20 results on '"Sapkota, Kiran"'
Search Results
2. 5-HT2A receptor dysregulation in a schizophrenia relevant mouse model of NMDA receptor hypofunction
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Nakao, Kazuhito, Singh, Mahendra, Sapkota, Kiran, Fitzgerald, Andrew, Hablitz, John J., and Nakazawa, Kazu
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- 2022
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3. Pananx notoginseng saponins attenuate CCL2-induced cognitive deficits in rats via anti-inflammation and anti-apoptosis effects that involve suppressing over-activation of NMDA receptors
- Author
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Zhou, Yi-jun, Chen, Jian-min, Sapkota, Kiran, Long, Jiang-yi, Liao, Yuan-jun, Jiang, Jun-jun, Liang, Bing-yu, Wei, Jin-bin, and Zhou, Yan
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- 2020
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4. GSK3β inhibition restores cortical gamma oscillation and cognitive behavior in a mouse model of NMDA receptor hypofunction relevant to schizophrenia
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Nakao, Kazuhito, Singh, Mahendra, Sapkota, Kiran, Hagler, Bailey C., Hunter, Robert N., Raman, Chander, Hablitz, John J., and Nakazawa, Kazu
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- 2020
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5. Investigation of the structural requirements for N-methyl-D-aspartate receptor positive and negative allosteric modulators based on 2-naphthoic acid
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Irvine, Mark W., Fang, Guangyu, Sapkota, Kiran, Burnell, Erica S., Volianskis, Arturas, Costa, Blaise M., Culley, Georgia, Collingridge, Graham L., Monaghan, Daniel T., and Jane, David E.
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- 2019
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6. Structural basis of subtype-selective competitive antagonism for GluN2C/2D-containing NMDA receptors
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Wang, Jue Xiang, Irvine, Mark W., Burnell, Erica S., Sapkota, Kiran, Thatcher, Robert J., Li, Minjun, Simorowski, Noriko, Volianskis, Arturas, Collingridge, Graham L., Monaghan, Daniel T., Jane, David E., and Furukawa, Hiro
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- 2020
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7. Synthesis and anti-melanogenic activity of hydroxyphenyl benzyl ether analogues
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Sapkota, Kiran, Roh, Eunmiri, Lee, Eunyoung, Ha, Eun-Mi, Yang, Jae-Ho, Lee, Eung-Seok, Kwon, Youngjoo, Kim, Youngsoo, and Na, Younghwa
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- 2011
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8. The NMDA receptor intracellular C-terminal domains reciprocally interact with allosteric modulators.
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Sapkota, Kiran, Dore, Kim, Tang, Kang, Irvine, Mark, Fang, Guangyu, Burnell, Erica S., Malinow, Roberto, Jane, David E., and Monaghan, Daniel T.
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ALLOSTERIC regulation , *METHYL aspartate receptors , *C-terminal residues , *CENTRAL nervous system , *NEUROLOGICAL disorders , *PATHOLOGICAL psychology , *PROTEIN-protein interactions - Abstract
Graphical abstract Abstract N -methyl- d -aspartate receptors (NMDARs) have multiple prominent roles in CNS function but their excessive or insufficient activity contributes to neuropathological/psychiatric disorders. Consequently, a variety of positive and negative allosteric modulators (PAMs and NAMs, respectively) have recently been developed. Although these modulators bind to extracellular domains, in the present report we find that the NMDAR's intracellular C-terminal domains (CTDs) significantly influence PAM/NAM activity. GluN2 CTD deletion robustly affected NAM and PAM activity with both enhancing and inhibiting effects that were compound-specific and NMDAR subunit-specific. In three cases, individual PAMs became NAMs at specific GluN2-truncated receptors. In contrast to GluN2, GluN1 CTD removal only reduced PAM activity of UBP684 and CIQ, and did not affect NAM activity. Consistent with these findings, agents altering phosphorylation state or intracellular calcium levels displayed receptor-specific and compound-specific effects on PAM activity. It is possible that the GluN2′s M4 domain transmits intracellular modulatory signals from the CTD to the M1/M4 channel gating machinery and that this site is a point of convergence in the direct or indirect actions of several PAMs/NAMs thus rendering them sensitive to CTD status. Thus, allosteric modulators are likely to have a marked and varied sensitivity to post-translational modifications, protein-protein associations, and intracellular ions. The interaction between PAM activity and NMDAR CTDs appears reciprocal. GluN1 CTD-deletion eliminated UBP684, but not pregnenolone sulfate (PS), PAM activity. And, in the absence of agonists, UBP684, but not PS, was able to promote movement of fluorescently-tagged GluN1-CTDs. Thus, it may be possible to pharmacologically target NMDAR metabotropic activity in the absence of channel activation. [ABSTRACT FROM AUTHOR]
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- 2019
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9. Mechanism and properties of positive allosteric modulation of N-methyl-d-aspartate receptors by 6-alkyl 2-naphthoic acid derivatives.
