Endogenous oxidized indoles share inhibitory potency against [3H]isatin binding in rat brain.

Isatin is an endogenous oxidized indole that influences a range of processes in vivo and in vitro. It has a distinct and discontinuous distribution in the brain and [3H]isatin binding sites are widely distributed in rat brain sections. The highest labelling is found in hypothalamic nuclei and in the cortex, hippocampus, and cerebellum (Crumeyrolle-Arias et al., 2003). However, the properties of most isatin binding sites and their physiological ligands remain unknown. In the present study the effects of three endogenous oxidized indoles (oxindole, 5-hyxdoxyoxindole, and isatin) on [3H]isatin binding were investigated in rat brain sections. In most regions cold isatin (0.2 mM) significantly reduced [3H]isatin binding. In addition to isatin, the other endogenous oxidized indoles, 5-hydroxyoxindole and oxindole were effective in displacing [3H]isatin. Total irreversible inhibition of monoamine oxidases caused inhibition of specific [3H]isatin binding in 7 of 10 brain region studied. This was accompanied by altered sensitivity of [3H]isatin binding to these indoles, including regions where a decrease of specific binding was not detected. The combinations of the three oxidized indoles produced two clear effects: augmentation (potentiation) and attenuation (blockade) of inhibitory activity compared with the independent effects of these compounds. The different effects of oxidized indoles and their combinations (isatin + 5-hydroxyoxindole and isatin + oxindole) in various brain regions therefore suggest an interaction of [(3H]isatin with different and multiple isatin-binding sites, which exhibit different sensitivity to endogenous oxidizing indoles.

The endogenous oxindoles 5-hydroxyoxindole and isatin are antiproliferative and proapoptotic.

Oxindole-core synthetic molecules are currently being developed as anticancer drugs that target protein tyrosine kinases associated with growth factor receptors. Oxindole, 5-Hydroxyoxindole, and 2, 3-dioxindole [isatin] are natural molecules found in mammalian body fluids and tissues and we addressed the question of similar properties of endogenous oxindoles. 5-Hydroxyoxindole and isatin, but not oxindole, inhibited N1E-115, BALB/c3T3, BBC, PC12, and HL60 proliferation at submicromolar concentrations. Acute treatment with 5-hydroxyoxindole and isatin reduced the activity of extracellular signal regulated protein kinases (ERKs) by 35% at 100 microM and ERK1 activity was strongly inhibited by 5-Hydroxyoxindole at 10 microM. Survival of PMA-differentiated HL60 and FGF(2)-differentiated PC12 cells was not affected by 5-Hydroxyoxindole and isatin treatment, suggesting that endogenous oxindoles interact with growth factors signaling. The physiological implications of these data and the potential utility of 5-Hydroxyoxindole and isatin as antitumor agents are discussed.

Expression of interleukin-1 genes and interleukin-1 receptors in the mouse brain after hippocampal injury.

In order to evaluate the role of IL-1 production in post-traumatic brain, transcripts for IL-1 (alpha, beta, RA) have been quantified following RT-PCR, in hippocampus and cortex after injury of either hippocampus (Hip) or striatum (Stri). Moreover, 125I IL-1alpha binding sites have been directly quantified using binding experiments on brain sections and quantitative autoradiography. Under basal conditions, levels of PCR products were very low. On day 1, IL-1RA transcripts only were strongly increased in the hippocampus after Hip-lesions and in cortex after Stri lesion. Transcripts were back to control values on day 7 post-lesion. IL-1 receptor densities in the hippocampus (dentate gyrus) were decreased at day 1 around the site of the lesion (but not on the contralateral side) and were back to controls on day 7 indicating a transient and local IL-1 production in the surroundings of the lesion. No changes were found following Stri lesion. This study provides further evidence of the role of the IL-1 molecules family, notably IL-1RA, in the brain reaction to trauma.

Interleukin-1 receptor defect in autoimmune NZB mouse brain.

