Modulation Of C-fos Expression Research Articles

Sexual experience with a known male modulates c-Fos expression in response to mating and male pheromone exposure in female mice

Sexually naïve female mice are not sexually receptive in their first mating opportunity. Four to five sexual encounters are needed to display high sexual receptivity as assessed by the lordosis reflex. The neuronal changes induced by sexual experience are not well understood. In this study, we evaluated if repeated sexual stimulation with the same male was associated with an increase in the neuronal activity evaluated by c-Fos expression in brain structures associated with the control of sexual behavior such as the accessory olfactory bulb (AOB), ventromedial hypothalamus (VMH), and the medial preoptic area (MPOA). Ovariectomized female mice were randomly distributed into three groups: sexually naïve (SN), with no prior sexual stimulation; sexually inexperienced (SI), with one prior mating session; and sexually experienced (SE), with six prior mating sessions. Females were primed with estradiol benzoate and progesterone once a week for 7 weeks. Neuronal activation in response to mating or soiled bedding was evaluated in the 7th week. Each group was subdivided into three subgroups: clean (exposure to clean bedding), male bedding (exposure to sawdust soiled with secretions from a male), or mating. Each female mated with her assigned male; in the exposure subgroup, soiled bedding was obtained from the male with whom she mated.Neuronal activity data showed that SE females had a higher c-Fos response in the VMH when they mated in comparison to females exposed to clean bedding. SI females that mated had a decrease c-Fos expression in the glomerular cell layer of the AOB, compared to females exposed to male bedding. The mitral cell layer showed a higher c-Fos response in SI females that mated in comparison to those exposed to male bedding. Comparisons between groups presented with the same stimulus indicate that SI females exposed to male bedding showed a decrease in c-Fos response in the mitral cell layer in comparison to SE and SN females. Correlation analysis demonstrated that the lordosis quotient from the last mating test correlated positively with the number of c-Fos-positive cells in the mitral cell layer in SE and SI groups. A similar correlation was found in the MPOA in SI females. Prior mating in female mice is required to increase sexual receptivity. Changes in the neuronal activity in the AOB and VMH may be involved in the neuronal plasticity induced by repeated sexual stimulation.

Scheduled feeding restores memory and modulates c-Fos expression in the suprachiasmatic nucleus and septohippocampal complex

Disruptions in circadian timing impair spatial memory in humans and rodents. Circadian-arrhythmic Siberian hamsters (Phodopus sungorus) exhibit substantial deficits in spatial working memory as assessed by a spontaneous alternation (SA) task. The present study found that daily scheduled feeding rescued spatial memory deficits in these arrhythmic animals. Improvements in memory persisted for at least 3 weeks after the arrhythmic hamsters were switched back to ad libitum feeding. During ad libitum feeding, locomotor activity resumed its arrhythmic state, but performance on the SA task varied across the day with a peak in daily performance that corresponded to the previous daily window of food anticipation. At the end of scheduled feeding, c-Fos brain mapping revealed differential gene expression in entrained versus arrhythmic hamsters in the suprachiasmatic nucleus (SCN) that paralleled changes in the medial septum and hippocampus, but not in other neural structures. These data show that scheduled feeding can improve cognitive performance when SCN timing has been compromised, possibly by coordinating activity in the SCN and septohippocampal pathway.

Gabapentin Differentially Modulate c-Fos Expression in Hypothalamus and Spinal Trigeminal Nucleus in Surgical Molar Extraction.

