targeted-toxins

Estacio MA, Tsukamura H, Reyes BA, Maeda KI (2001) Noradrenergic inputs to the paraventricular nucleus (PVN) is involved in estrogen receptor α expression in the PVN of 48-h fasted and 2DG-injected female rats. Neuroscience 2001 Abstracts 409.6. Society for Neuroscience, San Diego, CA.

Summary: Involvement of noradrenergic inputs to the paraventricular nucleus (PVN) in estrogen receptor α (ERα) expression in the PVN during 48-h fasting and 2DG-induced glucoprivation in female rats was determined by examining the effect of destroying the noradrenergic inputs to the PVN using the saporin-conjugated anti-dopamine-β-hydroxylase (anti-DBH-saporin). Ovariectomized rats were injected bilaterally with anti-DBH-saporin in the PVN. After two weeks, animals were either fasted for 48 hours or injected intravenously with 2DG, then perfused with 4% paraformaldehyde. Brain sections were processed for ERα and DBH immunocytochemistry. Forty-eight-hour fasting or 2DG injection siginificantly increased the number of ERα-immunoreactive (ERα-ir) cells in the PVN in control animals. Anti-DBH-saporin injection prevented fasting- or 2DG-induced increase in ERα-ir cells in the PVN. The DBH-ir axons in the parvocellular PVN were severely reduced following anti-DBH-saporin injection in both fasted and 2DG injected rats. Among the brainstem noradrenergic cell groups examined, there was a significant decrease in the number of DBH-ir cells in the A2 region of both fasted and 2DG injected rats treated with anti-DBH-saporin. There was no obvious reduction in the number of DBH-ir cells in the A1 and A6 regions in the anti-DBH-saporin-injected fasted- or 2DG-injected rats. The results suggest that the A2 noradrenergic input to the PVN plays a major role in increasing ERα expression in the PVN in response to 48-h fasting or 2DG-induced glucoprivation.

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

Wiley RG, Kline IV RH, Lappi DA (2001) Dose-dependent effects of intrathecal substance P-saporin and SSP-saporin. Neuroscience 2001 Abstracts 281.11. Society for Neuroscience, San Diego, CA.

Summary: Selective destruction of lamina I dorsal horn neurons expressing the neurokinin-1 receptor (NK-1R) can attenuate responses to capsaicin injection and thermal hyperalgesia/mechanical allodynia in models of inflammatory, persistent or neuropathic pain. In the present study, we sought to determine the relationships between spinal intrathecal dose of substance P-saporin or the related toxin, SSP-saporin, the loss of NK-1R neurons and reduction of phase II formalin responses. Rats were injected intrathecally with 10 ul of either vehicle, 175 ng, 350 ng or 700 ng of SP-sap. Others were injected with either vehicle, 25 ng, 50 ng or 100 ng of SSP-sap. After 2 weeks, nocifensive behavior was scored for 90 min after a unilateral hindpaw injection of dilute formaldehyde. The amount of phase II nocifensive behavior from 20-90 min post injection was totaled for each animal. Rats were sacrificed and transverse lumbosacral spinal cord sections were stained for NK-1R using indirect immunoperoxidase technique. Digital micrographs of the superficial dorsal horn were captured and the number of pixels in the darkest intensity values were expressed as percent of the analysis area for each dorsal horn. Significant correlations were noted for dose vs dark pixel percentage and for dark pixel percentage vs phase II formalin behavior. The greater the toxin dose the greater the loss of NK-1R staining and the greater the attenuation of phase II formalin behavior. These results indicate that the toxin effects on pain behavior are proportional to the degree of loss of lamina I NK-1R expressing neurons.

Related Products: SSP-SAP (Cat. #IT-11)

Savage LM, Buzzette R, Ramirez D (2001) The role of the cholinergic basal forebrain in learning, memory and reward expectancies. Neuroscience 2001 Abstracts 314.18. Society for Neuroscience, San Diego, CA.