Interleukin-1 receptors (IL-1R type I and II) have been characterized in murine nervous structures (hippocampus and frontal cortex), in vascular structures (vessels, choroid plexus), and in the anterior pituitary. Because interleukin-1 (IL-1), injected or induced in the brain, is a powerful regulator of the stress axis and immune functions, it was of interest to investigate IL-1Rs and IL-1 in autoimmune mice. In control mice, bacterial lipopolysaccharide (LPS), administered i.p. or i.c.v., induces a sharp decrease in available brain IL-1 receptors, in spite of a moderate increase in mRNAs for both receptor types. This is concomitant with an increase in IL-1 alpha, beta, and ra mRNA. Ligand production clearly overcomes receptor turnover. In autoimmune mice (NZB and NZB/NZW F1), a strong defect in IL-1R (type I) is demonstrated in the dentate gyrus. This tissue-specific defect cannot be explained by increased occupancy by endogeneous ligands as for LPS-treated mice. The transmission of the defect is Mendelian and suggests the involvement of a single gene. However patterns of IL-1R mRNAs (evaluated by RT-PCR) are similar in NZB and in controls, suggesting a translational or post-translational abnormality. The contribution of this genetic disorder in the development of autoimmunity remains to be clarified. Because the brain IL-1 system sends inhibitory signals towards immune functions, this lack of functional IL-1 binding sites might participate in the disregulations observed in NZB autoimmune mice.

Radioimagers as an alternative to film autoradiography for in situ quantitative analysis of 125I-ligand receptor binding and pharmacological studies.

Three radioimagers, the mu-imager, the beta-imager and the phosphorimager, were tested as alternatives to quantitative autoradiography on film, for receptor imaging and pharmacological in situ quantitative analysis. Two iodinated ligands 125I-interleukin-1 alpha and 125I-gonadotropin releasing hormone agonist were used for receptor characterization in mouse brain and pituitary sections. Due to the high number of the agonist receptors in rat pituitary gland, this tissue was used to compare measurements obtained from digital autoradiograms with classical gamma detector determination. This permits the evaluation of radioimager efficiency and absolute quantification. Radioimagers represent an improvement in terms of time of image acquisition. All the radioimagers are more sensitive than film for the detection of low levels of radioactivity. The spatial resolution provided by the mu-imager compares favourably with that obtained on film autoradiograms while digital autoradiograms from the phosphorimager and beta-imager did not show precise definition under our experimental conditions. Superimposition of histological structures from the stained sections with radiolabelled areas in the autoradiograms remains, at this time, the unique advantage of film. In conclusion, radioimagers represent an alternative to autoradiography on film or emulsion for in situ quantitative studies on tissue sections. They combine precise imaging for in situ binding studies with easy and direct access to counts in cpm. The improvement in radioimaging technology has, therefore, brought in situ analysis of iodinated ligand binding to the level of accuracy that is obtained with classical detectors of radioactivity.

Rat interleukin-1 beta binding sites in rat hypothalamus and pituitary gland.

In this study, radiolabeled recombinant rat interleukin-1 beta (r125I-IL-1 beta) was used to localize and characterize IL-1 beta binding in rat hypothalamus and pituitary gland by quantitative autoradiography. The ability of this ligand to bind to type I IL-1 receptor was first tested on murine lymphoma cells (EL-4). In the rat-tissue sections, high densities of specific r125I-IL-1 beta binding sites were localized in the anterior as well as the posterior pituitary and in the choroid plexus. A fine labeling was observed in meninges and third ventricle walls while no binding was detected in the hypothalamic nuclei. Saturation experiments, in the anterior and posterior pituitary, revealed one specific binding site with an affinity constant (Kd) of 0.5 nM. Competition experiments were achieved using either rat IL-1 beta (rIL-1 beta) or human IL-1s (hIL-1 alpha, hIL-1 beta and IL-1 receptor antagonist: hIL-1a). Affinity constants (Ki) were drastically different according to the ligand used, while Ki values were found similar in anterior and posterior pituitary. Competition with rIL-1 beta revealed one binding affinity (Ki of 0.1 nM range). In contrast, competition with hIL-1 beta revealed two binding affinities: a high (Ki: 0.1 pM range) and a low one (Ki: 1 nM range). Competition with hIL-1ra was obtained for high concentrations only (Ki: 10-100 nM range), whereas human IL-1 alpha (hIL-1 alpha) was unable to compete at 1-100 nM.(ABSTRACT TRUNCATED AT 250 WORDS)