The study on the efficacy of oral analgesics reported that no single class of drug is effective in post-surgical dental pain. Pain following removal of third molar is most commonly used and widely accepted acute pain model for assessing the analgesic effect of drugs in humans. Reports demonstrated that analgesic efficacy in the human dental model is highly predictive. The high incidence of false-negative findings in analgesic investigations hinders the process of molecular discovery. Molecular mechanism of post-surgical pain is not known. More importantly, the animal model for postoperative dental pain is not well established. In an attempt to discover an effective post-surgical dental pain blocker with acceptable side effects, it is essential to elucidate the molecular mechanism of post-operative dental pain. The present study investigated mandibular molars extraction in rat as an animal model for the post-operative dental pain in central nervous system. Using c-Fos immunohistochemistry, we demonstrated that pre administration of GBP (150 mg/kg. i.p) significantly (p< 0.01) neutralized the surgical molar extraction induced c-Fos expression bilaterally in rat hypothalamus. Present results indicate that pain after surgical molar extraction might follow novel neural pathways therefore difficult to treat with existing anti-nociceptive drugs.

Male song quality modulates c-Fos expression in the auditory forebrain of the female canary

In canaries, specific phrases of male song (sexy songs, SS) that are difficult to produce are especially attractive for females. Females exposed to SS produce more copulation displays and deposit more testosterone into their eggs than females exposed to non-sexy songs (NS). Increased expression of the immediate early genes c-Fos or zenk (a.k.a. egr-1) has been observed in the auditory forebrain of female songbirds hearing attractive songs. C-Fos immunoreactive (Fos-ir) cell numbers were quantified here in the brain of female canaries that had been collected 30min after they had been exposed for 60min to the playback of SS or NS or control white noise. Fos-ir cell numbers increased in the caudomedial mesopallium (CMM) and caudomedial nidopallium (NCM) of SS birds as compared to controls. Song playback (pooled SS and NS) also tended to increase average Fos-ir cell numbers in the mediobasal hypothalamus (MBH) but this effect did not reach full statistical significance. At the individual level, Fos expression in CMM was correlated with its expression in NCM and in MBH but also with the frequency of calls that females produced in response to the playbacks. These data thus indicate that male songs of different qualities induce a differential metabolic activation of NCM and CMM. The correlation between activation of auditory regions and of the MBH might reflect the link between auditory stimulation and changes in behavior and reproductive physiology.

Peripheral injected cholecystokinin-8S modulates the concentration of serotonin in nerve fibers of the rat brainstem

Serotonin and cholecystokinin (CCK) play a role in the short-term inhibition of food intake. It is known that peripheral injection of CCK increases c-Fos-immunoreactivity (Fos-IR) in the nucleus of the solitary tract (NTS) in rats, and injection of the serotonin antagonist ondansetron decreases the number of c-Fos-IR cells in the NTS. This supports the idea of serotonin contributing to the effects of CCK. The aim of the present study was to elucidate whether peripherally injected CCK-8S modulates the concentration of serotonin in brain feeding-regulatory nuclei. Ad libitum fed male Sprague-Dawley rats received 5.2 and 8.7nmol/kg CCK-8S (n=3/group) or 0.15M NaCl (n=3–5/group) injected intraperitoneally (ip). The number of c-Fos-IR neurons, and the fluorescence intensity of serotonin in nerve fibers were assessed in the paraventricular nucleus (PVN), arcuate nucleus (ARC), NTS and dorsal motor nucleus of the vagus (DMV). CCK-8S increased the number of c-Fos-ir neurons in the NTS (mean±SEM: 72±4, and 112±5 neurons/section, respectively) compared to vehicle-treated rats (7±2 neurons/section, P<0.05), but did not modulate c-Fos expression in the DMV or ARC. Additionally, CCK-8S dose-dependently increased the number of c-Fos-positive neurons in the PVN (218±15 and 128±14, respectively vs. 19±5, P<0.05). In the NTS and DMV we observed a decrease of serotonin-immunoreactivity 90min after injection of CCK-8S (46±2 and 49±8 pixel/section, respectively) compared to vehicle (81±8 pixel/section, P<0.05). No changes of serotonin-immunoreactivity were observed in the PVN and ARC. Our results suggest that serotonin is involved in the mediation of CCK-8's effects in the brainstem.

