3-Aryl pyrazolo[4,3-d]pyrimidine derivatives: Nonpeptide CRF-1 antagonists

The synthesis of a series of 3-aryl pyrazolo[4,3-d]pyrimidines as potential corticotropin-releasing factor (CRF-1) antagonists is described. The effects of substitution on the aromatic ring, the amino group and the pyrazolo ring on CRF-1 receptor binding were investigated.     

The design, synthesis and structure-activity relationships of 1-aryl-4-aminoalkylisoquinolines: a novel series of CRF-1 receptor antagonists

The design, synthesis and structure-activity relationships of a novel series of CRF-1 receptor antagonist, the 1-aryl-4-alkylaminoisoquinolines, is described. The effects of substitution on the aromatic ring, the amino group and the isoquinoline core on CRF-1 receptor binding were investigated.     

CRF-induced calcium signaling in guinea pig small intestine myenteric neurons involves CRF-1 receptors and activation of voltage-sensitive calcium channels

Corticotropin-releasing factor (CRF) is a 41-amino acid peptide with distinct effects on gastrointestinal motility involving both CRF-1 and CRF-2 receptor-mediated mechanisms that are generally claimed to be centrally mediated. Evidence for a direct peripheral effect is rather limited. Electrophysiological studies showed a cAMP-dependent prolonged depolarization of guinea pig myenteric neurons on application of CRF. The current study aimed to test the direct effect of CRF on myenteric neurons and to identify the receptor subtype and the possible mechanisms involved. Longitudinal muscle myenteric plexus preparations and myenteric neuron cultures of guinea pig small intestine were incubated with the calcium indicator Fluo-4. Confocal Ca(2+) imaging was used to visualize activation of neurons on application of CRF. All in situ experiments were performed in the presence of nicardipine 10(-6) M to reduce tissue movement. Images were analyzed using Scion image and a specifically developed macro to correct for residual minimal movements. A 75 mM K(+)-Krebs solution identified 1,076 neurons in 46 myenteric ganglia (16 animals). Administration of CRF 10(-6) M and CRF 10(-7) M during 30 s induced a Ca(2+) response in 22.4% of the myenteric neurons (n = 303). Responses were completely abolished in the presence of the nonselective CRF antagonist astressin (n = 55). The selective CRF-1 receptor antagonist CP 154,526 (n = 187) reduced the response significantly to 2.1%. Stresscopin, a CRF-2 receptor agonist, could not activate neurons at 10(-7) M, and its effect at 10(-6) M (15.3%, n = 59) was completely blocked by CP 154,526. TTX 10(-6) M (n = 70) could not block the CRF-induced Ca(2+) transients but reduced the amplitude of the signals significantly. Removal of extracellular Ca(2+) blocked all responses to CRF (n = 47). L-type channels did not contribute to the CRF-induced Ca(2+) transients. Blocking N- or P/Q-type Ca(2+) channels did not reduce the responses significantly. Combined L- and R-type Ca(2+) channel blocking (SNX-482 10(-8) M, n = 64) abolished nearly all responses in situ. Combined L-, N-, and P/Q-type channel blocking also significantly reduced the response to 8.6%. Immunohistochemical staining for CRF-1 receptors clearly labeled individual cell bodies in the ganglia, whereas the CRF-2 receptor staining was barely above background. CRF induces Ca(2+) transients in myenteric neurons via a CRF-1 receptor-dependent mechanism. These Ca(2+) transients highly depend on somatic calcium influx through voltage-operated Ca(2+) channels, in particular R-type channels. Action potential firing through voltage-sensitive sodium channels increases the amplitude of the Ca(2+) signals. Besides centrally mediated effects, CRF is likely to modulate gastrointestinal motility on the myenteric neuronal level.     

Involvement of endogenous CRF in carbon tetrachloride-induced acute liver injury in rats