Effect of bacterial endotoxin and interleukin-1 on prostaglandin biosynthesis by the hippocampus of mouse brain: role of interleukin-1 receptors and glucocorticoids.

There is increasing evidence indicating that the production of cytokines and prostaglandins (PG) may be interrelated and is regulated by glucocorticoids (GC). In the present study we examined the effect of the bacterial endotoxin lipopolysaccharide (LPS) and interleukin-1 (IL-1) on the ex vivo production of PGE2 by the dorsal hippocampus of the mouse which contains high levels of receptors to IL-1. The roles of IL-1 receptors and GC in the regulation of LPS- or IL-1-induced PGE2 production were also studied. In control mice the basal rate of PGE2 ex vivo synthesis by slices of dorsal hippocampus was about 250 pg/mg protein/60 min. Intraperitoneal injection of either LPS (1-50 micrograms/mouse) or IL-1 alpha (50-200 ng/mouse) increased the production of PGE2 in a dose-and time-dependent manner. Both LPS and IL-1 alpha induced a maximal 2.5-fold increase in PGE2 production at 6 h after the injections. IL-1 beta was less effective by approximately 30% as compared to IL-1 alpha. In mice treated with the IL-1 receptor antagonist or with the IL-1 antagonist alpha-melanocyte-stimulating hormone (alpha-MSH), the effects of LPS and IL-1 on PGE2 production were completely abolished. Intraperitoneal injections of dexamethasone (DEX) 5 or 30 micrograms/mouse 2 h prior to the administration of IL-1 alpha significantly enhanced the effect of the cytokine on PGE2 production. In mice treated with 100 micrograms DEX/mouse, the facilitatory effect of the lower DEX does in IL-1-induced PGE2 production was abolished.(ABSTRACT TRUNCATED AT 250 WORDS)

Receptors for interleukin-1 in the central nervous and neuroendocrine systems. Role in infection and stress.

The functional interactions between the Immune (IS) and the Central Nervous Systems (CNS) are clearly indicated by the fact these systems are sharing mediators and receptors. Interleukins and more specifically Interleukin-1 (IL-1) have been shown to be powerful regulators of both system activity which suggested IL-1 receptors in the CNS. IL-1 receptors, similar to type I lymphocyte receptors, have been characterized in murine nervous structures (dentate gyrus of the hippocampus and frontal cortex), in vascular structures (vessels, choroid plexus) and in a neuroendocrine structure (anterior pituitary). Stimulation of the immune system and of IL-1 synthesis by bacterial product (intra peritoneal injection of LPS) induced a marked decrease of IL-1 receptor levels in the CNS. Under the same conditions pituitary receptors were unaffected indicating the autonomy of brain functioning. This decrease is in relation with an increase in local IL-1 synthesis as indicated by the increase of IL-1 mRNA in the brain tissue. During viral infection (rabies virus) very similar results are observed. Brain receptors are decreasing in the brain at day 4 post infection while IL-1 concentration is increasing in the brain tissue. Pituitary receptors are not modified during the evolution of the disease. Stress and glucocorticoid treatment are strong inhibitors of immune functions by inhibiting IL-1 synthesis. Neither treatment modified brain receptors suggesting that IL-1 synthesis is not modulated by glucocorticoids in the CNS as in the immune system. However an increase in pituitary receptor level was observed in both cases.(ABSTRACT TRUNCATED AT 250 WORDS)

"In situ" characterization of GnRH receptors: use of two radioimagers and comparison with quantitative autoradiography.

