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Absence of a systemic febrile response to PGE2 and LPS following targeted saporin lesions of the rostral raphe pallidus

Lu J, Yoshida K, Fuller PM, Saper CB (2006) Absence of a systemic febrile response to PGE2 and LPS following targeted saporin lesions of the rostral raphe pallidus. Neuroscience 2006 Abstracts 662.18. Society for Neuroscience, Atlanta, GA.

Summary: Anatomical studies have indicated that the rostral raphe pallidus (RPa) medullary area contains sympathetic premotor neurons that may be required for the fever responses triggered by prostaglandin E2 (PGE2) and lipopolysaccharide (LPS) administration. For example, stimulation of this region increases sympathetic activity to brown adipose tissue (BAT) and arteries of the tail, the two primary thermoregulator effector organ in the rat. In addition, neurons in this region are activated by cold exposure and central administration of PGE2. To better understand the role of the RPa in the systemic febrile response to endogenous and exogenous pyrogenic mediators, we performed targeted orexin-saporin lesions of the RPa. Following lesions of the RPa, the amplitude of core body temperature (Tb), as compared with pre-lesion measurements and controls, was significantly increased (p<0.001). Mean Tb did not differ between groups, however. In addition, fever responses to both i.p. LPS and i.c.v. PGE2 were completely blocked in the RPa lesioned rats. Importantly, following LPS administration, the RPa lesioned animals demonstrated the same pattern of Fos expression in the preoptic area as compared to intact controls, suggesting normal activation of the pyrogen-reception system. These observations establish a critical role for the RPa nucleus in the systemic fever response to the pyrogenic mediators LPS and PGE2.

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192 IgG-saporin lesions of the cholinergic basal forebrain disrupt attention and awareness in Pavlovian trace but not delay conditioning in rats

Torner EK, Flesher MM, Chavez CM, Linton KD, Herbert MS, Butt AE (2006) 192 IgG-saporin lesions of the cholinergic basal forebrain disrupt attention and awareness in Pavlovian trace but not delay conditioning in rats. Neuroscience 2006 Abstracts 667.19. Society for Neuroscience, Atlanta, GA.

Summary: Recent research suggests that Pavlovian trace conditioning, but not delay conditioning, requires awareness or attention, where these processes appear to depend on specific brain systems. For example, past research has shown that although amnesiac humans with damage to the hippocampus (HPC) acquire a normal conditioned response (CR) in delay conditioning paradigms where the conditioned stimulus (CS) and unconditioned stimulus (US) partly overlap, they fail to acquire the CR in trace conditioning paradigms where the CS and US are separated in time. Others have shown that the anterior cingulate cortex (ACC) is similarly necessary for trace but not delay conditioning in rats. Another study in rabbits also suggests medial prefrontal cortex (mPFC) involvement in trace but not delay conditioning. The basal forebrain cholinergic system (BFCS) has projections to mPFC, ACC, and HPC. Given that each of these regions is critical for trace but not delay conditioning, we hypothesized that lesions of the BFCS using 192 IgG-saporin (SAP) would selectively impair trace but not delay appetitive conditioning in rats. Rats received bilateral injections of SAP or saline only (sham lesion control group) into BFCS prior to conditioning with a white noise CS and sucrose pellet US in either a delay or 10 s trace conditioning paradigm. Results supported our hypotheses, with the BFCS lesion group showing normal delay conditioning but impaired trace conditioning. In order to assess the potential for distraction to exacerbate the observed BFCS lesion-induced impairments in trace conditioning, a visual distracter (continuously flashing light) was added to the trace conditioning paradigm in a second experiment. Given evidence suggesting BFCS involvement in attention, it was hypothesized that the addition of a visual distracter to the trace conditioning task would cause a greater degree of impairment in the BFCS lesion group than in the control group tested in that task. Preliminary data support this hypothesis. Together, these experiments suggest that the BFCS is necessary for normal trace conditioning, which is argued to require both awareness and working memory. The additional impairment in trace conditioning caused by the visual distracter further suggests a role for the BFCS in mediating attention.

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Cholinergic agonists restore deficits in hippocampal neurogenesis after basal forebrain lesions in the adult rat brain

Van Kampen JM, Eckman CB (2006) Cholinergic agonists restore deficits in hippocampal neurogenesis after basal forebrain lesions in the adult rat brain. Neuroscience 2006 Abstracts 674.13. Society for Neuroscience, Atlanta, GA.

