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AMPAkines Have Novel Analgesic Properties in Rat Models of Persistent Neuropathic and Inflammatory Pain

Le, Alexander M; Lee, Michelle; Su, Chen; Zou, Anthony; Wang, Jing
BACKGROUND: Novel analgesics that do not suppress the respiratory drive are urgently needed. Glutamate signaling through alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA) receptors plays important roles in central pain circuits. AMPAkines augment AMPA receptor function and have been shown to stimulate the respiratory drive to oppose opioid-induced hypoventilation. However, their role in chronic pain states remains unknown. METHODS: The authors studied AMPAkines (CX546 and CX516) in rat spared nerve injury (SNI) model of neuropathic pain and Complete Freund's Adjuvant (CFA) model of inflammatory pain. They measured the effect of AMPAkines on mechanical and cold allodynia. They also evaluated their effect on depressive symptoms of pain using the forced swim test, as time of immobility on this test has been used as a measure for behavioral despair, a feature of depression. RESULTS: The authors found that CX546, compared with dimethyl sulfoxide (DMSO) control, reduced both mechanical and sensory allodynia in SNI (DMSO group, n = 9; CX546 group, n = 11) and CFA models (both DMSO and CX546 groups, n = 9). They found that CX546, compared with control, also reduced depressive symptoms of pain by decreasing immobility on the forced swim test in both SNI (both DMSO and CX546 groups, n = 8) and CFA models (both DMSO and CX546 groups, n = 10). Finally, they found that CX516, compared with control, also reduced mechanical and cold allodynia in the SNI model (both DMSO and CX516 groups, n = 10). CONCLUSIONS: AMPAkines alleviate pain hypersensitivity as well as depression-like behavior associated with long-lasting nerve injury and inflammatory insult.
PMCID:4206834
PMID: 25338127
ISSN: 0003-3022
CID: 1315532

Taxi cab syndrome: a review of the extensive genitourinary pathology experienced by taxi cab drivers and what we can do to help

Mass, Alon Y; Goldfarb, David S; Shah, Ojas
This review consolidates knowledge regarding the extensive genitourinary pathology experienced by taxi cab drivers. Taxi cab, livery, truck, and other drivers all objectively and subjectively may have more voiding dysfunction, infertility, urolithiasis, bladder cancer, and urinary infections as compared with nonprofessional drivers; this is called taxi cab syndrome. Together with governmental and medical assistance, simple interventions-such as education, the addition of taxi relief stations, and possibly the use of sanitary urinary collection devices-to curb the progression of genitourinary disease in taxi drivers should be prospectively studied. It is postulated that many of these interventions may also benefit other groups of occupationally related infrequent voiders.
PMCID:4191628
PMID: 25337038
ISSN: 1523-6161
CID: 1315452

2014 Report on the Milestones for the US National Plan to Address Alzheimer's Disease

Fargo, Keith N; Aisen, Paul; Albert, Marilyn; Au, Rhoda; Corrada, Maria M; DeKosky, Steven; Drachman, David; Fillit, Howard; Gitlin, Laura; Haas, Magali; Herrup, Karl; Kawas, Claudia; Khachaturian, Ara S; Khachaturian, Zaven S; Klunk, William; Knopman, David; Kukull, Walter A; Lamb, Bruce; Logsdon, Rebecca G; Maruff, Paul; Mesulam, Marsel; Mobley, William; Mohs, Richard; Morgan, David; Nixon, Ralph A; Paul, Steven; Petersen, Ronald; Plassman, Brenda; Potter, William; Reiman, Eric; Reisberg, Barry; Sano, Mary; Schindler, Rachel; Schneider, Lon S; Snyder, Peter J; Sperling, Reisa A; Yaffe, Kristine; Bain, Lisa J; Thies, William H; Carrillo, Maria C
With increasing numbers of people with Alzheimer's and other dementias across the globe, many countries have developed national plans to deal with the resulting challenges. In the United States, the National Alzheimer's Project Act, signed into law in 2011, required the creation of such a plan with annual updates thereafter. Pursuant to this, the US Department of Health and Human Services (HHS) released the National Plan to Address Alzheimer's Disease in 2012, including an ambitious research goal of preventing and effectively treating Alzheimer's disease by 2025. To guide investments, activities, and the measurement of progress toward achieving this 2025 goal, in its first annual plan update (2013) HHS also incorporated into the plan a set of short, medium and long-term milestones. HHS further committed to updating these milestones on an ongoing basis to account for progress and setbacks, and emerging opportunities and obstacles. To assist HHS as it updates these milestones, the Alzheimer's Association convened a National Plan Milestone Workgroup consisting of scientific experts representing all areas of Alzheimer's and dementia research. The workgroup evaluated each milestone and made recommendations to ensure that they collectively constitute an adequate work plan for reaching the goal of preventing and effectively treating Alzheimer's by 2025. This report presents these Workgroup recommendations.
PMID: 25341459
ISSN: 1552-5260
CID: 1316462

Recent advances in understanding the role of the hypothalamic circuit during aggression