New radioimagers, the HRRI (high resolution radioimager) and the Phosphorimager (phosphor screen : PS), apt to display more ample linear dose-response scale than radio-sensitive films, were tested in comparison with quantitative autoradiography (QA). GnRH receptor saturation experiments were achieved on tissue sections (rat pituitary, rat brain, human ovary) with a iodinate GnRH agonist (125I-[D-Ala6,Des-Gly10]-LH-RH Ethylamide) for determination of affinity constant (Kd). In rat pituitary, comparable results were obtained with the 3 methods (Kd: 0.4 to 0.6 nM). Discrepancies occurred in the hippocampus and in the granulosa cell layer of the preovulatory follicle, due to low resolutive (PS) or short linear dose-response (films) performances. In the hippocampus GnRH receptor affinity was under-estimated with PS (Kd: 2.3 vs 0.5 and 0.6 nM for QA and HRRI respectively). In the follicular granulosa cell layer it was over-estimated by QA (0.5 vs 50 nM for the HRRI), while PS did not allow resolution of this thin cell layer. In conclusion, the HRRI is a very powerful tool for the quantification of in situ radioligand binding (binding sites study and in situ hybridization) in very discrete areas.

Prolactin receptors in the rat hypothalamus: autoradiographic localization and characterization.

A precise mapping of prolactin (PRL) receptors in the rat brain has been achieved. Localization of binding sites for both 125I-human growth hormone (125I-hGH) and 125I-monoclonal anti-PRL receptor (125I-U5) was studied by in vitro autoradiography on brain sections in female rats (n = 7). The analysis of autoradiograms generated from 12 adjacent sections at 11 different brain levels (bregma 0.2 to -4.8 mm) revealed 9 distinctive localizations for 125I-hGH binding sites: preoptic suprachiasmatic nucleus, medial preoptic area, periventricular, supraoptic, paraventricular, arcuate and vetromedial nuclei and also the median eminence and the infundibulum. Specificity for PRL binding was assessed by competition experiment of 125I-hGH with unlabeled hGH and ovine PRL. Binding sites were similarly localized by 125I-U5 indicating the presence of PRL receptors moiety. The quantitative analysis with 0.6 nM 125I-hGH demonstrated maximal densities in the preoptic suprachiasmatic and arcuate nuclei and minimal densities in the median eminence and the infundibulum. Due to ample antero-posterior variations no significant changes were observed during the estrous cycle. Saturation analysis of binding in the arcuate nucleus indicated a single class of high affinity (Kd from 0.9 to 2.2 nM) receptors (Bmax from 34 to 44 fmol/mg of proteins). The present data provide the hypothalamic cartography of PRL receptors in the female rat brain and support all the physiological evidence for the existence of a direct action of PRL in the hypothalamus.

GnRH receptors in rat brain, pituitary and testis; modulation following surgical and gonadotropin-releasing hormone agonist-induced castration.

The regulation of rat gonadotropin-releasing hormone (GnRH) receptors in male rat pituitary, hippocampus and testis was studied, in vivo, under steady-state conditions during treatment with D-Trp6 GnRH (triptorelin, slow-release form, at 300 micrograms/kg/month). GnRH receptors were characterized on tissue sections by quantitative autoradiography using 125I-GnRHa as a tracer. Castrating doses of triptorelin strongly down-regulated pituitary GnRH receptors (50% of reduction after 8 h, 80% on days 1-30); in contrast, only a transient decrease (20% at 8 h) was observed in the hippocampus with a rapid return to control levels. Triptorelin induced a marked (2-fold) increase in GnRH receptors in testicular interstitial tissue during 5 days with a return to control value by day 20. Administration of a GnRH antagonist (BIM 21009, 1 mg/kg/24 h) induced a rapid reduction of pituitary and testicular receptors to undetectable levels at 24 h, while hippocampal receptors were strongly reduced only. This indicates that GnRH receptors with similar pharmacology are differently controlled in various tissues and that brain receptors are likely to be also regulated by GnRH agonists and antagonists.