Summary: The cholinergic basal forebrain degenerates in Alzheimer’s Disease and the degree of this degeneration correlates with a decline in cognitive processing. In the present study we have modeled this degeneration in the rat by the selective immunotoxin 192 IgG-Saporin. This immunotoxin destroys cholinergic neurons in the basal forebrain nuclei in rats and thus allows for the study of the impact of cholinergic deafferentation on learning, memory, and other cognitive processes without direct effects on other neuronal systems. After intracerebroventricularly infusions of the immunotoxin or vehicle solution, male rats were allowed to recover for three weeks before being tested in a matching-to-position task. The matching-to-position task was altered to influence the type of cognitive strategies a subject would use to solve the task. The main behavioral manipulation was the use of the differential outcome procedure (DOP). The DOP involves correlating each to-be-remembered event with a distinct reward condition. We found that cholinergic lesions did not dramatically impair learning the matching rule. However, the memory performance of subjects with cholinergic lesions was dramatically impaired – if subjects were not trained with the DOP. When subjects were trained with the DOP, and relied on reward expectancies to solve the delayed-matching-to-position task the cholinergic lesion had little effect. These findings demonstrate that cholinergic immunolesions by 192IgG-saporin induce specific cognitive impairments—dependent on task demand characteristics.

Related Products: 192-IgG-SAP (Cat. #IT-01)

Hamaue N, Yamazaki Y, Ohmori H, Sumikawa K (2001) Nicotine enhances N-methyl-D-aspartate receptor responses and facilitates long-term potentiation in the hippocampus from rats with cholinergic lesions. Neuroscience 2001 Abstracts 376.5. Society for Neuroscience, San Diego, CA.

Summary: Nicotine reverses cognitive impairments caused by lesion of the cholinergic system and improves performance of Alzheimer’s patients. The mechanisms underlying these effects of nicotine, however, are unknown. Because nicotine facilitates the induction of N-methyl-D-aspartate receptor (NMDAR)-dependent long-term potentiation (LTP) in the hippocampal CA1 region, we examined whether nicotine enhances NMDAR responses and facilitates LTP induction in the hippocampus from rats with cholinergic lesions. Selective cholinergic denervation of rat hippocampus was performed by the immunotoxin 192 IgG-saporin. We then recorded burst NMDAR responses in hippocampal slices prepared from 192-IgG-saporin-treated rats and found that nicotine (1 μM) enhanced burst NMDAR responses. When GABAergic transmission was completely blocked by picrotoxin, nicotine had no effect on burst NMDAR responses. We also monitored the induction of LTP in 192-IgG-saporin-treated hippocampi and found that a weak tetanus (20 pulses at 100 Hz), which induced LTP in PBS-treated hippocampi, failed to induced LTP. However, in the presence of nicotine (1 μM), a same weak tetanus induced LTP in 192-IgG-saporin-treated hippocampi. Our results suggest that nicotine potentiates NMDAR responses by disinhibition of pyramidal cells and facilitates LTP induction in the hippocampus from animals with cholinergic lesions. The observed nicotine effects may represent the cellular mechanism underlying the compensatory action of nicotine in the presence of cholinergic deficits.

Related Products: 192-IgG-SAP (Cat. #IT-01)

Yoder RM, Reuss SA, Pang KC (2001) Maze strategy in rats with GABAergic or cholinergic lesions of medial septum. Neuroscience 2001 Abstracts 418.7. Society for Neuroscience, San Diego, CA.

Summary: Cholinergic and GABAergic neurons are the two major cell types that project from medial septum to hippocampus. Although complete lesions of hippocampus or medial septum impair spatial memory, selective lesions of cholinergic or GABAergic neurons do not impair spatial abilities on an 8-arm radial or Morris water maze. Control and lesion rats possibly use different strategies to solve these tasks. Previous studies show that normal rats initially use a place strategy, then switch to a response strategy. In contrast, rats with hippocampus inactivated rely on a response strategy. Our preliminary results suggest that rats with GABAergic lesions of medial septum preferentially use a response strategy. The present study assessed whether rats with cholinergic (192-IgG saporin) or GABAergic (kainic acid) lesions of the medial septum preferentially use a place, response, or cue strategy to solve a plus maze task. During training, one arm contained food (goal) and an adjacent arm served as the starting location. The room contained distal cues and a proximal cue near the food. Probe trials were used every 4th day to assess the maze strategy used by the rat. During probe trials, the start location was located on the arm opposite the original start arm, and the proximal cue was located in the original start location. This study determines whether rats with loss of cholinergic or GABAergic medial septal neurons preferentially use different strategies to solve maze tasks.

Related Products: 192-IgG-SAP (Cat. #IT-01)

de Butte M, Fortin T, Sherren N, Pappas BA (2001) Selective neonatal neurochemical lesions persist into old age and cause Alzheimer-like pathology. Neuroscience 2001 Abstracts 426.8. Society for Neuroscience, San Diego, CA.