Central neuropeptides play important roles in many physiological and pathophysiological regulation mediated through the autonomic nervous system. In regard to the hepatobiliary system, several neuropeptides act in the brain to regulate bile secretion, hepatic blood flow, and hepatic proliferation. Central injection of corticotropin-releasing factor (CRF) aggravates carbon tetrachloride (CCl4)-induced acute liver injury through the sympathetic nervous pathway in rats. However, still nothing is known about a role of endogenous neuropeptides in the brain in hepatic pathophysiological regulations. Involvement of endogenous CRF in the brain in CCl4-induced acute liver injury was investigated by centrally injecting a CRF receptor antagonist in rats. Male fasted Wistar rats were injected with CRF receptor antagonist alpha-helical CRF-(9-41) (0.125-5 microg) intracisternally just before and 6 h after CCl4 (2 ml/kg) administration, and blood samples were obtained before and 24 h after CCl4 injection for measurement of hepatic enzymes. The liver sample was removed 24 h after CCl4 injection, and histological changes were examined. Intracisternal alpha-helical CRF-(9-41) dose dependently (0.25-2 microg) reduced the elevation of alanine aminotransferase and aspartate aminotransferase levels induced by CCl4. Intracisternal alpha-helical CRF-(9-41) reduced CCl4-induced liver histological changes, such as centrilobular necrosis. The effect of central CRF receptor antagonist on CCl4-induced liver injury was abolished by sympathectomy and 6-hydroxydopamine pretreatment but not by hepatic branch vagotomy or atropine pretreatment. These findings suggest the regulatory role of endogenous CRF in the brain in experimental liver injury in rats.     

Attenuation of corticotropin releasing factor-induced hypotension in anesthetized rats with the CRF antagonist, alpha-helical CRF9-41; comparison with effect on ACTH release.

The effect of pretreatment with the corticotropin releasing factor (CRF-41) antagonist, alpha-helical CRF(9-41), on the hypotensive response obtained on peripheral administration of CRF-41 has been assessed in anesthetized Wistar rats. A single IV bolus dose of rat CRF-41 (2 nmol, at 0 min) produced a hypotensive effect which was rapid in onset (-52 mmHg at +1 min) and sustained throughout the 60-min study period (-42, -40, -26 and -16 mmHg at +3, +10, +30 and +60 min, respectively). The antagonist [alpha CRF(9-41)] was administered in consecutive bolus doses of 12.5, 25 and 50 nmol at -15, -10 and -5 min, respectively. This had no effect on mean arterial blood pressure (MABP) or heart rate, nor did it change significantly the magnitude of the initial rapid fall in MABP when CRF-41 was administered (-45 mmHg at +1 min). However, following pretreatment with alpha CRF(9-41), MABP returned to control values within 3 min and the sustained period of hypotension was completely blocked. Administration of CRF-41 resulted in 44% and 142% increases in norepinephrine and epinephrine measured at +60 min. Pretreatment with the antagonist attenuated the rise in circulating catecholamine levels observed after CRF-41 administration. In comparison, pretreatment with the antagonist did not alter the ACTH response to CRF-41 at +1 and +3 min and only reduced ACTH levels by 28% (p less than 0.05), 43% (p less than 0.001) and 41% (p less than 0.01) at 10, 30 and 60 min, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)     

Comparison of a specific two-site immunoradiometric assay with radioimmunoassay for rat/human CRF-41

We report the development of an immunoradiometric assay (IRMA) for the specific measurement of corticotrophin releasing factor (CRF-41) which uses two antibodies directed to opposite ends of the CRF-41 molecule. In this assay, 125I-labelled affinity purified rabbit anti-(CRF 36-41) immunoglobulin (IgG) and a guinea-pig anti-(CRF 1-20) serum are simultaneously added to 200 microliter volumes of standard or unknown. After 16 h incubation at room temperature, free and CRF-bound guinea-pig antibodies are precipitated using affinity purified sheep anti-(guinea-pig Fc region) IgG coupled to solid phase Dynospheres. Radioactive rabbit anti-(CRF 36-41) is only precipitated in tubes containing CRF-41, since the peptide acts as a link between the 125I-labelled rabbit IgG and the unlabelled guinea-pig CRF-specific antibodies. Precipitated counts are directly proportional to the concentration of CRF-41 in the sample. This CRF IRMA is compared with two radioimmunoassays (RIA) using the N- and C-terminal CRF antisera employed in the IRMA and found to be more sensitive, specific and rapid to perform. The CRF-41 content of rat and human hypothalamic extracts is the same whether measured by IRMA or conventional RIA. Sephadex G50 chromatography of rat hypothalamic extracts reveals two peaks, detected equally by IRMA and RIA, with a main peak in the elution position of synthetic CRF-41, and a smaller void peak. This is the case whether the hypothalamic extracts are prepared from adrenalectomised or sham-operated rats, non-stressed or subjected to ether stress. Re-chromatography of pooled void peaks under dissociating conditions gives the elution profile of synthetic CRF-41, indicating that the large molecular weight 'CRF-41' peak is not a CRF-41 precursor, but is due to CRF-41 associating non-covalently with large molecular weight proteins.     