Falkner, Annegret L; Lin, Dayu
The hypothalamus was first implicated in the classic "fight or flight" response nearly a century ago, and since then, many important strides have been made in understanding both the circuitry and the neural dynamics underlying the generation of these behaviors. In this review, we will focus on the role of the hypothalamus in aggression, paying particular attention to recent advances in the field that have allowed for functional identification of relevant hypothalamic subnuclei. Recent progress in this field has been aided by the development of new techniques for functional manipulation including optogenetics and pharmacogenetics, as well as advances in technology used for chronic in vivo recordings during complex social behaviors. We will examine the role of the hypothalamus through the complimentary lenses of (1) loss of function studies, including pharmacology and pharmacogenetics; (2) gain of function studies, including specific comparisons between results from classic electrical stimulation studies and more recent work using optogenetics; and (3) neural activity, including both immediate early gene and awake-behaving recordings. Lastly, we will outline current approaches to identifying the precise role of the hypothalamus in promoting aggressive motivation and aggressive action.
PMCID:4174750
PMID: 25309351
ISSN: 1662-5137
CID: 1310982

A network that performs brute-force conversion of a temporal sequence to a spatial pattern: relevance to odor recognition

Sanders, Honi; Kolterman, Brian E; Shusterman, Roman; Rinberg, Dmitry; Koulakov, Alexei; Lisman, John
A classic problem in neuroscience is how temporal sequences (TSs) can be recognized. This problem is exemplified in the olfactory system, where an odor is defined by the TS of olfactory bulb (OB) output that occurs during a sniff. This sequence is discrete because the output is subdivided by gamma frequency oscillations. Here we propose a new class of "brute-force" solutions to recognition of discrete sequences. We demonstrate a network architecture in which there are a small number of modules, each of which provides a persistent snapshot of what occurs in a different gamma cycle. The collection of these snapshots forms a spatial pattern (SP) that can be recognized by standard attractor-based network mechanisms. We will discuss the implications of this strategy for recognizing odor-specific sequences generated by the OB.
PMCID:4166365
PMID: 25278870
ISSN: 1662-5188
CID: 1298972

Interleukin-17 enhances immunosuppression by mesenchymal stem cells

Han, X; Yang, Q; Lin, L; Xu, C; Zheng, C; Chen, X; Han, Y; Li, M; Cao, W; Cao, K; Chen, Q; Xu, G; Zhang, Y; Zhang, J; Schneider, R J; Qian, Y; Wang, Y; Brewer, G; Shi, Y
IL-17 is one of the most potent and most actively investigated proinflammatory cytokines. In this study, we examined the effect of IL-17 on mesenchymal stem cells (MSCs) under the influence of inflammatory cytokines. Ironically, IL-17 dramatically enhanced the immunosuppressive effect of MSCs induced by IFNgamma and TNFalpha, revealing a novel role of IL-17 in immunosuppression. Interestingly, we found that this action of IL-17 was dependent on the promoted expression of a key immune suppressive molecule, inducible nitric oxide synthase (iNOS), in MSCs. In a concanavalin A (ConA)-induced hepatitis mouse model, we found that IL-17 also enhanced the in vivo immunosuppressive effect of MSCs in an iNOS-dependent manner. Moreover, this promoting effect of IL-17 was found to be exerted through enhancing mRNA stability by modulating the protein level of ARE/poly(U)-binding/degradation factor 1 (AUF1), a well-known factor that promotes mRNA decay. In auf1(-/-) MSCs, IFNgamma and TNFalpha could induce maximal immunosuppressive effect, both in vitro and in vivo, without the need for IL-17. Thus, our studies demonstrated that in the presence of MSCs, IL-17 promotes immunosuppression.
PMCID:4211372
PMID: 25034782
ISSN: 1350-9047
CID: 1298722

gammaCaMKII Shuttles Ca(2+)/CaM to the Nucleus to Trigger CREB Phosphorylation and Gene Expression

Ma, Huan; Groth, Rachel D; Cohen, Samuel M; Emery, John F; Li, Boxing; Hoedt, Esthelle; Zhang, Guoan; Neubert, Thomas A; Tsien, Richard W
Activity-dependent CREB phosphorylation and gene expression are critical for long-term neuronal plasticity. Local signaling at CaV1 channels triggers these events, but how information is relayed onward to the nucleus remains unclear. Here, we report a mechanism that mediates long-distance communication within cells: a shuttle that transports Ca(2+)/calmodulin from the surface membrane to the nucleus. We show that the shuttle protein is gammaCaMKII, its phosphorylation at Thr287 by betaCaMKII protects the Ca(2+)/CaM signal, and CaN triggers its nuclear translocation. Both betaCaMKII and CaN act in close proximity to CaV1 channels, supporting their dominance, whereas gammaCaMKII operates as a carrier, not as a kinase. Upon arrival within the nucleus, Ca(2+)/CaM activates CaMKK and its substrate CaMKIV, the CREB kinase. This mechanism resolves long-standing puzzles about CaM/CaMK-dependent signaling to the nucleus. The significance of the mechanism is emphasized by dysregulation of CaV1, gammaCaMKII, betaCaMKII, and CaN in multiple neuropsychiatric disorders.
PMCID:4201038
PMID: 25303525
ISSN: 0092-8674
CID: 1300222