Summary: There is a strong negative correlation between forebrain acetylcholine (ACH) function and the depth of Alzheimer’s dementia (AD). Forebrain norepinephrine (NE) is also frequently reduced in AD. However, it is not clear when these neurochemical abnormalities begin. Since there is some evidence to suggest that the AD begins early in life but fulminates with aging, it may also be the case that ACH and/or NE dysfunction occurs early and participates in the slide towards dementia in old age. To shed light on this possibility, we created lesions of forebrain ACH and NE in the neonatal rat by intracranial injection of 192 IgG saporin and systemic injection of 6-OHDA respectively, allowing the animals to reach old age. Massive ACH and NE lesions were evident at 22 months of age as reflected by immunohistochemical probes for p75 low affinity nerve growth factor and dopamine beta hydroxylase immunoreactive axons respectively. Morris water maze testing showed that surprisingly, the NE but not the ACH lesioned rats were impaired on this reference memory task. Typically, young NE lesioned rats are not impaired on it. The ACH lesion did not exacerbate the consequences of the NE lesion. On the other hand, unbiased stereological counts of hippocampal CA1 pyramidal cells indicated that the ACH lesion caused a significant loss of cells whereas the NE lesion had no effect by itself nor did it exacerbate the effects of the ACH lesion. These results indicate that selective NE and ACH lesions inflicted at birth, persist into old age. Furthermore, the NE lesion seemingly impairs memory in old age while the ACH lesion causes a loss of CA1 cells reminiscent of that which is a hallmark of AD.

Related Products: 192-IgG-SAP (Cat. #IT-01)

Gerashchenko D, Kohls MD, Greco MA, Waleh NS, Salin-Pascual R, Kilduff TS, Lappi DA, Shiromani PJ (2001) Hypocretin-saporin (Hcrt-sap) as a tool to examine hypocretin function. Neuroscience 2001 Abstracts 410.7. Society for Neuroscience, San Diego, CA.

Summary: The hypocretin (Hcrt) peptides are linked to narcolepsy. Humans with narcolepsy have decreased numbers of Hcrt neurons and Hcrt-null mice have narcoleptic symptoms. Hcrt neurons are located only in the lateral hypothalamus (LH) but neither lesions of this nor any other brain region have produced narcoleptic-like sleep, suggesting that specific neurons need to be destroyed. To facilitate lesioning the Hcrt neurons, the ribosome inactivating protein, saporin (SAP), was conjugated to Hcrt-2/orexin B. In vitro binding studies indicated specificity of Hcrt-SAP since it preferentially bound to CHO-cells containing the HcrtR2/OX2 receptor compared to the HcrtR1/OX1 receptor, but not to KNRK cells stably transfected with the NK1 receptor. In vivo specificity was confirmed since administration of the toxin to the LH eliminated some neurons (Hcrt, MCH, and histamine) but not others (alpha-MSH). When the toxin was administered to the LH, rats (n=19) had increased slow wave sleep, REM sleep, and sleep-onset REM sleep periods at night. These were negatively correlated with the loss of Hcrt-containing neurons (r=-0.74; p<0.01). Toxin applied to hypothalamic neurons that are not Hcrt positive but contain the Hcrt receptor lesioned the neurons but did not produce narcoleptic-like sleep. These findings indicate the utility of Hcrt-SAP as a tool and also demonstrate that damage to the LH that also includes a substantial loss of Hcrt neurons is likely to produce the sleep disturbances that occur in narcolepsy.

Related Products: Orexin-B-SAP (Cat. #IT-20)

Hartonian I, de Lacalle S (2001) Long-term plastic changes in galanin innervation in rat basal forebrain. Neuroscience 2001 Abstracts 254.1. Society for Neuroscience, San Diego, CA.