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Sapkota, Kiran, Irvine, Mark W., Fang, Guangyu, Burnell, Erica S., Bannister, Neil, Volianskis, Arturas, Culley, Georgia R., Dravid, Shashank M., Collingridge, Graham L., Jane, David E., and Monaghan, Daniel T.
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ASPARTATE receptors , *ALLOSTERIC regulation , *SCHIZOPHRENIA treatment , *LIGAND binding (Biochemistry) , *CARBOXYLIC acids analysis - Abstract
The theory that N -methyl- d -aspartate receptor (NMDAR) hypofunction is responsible for the symptoms of schizophrenia is well supported by many pharmacological and genetic studies. Accordingly, positive allosteric modulators (PAMs) that augment NMDAR signaling may be useful for treating schizophrenia. Previously we have identified several NMDAR PAMs containing a carboxylic acid attached to naphthalene, phenanthrene, or coumarin ring systems. In this study, we describe several functional and mechanistic properties of UBP684, a 2-naphthoic acid derivative, which robustly potentiates agonist responses at each of the four GluN1a/GluN2 receptors and at neuronal NMDARs. UBP684 increases the maximal l -glutamate/glycine response while having minor subunit-specific effects on agonist potency. PAM binding is independent of agonist binding, and PAM activity is independent of membrane voltage, redox state, and the GluN1 exon 5 N-terminal insert. UBP684 activity is, however, markedly pH-dependent, with greater potentiation occurring at lower pHs and inhibitory activity at pH 8.4. UBP684 increases channel open probability (P o ) and slows receptor deactivation time upon removal of l -glutamate, but not glycine. The structurally related PAM, UBP753, reproduced most of these findings, but did not prolong agonist removal deactivation time. Studies using cysteine mutants to lock the GluN1 and GluN2 ligand-binding domains (LBDs) in the agonist-bound states indicate that PAM potentiation requires GluN2 LBD conformational flexibility. Together, these findings suggest that UBP684 and UBP753 stabilize the GluN2 LBD in an active conformation and thereby increase P o . Thus, UBP684 and UBP753 may serve as lead compounds for developing agents to enhance NMDAR activity in disorders associated with NMDAR hypofunction. [ABSTRACT FROM AUTHOR]
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- 2017
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10. What Increased Registry Outreach May Mean for Cutaneous Melanoma Surveillance:Impact of Changes in Iowa.
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Charlton, Mary E., Sapkota, Kiran, Eide, Melody J., Olson, Daniel B., McKeen, Kathleen, Platz, Charles E., Schlichting, Jennifer A., and Lynch, Charles F.
- Published
- 2014
11. Pharmacological characterization of a novel negative allosteric modulator of NMDA receptors, UBP792.
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Sapkota, Kiran, Burnell, Erica S., Irvine, Mark W., Fang, Guangyu, Gawande, Dinesh Y., Dravid, Shashank M., Jane, David E., and Monaghan, Daniel T.
