of the IGF-1R signaling cascade.     

The effects of ovarian hormones on glucose and fatty acid oxidation during exercise in female ovariectomized rats

The effects of ovarian hormones on glucose and fatty acid oxidation during exercise were investigated in adult female ovariectomized rats. Rats subdivided into 3 groups received intraperitoneal injections of hormones or sesame oil for 8 days. Estrogen (E) treated rats received 17-beta estradiol in daily doses of 2 micrograms. Estrogen and progesterone treated rats (EP) received 17-beta estradiol in daily doses of 2 micrograms and 2 mg, respectively. Control rats (S) received sesame oil alone. After an overnight fast, rats ran at the speed of 25 m.min-1 for 60 min. [U-14C]glucose or [1-14C]palmitate was injected into rats at 5 min of exercise and before 10 min of exercise, respectively. Expired 14CO2 was collected using bottomless chamber on a treadmill belt. No significant differences were found in mean blood glucose, lactate and plasma free fatty acid concentrations after the exercise. Until the end of the exercise 34.7 +/- 2.6 (E, n = 5), 40.8 +/- 2.9 (EP, n = 5) and 43.7 +/- 3.5% (S, n = 6) (mean +/- SE) of 14C which was injected as 14C-glucose was recovered as 14CO2. During 60 min of the exercise 27.5 +/- 1.0 (E, n = 7), 19.8 +/- 2.7 (EP, n = 6) and 25.0 +/- 1.9% (S, n = 6) of 14C which was injected as 14C-palmitate was recovered as 14CO2. A significant difference was found in this rate between E and EP (P less than 0.05). It was concluded that estrogen treatment stimulated fatty acid oxidation compared with the estrogen plus progesterone treatment and tended to inhibit glucose oxidation during prolonged exercise.     

Red blood cell deformability index in diabetic retinopathy

In order to investigate the relationship between haemorheological disturbances and diabetic microangiopathy we have studied the red blood cell deformability index (RBCD-index) by means of a filtration technique in 69 diabetics, aged 49-83 years, and in 40 non diabetic healthy controls (group A) of respective age and sex. The diabetics were classified into the following groups, according to the findings of a thorough clinical and laboratory investigation. Twenty patients (group B) were free of vascular complications, whereas 9 (group C) suffered from background retinopathy, 27 (group D) background retinopathy and ischaemic cardiopathy or peripheral arterial occlusive disease and 13 (group E) of proliferative retinopathy with diffuse micro- and macroangiopathy. The RBCD-index was significantly (P less than 0.001) decreased in diabetics with retinopathy compared to the diabetic and non diabetic controls. The lowest RBCD-index was observed in diabetics with proliferative retinopathy and in those with diffuse micro- and macrovascular complications (RBCD-index, means +/- SDM ml/min: A 0.68 +/- 0.15; B 0.64 +/- 0.08; C 0.60 +/- 0.08; D 0.49 +/- 0.09; E 0.48 +/- 0.09). These findings suggest that the RBCD is impaired in diabetics with retinopathy, especially in those with severe vascular complications, and that this abnormal rheological behavior of erythrocytes can be found even in the early stages of diabetic microangiopathy.     

Estrogen regulates tyrosine hydroxylase expression in the neonate mouse midbrain

Estrogen plays an important role during differentiation of midbrain dopaminergic neurons. This is indicated by the presence of estrogen receptors and the transient expression of the estrogen-forming enzyme aromatase within the dopaminergic cell groups. We have previously shown that estrogen regulates the plasticity of dopamine cells through the stimulation of neurite growth/arborization. In this study, we have analyzed the capability of estrogen to influence the activity of developing mouse dopamine neurons. The expression of tyrosine hydroxylase (TH) was assessed by competitive RT-PCR and Western blotting. The developmental expression of TH in the ventral midbrain was studied from embryonic day 15 until postnatal day 15 and revealed highest TH levels early postnatally. This profile coincides with the transient aromatase expression in this brain area. Using cultured midbrain cells, we found that estrogen increased TH mRNA/protein levels. The application of the estrogen receptor antagonist ICI 182,780 resulted in a complete inhibition of estrogen effects. To verify these data in vivo, fetuses were exposed in utero from E15 until birth to the aromatase inhibitor CGS 16949A or to CGS supplemented with estrogen. CGS caused a robust reduction in TH mRNA/protein levels in the midbrain, which could be restored by estrogen substitution. Taken together, our data strongly suggest that estrogen controls dopamine synthesis in the developing nigrostriatal dopaminergic system and support the concept that estrogen is implicated in the regulation of ontogenetic steps but also in the function of midbrain dopamine neurons.