References

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3295 entries

Age-dependent effect of cholinergic lesion on dendritic morphology in rat frontal cortex.

Works SJ, Wilson RE, Wellman CL (2004) Age-dependent effect of cholinergic lesion on dendritic morphology in rat frontal cortex. Neurobiol Aging 25(7):963-974. doi: 10.1016/j.neurobiolaging.2003.08.003

Summary: Aged rats display more dramatic and longer lasting effects due to brain injury than young animals. The authors examined the role cholinergic neurons may play in brain plasticity after injury in rats of varying ages. 0.15 µg of 192-Saporin (Cat. #IT-01) was injected into the nucleus basalis magnocellularis of young, middle-aged, and aged rats. Some types of injury were only seen in middle-aged and aged rats, and changes in dendritic morphology were least marked in the young animals.

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

Facilitation of cholinergic transmission by combined treatment of ondansetron with flumazenil after cortical cholinergic deafferentation.

Gil-Bea FJ, Dominguez J, Garcia-Alloza M, Marcos B, Lasheras B, Ramirez MJ (2004) Facilitation of cholinergic transmission by combined treatment of ondansetron with flumazenil after cortical cholinergic deafferentation. Neuropharmacology 47(2):225-232. doi: 10.1016/j.neuropharm.2004.03.014

Summary: Previous studies from this group demonstrated that 5-HT(3) receptor antagonists potentiated by GABA(A) antagonists increased acetylcholine (ACh) release in the rat cerebral cortex. This series of experiments investigated the effects of these antagonists on rats with 0.067 µg-bilateral infusions of 192-Saporin (Cat. #IT-01) into the nucleus basalis magnocellularis. Even after lesioning with 192-Saporin, rats treated with the 5-HT(3) and GABA(A) receptor antagonists displayed increased ACh release, indicating that these antagonists may have use as treatments for cognitive disorders.

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Cortical cholinergic function and deficits in visual attentional performance in rats following 192 IgG-Saporin-induced lesions of the medial prefrontal cortex.

Dalley JW, Theobald DE, Bouger P, Chudasama Y, Cardinal RN, Robbins TW (2004) Cortical cholinergic function and deficits in visual attentional performance in rats following 192 IgG-Saporin-induced lesions of the medial prefrontal cortex. Cereb Cortex 14(8):922-932. doi: 10.1093/cercor/bhh052

Summary: Prior work has demonstrated that lesions of the cortical cholinergic system of the basal forebrain impair performance in attentional tasks. The authors examined the effects of selective depletion of acetylcholine from the prefrontal cortex (PFC) on these same attentional tasks. 50 or 100 ng of 192-Saporin (Cat. #IT-01) was infused into the PFC of rats. Treated animals displayed deficits in specific aspects of the attentional tasks, indicating a modulatory role in PFC function by basal forebrain cholinergic neurons.

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

Featured Article: The discovery of saporin

Stirpe F (2004) Featured Article: The discovery of saporin. Targeting Trends 5(3)

Related Products: Saporin (Cat. #PR-01)

Read the featured article in Targeting Trends.

Effects of isolectin B4-conjugated saporin, a targeting cytotoxin, on bladder overactivity induced by bladder irritation.

Nishiguchi J, Sasaki K, Seki S, Chancellor MB, Erickson KA, de Groat WC, Kumon H, Yoshimura N (2004) Effects of isolectin B4-conjugated saporin, a targeting cytotoxin, on bladder overactivity induced by bladder irritation. Eur J Neurosci 20(2):474-482. doi: 10.1111/j.1460-9568.2004.03508.x

Summary: It has been demonstrated that IB4-binding non-peptidergic C-fiber neuronal populations are present in afferent pathways to the bladder. The authors used intrathecal administration of 8 µl of 2.5 µM IB4-SAP (Cat. #IT-10) to investigate what roles these neurons play in bladder function. Treated animals displayed a reduction of IB4 afferent nerve terminal staining, as well as a suppression of bladder overactivity due to bladder irritation, without a change in normal bladder function.

Related Products: IB4-SAP (Cat. #IT-10)

Read the featured article in Targeting Trends.

Minocycline protects basal forebrain cholinergic neurons from mu p75-saporin immunotoxic lesioning.