Summary: Discrete regions of the adult CNS, including the dentate gyrus of the hippocampus, retain the capacity for neurogenesis. Progenitor cells in these regions may represent a potential source of endogenous cells for replacement therapies in neurodegenerative diseases. In order to facilitate the development of such therapeutic approaches, an understanding of the microenvironmental signals regulating neurogenesis in the adult brain is essential. Small molecule neurotransmitters, such as acetylcholine, have been shown to regulate neurogenesis both during development and in the adult brain. In the studies presented here, we examine the effects of various cholinergic agonists on hippocampal neurogenesis in the adult rat brain. Intraventricular administration of a nicotinic agonist significantly attenuated proliferation, while muscarinic agonists triggered a dose-dependent increase in neurogenesis within the dentate gyrus and CA1 regions of the hippocampus. This effect was blocked by the M1 receptor-selective antagonist, pirenzepine. The basal forebrain provides an abundant source of cholinergic input to the hippocampus, thought to play an important role in learning and memory and Alzheimer’s disease (AD) pathophysiology. Loss of this cholinergic innervation, as occurs in AD, was achieved by a selective immunotoxin and resulted in a significant reduction in hippocampal neurogenesis. This loss of neurogenesis was reversed by intraventricular administration of a muscarinic receptor agonist. The loss of basal forebrain cholinergic inputs observed in AD may contribute to deficits in learning and memory through reductions in hippocampal neurogenesis. The results reported here suggest that pharmacological manipulation of the cholinergic system may represent a means of stimulating hippocampal neurogenesis as a potential treatment strategy.

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Neuroprotective effects of testosterone in two models of spinal motoneuron injury

Sengelaub DR, Osborne MC, Little CM, Huyck KD, Verhovshek T (2006) Neuroprotective effects of testosterone in two models of spinal motoneuron injury. Neuroscience 2006 Abstracts 683.12. Society for Neuroscience, Atlanta, GA.

Summary: Following induced death or axotomy of spinal motoneurons remaining motoneurons atrophy, but this atrophy can be reversed or prevented by treatment with testosterone (T). For example, partial depletion of motoneurons from the highly androgen-sensitive spinal nucleus of the bulbocavernosus (SNB) induces dendritic atrophy in remaining motoneurons, and this atrophy is prevented by treatment with T. To test whether T has similar effects in more typical motoneurons, we examined potential neuroprotective effects in motoneurons innervating muscles of the quadriceps. Motoneurons innervating the vastus medialis muscle were selectively killed by intramuscular injection of cholera toxin conjugated saporin. Simultaneously, some saporin-injected rats were given implants containing T or left untreated. Four weeks later, motoneurons innervating the ipsilateral vastus lateralis muscle were labeled with cholera toxin conjugated HRP, and dendritic arbors were reconstructed in 3 dimensions. Compared to intact control males, partial motoneuron depletion resulted in decreased dendritic length (70%) and soma size (13%) in remaining quadriceps motoneurons, but as in the SNB, this atrophy was attenuated by T treatment. In a second model, brain-derived neurotrophic factor (BDNF) and T have a combinatorial effect in the maintenance of motoneurons after axotomy in that dendritic morphology is supported by BDNF treatment, but only in the presence of T. Using immunohistochemical methods, we examined the regulation of the expression of the BDNF receptor, trkB, by T. In both the highly androgen-sensitive motoneurons of the SNB and the more typical quadriceps motoneurons, the expression of trkB receptors was regulated by the presence of T. Motoneurons of castrated animals deprived of T show reduced expression of trkB receptors compared to motoneurons of intact animals or castrated animals given T replacement. This finding suggests that maintenance of trkB receptors with T may be necessary to permit the trophic effects of BDNF in supporting dendritic morphology after axotomy. Together, these findings suggest that T regulates neuroprotective effects through a variety of mechanisms, not only in highly androgen-sensitive motoneurons, but in more typical motoneuron populations as well.

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Cell type specificity of the c-Fos immunoreactive neurons of cortical layer IV after patterned visual stimulation

Vaucher EJ, Dotigny F (2006) Cell type specificity of the c-Fos immunoreactive neurons of cortical layer IV after patterned visual stimulation. Neuroscience 2006 Abstracts 545.28. Society for Neuroscience, Atlanta, GA.