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METHYL aspartate receptors , *GLUTAMATE receptors , *CELL membranes , *BINDING sites , *CELL death , *NEUROPROTECTIVE agents - Abstract
N -methyl- d -aspartate (NMDA) receptors (NMDARs) are a subtype of ionotropic glutamate receptor with important roles in CNS function. Since excessive NMDAR activity can lead to neuronal cell death and epilepsy, there is interest in developing NMDAR negative allosteric modulators (NAMs) as neuroprotective agents. In this study, we characterize the inhibitory properties of a novel NMDAR antagonist, UBP792. This compound displays partial subtype-selectivity by having a varied maximal inhibition of GluN2A-, GluN2B-, GluN2C-, and GluN2D-containing receptors (52%, 70%, 87%, 89%, respectively) with IC 50 s 4–10 μM. UBP792 inhibited NMDAR responses by reducing l -glutamate and glycine potencies and efficacies. Consistent with non-competitive inhibition, increasing agonist concentrations 30-fold did not reduce UBP792 potency. UBP792 inhibition was also not competitive with the structurally-related positive allosteric modulator (PAM) UBP684. UBP792 activity was voltage-independent, unaffected by GluN1's exon-5, and reduced at low pH (except for GluN1/GluN2A receptors which were more sensitive at acidic pH). UBP792 binding appeared independent of agonist binding and may be entering the plasma membrane to gain access to its binding site. Inhibition by UBP792 is reduced when the ligand-binding domain (LBD) of the GluN2 subunit, but not that of the GluN1 subunit, is cross-linked in the closed-cleft, activated conformation. Thus, UBP792 may be inhibiting by stabilizing an open GluN2-LBD cleft associated with channel inactivation or by stabilizing downstream closed channel conformations allosterically-coupled to the GluN2-LBD. These findings further expand the repertoire displayed by NMDAR NAMs thus expanding the opportunities for developing NMDAR modulators with the most appropriate selectivity and physiological actions for specific therapeutic indications. • UBP792 has greater inhibitory activity at GluN2C- and GluN2D-containing receptors due to a larger maximal inhibition. • UBP792 reduces potency and efficacy of glutamate and glycine. • UBP792 inhibition is pH-dependent, voltage-independent and use-independent. • UBP792 requires opening of the GluN2 ligand-binding domain for activity. • UBP792 may require entering the plasma membrane to access its binding site. [ABSTRACT FROM AUTHOR]
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- 2021
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12. The origin of NMDA receptor hypofunction in schizophrenia.
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Nakazawa, Kazu and Sapkota, Kiran
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INTERNEURONS , *METHYL aspartate receptors , *GABAERGIC neurons , *ETIOLOGY of diseases , *SCHIZOPHRENIA , *ALZHEIMER'S disease , *ANIMAL models in research - Abstract
N- methyl- d -aspartate (NMDA) receptor (NMDAR) hypofunction plays a key role in pathophysiology of schizophrenia. Since NMDAR hypofunction has also been reported in autism, Alzheimer's disease and cognitive dementia, it is crucial to identify the location, timing, and mechanism of NMDAR hypofunction for schizophrenia for better understanding of disease etiology and for novel therapeutic intervention. In this review, we first discuss the shared underlying mechanisms of NMDAR hypofunction in NMDAR antagonist models and the anti-NMDAR autoantibody model of schizophrenia and suggest that NMDAR hypofunction could occur in GABAergic neurons in both models. Preclinical models using transgenic mice have shown that NMDAR hypofunction in cortical GABAergic neurons, in particular parvalbumin-positive fast-spiking interneurons, in the early postnatal period confers schizophrenia-related phenotypes. Recent studies suggest that NMDAR hypofunction can also occur in PV-positive GABAergic neurons with alterations of NMDAR–associated proteins, such as neuregulin/ErbB4, α7nAChR, and serine racemase. Furthermore, several environmental factors, such as oxidative stress, kynurenic acid and hypoxia, may also potentially elicit NMDAR hypofunction in GABAergic neurons in early postnatal period. Altogether, the studies discussed here support a central role for GABAergic abnormalities in the context of NMDAR hypofunction. We conclude by suggesting potential therapeutic strategies to improve the function of fast-spiking neurons. [ABSTRACT FROM AUTHOR]
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- 2020
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13. ChemInform Abstract: 4-Hydroxy-2′-nitrodiphenyl Ether Analogues as Novel Tyrosinase Inhibitors.