PCP4 regulates Purkinje cell excitability and cardiac rhythmicity

Kim, Eugene E; Shekhar, Akshay; Lu, Jia; Lin, Xianming; Liu, Fang-Yu; Zhang, Jie; Delmar, Mario; Fishman, Glenn I
Cardiac Purkinje cells are important triggers of ventricular arrhythmias associated with heritable and acquired syndromes; however, the mechanisms responsible for this proarrhythmic behavior are incompletely understood. Here, through transcriptional profiling of genetically labeled cardiomyocytes, we identified expression of Purkinje cell protein-4 (Pcp4), a putative regulator of calmodulin and Ca2+/calmodulin-dependent kinase II (CaMKII) signaling, exclusively within the His-Purkinje network. Using Pcp4-null mice and acquired cardiomyopathy models, we determined that reduced expression of PCP4 is associated with CaMKII activation, abnormal electrophysiology, dysregulated intracellular calcium handling, and proarrhythmic behavior in isolated Purkinje cells. Pcp4-null mice also displayed profound autonomic dysregulation and arrhythmic behavior in vivo. Together, these results demonstrate that PCP4 regulates cardiac excitability through both Purkinje cell-autonomous and central mechanisms and identify this modulator of CaMKII signaling as a potential arrhythmia-susceptibility candidate.
PMCID:4321194
PMID: 25295538
ISSN: 0021-9738
CID: 1299982

Characterization of a dielectric phantom for high-field magnetic resonance imaging applications

Duan, Qi; Duyn, Jeff H; Gudino, Natalia; de Zwart, Jacco A; van Gelderen, Peter; Sodickson, Daniel K; Brown, Ryan
PURPOSE: In this work, a generic recipe for an inexpensive and nontoxic phantom was developed within a range of biologically relevant dielectric properties from 150 MHz to 4.5 GHz. METHODS: The recipe includes deionized water as the solvent, NaCl to primarily control conductivity, sucrose to primarily control permittivity, agar-agar to gel the solution and reduce heat diffusivity, and benzoic acid to preserve the gel. Two hundred and seventeen samples were prepared to cover the feasible range of NaCl and sucrose concentrations. Their dielectric properties were measured using a commercial dielectric probe and were fitted to a 3D polynomial to generate a recipe describing the properties as a function of NaCl concentration, sucrose concentration, and frequency. RESULTS: Results indicated that the intuitive linear and independent relationships between NaCl and conductivity and between sucrose and permittivity are not valid. A generic polynomial recipe was developed to characterize the complex relationship between the solutes and the resulting dielectric values and has been made publicly available as a web application. In representative mixtures developed to mimic brain and muscle tissue, less than 2% difference was observed between the predicted and measured conductivity and permittivity values. CONCLUSIONS: It is expected that the recipe will be useful for generating dielectric phantoms for general magnetic resonance imaging (MRI) coil development at high magnetic field strength, including coil safety evaluation as well as pulse sequence evaluation (including B1 (+) mapping, B1 (+) shimming, and selective excitation pulse design), and other non-MRI applications which require biologically equivalent dielectric properties.
PMCID:4281072
PMID: 25281973
ISSN: 0094-2405
CID: 1299002

p75NTR, but Not proNGF, Is Upregulated Following Status Epilepticus in Mice

VonDran, Melissa W; LaFrancois, John; Padow, Victoria A; Friedman, Wilma J; Scharfman, Helen E; Milner, Teresa A; Hempstead, Barbara L
ProNGF and p75(NTR) are upregulated and induce cell death following status epilepticus (SE) in rats. However, less is known about the proneurotrophin response to SE in mice, a more genetically tractable species where mechanisms can be more readily dissected. We evaluated the temporal- and cell-specific induction of the proneurotrophins and their receptors, including p75(NTR), sortilin, and sorCS2, following mild SE induced with kainic acid (KA) or severe SE induced by pilocarpine. We found that mature NGF, p75(NTR), and proBDNF were upregulated following SE, while proNGF was not altered, indicating potential mechanistic differences between rats and mice. ProBDNF was localized to mossy fibers and microglia following SE. p75(NTR) was transiently induced primarily in axons and axon terminals following SE, as well as in neuron and astrocyte cell bodies. ProBDNF and p75(NTR) increased independently of cell death and their localization was different depending on the severity of SE. We also examined the expression of proneurotrophin co-receptors, sortilin and sorCS2. Following severe SE, sorCS2, but not sortilin, was elevated in neurons and astrocytes. These data indicate that important differences exist between rat and mouse in the proneurotrophin response following SE. Moreover, the proBDNF and p75(NTR) increase after seizures in the absence of significant cell death suggests that proneurotrophin signaling may play other roles following SE.
PMCID:4187006
PMID: 25290065
ISSN: 1759-0914
CID: 1299872