Summary: The cortical processing of specific visual stimuli may be enhanced or suppressed by neuromodulators, such as acetylcholine or norepinephrine as early as in the primary visual area. We have recently shown using c-Fos immunoreactivity that the specific lesion of basal forebrain cholinergic projections abolished the visually-induced neuronal activity of the layer IV of the primary visual cortex. The present study investigated further which cell types immunoreactive for c-Fos were modulated by the cholinergic afferents. Twenty male Long Evans Rats (275-300g) were anaesthetized with urethane (1.3g/kg). C-Fos immunocytochemistry was used as a single cell resolution marker of functional activity induced by sinusoidal grating in the visual cortex in control condition, specific lesion of the cholinergic fibers using 192-IgG saporin, muscarinic inhibition by scopolamine (1mg/kg) or NMDA receptors inhibition by CPP (10mg/kg). c-Fos/Parvalbumin and c-Fos/rat-brain-pyramidal-cells-marker double immunocytochemistry was performed to determine the localization of the visually-induced c-Fos immunoreactivity within the GABAergic interneurons or pyramidal cells of the layer IV of the rat cortex. The results demonstrated that the c-Fos immunoreactivity evoked by patterned stimulation in layer IV was rarely (less than 5%) co-localized with either parvalbumin or rat-brain-pyramidal-cells-marker. In addition, this functional activity was blocked by a cholinergic deficit but was independent of NMDA receptors transmission, since their inhibition by CPP did not affect the activity-dependent c-Fos immunoreactivity. These results suggest an effect of the patterned visual stimulation and the cholinergic fibers on the excitatory spiny stellate cells rather than the GABAergic or pyramidal cells. It suggests a role of the basal forebrain cholinergic neurons in the modulation of the thalamo-cortical transmission rather than local cortical microcircuitry in the rat visual cortex.

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Effects of selective cholinergic NBM lesions on short-interval timing

Miller JP, McAuley JD, Pang KC (2006) Effects of selective cholinergic NBM lesions on short-interval timing. Neuroscience 2006 Abstracts 572.24. Society for Neuroscience, Atlanta, GA.

Summary: The nucleus basalis magnocellularis (NBM) and its connection to the frontal cortex are important for timing short durations and divided attention. Although the NBM provides the major cholinergic input to the frontal cortex, GABAergic and other neurons are also located in the NBM and project to neocortex. To examine the role of the NBM in timing and attention, previous investigators used non-selective lesions of the NBM using ibotenic acid (IBO). In the present study, we examined the importance of cholinergic NBM neurons in timing using the selective immunotoxin 192-IgG saporin (SAP). Fisher 344 rats were trained on a peak-interval (PI) procedure using fixed-intervals of 12 s and 24 s. Once trained, stereotaxic surgeries where conducted on the rats and either SAP or nothing (SHAM) was administered into the NBM to create selective cholinergic or control lesions respectively. Preliminary results show that SAP did not alter peak times (SHAM: 11.82 s & 22.59 s versus SAP: 11.98 s & 22.88 s) or coefficient of variability (CV, SHAM: 0.41 & 0.45 versus SAP: 0.44 & 0.47). However, upon inspection of the brains, SAP lesions did not reduce the number of cholinergic neurons in the NBM. In a separate study using the PI procedure with a single fixed-interval of 18 s, IBO altered timing accuracy as measured by the absolute difference in peak times (pre-op versus post-op: SHAM = 0.60 s; IBO = 1.94 s) and altered variability as measured by the change in CV (pre-op versus post-op: SHAM = 0.02; IBO = 0.20). Preliminary results with IBO showing a non-directional reduction in accuracy are different from previous studies that have reported systematic overestimation of duration, although in our study the damage caused by IBO was restricted to the anterior NBM. Current studies are further evaluating the role of NBM neurons in timing with more selective and complete cholinergic lesions using SAP and more complete non-selective lesions using IBO.

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Molecular changes in the dorsal horn that maintain inflammatory hyperalgesia are similar to those generated during long-term potentiation

Wong YM, Webber MJ, Dickenson AH, Hunt SP (2006) Molecular changes in the dorsal horn that maintain inflammatory hyperalgesia are similar to those generated during long-term potentiation. Neuroscience 2006 Abstracts 642.17. Society for Neuroscience, Atlanta, GA.