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Sapkota, Kiran, Lee, Eunyoung, Yang, Jae-Ho, Kwon, Youngjoo, Choi, Jongwon, and Na, Younghwa
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- 2010
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14. Large-scale animal model study uncovers altered brain pH and lactate levels as a transdiagnostic endophenotype of neuropsychiatric disorders involving cognitive impairment.
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Hagihara H, Shoji H, Hattori S, Sala G, Takamiya Y, Tanaka M, Ihara M, Shibutani M, Hatada I, Hori K, Hoshino M, Nakao A, Mori Y, Okabe S, Matsushita M, Urbach A, Katayama Y, Matsumoto A, Nakayama KI, Katori S, Sato T, Iwasato T, Nakamura H, Goshima Y, Raveau M, Tatsukawa T, Yamakawa K, Takahashi N, Kasai H, Inazawa J, Nobuhisa I, Kagawa T, Taga T, Darwish M, Nishizono H, Takao K, Sapkota K, Nakazawa K, Takagi T, Fujisawa H, Sugimura Y, Yamanishi K, Rajagopal L, Hannah ND, Meltzer HY, Yamamoto T, Wakatsuki S, Araki T, Tabuchi K, Numakawa T, Kunugi H, Huang FL, Hayata-Takano A, Hashimoto H, Tamada K, Takumi T, Kasahara T, Kato T, Graef IA, Crabtree GR, Asaoka N, Hatakama H, Kaneko S, Kohno T, Hattori M, Hoshiba Y, Miyake R, Obi-Nagata K, Hayashi-Takagi A, Becker LJ, Yalcin I, Hagino Y, Kotajima-Murakami H, Moriya Y, Ikeda K, Kim H, Kaang BK, Otabi H, Yoshida Y, Toyoda A, Komiyama NH, Grant SGN, Ida-Eto M, Narita M, Matsumoto KI, Okuda-Ashitaka E, Ohmori I, Shimada T, Yamagata K, Ageta H, Tsuchida K, Inokuchi K, Sassa T, Kihara A, Fukasawa M, Usuda N, Katano T, Tanaka T, Yoshihara Y, Igarashi M, Hayashi T, Ishikawa K, Yamamoto S, Nishimura N, Nakada K, Hirotsune S, Egawa K, Higashisaka K, Tsutsumi Y, Nishihara S, Sugo N, Yagi T, Ueno N, Yamamoto T, Kubo Y, Ohashi R, Shiina N, Shimizu K, Higo-Yamamoto S, Oishi K, Mori H, Furuse T, Tamura M, Shirakawa H, Sato DX, Inoue YU, Inoue T, Komine Y, Yamamori T, Sakimura K, and Miyakawa T
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- Animals, Mice, Humans, Brain metabolism, Disease Models, Animal, Lactates metabolism, Hydrogen-Ion Concentration, Endophenotypes, Cognitive Dysfunction metabolism
- Abstract
Increased levels of lactate, an end-product of glycolysis, have been proposed as a potential surrogate marker for metabolic changes during neuronal excitation. These changes in lactate levels can result in decreased brain pH, which has been implicated in patients with various neuropsychiatric disorders. We previously demonstrated that such alterations are commonly observed in five mouse models of schizophrenia, bipolar disorder, and autism, suggesting a shared endophenotype among these disorders rather than mere artifacts due to medications or agonal state. However, there is still limited research on this phenomenon in animal models, leaving its generality across other disease animal models uncertain. Moreover, the association between changes in brain lactate levels and specific behavioral abnormalities remains unclear. To address these gaps, the International Brain pH Project Consortium investigated brain pH and lactate levels in 109 strains/conditions of 2294 animals with genetic and other experimental manipulations relevant to neuropsychiatric disorders. Systematic analysis revealed that decreased brain pH and increased lactate levels were common features observed in multiple models of depression, epilepsy, Alzheimer's disease, and some additional schizophrenia