References

Tominaga M, Kusube F, Honda K, Komiya E, Takahashi N, Naito H, Suga Y, Takamori K (2019) OP11: Role of spinal cholecystokinin receptor 2 in alloknesis models. Itch 4:1-62. doi: 10.1097/itx.0000000000000030

Objective: To determine the detailed molecular and cellular mechanisms that induce alloknesis via the spinal CCK2 receptor.

Summary: Ablation of spinal CCK receptor-expressing cells by i.t. injection of CCK-SAP attenuated CCK8S-induced alloknesis in comparison with Blank-SAP control mice.

Usage: Intrathecal injection

Related Products: CCK-SAP (Cat. #IT-31), Blank-SAP (Cat. #IT-21)

Ueda H (2019) Systems pathology of neuropathic pain and fibromyalgia. Biol Pharm Bull 42(11):1773-1782. doi: 10.1248/bpb.b19-00535

Related Products: Mac-1-SAP mouse/human (Cat. #IT-06)

Kiuchi MG, Chen S, Carnagarin R, Matthews VB, Schlaich MP (2019) Renal denervation for treating congenital long QT syndrome: Shortening the QT interval or modulating sympathetic tone?. Europace 21(11):1755-1756. doi: 10.1093/europace/euz251

Summary: Targeted ablation of cardiac sympathetic neurons (TACSN) through CTB-SAP injection in the left stellate ganglion (LSG), inhibited its activation, improved sympathetic remodelling, and restored cardiac autonomic balance.

See: Xiong L et al. Targeted ablation of cardiac sympathetic neurons improves ventricular electrical remodelling in a canine model of chronic myocardial infarction. Europace 20(12):2036-2044, 2018.

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

Herman JP (2020) Corticolimbic stress regulatory circuits, hypothalamo–pituitary–adrenocortical adaptation, and resilience. Chen A (Ed.): Stress Resilience 291-309. Academic Press doi: 10.1016/B978-0-12-813983-7.00019-7

Summary: Review. Immunolesion of paraventricular nucleus (PVN)-projecting norepinephrine (NE) neurons with Anti-DBH-SAP attenuates acute stress reactivity (interestingly, to restraint), but it does not inhibit somatic or HPA axis responses to stress in any simple way (Flak et al.). PVN-projecting NE neurons appear to be responsible for acute responses to systemic stressors, but they do not appear to be important in mediating effects of chronic stress (Ritter et al.).

Usage: Flak et al. injected 8.82 ng of Anti-DBH-SAP into the PVN. Ritter et al. injected 42 ng into the PVN.

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

See Also:

• Flak J et al. Role of paraventricular nucleus-projecting norepinephrine/epinephrine neurons in acute and chronic stress. Eur J Neurosci 39:1903-1911, 2014.
• Ritter S et al. Immunotoxin lesion of hypothalamically projecting norepinephrine and epinephrine neurons differentially affects circadian and stressor-stimulated corticosterone secretion. Endocrinology 144(4):1357-1367, 2003.

Li X (2019) Light stimulation into dorsal raphe nucleus contributes to antidepressant effect for a stressed rat model. bioRxiv 821421. doi: 10.1101/821421 PMID: 0

Usage: immunohisochemistry (1:500)

Related Products: Corticotropin Releasing Hormone Rabbit Polyclonal (Cat. #AB-02)

Abd El‐Rahman SS, Fayed HM (2019) Targeting AngII/AT1R signaling pathway by perindopril inhibits ongoing liver fibrosis in rat. J Tissue Eng Regen Med 13:2131-2141. doi: 10.1002/term.2940 PMID: 31348596

Usage: IHC (1:100)

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

Andrén A, Adermark L, Söderpalm B, Ericson M (2019) An acetylcholine-dopamine interaction in the rat nucleus accumbens and its tentative involvement in ethanol’s dopamine-liberating effect. Neuroscience 2019 Abstracts 079.08. Society for Neuroscience, Chicago, IL.