Summary: The generation of LTP in deep dorsal horn neurons by noxious stimulation may be one mechanism whereby acute pain transforms into a chronic pain state. Spinal LTP requires the activation of a subset of superficial dorsal horn neurons that express the neurokinin-1 receptor (NK1-R) and are crucial for the initiation and maintenance of chronic pain states. These neurons participate in local spinal sensory processing and are the origin of a spino-bulbo-spinal loop that drives descending spinal facilitation. Spinal LTP is correlated with increased neuronal expression of the transcription factor zif268 in the superficial dorsal horn. Here, we examined if inflammatory pain states required LTP-like changes in gene expression that are dependent upon an intact lamina I pathway. We also asked if changing levels of zif268 regulated the glucocorticoid receptor (GR) gene, a downstream target of zif268. NK1 expressing neurons in lamina I of the lumbar spinal cord were selectively ablated using SP-SAP applied intrathecally. 28d later, rats were injected with Complete Freunds’ Adjuvant (CFA) (50%, 100μl) 2h prior to perfusion with 4% paraformaldehyde. Using immunohistochemistry, we found that while levels of c-fos immunoreactivity were unchanged by lamina I ablation, the levels of zif268 had decreased by 36% (p<0.05) compared to controls. We therefore treated rats intrathecally with zif268 antisense or missense oligonucleotides (0.16μg/μl/h) via implanted osmotic mini pumps and assessed the behavioural effects of zif268 ‘knockdown’ on inflammatory hyperalgesia. Animals were perfused 4 days after CFA inflammation and protein levels of zif268 and GR were assessed by immunohistochemistry. Antisense, but not missense zif268 treatment, reduced the levels of zif268 by 37% and reduced behavioural allodynia by 40%, but only at days 2-4 post CFA. Levels of GR were also reduced by 30% following zif268 antisense treatment. We therefore applied antisense and missense GR probes intrathecally.This reduced the inflammatory hyperalgesia score by 38% but again only on days 2-4. These results suggest the zif268 gene is essential for the maintenance but not the induction of inflammatory pain states and that zif268 can regulate GR in the spinal cord.

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Role of spinal cord µ-opioid receptor expressing dorsal horn neurons in morphine analgesia

Kline IV RH, Wiley RG (2006) Role of spinal cord µ-opioid receptor expressing dorsal horn neurons in morphine analgesia. Neuroscience 2006 Abstracts 643.19. Society for Neuroscience, Atlanta, GA.

Summary: The role of spinal cord μ-opioid receptor expressing dorsal horn neurons in morphine analgesia is not clearly understood. Using lumbar intrathecal (i.t.) injections of the targeted toxin dermorphin-saporin to selectively destroy these cells, we sought to determine the effect of this lesion on the antinociceptive activity of systemic and i.t. morphine on the hotplate test. We examined the antinociceptive effects of morphine across a range of stimulus intensities (44, 47 & 52oC) in order to assess responses mediated by C or Aδ thermal nociceptors. Experiment 1 (systemic morphine): Sixteen Sprague Dawley male rats were injected with 500ng dermorphin-saporin i.t. or PBS and hotplate testing resumed one week after injections. Baseline hotplate responses were monitored for three weeks after which systemic morphine dose response curves (0, 2.5, 5, &10 mg/kg s.c.) were performed. Experiment 2 (spinal intrathecal morphine): Twelve Long Evans female rats were surgically implanted with indwelling lumbar i.t. catheters (8.5cm), underwent baseline hotplate testing for 7 days, had i.t. morphine dose response curves (0, 0.01, 0.1, & 1 μg) performed at 44 & 52oC seven days before and eight days after dermorphin-saporin injections. The dependent measures for the hotplate test were: 1) latencies to the first lick or guard response (all temperatures) and 2) the cumulative durations and amounts of licking and guarding events (44 and 47oC). Loss of lamina II MOR-expressing dorsal horn neurons after dermorphin-saporin was confirmed in spinal cord sections from each rat stained for MOR1 and MOR1C using standard immunoperoxidase techniques on adjacent 40 μm sections from the L4 spinal segment. Baseline responses to noxious heat did not decrease after i.t. dermorphin-saporin. The antinociceptive activity of systemic morphine was attenuated in dermorphin-saporin treated rats at 44 & 47oC; this effect was least striking on the 52oC hotplate and greatest on the 44oC hotplate. The dermorphin-saporin-induced lesion reduced the antinociceptive effects of intrathecal morphine more than systemic morphine. Based on the above findings are others not included here, we conclude that dorsal horn MOR expressing neurons are necessary for morphine to exert its maximum antinociceptive and analgesic effects.

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Astrocytic reaction to a lesion, under hormonal deprivation

Miller A, Martinez L, De LaCalle S (2006) Astrocytic reaction to a lesion, under hormonal deprivation. Neuroscience 2006 Abstracts 660.1. Society for Neuroscience, Atlanta, GA.