models. While certain autism models also exhibited decreased pH and increased lactate levels, others showed the opposite pattern, potentially reflecting subpopulations within the autism spectrum. Furthermore, utilizing large-scale behavioral test battery, a multivariate cross-validated prediction analysis demonstrated that poor working memory performance was predominantly associated with increased brain lactate levels. Importantly, this association was confirmed in an independent cohort of animal models. Collectively, these findings suggest that altered brain pH and lactate levels, which could be attributed to dysregulated excitation/inhibition balance, may serve as transdiagnostic endophenotypes of debilitating neuropsychiatric disorders characterized by cognitive impairment, irrespective of their beneficial or detrimental nature., Competing Interests: HH, HS, SH, GS, YT, MT, MI, MS, IH, KH, MH, AN, YM, SO, MM, AU, YK, AM, KN, SK, TS, TI, HN, YG, MR, TT, KY, NT, HK, JI, IN, TK, TT, MD, HN, KT, KS, KN, TT, HF, YS, KY, LR, NH, HM, TY, SW, TA, KT, TN, HK, FH, AH, HH, KT, TT, TK, TK, IG, GC, NA, HH, SK, TK, MH, YH, RM, KO, AH, LB, IY, YH, HK, YM, KI, HK, BK, HO, YY, AT, NK, SG, MI, MN, KM, EO, IO, TS, KY, HA, KT, KI, TS, AK, MF, NU, TK, TT, YY, MI, TH, KI, KN, SH, KE, KH, YT, SN, NS, TY, NU, TY, YK, RO, NS, KS, SH, KO, HM, TF, MT, HS, DS, YI, TI, YK, TY, KS, TM No competing interests declared, SY, NN Employee of Takeda Pharmaceutical Company, Ltd
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- 2024
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15. Positive and Negative Allosteric Modulators of N-Methyl-d-aspartate (NMDA) Receptors: Structure-Activity Relationships and Mechanisms of Action.
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Burnell ES, Irvine M, Fang G, Sapkota K, Jane DE, and Monaghan DT
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- Allosteric Regulation, Binding Sites, Cholesterol analogs & derivatives, Cholesterol metabolism, Humans, Neurotransmitter Agents chemistry, Neurotransmitter Agents metabolism, Phenanthrenes chemistry, Phenanthrenes metabolism, Protein Isoforms chemistry, Protein Isoforms metabolism, Receptors, N-Methyl-D-Aspartate chemistry, Structure-Activity Relationship, Sulfonamides chemistry, Sulfonamides metabolism, Benzenesulfonamides, Receptors, N-Methyl-D-Aspartate metabolism
- Abstract
Excitatory activity in the CNS is predominately mediated by l-glutamate through several families of l-glutamate neurotransmitter receptors. Of these, the N-methyl-d-aspartate receptor (NMDAR) family has many critical roles in CNS function and in various neuropathological and psychiatric conditions. Until recently, the types of compounds available to regulate NMDAR function have been quite limited in terms of mechanism of action, subtype selectivity, and biological effect. However, several new classes of NMDAR agents have now been identified that are positive or negative allosteric modulators (PAMs and NAMs, respectively) with various patterns of NMDAR subtype selectivity. These new agents act at several newly recognized binding sites on the NMDAR complex and offer significantly greater pharmacological control over NMDAR activity than previously available agents. The purpose of this review is to summarize the structure-activity relationships for these new NMDAR modulator drug classes and to describe the current understanding of their mechanisms of action.