GnRH receptors in human granulosa cells: anatomical localization and characterization by autoradiographic study.

The presence of receptors for GnRH in human ovary has been investigated by quantitative autoradiography. Simultaneous visualization and characterization of specific receptors on frozen sections were obtained on six pairs of human ovaries. Among them only one exhibited a large preovulatory follicle. This dominant follicle exhibited a specific and high affinity binding capacity for 125I-GnRHa exclusively localized on the granulosa cell layer. Analysis of saturation curve indicates a Kd value of 0.22 nM and Bmax of 9.6 fmol/mg protein. In contrast LH-hCG binding sites were present in all antral follicles. These data demonstrate for the first time the presence of high affinity GnRH receptors in human granulosa cells at a late stage of follicular maturation.

Effects of early hypophysectomy in the aging rat ovary. Ultrastructural study on regression and on delayed epithelial proliferation in the interstitial tissue.

This report describes the fine structure of the "wheel" cells and of epithelial structures which both characterize the interstitial tissue of hypophysectomized and intact senescent rats. The regressive changes induced in normal ovarian interstitial cells of 25-26 day-old hypophysectomized rats were studied from 7 days to 15 months after the operation. They mainly consist in a rapid cytoplasmic dedifferentiation of these steroidogenic cells which, by one month after hypophysectomy, could be only identified by their specific nuclear pattern ("wheel" cells). Further changes of their organelles are only quantitative. These interstitial cells become perennial cells with no ultrastructural signs of senescence. In one year-old animals, the presence of both epithelial testis-like tubes and epithelial cellular cords provides evidence that these structures represent two different morphological arrangements for a similar cellular aspect. Unlike established "wheel" cells, these epithelial structures are evolutive and the thickening of their basement membrane can be considered as an age criterion. The follicular origin of the testis-like tubes and the complex formation of the cords are discussed in the light of our previous photonic study and compared with similar structures occurring in the senile rat ovary and in other situations.

Post-hypophysectomy ovarian senescence and its relation to the spontaneous structural changes in the ovary of intact aged rats.

Hypophysectomy performed in 25- to 26-day-old Wistar rats leads within 1 years to the formation of ovarian testis-like tubes and epithelial cellular cords which are typical structures in the senile ovaries of normal 24-month-old rats. Testis-like tubes represent an unusual late stage of follicular degeneration; the origin of the cords is more complex; the revival of cell differentiation from stroma and/or rete ovarii in the absence of the pituitary is hypothesized. At 16 months of age, cords proliferate and are responsible for ovarian weight increase to almost twice the minimal weight seen 4 months after the operation. Variability in cord proliferation is considerable from one rat to another, but also between the two ovaries of the same animal. Thus, an intrinsic age-related ovarian factor is implicated in cord proliferation. From this study, it is inferred that during intact rat senescence, intrinsic ovarian aging is responsible for the proliferation of cords, whereas their induction depends on a hypothalamic-hypophyseal imbalance occurring at about 1 year of age.

[Secretion of ovarian estrogen induced by HCG in immature hypophysectomised rats]. / Sécrétion d'destrogène ovarien induite par HCG chez la ratte impubère hypophysectomisée

The daily injection of 50 IU of HCG to immature hypophysectomized Rats does not stimulate follicular growth, even at long term, but causes vaginal estrus of ovarian origin after about 11 to 12 days. The part played by "thecal bodies" induced by HCG in the production of estrogen is discussed.

Light and electron microscopy of the ovarian interstitial tissue in the senile rat: normal aspect and response to HCG of "deficiency cells' and 'epithelial cords'.

The two components of the interstitial tissue in the senile rat's ovary--deficiency cells and epithelial cellular cords--both contain steroidogenic organelles at a very low level of activity, which can be notably raised by HCG. Deficiency cells and epithelial cords are not the expression of primary ovarian aging, but the consequence of senile gonadotropic hypofunctioning. For that same reason, these ovarian structures become permanent and their possible cellular aging can thus be studied. No ultrastructural signs of senescence have as yet been observed.