Summary: The basal forebrain cholinergic system plays an essential role in cortical plasticity and functional recovery following brain injury, although the precise mechanism is not known. Earlier studies from our laboratory have suggested that estrogen may have a protective effect on the basal forebrain cholinergic system, particularly in the maintenance of neuronal architecture. Although there is evidence for direct actions of estrogen on cholinergic neurons in vitro, the contribution of local glial cells to neuronal repair in this cell group, in vivo, has not been documented. We hypothesized that estrogen could also mediate neuronal repair through a modulatory effect on the activation of reactive astrocytes. Young adult female rats (n=28) were used in these studies, 14 were ovariectomized and the rest were left intact. All animals received a unilateral injection of 200 nl of the immunotoxin 192 IgG-saporin into the nucleus of the horizontal limb of the diagonal band of Broca (HDB). One month after the lesion, half of the animals in each group were implanted subcutaneously with a pellet releasing estrogen or placebo (n=7 per group) for 60 days. Using immunocytochemistry with an antibody against glial fibrillary acidic protein (GFAP), a specific marker for astrocytes, we studied changes in the expression of GFAP in the basal forebrain at the end of the treatment. Image analysis of histological sections revealed that GFAP levels in the side of the lesion were slightly higher that in the corresponding contralateral intact side. Overall change in GFAP expression in the ovariectomized animals treated with estrogen was not significantly different from the non-ovariectomized controls. In the ovariectomized animals treated with placebo (therefore undergoing a 3 month estrogen deprivation), levels of GFAP on the lesioned side were 20% higher than in controls. These results suggest that estrogen may prevent activation of astrocytes after a lesion, and perhaps allow a regenerative remodeling process to occur.

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Noradrenergic nuclei involved in sensory input during mating project to the ventromedial hypothalamus and are involved in mating-induced pseudopregnancy in female rats

Northrop LE, Erskine MS (2006) Noradrenergic nuclei involved in sensory input during mating project to the ventromedial hypothalamus and are involved in mating-induced pseudopregnancy in female rats. Neuroscience 2006 Abstracts 661.23. Society for Neuroscience, Atlanta, GA.

Summary: The ventrolateral region of the ventromedial hypothalamus (VMHvl) is known to control female sexual receptivity through the activity of ovarian steroids in the female rat. These receptors are thought to aide in the steroid-dependent facilitation of the lordosis posture. Besides harboring estrogen and progesterone receptors, dense numbers of noradrenergic receptors are also present in the VMHvl. Previous research has shown that norepinephrine is released in significant amounts within the VMHvl after a female receives vaginocervical stimulation (VCS). At the time of mating, the vaginocervical sensory input travels from the brainstem, through the ventral noradrenergic bundle (VNAB), and finally to the VMH. Sufficient amounts of VCS are necessary for inducing twice daily prolactin surges, which are required for the initiation of pseudopregnancy (PSP). To distinguish whether these cells play a role in mating-induced PSP, they were selectively lesioned using the immunotoxin anti-dopamine-β-hydroxylase-saporin (DBH-SAP) 10 days prior to mating. Females were given bilateral VMHvl infusions of either 60ng/0.6µl of DBH-SAP or 2ng/0.6µl of IGG-SAP (non-specific control). Ten days following infusion on proestrous, females received one of two treatments: no VCS (home cage), or a sufficient amount of VCS (15 intromissions from males) to induce PSP. PSP was measured using vaginal smears and serum PRL concentrations. The next witnessed proestrous day after mating, females were mated again with the same type of stimulus as previously administered and perfused 90 min later. The brainstems were cut in 30µm sections, and ICC was used to visualize DBH and FOS immunoreactivity (IR). FOS-IR and DBH-IR cells were counted in the A2 and A1 cell regions, components of the VNAB. DBH-SAP infused females that received 15I showed 50% induction of PSP whereas IGG-SAP (15I) females showed 100% induction of PSP. None of the home cage rats became PSP . VMHvl DBH-SAP infusions significantly decreased DBH/FOS-IR expression in A2 and A1 nuclei, as well as decreased expression in DBH-IR in A2 nuclei compared to IGG-SAP infused females. Our results show that A1 and A2 noradrenergic cells which innervate the VMHvl are required for initiation of P/PSP.

Related Products: Anti-DBH-SAP (Cat. #IT-03)

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