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- 2019
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16. A single-channel mechanism for pharmacological potentiation of GluN1/GluN2A NMDA receptors.
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Chopra DA, Sapkota K, Irvine MW, Fang G, Jane DE, Monaghan DT, and Dravid SM
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- Allosteric Regulation, Animals, Binding Sites, Carboxylic Acids chemistry, Drug Synergism, HEK293 Cells, Humans, Models, Molecular, Molecular Docking Simulation, Naphthalenes chemistry, Patch-Clamp Techniques, Protein Conformation, Xenopus, Carboxylic Acids pharmacology, Naphthalenes pharmacology, Receptors, N-Methyl-D-Aspartate chemistry, Receptors, N-Methyl-D-Aspartate metabolism
- Abstract
NMDA receptors (NMDARs) contribute to several neuropathological processes. Novel positive allosteric modulators (PAMs) of NMDARs have recently been identified but their effects on NMDAR gating remain largely unknown. To this end, we tested the effect of a newly developed molecule UBP684 on GluN1/GluN2A receptors. We found that UBP684 potentiated the whole-cell currents observed under perforated-patch conditions and slowed receptor deactivation. At the single channel level, UBP684 produced a dramatic reduction in long shut times and a robust increase in mean open time. These changes were similar to those produced by NMDAR mutants in which the ligand-binding domains (LBDs) are locked in the closed clamshell conformation by incorporating a disulfide bridge. Since the locked glutamate-binding clefts primarily contributes to receptor efficacy these results suggests that UBP684 binding may induce switch in conformation similar to glutamate LBD locked state. Consistent with this prediction UBP684 displayed greater potentiation of NMDARs with only the GluN1 LBD locked compared to NMDARs with only the GluN2 LBD locked. Docking studies suggest that UBP684 binds to the GluN1 and GluN2 LBD interface supporting its potential ability in stabilizing the LBD closed conformation. Together these studies identify a novel pharmacological mechanism of facilitating the function of NMDARs.
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- 2017
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17. GluN2D N-Methyl-d-Aspartate Receptor Subunit Contribution to the Stimulation of Brain Activity and Gamma Oscillations by Ketamine: Implications for Schizophrenia.
- Author
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Sapkota K, Mao Z, Synowicki P, Lieber D, Liu M, Ikezu T, Gautam V, and Monaghan DT
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- Animals, Brain drug effects, Excitatory Amino Acid Antagonists, Gamma Rhythm drug effects, Ketamine metabolism, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Protein Subunits antagonists & inhibitors, Protein Subunits deficiency, Receptors, N-Methyl-D-Aspartate antagonists & inhibitors, Receptors, N-Methyl-D-Aspartate deficiency, Brain physiology, Gamma Rhythm physiology, Ketamine pharmacology, Protein Subunits metabolism, Receptors, N-Methyl-D-Aspartate metabolism, Schizophrenia metabolism
- Abstract
The dissociative anesthetic ketamine elicits symptoms of schizophrenia at subanesthetic doses by blocking N-methyl-d-aspartate receptors (NMDARs). This property led to a variety of studies resulting in the now well-supported theory that hypofunction of NMDARs is responsible for many of the symptoms of schizophrenia. However, the roles played by specific NMDAR subunits in different symptom components are unknown. To evaluate the potential contribution of GluN2D NMDAR subunits to antagonist-induced cortical activation and schizophrenia symptoms, we determined the ability of ketamine to alter regional brain activity and gamma frequency band neuronal oscillations in wild-type (WT) and GluN2D-knockout (GluN2D-KO) mice. In WT mice, ketamine (30 mg/kg, i.p.) significantly increased [(14)C]-2-deoxyglucose ([(14)C]-2DG) uptake in the medial prefrontal cortex (mPFC), entorhinal cortex and other brain regions, and decreased activity in the somatosensory cortex and inferior colliculus. In GluN2D-KO mice, however, ketamine did not significantly increase [(14)C]-2DG uptake in any brain region examined, yet still decreased [(14)C]-2DG uptake in the somatosensory cortex and inferior colliculus. Ketamine also increased locomotor activity in WT mice but not in GluN2D-KO mice. In electrocorticographic analysis, ketamine induced a 111% ± 16% increase in cortical gamma-band oscillatory power in WT mice, but only a 15% ± 12% increase in GluN2D-KO mice. Consistent with GluN2D involvement in schizophrenia-related neurologic changes, GluN2D-KO mice displayed impaired spatial memory acquisition and reduced parvalbumin (PV)-immunopositive staining compared with control mice. These results suggest a critical role of GluN2D-containing NMDARs in neuronal oscillations and ketamine's psychotomimetic, dissociative effects and hence suggests a critical role for GluN2D subunits in cognition and perception., (Copyright © 2016 by The American Society for Pharmacology and Experimental Therapeutics.)