Nocistatin and nociceptin modulate c-Fos expression in the mice thalamus

Nocistatin and nociceptin/orphanin FQ (N/OFQ) are two neuropeptides which may have opposite effects in several biological functions but their neuro-anatomical sites of interaction are not fully clear. We investigated interaction between the effect of intracerebroventricular (i.c.v.) injection of nocistatin and N/OFQ, on c-Fos expression in the mouse thalamus, using c-Fos immunohistochemistry. We found that co-injection of nocistatin with N/OFQ significantly modulates c-Fos expression in the thalamus. The present study strongly suggests that "Nocistatin-Nociceptin" interaction system in the thalamus may be the promising neuromodulatory sites in the investigation of unlocking their possible therapeutic circuit in nociception, memory and anxiety.

Ingestion of highly palatable foods modulates c-Fos expression in the nucleus accumbens responding to stress in rats

Ingestion of highly palatable foods modulates c-Fos expression in the nucleus accumbens responding to stress in rats

Effects of acupuncture on abdominal leak point pressure and c-Fos expression in the brain of rats with stress urinary incontinence

Stress urinary incontinence leads to the involuntary loss of urine during abdominal strain caused by sneezing, laughing, and coughing. Acupuncture has been widely used for the treatment and prevention of a variety of diseases in traditional medicine. Acupuncture has also been used to relieve the symptoms of functional disorders of the lower urinary tract. In the present study, we investigated the effect of acupuncture at the Sanyinjiao (SP6) acupoint on stress urinary incontinence in rats. The present results showed that abdominal leak point pressure was decreased in rats with stress urinary incontinence, while acupuncture at the SP6 acupoint significantly enhanced the abdominal leak point pressure. The expression of c-Fos in the pontine micturition center (PMC), ventrolateral periaqueductal gray (vlPAG), and medial preoptic nucleus (MPA) regions was increased by the induction of stress urinary incontinence, and acupuncture at the SP6 acupoint significantly decreased c-Fos expression in these areas. In the present study, we showed that acupuncture has therapeutic effect on the symptoms of stress urinary incontinence, and this effect of acupuncture is associated with modulation of c-Fos expression in the brain.

Effect of Gabapentin on c-Fos Expression in the CNS after Paw Surgery in Rats

Gabapentin (neurontin), a GABA analogue anticonvulsant has proven to be effective in anti-nociceptive activity as well as for the treatment of anxiety. Gabapentin (GBP) is well tolerated and shows very favorable side effects profile: The exact molecular mechanism of action of GBP to block postoperative pain and stress is not known. Therefore, to identify the functional neuroanatomical target sites of GBP in post-surgery as well as its effect on postsurgical process, we examined the effects of GBP on c-Fos expression in the supraspinal part of the central nervous system in rats. Using a well-validated rat model of surgical pain, we studied the neuroanatomical functional target sites of gabapentin after paw surgery. The effect of GBP was examined by means of c-Fos immunohistochemistry. A single intraperitoneal injection (i.p.) of GBP (150 mg/kg) or saline (control) was administered 20 min before surgical incision in the paw under anesthesia. Ninety minutes after surgical incision, the deeply anesthetized rats were perfused transcardially with 4% paraformaldehyde. Serial 40-microm-thick sections of whole brain (except spinal cord) were cut and processed by immunohistochemistry to locate and quantify the sites and number of neurons with c-Fos immunoreactivity. Detection of c-Fos protein was performed using the peroxidase-antiperoxidase detection protocol. Our present study demonstrated that compared to control, administration of GBP (150 mg/kg, i.p.) before paw surgery significantly (p < 0.01) attenuated the incision-induced c-Fos expression only in the paraventricular nucleus of the hypothalamus. In addition, GBP-induced increase in c-Fos expression was observed in the dorsal raphe (DRN) and in the nucleus raphe magnus. Present results indicate that GBP may differentially modulate c-Fos expression in surgical paw incision. Moreover, this study provides some clue to examine whether GBP exerts its action simultaneously through two separate pathways in post-surgery.