Hunter CL, Quintero EM, Gilstrap L, Bhat NR, Granholm AC (2004) Minocycline protects basal forebrain cholinergic neurons from mu p75-saporin immunotoxic lesioning. Eur J Neurosci 19(12):3305-3316. doi: 10.1111/j.0953-816X.2004.03439.x

Summary: In Alzheimer’s disease basal cholinergic degeneration is accompanied by glial activation and the release of pro-inflammatory cytokines. To investigate whether neural events other than degeneration can cause effects of Alzheimer’s disease, the authors treated mice with minocycline after lesioning the basal forebrain with 3.6 µg of mu p75-SAP (Cat. #IT-16). Administration of minocycline reduced the loss of cholinergic neurons, reduced glial response to the lesion, and lessened the cognitive impairment due to mu p75-SAP lesions.

Related Products: mu p75-SAP (Cat. #IT-16)

NADPH oxidase contributes to angiotensin II signaling in the nucleus tractus solitarius.

Wang G, Anrather J, Huang J, Speth RC, Pickel VM, Iadecola C (2004) NADPH oxidase contributes to angiotensin II signaling in the nucleus tractus solitarius. J Neurosci 24(24):5516-5524. doi: 10.1523/JNEUROSCI.1176-04.2004 PMID: 15201324

Objective: To investigated whether NADPH oxidase is involved in angiotensin II signaling in central autonomic neurons.

Summary: Angiotensin II (AngII), acting through angiotensin type 1 (AT1 ) receptors, exerts powerful effects on central autonomic networks regulating cardiovascular homeostasis and fluid balanceColocalization of AT-1r’s and a NADPH oxidase subunit provides evidence that NADPH oxidase is involved in the effects of angiotensin II on autonomic neurons.

Usage: Immunolabeling (1:200)

Related Products: Angiotensin II receptor (AT-1AR) Rabbit Polyclonal, affinity-purified (Cat. #AB-N25AP), Angiotensin II receptor (AT-1R) Rabbit Polyclonal, affinity-purified (Cat. #AB-N27AP), Angiotensin II receptor (AT-2R) Rabbit Polyclonal, affinity-purified (Cat. #AB-N28AP)

Exogenous testosterone prevents motoneuron atrophy induced by contralateral motoneuron depletion.

Fargo KN, Sengelaub DR (2004) Exogenous testosterone prevents motoneuron atrophy induced by contralateral motoneuron depletion. J Neurobiol 60(3):348-359. doi: 10.1002/neu.20027

Summary: Gonadal steroids have been shown to supply a variety of neuroprotective and neurotherapeutic effects. Using 1-µl injections of 0.1% CTB-SAP (Cat. #IT-14) into the ipsalateral bulbocavernosus and the levator ani of rats, the authors examined the protective effects of testosterone on motoneuron morphology. After the lesion was induced some rats were castrated, and all animals were treated with exogenous testosterone. The results suggest that high-normal levels of testosterone can prevent motoneuron atrophy induced by contralateral motoneuron depletion.

Related Products: CTB-SAP (Cat. #IT-14)

Decreased neurogenesis after cholinergic forebrain lesion in the adult rat.

Cooper-Kuhn CM, Winkler J, Kuhn HG (2004) Decreased neurogenesis after cholinergic forebrain lesion in the adult rat. J Neurosci Res 77(2):155-165. doi: 10.1002/jnr.20116

Summary: Adult mammalian brains can produce new neurons, mainly in two areas: the interconnected system of the lateral ventricle and the olfactory bulb, and the dentate gyrus of the hippocampus. The authors used a 3.5 µg-injection of 192-Saporin (Cat. #IT-01) into the right ventricle of rats to determine whether cholinergic input is necessary for adult neurogenesis. The results suggest that acetylcholine, a product of cholinergic neurons, is necessary for the survival of newly-formed neurons.

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

Selective lesioning of the cholinergic septo-hippocampal pathway does not disrupt spatial short-term memory: a comparison with the effects of fimbria-fornix lesions.

Winters BD, Dunnett SB (2004) Selective lesioning of the cholinergic septo-hippocampal pathway does not disrupt spatial short-term memory: a comparison with the effects of fimbria-fornix lesions. Behav Neurosci 118(3):546-562. doi: 10.1037/0735-7044.118.3.546

Summary: The authors wished to investigate the role of the cholinergic system of the basal forebrain in delayed matching (DMTP)- and nonmatching (DNMTP)-to-position tasks after bilateral injections of 0.035 µg of 192-Saporin (Cat. #IT-01) into the dorsal and ventral hippocampus. The treated animals were compared to rats given fimbria-fornix (FF) lesions. Only the FF-lesioned animals showed impairment on DMTP and DNMTP tasks, demonstrating that the cholinergic septohippocampal system is not required for successful DMTP or DNMTP performance.

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

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