- Published
- 2016
- Full Text
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18. What increased registry outreach may mean for cutaneous melanoma surveillance: impact of changes in Iowa.
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Charlton ME, Sapkota K, Eide MJ, Olson DB, McKeen K, Platz CE, Schlichting JA, and Lynch CF
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- Adult, Age Factors, Aged, Aged, 80 and over, Dermatology statistics & numerical data, Female, Hospitals statistics & numerical data, Humans, Incidence, Iowa epidemiology, Laboratories statistics & numerical data, Male, Melanoma pathology, Middle Aged, Neoplasm Staging, Residence Characteristics, Melanoma, Cutaneous Malignant, Disease Notification statistics & numerical data, Melanoma epidemiology, Registries, Skin Neoplasms epidemiology
- Abstract
Background: Cutaneous melanoma (CM) is underreported to cancer registries, in part due to insufficient reporting in the nonhospital setting. The objective of this study was to better understand the impact of dermatologist and private pathology laboratory reporting on CM rates., Methods: We examined the impact of targeted casefinding in private pathology laboratories and dermatology offices by the State Health Registry of Iowa (SHRI) on CM incidence, as well as the characteristics of nonhospital reported cases., Results: Over the 39-year period (1973-2011), 22,541 cases of CM were captured by the SHRI; 16,183 (72%) were invasive melanoma cases and 6,358 (28%) were in situ cases. The incidence of invasive melanoma increased 3.6 fold between the time periods of 1973-1975 and 2009-2011 (6.6 vs. 24 per 100,000 person-years, respectively). If case reporting from private pathology laboratories and dermatology offices was not conducted, the 2009-2011 invasive CM rate would have decreased to 19.1. The ratio of invasive to in situ cases declined from 8:1 from 1973-1987 to less 2:1 from 2007-2011. Age at diagnosis also significantly increased across time periods, while the proportion of females declined. From 2007-2011, the majority (55%) of nonhospital cases were in situ, and 90% of the invasive cases were localized. A higher percentage of urban residents were attributed to nonhospital-based reporting sources compared to hospital-based sources (57% vs 45%, P < .0001) CONCLUSIONS: Electronic health records and incentivized Meaningful Use for reporting may provide an efficient method for nonhospital based providers to easily and accurately report CM cases to registries.
