Augmenting the antinociceptive effects of nicotinic acetylcholine receptor activity through lynx1 modulation

Nissen, Neel I.; Anderson, Keith; Wang, Huaixing; Lee, Hui Sun; Garrison, C R; Eichelberger, Samantha A; Ackerman, Kasarah; Im, Wonpil; Miwa, Julie M.

doi:10.1371/journal.pone.0199643

Cited by 18 publications

(30 citation statements)

References 81 publications

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“…Computational models of lynx1 interaction with nicotinic receptor subunits. (A) Co-model of ws-lynx1 and α4: α4 nAChR interface (Nissen et al, 2018). (B) Co-model of ws-lynx1 and α7 nAChRs (Lyukmanova et al, 2011).…”

Section: Structural Features Of the Prototoxin And Ly6/upar Superfamilymentioning

confidence: 99%

“…Contextual memory (assessed using the Morris Water Maze, passive avoidance conditioning, and contextual fear conditioning) does not significantly differ between wild-type and lynx1KO mice, suggesting a specific role of lynx1 in associative learning. To further investigate phenotypic specificity, lynx1KO mice were tested for pain sensitivity (Nissen et al, 2018). Since the fear conditioning paradigm involves shock/tone pairing, this would serve as an important control test for the specificity of the learning phenotype.…”

Section: Lynx1mentioning

confidence: 99%

“…Since the fear conditioning paradigm involves shock/tone pairing, this would serve as an important control test for the specificity of the learning phenotype. In one test of nociceptive signaling, the hot-plate test, lynx1KO mice exhibited no significant differences in performance when compared to their wild-type counterparts (Nissen et al, 2018). Indeed, nicotine administration reduced nociceptive behavior in lynx1KO mice (Nissen et al, 2018), suggesting a possible link between lynx1 and analgesia.…”

Section: Lynx1mentioning

confidence: 99%

See 2 more Smart Citations

Lynx Prototoxins: Roles of Endogenous Mammalian Neurotoxin-Like Proteins in Modulating Nicotinic Acetylcholine Receptor Function to Influence Complex Biological Processes

2019

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The cholinergic system modulates many biological functions, due to the widespread distribution of cholinergic neuronal terminals, and the diffuse release of its neurotransmitter, acetylcholine. Several layers of regulation help to refine and control the scope of this excitatory neurotransmitter system. One such regulatory mechanism is imparted through endogenous toxin-like proteins, prototoxins, which largely control the function of nicotinic receptors of the cholinergic system. Prototoxins and neurotoxins share the distinct three finger toxin fold, highly effective as a receptor binding protein, and the former are expressed in the mammalian brain, immune system, epithelium, etc. Prototoxins and elapid snake neurotoxins appear to be related through gene duplication and divergence from a common ancestral gene. Protein modulators can provide a graded response of the cholinergic system, and within the brain, stabilize neural circuitry through direct interaction with nicotinic receptors. Understanding the roles of each prototoxin (e.g., lynx1, lynx2/lypd1, PSCA, SLURP1, SLURP2, Lypd6, lypd6b, lypdg6e, PATE-M, PATE-B, etc.), their binding specificity and unique expression profile, has the potential to uncover many fascinating cholinergic-dependent mechanisms in the brain. Each family member can provide a spatially restricted level of control over nAChR function based on its expression in the brain. Due to the difficulty in the pharmacological targeting of nicotinic receptors in the brain as a result of widespread expression patterns and similarities in receptor sequences, unique interfaces between prototoxin and nicotinic receptor could provide more specific targeting than nicotinic receptors alone. As such, this family is intriguing from a long-term therapeutic perspective.

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Section: Structural Features Of the Prototoxin And Ly6/upar Superfamilymentioning

confidence: 99%

Section: Lynx1mentioning

confidence: 99%

Section: Lynx1mentioning

confidence: 99%

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Lynx Prototoxins: Roles of Endogenous Mammalian Neurotoxin-Like Proteins in Modulating Nicotinic Acetylcholine Receptor Function to Influence Complex Biological Processes

2019

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“…Results suggest that lynx proteins can modulate nAChR function in the brain with important consequences for cholinergic-dependent synaptic plasticity (reviewed in Miwa et al 2011;Miwa and Walz 2012;Thomsen and Mikkelsen 2012). Recently, Nissen and colleagues reported that the antinociceptive effect of nicotine and epibatidine in acute thermal pain tests is enhanced in Lynx1 knockout mice (Nissen et al 2018). Further, computer simulations predict preferential binding affinity of Lynx1 to the α:α interface that exists in the stoichiometry of the low sensitivity (α4)3(β2)2 nAChRs.…”