2-Aryl-3,6-dialkyl-5-dialkylaminopyrimidin-4-ones as novel crf-1 receptor antagonists

The discovery, synthesis and structure-activity studies of a novel series of 2-arylpyrimidin-4-ones as CRF-1 receptor antagonists is described. These compounds are structurally simple and display appropriate physical properties for CNS agents     

GRK3 regulation during CRF- and urocortin-induced CRF1 receptor desensitization

The EC(50) values for concentration-dependent stimulation of cAMP accumulation by CRF (1.3nM) and urocortin (1.0nM) were equivalent in human retinoblastoma Y79 cells. The time course and magnitude of CRF- and urocortin-induced CRF(1) receptor desensitization were similar. A significant 3-fold increase in GRK3, but not GRK2, mRNA levels accompanied the emergence of CRF(1) receptor desensitization in Y79 cells exposed to CRF. In preliminary experiments, retinoblastoma GRK3 protein expression became upregulated during a 48-h CRF exposure. Neither GRK3 nor GRK2 expression increased in Y79 cells exposed to urocortin for 10 min to 48 h. We hypothesize that GRK3 upregulation may be a cellular negative feedback process directed at maximizing CRF(1) receptor desensitization by heightening GRK3 phosphorylating capacity during prolonged exposure to high CRF. Regulation of GRK expression associated with urocortin- and CRF-induced CRF(1) receptor desensitization appears to differ, despite a similar level of signaling via the cAMP-protein kinase A pathway.     

Inhibition of CRF- and urotensin I-stimulated ACTH release from goldfish pituitary cell columns by the CRF analogue alpha-helical CRF-(9-41)

alpha-Helical CRF-(9-41) is an analogue of corticotropin-releasing factor (CRF) that antagonizes CRF-stimulated ACTH release in rats. In the present study, alpha-helical CRF-(9-41) was tested to determine whether it would antagonize the ACTH-releasing activity of CRF or urotensin I (UI) observed with superfused, dispersed goldfish anterior pituitary cells. At a concentration of 4 microM, alpha-helical CRF-(9-41) completely blocked the ACTH-releasing activity of 100 nM CRF or 100 nM UI. The inhibitor by itself showed little intrinsic ACTH-releasing activity. This investigation reveals similarities in the CRF-antagonism of alpha-helical CRF-(9-41) in the teleost and mammalian pituitary in vitro. It also provides are similar and suggests that alpha-helical CRF-(9-41) may be useful as a tool to investigate the effects of CRF-like and UI-like peptides in teleost fishes.     

In vivo potentiation of corticotropin releasing factor activity by vasopressin analogues

The ability of the neurohypophyseal hormones and related synthetic peptides to potentiate the action of synthetic ovine corticotropin releasing factor (CRF-41) was examined using male rats whose endogenous CRF release was blocked with chlorpromazine, morphine and nembutal. CRF potency was clearly related to the pressor activity of the analogues. However, the threshold dose for eliciting a significant corticosterone response with the neurohypophyseal hormones was greater than with CRF-41. When arginine vasopressin (AVP) was coadministered with CRF-41 at subthreshold doses of both peptides, a significant corticosterone response was observed. When the neurohypophyseal hormone analogues were compared with regard to intrinsic CRF bioactivity, it was observed that an L-basic residue in sequence position 8 is necessary for high intrinsic activity. With one exception, l-Deamino-(9-D-Ala) arginine vasopressin, the ability to potentiate the effect of CRF-41 was related to the intrinsic CRF potency of the analogues. These results support previous reports of in vitro potentiation of CRF-41 by AVP and point out the complexity of CRF-neurohypophyseal hormone interaction in vivo.     

Computational investigation of binding mechanism of substituted pyrazinones targeting corticotropin releasing factor-1 receptor deliberated for anti-depressant drug design