- Published
- 2014
19. IL-13 and its genetic variants: effect on current asthma treatments.
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Townley RG, Sapkota M, and Sapkota K
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- Asthma complications, Asthma physiopathology, Bronchial Hyperreactivity complications, Bronchial Hyperreactivity physiopathology, Humans, Receptors, Interleukin-13 metabolism, Signal Transduction, Asthma drug therapy, Asthma genetics, Interleukin-13 genetics, Mutation genetics
- Abstract
Airway hyperresponsiveness is an essential part of the definition of asthma associated temporally with exposure to allergens, certain respiratory viruses, pollutants such as ozone, and certain organic chemicals. Interleukin-13 (IL-13) is implicated as a central regulator in immunoglobulin E (IgE) synthesis, mucus hypersecretion, airway hyperresponsiveness, and fibrosis. The importance of IL-13 in allergic disorders in humans is supported by consistent associations between tissue IL-13 levels and genetic variants in the IL-13 gene and asthma and related traits. Single-nucleotide polymorphisms in IL-13 are associated with allergic phenotypes in several ethnically diverse populations. Glucocorticoids are anti-inflammatory medications often used as maintenance therapy in acute and chronic asthma; however, some patients with severe asthma are steroid resistant. IL-13 remains elevated in glucocorticoid insensitive asthma but not in glucocorticoid sensitive asthma. Thus targeting IL-13 and its associated receptors may be a therapeutic approach to the treatment of asthma and/or allergy. This review focuses on the role of IL-13 on airway hyperresponsiveness and corticosteroids resistant asthma both preclinically and clinically., (© Discovery Medicine)
- Published
- 2011
20. Omalizumab for pediatric asthma.
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Townley RG, Agrawal S, and Sapkota K
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- Adolescent, Animals, Anti-Asthmatic Agents adverse effects, Anti-Asthmatic Agents chemistry, Anti-Asthmatic Agents economics, Antibodies, Anti-Idiotypic, Antibodies, Monoclonal adverse effects, Antibodies, Monoclonal chemistry, Antibodies, Monoclonal economics, Antibodies, Monoclonal pharmacology, Antibodies, Monoclonal, Humanized, Asthma immunology, Asthma physiopathology, Cardiovascular Diseases epidemiology, Cardiovascular Diseases etiology, Child, Churg-Strauss Syndrome epidemiology, Churg-Strauss Syndrome etiology, Combined Modality Therapy, Disease Susceptibility, Dose-Response Relationship, Immunologic, Double-Blind Method, Female, Helminthiasis epidemiology, Helminthiasis etiology, Humans, Immunoglobulin E drug effects, Immunosuppression Therapy adverse effects, Macaca fascicularis, Male, Mice, Molecular Structure, Multicenter Studies as Topic statistics & numerical data, Neoplasms epidemiology, Neoplasms etiology, Omalizumab, Pregnancy, Pregnancy Complications therapy, Randomized Controlled Trials as Topic statistics & numerical data, Anti-Asthmatic Agents therapeutic use, Antibodies, Monoclonal therapeutic use, Asthma therapy, Immunoglobulin E immunology, Immunoglobulin Fc Fragments drug effects, Receptors, IgE immunology
- Abstract
Importance to the Field: Omalizumab is of proven efficacy in the treatment of severe allergic bronchial asthma and works through inhibiting the activity of IgE and the allergic immune mechanism IgE mediates. It has been demonstrated to be efficacious in children with asthma but is not approved by the FDA for use in children below 12 years of age., Areas Covered in This Review: Omalizumab is a 95% humanized monoclonal antibody that binds to circulating IgE at the same site on the Fc domain as the high-affinity IgE receptor, FcϵRI. This blocks the interaction between IgE and mast cells and basophils, thereby preventing the release of inflammatory mediators that cause allergic signs and symptoms., What the Reader Will Gain: From the review of the literatures and statements from the FDA, Genentec and Novartis, the reader will gain a better appreciation of the value of omalizumab in treatment of severe asthma and the current status of its reported side effects., Take Home Message: Omalizumab is of proven efficacy in adults and children with severe asthma and allows a markedly reduced dependence on oral and inhaled corticosteroids and decreased hospitalizations. A potential mechanism of omalizumab's effect on thrombus formation and cardiovascular effect is postulated.
- Published
- 2010
- Full Text
- View/download PDF
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