Summary: Alcohol use disorder is a chronic, relapsing brain disorder associated with serious medical consequences leading to preterm death. Although few in number, cholinergic interneurons (CIN) have arisen as an important cell population within the nucleus accumbens (nAc) that may exert a regulatory impact on dopamine (DA) neurotransmission locally. A defect in CIN have been suggested to be involved in psychiatric diseases such as alcohol addiction. The mechanisms through which endogenous cholinergic activity modulates DA release in response to ethanol administration and its role in development of addiction is not known. In this project, the aim was to study if acetylcholine (ACh) can influence DA release locally in the nAc and if so, through which receptor population(s) this effect is mediated. Further, we wanted to determine the role of ACh in ethanol-induced DA elevation.Using reversed in vivo microdialysis, the acetylcholinesterase inhibitor physostigmine was administered locally in the nAc of male Wistar rats followed by addition of either the muscarinic ACh receptor inhibitor scopolamine or the nicotinergic ACh receptor inhibitor mecamylamine. Subsequently, ethanol was perfused following local pretreatment with scopolamine or mecamylamine, using the same methodology. An immunotoxin, anti-ChAT-saporine, was infused locally into the nAc of a subset of male Wistar rats to selectively lesion CIN, followed by local ethanol administration via reversed in vivo microdialysis. Local administration of physostigmine induced a DA elevation within the nAc, an effect blocked by scopolamine but not by mecamylamine. Local administration of ethanol increased DA levels. Scopolamine pretreatment non-significantly attenuated the ethanol-induced DA elevation, whereas pretreatment with mecamylamine had no effect. Preliminary results indicate a minor attenuation of the DA elevation observed after local administration of ethanol in toxin-treated animals, as compared to sham-treated controls. Taken together, these results suggest that ACh increases extracellular DA levels in nAc in vivo, an effect mediated by muscarinic ACh-receptors and not by nicotinic ACh-receptors. Considering that scopolamine moderately attenuated ethanol-induced DA output and that lesioning of CIN appeared to hamper DA release in response to ethanol, ACh release from CIN within the nAc may be partially involved in ethanol-induced DA release in nAc.

Related Products: Anti-ChAT-SAP (Cat. #IT-42)

Galvan MA, Shramm PA, Bouajram R, Lappi DA, Ancheta LR (2019) A high efficacy selection method for transfected cells utilizing recombinant isolectin B4-saporin. Neuroscience 2019 Abstracts 794.10. Society for Neuroscience, Chicago, IL.

Summary: Transfection protocols often rely on the use of antibiotics for the selection of transfected cells and has become the accepted approach for in vitro research and therapeutic applications. Antibiotics have several shortcomings such as cost, continuous use, and harmful effects — even on the transfected cell population. In addition, selection pressures are often inefficient and fail to provide a population of cells that express the gene of interest (GOI) at high levels. We have used three separate GOI’s to select for solely high-expressing transfectants using targeted toxin selection pressure. Normal Rat Kidney Cells (KNRK) were individually transfected to express green fluorescent protein (GFP), melanopsin or the low-affinity nerve growth factor receptor (p75) using an innovative new transfection delivery vector called pGEI. The results from various assays were utilized to visually determine the expression rate and pattern of the targeted toxin selection method. Melanopsin and p75 — a photopigment and nerve growth factor, respectively — were of great interest to express in our transfected cells as a means to study their role in the development and function of neurons. The delivery vector, pGEI, removes resident Galalpha(1-3)Gal epitopes from non- human mammalian cell surfaces. This residue is the target of recombinant Isolectin B4 – Saporin (IB4-SAP), a selective targeted toxin. IB4-SAP is extremely potent, with an EC50 in the low picomolar range for alpha-D-galactopyranoside expressing cells in vitro. The cells with the highest expression of the inserted vector, and therefore the GOI, will have these residues removed. Those that fail to express the vector or do not express the vector in high enough amounts, will not have all the residues removed, and will be targeted and eliminated via IB4-SAP. This method of selection provides a means of purifying the highest- expressing transfected populations using a more cost-effective and time-saving approach.

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

Chew C, Sengelaub DR (2019) Exercise is neuroprotective following partial motoneuron depletion via androgen action at the target muscle. Neuroscience 2019 Abstracts 134.13. Society for Neuroscience, Chicago, IL.