In spite of various research investigations towards anti-depressant drug discovery program, no one drug has not yet launched last 20 years. Corticotropin-releasing factor-1 (CRF-1) is one of the most validated targets for the development of antagonists against depression, anxiety and post-traumatic stress disorders. Various research studies suggest that pyrazinone based CRF-1 receptor antagonists were found to be highly potent and efficacious. In this research investigation, we identified the pharmacophore and binding pattern through 2D and 3D-QSAR and molecular docking respectively. Molecular dynamics studies were also performed to explore the binding pattern recognition. We establish the relationship between activity and pharmacophoric features to design new potent compounds. The best 2D-QSAR model was generated through multiple linear regression method with r² value of 0.97 and q² value of 0.89. Also 3D-QSAR model was obtained through k-nearest neighbor molecular field analysis method with q² value of 0.52 and q²_se value of 0.36. Molecular docking and binding energy were also evaluated to define binding patterns and pharmacophoric groups, including (i) hydrogen bond with residue Asp284, Glu305 and (ii) π–π stacking with residue Trp9. Compound 11i has the highest binding affinity compared to reference compounds, so this compound could be a potent drug for stress related disorders. Most of the compounds, including reference compounds were found within acceptable range of physicochemical parameters. These observations could be provided the leads for the design and optimization of novel CRF-1 receptor antagonists.

Communicated by Ramaswamy H. Sarma     

逍遥散对慢性束缚应激模型大鼠相关脑区CRF基因表达的影响

目的:观察慢性束缚应激大鼠相关脑区CRF mRNA(下丘脑、垂体、海马、皮层)含量变化以及逍遥散对其影响.方法:用RT-PCR和图像分析方法测定相关脑区CRF mRNA含量变化.结果:应激组较正常对照组在下丘脑CRF-1基因表达下调(P<0.01).在下丘脑逍遥散组较应激组CRF-1基因表达显著下调(P<0.01),CRF-2基因表达显著上调(P<0.01);在海马区逍遥散组CRF-2基因表达较模型组上调(P<0.05);在皮层逍遥散组CRF-1基因表达较应激组则显著上调(P<0.01).结论:逍遥散组对慢性束缚应激中枢神经肽CRF的调节位点在下丘脑、垂体、海马和皮层,充分证实逍遥散的调节靶点与下丘脑、边缘系统及皮层中枢有关.     

Osmotic stimulation affects neurohypophysial corticotropin releasing factor-41 content: effect of dexamethasone

In this study we examined the effects of 2% saline loading (S), partial restriction of water consumption (R) or a combination of S or R with dexamethasone (DEX) treatment for 14 days on corticotropin releasing factor (CRF)-41 content of the neurointermediate lobe (NIL) and supraoptic nuclei (SON) of male Wistar rats. Arginine vasopressin (AVP) and oxytocin (OXY) contents of the NIL and SON were also assayed as well as plasma corticosterone, ACTH, [Na+] and [Cl-] concentrations. S or R for 14 days resulted in an increase in CRF-41 content and a concomitant drop in AVP and OXY contents of the NIL. Dexamethasone treatment enhanced the effect of S but not of R on NIL CRF-41 content. Dexamethasone treatment abolished the decrease in the AVP content and partially reversed the decrease in the OXY content of the NIL in response to S but not in response to R. No changes were observed in CRF-41, AVP and OXY content of the SON. Unstressed plasma corticosterone concentrations were not changed in S rats but were elevated in R rats; DEX did not prevent this elevation. Plasma ACTH concentrations were low in all groups examined. Plasma [Na+] and [Cl-] increased in response to both S and R. Increases in [Na+] and [Cl-] evoked by S but not R were prevented by DEX treatment. The results show that in the NIL, osmotic stimulation decreases AVP and OXY content, while it increases the CRF-41 content.     

Corticotropin-releasing factor (CRF) receptor subtypes in mediating neuronal activation of brain areas involved in responses to intracerebroventricular CRF and stress in rats