Summary: Galanin (GAL) immunoreactive (-ir) fibers hyperinnervate remaining cholinergic basal forebrain neurons in Alzheimer’s Disease (AD), perhaps exacerbating the cholinergic deficit. The purpose of our study is to determine whether a similar hyperinnervation of GAL-ir fibers occurs following intraparenchymal injection of 192-IgG saporin, a specific cholinergic neurotoxin, within the horizontal diagonal band of Broca (HDB), in 3-month-old rats, and to identify its origin. Immunotoxic lesions produced on average a 31% reduction in cholinergic cell counts on the lesioned side versus the spared side. Hyperinnervation of GAL-ir fibers was observed within and adjacent to the HDB in 28 out of 36 rats, and this effect persisted across time, with 6 months being the longest time examined. Morphometry revealed an increase in the number of GAL-ir cells on the lesioned basal forebrain, as compared to control. A similar change could not be detected in the number of GAL-ir neurons in the amygdala or the bed nucleus of the stria terminalis. Although there was no significant correlation in the amount of cell loss and of GAL hyperinnervation, we suggest that GAL hyperinnervation is triggered by the loss of cells because it is persistent across time. Our data suggests that this hyperinnervation is the result of overexpression of GAL in some cholinergic neurons of the basal forebrain. Since GAL is known to inhibit acetylcholine release, exacerbating the cholinergic dysfunction in AD, this model can be useful to test the efficacy of GAL inhibitors.

Related Products: 192-IgG-SAP (Cat. #IT-01)

Mistlberger RE, Antle MC, Jones M, Kilduff TS (2001) Light- and food-entrained circadian rhythms in rats with neurotoxic lesions of hypocretin cells. Neuroscience 2001 Abstracts 410.8. Society for Neuroscience, San Diego, CA.

Summary: The hypocretins (Hcrt1 & 2) are lateral hypothalamic (LH) neuropeptides implicated in the regulation of feeding and sleep-wake states. Hcrt lesions attenuate the amplitude of sleep-wake circadian rhythms in rats entrained to light-dark (LD; Gerashchenko et al, Soc. Neurosci Abst., 2000). We examined whether Hcrt cells also participate in the expression of circadian rhythms entrained by daily feeding schedules. Rats received LH injections of Hcrt2 conjugated to the ribosome- inactivating protein saporin. Drinking was recorded in LD 12:12 for 1-2 months, in DD for 48 h, and in LD 2:2 for 24 h, to assess photic entrainment and masking. The rats were then restricted to a 3 h daily meal beginning 6 h after lights-on (LD 12:12). After 29 days, the rats were deprived of food for 50 h. Lesions, assessed by immunocytochemistry using preprohypocretin antibody (Chemicon Int., Inc.), ranged from 0-100% complete. Complete lesions were associated with attenuated mean level and amplitude of circadian drinking rhythms in LD 12:12 and DD, but photic masking in LD 2:2 was unaffected. All rats exhibited food-entrained activity that anticipated feeding time by 1-3 h. This was of lower magnitude in the rat with the largest lesion. These results are consistent with a recent report that Hcrt2-saporin lesions attenuate sleep-wake circadian rhythms, but differ from earlier reports that electrolytic lesions of the LH may potentiate the masking effects of light on behavior. The results suggest that Hcrt cells do not play an essential role in the regulation of circadian rhythms by scheduled feeding.

Related Products: Orexin-B-SAP (Cat. #IT-20)

Gibbs RB (2001) Estrogen enhancement of learning requires intact basal forebrain cholinergic neurons. Neuroscience 2001 Abstracts 312.12. Society for Neuroscience, San Diego, CA.

Summary: We have shown that long-term continuous estrogen replacement, or weekly administration of estrogen plus progesterone, enhances acquisition of a delayed matching-to-position (DMP) spatial memory task. The present study examined whether hormone replacement enhances acquisition of the task after destroying basal forebrain cholinergic neurons with the selective immunotoxin 192IgG-saporin (SAP). Ovariectomized Sprague-Dawley rats received either SAP (1.0 Μg in 1.0 ΜL saline) or vehicle injected directly into the medial septum. Two weeks later, animals received either continuous estrogen replacement (E; 3 mm silastic capsule containing 17-β-estradiol, implanted s.c.) or weekly administration of estradiol (10 Μg in oil s.c.) followed two days later with progesterone (500 Μg in oil s.c.). Controls received sham implantation surgery and vehicle injections. DMP training began after 1 month of treatment. SAP injections significantly impaired acquisition of the DMP task (median days to criterion = 21.0 for SAP-treated animals vs. 14.0 for Ovariectomized controls; p<0.05). Neither continuous E replacement nor weekly administration of E+P significantly enhanced acquisition in the SAP-treated animals. Histology and hippocampal ChAT activity confirmed the loss of cholinergic cells in the medial septum and diagonal band of Broca in SAP treated animals. These findings suggest that cholinergic neurons in the medial septum/diagonal band are necessary for hormone-mediated enhancement of DMP acquisition. Studies using lower doses of SAP are currently underway.

Related Products: 192-IgG-SAP (Cat. #IT-01)