Activation of Group II Metabotropic Glutamate Receptors Attenuates Both Stress and Cue-Induced Ethanol-Seeking and Modulates c-fosExpression in the Hippocampus and Amygdala

Major precipitating factors for relapse to drug use are stress and exposure to drug-related environmental stimuli. Group II (mGlu(2/3)) metabotropic glutamate receptors (mGluRs) are densely expressed within circuitries mediating the motivating effects of stress and drug cues and, therefore, may participate in regulating drug-seeking linked to both of these risk factors. Thus, we tested the hypothesis that pharmacological activation of group II mGluRs modifies both stress- and cue-induced ethanol-seeking, using reinstatement models of relapse. In parallel, brain c-fos expression was examined to identify neural substrates for the behavioral effects of group II mGluR activation. The selective mGlu(2/3) agonist LY379268 (1R,4R,5S,6R-2-oxa-4-aminobicyclo[3.1.0]hexane-4,6-dicarboxylate) (0.3, 1.0, and 3.0 mg/kg, s.c.) dose dependently blocked the recovery of extinguished ethanol-seeking induced by either footshock stress or ethanol-associated discriminative stimuli. These effects were accompanied by modulation of c-fos expression in the hippocampus, central nucleus of the amygdala, bed nucleus of the stria terminalis, and medial parvocellular paraventricular nucleus of the hypothalamus. The results implicate group II mGluRs as a shared neuropharmacological substrate for ethanol-seeking elicited by both drug cues and stress and identify group II mGluRs as promising treatment targets for relapse prevention.

IS PROTEIN KINASE C (PKC) INVOLVED IN NOCICEPTION?

The study was designed to determine whether the protein kinase C (PKC) is involved in nociceptive c-Fos expression and the concomitant signaling processes of endogenous opioid-like substances (OLS) that modulate c-Fos expression in the spinal dorsal horn following formalin injection into the unilateral hindpaw in rats by using immunocytochemical techniques. In the first part of experiments in which rats were pretreated with intrathecal (i.t.) chelerythrine (Chel), an inhibitor of PKC, the nociceptive c-Fos-like immunoreactive (Fos-LI) neurons in the lumbar dorsal horn ipsilateral to the formalin injection were significantly suppressed with a reduction rate of 60.3% (p < .001) as compared to that in the control group with i.t. saline. In the second part of experiments in which rats were pretreated with i.t. naloxone (Nal), the nociceptive Fos-LI neurons were significantly increased by 53.2% (p < .01) as compared to that in the control group; however, when rats were pretreated with combined i.t. Nal + Chel, the nociceptive Fos-LI neurons exhibited a percentage reduction similar to that in group with i.t. Chel alone, although the real number of Fos-LI neurons in group with i.t. Nal + Chel still significantly surpassed that in group with i.t. Chen only. These results suggest that: (1) PKC may play an important role in the induction of nociceptive c-Fos expression; (2) nociceptive c-Fos expression is subject to the modulation of endogenous OLS that suppress the nociceptive responses of the dorsal horn neurons; and (3) PKC may not be involved in the signaling processes by which the endogenous OLS modulate the nociceptive c-Fos expression in the spinal level.

Hippocampal dopamine receptors modulate cFos expression in the rat nucleus accumbens evoked by chemical stimulation of the ventral hippocampus

Recently, we have shown that D1 and D2 receptors in the ventral hippocampus (VH) modulate both the locomotor activation and the increase in dopamine (DA) levels in the rat nucleus accumbens (NAc) induced by NMDA stimulation of the VH. In the present study we analyze the possible role of VH D1 and D2 receptors in the modulation of the cFos expression in NAc (core and shell subregions) and in dorsal striatum. This was assessed by immunohistochemical analysis of cFos expression in the rat brains after retrodialysis application of NMDA (50 mM, 10 min) into VH, in absence and in presence of either the D1/D5 receptor antagonist SCH 23390 (100 and 250 μM, 60 min) or the D2 receptor antagonist raclopride (100 and 250 μM, 60 min). NMDA induced a robust increase in the cFos expression in the NAc shell, both in the ipsilateral and contralateral side. No statistically significant increases were observed in the NAc core and in the dorsal striatum. Simultaneous application of SCH 23390 and NMDA into the VH attenuated the NMDA-evoked cFos expression in NAc shell. In contrast, raclopride had no significant effect. Our present results show that the NMDA receptor mediated effects in the VH require D1 receptors and suggest that DA in VH strongly modulates the excitatory outputs from this brain area.