Corticotropin-releasing factor (CRF) plays an important role in stress responses through activation of its receptor subtypes, CRF1 receptor (CRF₁) and CRF2 receptor (CRF₂). The parvocellular paraventricular nucleus of the hypothalamus (PVNp), the central nucleus of the amygdala (CeA), and the oval nucleus of the bed nucleus of the stria terminalis (BNSTov), which are rich in CRF neurons with equivocal expression of CRF₁ and CRF₂, are involved in stress-related responses. In these areas, Fos expression is induced by various stimuli, although the functions of CRF receptor subtypes in stimuli-induced Fos expression are unknown. To elucidate this issue and to examine whether Fos is expressed in CRF or non-CRF neurons in these areas, the effects of antalarmin and antisauvagine-30 (AS-30), CRF₁- and CRF₂-specific antagonists, respectively, on intracerebroventricular (ICV) CRF- or 60 min-restraint-induced Fos expression were examined in rats. ICV CRF increased the number of Fos-positive CRF and non-CRF neurons in the PVNp, with the increases being inhibited by antalarmin in CRF and non-CRF neurons and by AS-30 in CRF neurons. Restraint also increased Fos-positive CRF and non-CRF neurons in the PVNp, with the increases being inhibited by antalarmin in the CRF neurons. ICV CRF also increased Fos-positive non-CRF neurons in the CeA and the BNSTov, which was inhibited by AS-30 in both areas, and inhibited by antalarmin in the BNSTov only. Restraint increased Fos-positive non-CRF neurons in the CeA and BNSTov, with the increases being almost completely inhibited by either antagonist. These results indicate that both ICV CRF and restraint activate both CRF and non-CRF neurons in the PVNp and non-CRF neurons in the CeA and BNSTov, and that the activation is mediated by CRF₁ and/or CRF₂. However, the manner of involvement for CRF₁ and CRF₂ in ICV CRF- and restraint-induced activation of neurons differs with respect to the stimuli and brain areas; being roughly equivalent in the CeA and BNSTov, but different in the PVNp. Furthermore, the non-CRF_1&2-mediated signals seem to primarily play a role in restraint-induced activation of non-CRF neurons in the PVNp since the activation was not inhibited by CRF receptor antagonists.     

Corticotropin-releasing factor (CRF) receptor subtypes in mediating neuronal activation of brain areas involved in responses to intracerebroventricular CRF and stress in rats

Corticotropin-releasing factor (CRF) plays an important role in stress responses through activation of its receptor subtypes, CRF1 receptor (CRF₁) and CRF2 receptor (CRF₂). The parvocellular paraventricular nucleus of the hypothalamus (PVNp), the central nucleus of the amygdala (CeA), and the oval nucleus of the bed nucleus of the stria terminalis (BNSTov), which are rich in CRF neurons with equivocal expression of CRF₁ and CRF₂, are involved in stress-related responses. In these areas, Fos expression is induced by various stimuli, although the functions of CRF receptor subtypes in stimuli-induced Fos expression are unknown. To elucidate this issue and to examine whether Fos is expressed in CRF or non-CRF neurons in these areas, the effects of antalarmin and antisauvagine-30 (AS-30), CRF₁- and CRF₂-specific antagonists, respectively, on intracerebroventricular (ICV) CRF- or 60 min-restraint-induced Fos expression were examined in rats. ICV CRF increased the number of Fos-positive CRF and non-CRF neurons in the PVNp, with the increases being inhibited by antalarmin in CRF and non-CRF neurons and by AS-30 in CRF neurons. Restraint also increased Fos-positive CRF and non-CRF neurons in the PVNp, with the increases being inhibited by antalarmin in the CRF neurons. ICV CRF also increased Fos-positive non-CRF neurons in the CeA and the BNSTov, which was inhibited by AS-30 in both areas, and inhibited by antalarmin in the BNSTov only. Restraint increased Fos-positive non-CRF neurons in the CeA and BNSTov, with the increases being almost completely inhibited by either antagonist. These results indicate that both ICV CRF and restraint activate both CRF and non-CRF neurons in the PVNp and non-CRF neurons in the CeA and BNSTov, and that the activation is mediated by CRF₁ and/or CRF₂. However, the manner of involvement for CRF₁ and CRF₂ in ICV CRF- and restraint-induced activation of neurons differs with respect to the stimuli and brain areas; being roughly equivalent in the CeA and BNSTov, but different in the PVNp. Furthermore, the non-CRF_1&2-mediated signals seem to primarily play a role in restraint-induced activation of non-CRF neurons in the PVNp since the activation was not inhibited by CRF receptor antagonists.     

Corticotropin-releasing factor and adrenocorticotropin stimulate ciliary motility in rabbit tracheal epithelium

To assess the effects of corticotropin-releasing factor (CRF) and adrenocorticotropin (ACTH) on airway ciliary activity, we measured ciliary beat frequency (CBF) by a photoelectric method in response to these peptides in cultured rabbit tracheal explants. When cumulatively added, both CRF and ACTH increased CBF in a dose-dependent fashion. Treatment of tissues with Ca2+-free medium or nifedipine abolished the effect of CRF but not of ACTH. The CRF- and ACTH-induced ciliostimulations were not affected by indomethacin or autonomic antagonists, but were attenuated by nordihydroguaiaretic acid and by their receptor antagonists, alpha-helical CRF (9-41) and ACTH (7-38). Intracellular cyclic AMP levels were significantly increased by CRF and ACTH. These results suggest that CRF and ACTH stimulate airway ciliary motility through the activation of adenylate cyclase and lipoxygenase by binding to their specific receptors, where the effect of CRF may be triggered by Ca2+ influx.     