Section: Modulatory Factors That Influence Nachr Expression and Signamentioning

confidence: 99%

Molecular Mechanisms Associated with Nicotine Pharmacology and Dependence

Fowler

Turner

Damaj

2019

Handbook of Experimental Pharmacology

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“…However it has also been proposed to promote the translocation of nAChR pentamers with lower sensitivity to ACh ( 23 ) via preferentially binding of nAChR subunit interfaces in the endoplasmic reticulum ( 24 ). In the brain, Lynx1 regulation of synaptic plasticity ( 25 – 27 ) has been demonstrated to impact motor learning ( 28 ), nicotine addiction ( 29 ), nociception ( 30 ), neuronal survival ( 31 ), and pathologies caused by aging ( 32 ) and Alzheimer’s disease ( 33 ). Thus, Lynx1 is a promising candidate for modulating nAChRs at NMJs during development, adulthood, and under stressed conditions such as aging and in Amyotrophic Lateral Sclerosis (ALS).…”

Section: Introductionmentioning

confidence: 99%

Lynx1 modulates the activity of nAChRs to slow NMJ and muscle fiber degeneration during aging

Vaughan

Barbat‐Artigas

Myers

et al. 2020

Preprint

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22Cholinergic transmission must be tightly regulated at mammalian neuromuscular 23 junctions (NMJs) for motor neurons and skeletal muscles to properly communicate and 24 remain viable. Here, we examined the function of Lynx1, and endogenous regulator of 25 cholinergic transmission, at NMJs in mice. We show that Lynx1 interacts with and 26 modulates the activity of muscle nicotinic acetylcholine receptors (nAChRs) at NMJs. We 27 also demonstrate that deletion of Lynx1 prematurely and progressively increases the 28 incidence of NMJs with age-related features including fragmentation, nerve sprouting, 29 and multiple innervation. Deleterious changes at NMJs lacking Lynx1 ultimately culminate 30 in the atrophy and de-differentiation of muscle fibers from a fast to a slow phenotype, two 31 hallmarks of aged skeletal muscles. Additionally, we show that Lynx1 is markedly reduced 32 at aged NMJs of control mice, further indicating that Lynx1 plays important roles in 33 mitigating age-related changes at NMJs. These data show that Lynx1 is an attractive 34 target for preventing aging of NMJs and skeletal muscles. 35Neurotransmission is vital for proper communication across synapses in the 38 central and peripheral nervous systems, and thus normal cognitive and motor functions 1 . 39In the somatic motor system, cholinergic transmission initiates all voluntary movements. 40This occurs at the synapse between motor neurons and skeletal muscles, called the 41 neuromuscular junction (NMJ), where acetylcholine (ACh) released from motor axons 42 binds to nicotinic acetylcholine receptors (nAChRs) on skeletal muscles and drives 43 muscle contraction. Because of this critical role in voluntary movement, the cholinergic 44 system is tightly regulated to ensure the proper development, function, and viability of 45 skeletal muscles. For example, the composition and function of nAChRs pentamers 46 changes during development, and in response to conditions that affect the availability of 47 ACh 2 . As NMJs mature, the γ subunit of nAChRs is gradually replaced by the ε subunit 3-48 5 . The presence of the ε subunit reduces the open time of nAChRs, when bound to ACh, 49 and therefore attenuates their activity. This transition, from nAChRs containing γ to ε 50 subunits, is important for the normal development and function of adult NMJs, and thus 51 skeletal muscles 6 . Highlighting this point, mutations in the ε subunit causes congenital 52 myasthenic syndrome (CMS) 7-12 , a neuromuscular disease characterized by muscle 53 weakness and fatigue. The stability and function of adult nAChR pentamers has also been 54 shown to depend on proper phosphorylation of its subunits and on associations with other 55 key molecules involved in nAChR trafficking, clustering, and anchoring [13][14][15][16][17][18] . Thus, 56 multiple mechanisms have been found to alter the properties of nAChRs to regulate the 57 response of muscle fibers to changes in cholinergic transmission. 58Evidence continues to accumulate indicating that changes in the cholinergic 59 sys...

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Augmenting the antinociceptive effects of nicotinic acetylcholine receptor activity through lynx1 modulation

Cited by 18 publications

References 81 publications

Lynx Prototoxins: Roles of Endogenous Mammalian Neurotoxin-Like Proteins in Modulating Nicotinic Acetylcholine Receptor Function to Influence Complex Biological Processes

Lynx Prototoxins: Roles of Endogenous Mammalian Neurotoxin-Like Proteins in Modulating Nicotinic Acetylcholine Receptor Function to Influence Complex Biological Processes

Molecular Mechanisms Associated with Nicotine Pharmacology and Dependence

Lynx1 modulates the activity of nAChRs to slow NMJ and muscle fiber degeneration during aging

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