Photostimulation alters c-Fos expression in the dorsal raphe nucleus

Retinal afferents to the dorsal raphe nucleus (DRN) have been described in a number of species, including Mongolian gerbils, but functional correlates of this optic pathway are unknown at present. To determine whether temporally modulated photostimulation can affect c-Fos expression in the gerbil DRN, quantitative analysis of c-Fos-immunoreactive (c-Fos-ir) neurons was conducted following 60-min exposure to pulsed (2 Hz) photostimulation at selected times over the 12:12 h light/dark cycle. For comparison, c-Fos expression was also analyzed in the subnuclei of the lateral geniculate complex and in the suprachiasmatic nucleus (SCN). In the DRN, a substantial reduction was observed in the number of c-Fos immunoreactive (c-Fos-ir) neurons during the light period and early dark period in photostimulated vs. control animals. Similar results were obtained in the intergeniculate leaflet (IGL) and ventral lateral geniculate (VLG). However, no significant changes were observed in the number of c-Fos-ir neurons in the dorsal lateral geniculate nucleus or suprachiasmatic nucleus (SCN) following photostimulation, except for an increase in the middle of the dark period. These findings indicate that photic stimulation can lead to a suppression or down-regulation of c-Fos expression in the DRN that is probably mediated via the direct retinal pathway to the DRN in this species. The similarity between c-Fos expression profiles in the DRN and IGL/VGL suggest that efferent projections from the DRN may modulate c-Fos expression to visual stimulation in these subnuclei of the lateral geniculate complex.

Ciproxifan and cimetidine modulate c-fos expression in septal neurons, and acetylcholine release from hippocampus of freely moving rats.

Ciproxifan and cimetidine modulate c-fos expression in septal neurons, and acetylcholine release from hippocampus of freely moving rats.

Anatomical and functional reconstruction of the nigrostriatal system in vitro: selective innervation of the striatum by dopaminergic neurons.

To study development of the nigrostriatal pathway in an in vitro model system, organotypic slices obtained from rat pups (P4) and containing the striatum and the cortex were grown together with apposed embryonic (E13.5) mesencephalic blocks according to the static slice culture method of Stoppini et al. (1991; J. Neurosci. Methods 37:173-182). Under these conditions, mesencephalic dopaminergic (DA) fibers rapidly grow through the slice, preferentially its striatal portion. This innervation provides a true synaptic innervation to the striatum, as shown by the presence of DA terminals on striatal neurons. DA fibers are able to exert a functional influence, as seen by their ability to modulate c-Fos expression in striatal neurons in the same way as in vivo. Thus, blockade, under basal conditions, of the effect of spontaneously released dopamine by the D2 receptor antagonist haloperidol leads to the activation of c-Fos expression in the striatum. Furthermore, stimulation of DA release by amphetamine induces striatal c-Fos expression in a D1 receptor-dependent manner. Next, the mechanisms of the selective striatal innervation were examined. Indeed, DA fibers innervated specifically the striatum, avoiding the cortical portion of the slice. This selectivity seems to be specific for DA neurons; no selectivity could be observed when noradrenergic neurons were substituted for DA neurons. Short-term cocultures in a collagen gel of mesencephalic blocks with striatal blocks failed to reveal any oriented outgrowth of DA fibers from the mesencephalon, suggesting that the selective innervation observed in the organotypic slices results from some contact-dependent, presumably adhesive interactions rather than from the presence of some diffusible substance orienting the growth of DA fibers towards the striatum. On the other hand, DA neurons seeded onto striatal slices did not attach selectively onto the striatal portion of the slice, indicating that the putative specific adhesive interactions governing the selective striatal innervation are not the same as those determining the adhesion of the DA neurons. These results show that cocultures of cortex-striatum and mesencephalic slices result in a system that displays a number of the morphological and functional traits of the normal nigrostriatal system and that can be relied on as a good in vitro model of in vivo development.