Summary: We have previously demonstrated that partial depletion of motoneurons innervating the quadriceps muscles induces dendritic atrophy in remaining motoneurons. Furthermore, systemic treatment with supplemental androgens is neuroprotective, and dendritic atrophy following partial motoneuron depletion is attenuated. Blockade of the androgen receptor at the target muscle prevents the neuroprotective effects on motoneuron dendrites in rats treated with supplemental androgens. We have recently shown that exercise is also neuroprotective on motoneuron dendrites following partial motoneuron depletion, and circulating levels of androgens have previously been shown to increase following exercise. Together, these results suggest that exercise may be neuroprotective via androgen action at the muscle. In the present study, we examine whether blockade of androgen receptors at the target musculature would prevent the neuroprotective effects of exercise on dendrites following partial motoneuron depletion. Motoneurons innervating the vastus medialis muscle in adult male rats were selectively killed by intramuscular injection of cholera toxin-conjugated saporin. Simultaneously, some saporin-injected rats were given implants of the androgen receptor antagonist hydroxyflutamide, either directly at the quadriceps musculature or interscapularly as a systemic control. Following saporin injections, some animals were allowed free access to running wheels attached to their home cages. Four weeks later, motoneurons innervating the ipsilateral vastus lateralis muscle were labeled with cholera toxin-conjugated horseradish peroxidase, and dendritic arbors were reconstructed in three dimensions. Compared with untreated males, partial motoneuron depletion resulted in decreased dendritic length in remaining quadriceps motoneurons. Early data suggests that following partial motoneuron depletion, exercised males with androgen receptor blockade at the quadriceps show dendritic lengths that are significantly shorter than those of exercised males with no treatment, while dendritic lengths in exercised males with interscapular implants do not differ from those of exercised animals without implants. These findings suggest that exercise may be protective against dendritic atrophy via androgens binding at the target musculature.

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

Truckenbrod LM, Bumanglag AV, Chun E, Hernandez A, Federico QP, Maurer AP, Sloviter RS, Burke SN (2019) Targeted hippocampal GABA neuron ablation produces hippocampal sclerosis, epilepsy, and dissociable effects on the Morris water maze and object-place paired association tasks. Neuroscience 2019 Abstracts 158.03. Society for Neuroscience, Chicago, IL.

Summary: An epileptogenic role for hippocampal GABAergic dysfunction has recently been reported (Chun et al. 2019). Specifically, selective ablation of hippocampal GABA neurons by Stable Substance P-saporin (SSP-saporin) conjugate caused dorsal hippocampal sclerosis and chronic epilepsy, without involving convulsive status epilepticus or widespread brain injury. The current study assessed cognitive function in chronically epileptic SSP-saporin-treated rats and their vehicle-injected controls ~8 months following injection. First, rats completed the Morris Water Maze test of spatial learning and memory (Morris et al., 1982). Animals then underwent testing with the object-place paired association (OPPA) task, which requires the hippocampus as well as functional connectivity between the hippocampus and cortical areas (Jo and Lee, 2010; Hernandez et al., 2017), and then a simple object discrimination task. Interestingly, both controls and rats with dorsal hippocampal sclerosis and chronic epilepsy were able to learn the location of the hidden platform in the Morris Water Maze task and could also acquire a simple pair-wise object discrimination. However, epileptic rats with dorsal hippocampal sclerosis were significantly impaired on the OPPA task, which requires animals to integrate spatial location memory with a correct object choice and is a more sensitive measure of cognitive dysfunction (Hernandez et al., 2015). These data indicate that, similar to humans with medial temporal lobe epilepsy, selective hippocampal sclerosis and epilepsy in this model do not result in global cognitive decline. Rather, cognitive functions that require functional connectivity between the hippocampus and cortical areas are selectively affected.

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

ATS Poster of the Year Winner. Read the featured article in Targeting Trends.

See Also:

• Chun E et al. Targeted hippocampal GABA neuron ablation by stable substance P-saporin causes hippocampal sclerosis and chronic epilepsy in rats. Epilepsia 60(5):e52-e57, 2019.