Atrial natriuretic peptide does not affect corticotropin-releasing factor-, arginine vasopressin- and angiotensin II-induced adrenocorticotropic hormone release in vivo or in vitro

The effect of synthetic atrial natriuretic peptide (ANP) was examined on the in vivo and in vitro release of ACTH. Intravenous ANP (4 micrograms/kg body weight) administration did not affect the corticotropin releasing factor (CRF, 4 micrograms/kg body weight)-, arginine vasopressin (AVP, 2 micrograms/kg body weight)- and angiotensin II (A II, 4 micrograms/kg body weight)-induced ACTH release in unanesthetized freely moving rats. ANP did not inhibit the basal, CRF- and AVP-induced release of ACTH in pituitary cell cultures. ANP did not affect the CRF- and AVP-induced plasma corticosterone elevation, while it attenuated the AVP-induced corticosterone elevation. These results indicate that ANP does not affect the ACTH release at the pituitary level in vivo and in vitro.     

Differential monoaminergic, neuroendocrine and behavioural responses after central administration of corticotropin-releasing factor receptor type 1 and type 2 agonists

Corticotropin-releasing factor (CRF) mediates various aspects of the stress response. To differentiate between the roles of CRF(1) and CRF(2) receptor subtypes in monoaminergic neurotransmission, hypothalamic-pituitary-adrenocortical axis activity and behaviour we compared the effects of CRF and urocortin 1 with those of the selective CRF(2) receptor ligands urocortin 2 and urocortin 3. In vivo microdialysis in the rat hippocampus was used to assess free corticosterone, extracellular levels of serotonin (5-HT) and noradrenaline (NA), and their metabolites 5-hydroxyindoleacetic acid (5-HIAA) and 3-methoxy-4-hydroxyphenylglycol (MHPG), respectively. Intracerebroventricular (i.c.v.) injection of CRF and urocortin 1, 2 and 3 (1.0 microg) increased hippocampal levels of 5-HT and 5-HIAA. CRF and urocortin 1 increased NA and MHPG, whereas urocortin 2 and urocortin 3 elevated MHPG, but not NA levels. CRF and the urocortins induced an immediate increase in behavioural activity. CRF and urocortin 1 mainly caused grooming and exploratory behaviour. In contrast, urocortin 2 and urocortin 3 both induced exploratory behaviour, but not grooming, and increased time spent eating food pellets. All urocortins, but not CRF, suppressed food intake 4-6 h after injection. Hippocampal free corticosterone levels were elevated by CRF, urocortin 1 and 3, but not by urocortin 2. The time courses of the CRF- and urocortin 1-induced responses were significantly prolonged as compared to those of the CRF(2) receptor ligands. The stimulatory changes evoked by CRF and urocortin 1 were present up to 4-6 h after injection, whereas the effects of urocortin 2 and urocortin 3 returned to baseline within 2.5 h after injection. Pre-treatment with the selective antagonist antisauvagine-30 (5.0 microg, i.c.v.) confirmed that the effects of urocortin 3 were CRF(2) receptor-mediated. The differential time course of the monoaminergic, neuroendocrine and behavioural effects of CRF and urocortin 1, as compared to urocortin 2 and urocortin 3, and the specific behavioural pattern induced by the CRF(2) receptor ligands, suggest a distinct role for CRF(2) receptors in the stress response.     

AgNOR numbers in rat pituitary corticotrophs following adrenalectomy or corticotrophin releasing factor administration

Using a combined silver staining/immunoalkaline phosphatase technique, nucleolar organiser regions (AgNORs) were visualised and quantified in rat anterior and intermediate lobe pituitary corticotrophs following bilateral adrenalectomy or sham surgery. Compared to sham operated animals, the mean number of AgNORs was increased in anterior lobe corticotrophs in adrenalectomized rats and there was a shift to the right in the distribution. At 2 weeks after adrenalectomy, AgNOR numbers were greater than at 6 weeks. AgNOR numbers were also quantified in anterior lobe corticotrophs of intact rats receiving daily intraperitoneal injections of ovine CRF-41 at 50 micrograms/kg, which has been shown to stimulate ACTH release and to produce morphological evidence of increased corticotroph stimulation. CRF-41 did not produce an increase in AgNOR numbers, compared to saline injected controls.