Circadian Modulation of c-Fos Expression Occurs only in the SCN and not in Other Visual Projection Areas in the Rat

Brief photic stimuli at different circadian times induce differential expression of c-Fos in the suprachiasmatic nuclei (SCN). Whether circadian modulation of light-induced c-Fos expression occurs in other visual projection areas is not known. We addressed this question by estimating the immunohistochemical expression of c-Fos induced by 60 min light pulses at three different circadian times. The areas studied were the SCN, the ventral lateral geniculate nucleus, the intergeniculate leaflet, the ventral tegmental area, the superior colliculus and a non-visual control, the paraventricular thalamic nucleus (PVT). Light pulses induced an increase in the number of c-Fos immunoreactive cells in the SCN as a function of the circadian time. Remaining visual structures showed a light-induced increase in c-Fos expression but this was not dependent on the circadian time. The non-visual control area (PVT) did not respond to light pulses. Since no circadian modulation was found in the intergeniculate leaflet, which rec eives collateral projections from the same retinal ganglion cells that project to the SCN, nor in other primary visual projection areas, the present findings suggest that the circadian modulation of light-induced c-Fos expression in the SCN depends mainly on the functional properties of its intrinsic neurons.

Hormonal modulation of c-fos expression in isolated hepatocytes. Effects of angiotensin II and phorbol myristate acetate on transcription and mRNA degradation.

It has been shown that angiotensin II and PMA increase the expression of proto-oncogenes (c-fos, c-myc and c-mos) in liver cells. In this study the effects of angiotensin II and PMA on c-fos transcription and mRNA stability were investigated. Using nuclear run-off transcription assays, it was observed that PMA and angiotensin II induced a rapid increase in c-fos transcription. The transcription rate of the GAPDH gene did not change, indicating that the effects were not general on gene transcription. The ability of these agents to modulate proto-oncogene mRNA stability was tested by measuring c-fos mRNA half-life. It was observed that c-fos mRNA half-life was relatively short (approximately 14-18 min) and that angiotensin II and PMA markedly stabilized mRNA, increasing its half-life (approximately 4-fold and approximately 2-fold, respectively). The protein synthesis inhibitor cycloheximide increased mRNA stability to a much greater extent. Our results clearly demonstrate that angiotensin II and PMA increased c-fos mRNA accumulation in liver cells through two actions: induction of c-fos gene transcription and increase in mRNA stability.

Protein kinases and phosphatases modulate c-fos expression in rat hepatocytes. Effects of angiotensin II and phorbol myristate acetate.

In isolated rat hepatocytes angiotensin II and phorbol 12-myristate 13-acetate (PMA) induce the expression of c-fos. We studied the possible transduction pathway(s) involved in this effect using inhibitors of serine-threonine and tyrosine protein kinases. Calphostin and staurosporine, inhibitors of protein kinase C and other serine-threonine protein kinases, block in a dose-dependent manner the effect of angiotensin II and PMA. Interestingly, genistein also blocks the induction of this proto-oncogene, suggesting a role for tyrosine protein kinases. Inhibitors of serine-threonine protein phosphatases, such as okadaic acid, microcystin LR and calyculin also induce c-fos expression. These data suggest that protein phosphatases exert a tonic inhibitory control of c-fos expression. The effect of these phosphatase inhibitors were not blocked by staurosporine, calphostin or genistein. Our results suggest that the expression of c-fos in rat hepatocytes is regulated by complex phosphorylation-dephosphorylation cascade(s) probably involving serine/threonine and tyrosine protein kinase and protein phosphatase activities.