83 research outputs found
Evaluation of structurally diverse neuronal nicotinic receptor ligands for selectivity at the α6 subtype
Direct comparison of pyridine versus pyrimidine substituents on a small but diverse set of ligands indicates that the pyrimidine substitution has the potential to enhance affinity and/or functional activity at α6 subunit-containing neuronal nicotinic receptors (NNRs) and decrease activation of ganglionic nicotinic receptors, depending on the scaffold. The ramifications of this structure–activity relationship are discussed in the context of the design of small molecules targeting smoking cessation
3D Printed Alternative to the Standard Synthetic Flocked Nasopharyngeal Swabs Used for COVID-19 testing.
BACKGROUND:Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), the virus that causes COVID-19, can be detected in respiratory samples by Real-time Reverse Transcriptase (RT)-PCR or other molecular methods. Accessibility of diagnostic testing for COVID-19 has been limited by intermittent shortages of supplies required for testing, including flocked nasopharyngeal (FLNP) swabs. METHODS:We developed a 3D-printed nasopharyngeal (3DP) swab as a replacement of the FLNP swab. The performance of 3DP and FLNP swabs were compared in a clinical trial of symptomatic patients at three clinical sites (n=291) using three SARS-CoV-2 EUA tests: a modified version of the CDC Real-time Reverse Transcriptase (RT)-PCR Diagnostic Panel and two commercial automated formats, Roche Cobas and NeuMoDx. RESULTS:The cycle threshold (C(t)) values from the gene targets and the RNase P gene control in the CDC assay showed no significant differences between swabs for both gene targets (p=0.152 and p=0.092), with the RNase P target performing significantly better in the 3DP swabs (p & 0.001). The C(t) values showed no significant differences between swabs for both viral gene targets in the Roche cobas assay (p=0.05 and p=0.05) as well as the NeuMoDx assay (p=0.401 and p=0.484). The overall clinical correlation of COVID-19 diagnosis between all methods was 95.88% (Kappa 0.901). CONCLUSIONS:3DP swabs were equivalent to standard FLNP in three testing platforms for SARS-CoV-2. Given the need for widespread testing, 3DP swabs printed on-site are an alternate to FLNP that can rapidly scale in response to acute needs when supply chain disruptions affect availability of collection kits
Structural differences determine the relative selectivity of nicotinic compounds for native α4β2^*-, α6β2^*-, α3β4^*- and α7-nicotine acetylcholine receptors
Mammalian brain expresses multiple nicotinic acetylcholine receptor (nAChR) subtypes that differ in subunit
composition, sites of expression and pharmacological and functional properties. Among known subtypes of
receptors, α4β2^* and α6β2^*-nAChR have the highest affinity for nicotine (where ^* indicates possibility of other
subunits). The α4β2^*-nAChRs are widely distributed, while α6β2^*-nAChR are restricted to a few regions. Both
subtypes modulate release of dopamine from the dopaminergic neurons of the mesoaccumbens pathway
thought to be essential for reward and addiction. α4β2^*-nAChR also modulate GABA release in these areas.
Identification of selective compounds would facilitate study of nAChR subtypes. An improved understanding
of the role of nAChR subtypes may help in developing more effective smoking cessation aids with
fewer side effects than current therapeutics.We have screened a series of nicotinic compounds that vary in
the distance between the pyridine and the cationic center, in steric bulk, and in flexibility of the molecule.
These compoundswere screened usingmembrane binding and synaptosomal function assays, or recordings
from GH4C1 cells expressing hα7, to determine affinity, potency and efficacy at four subtypes of nAChRs
found in brain, α4β2^*, α6β2^*, α7 and α3β4^*. In addition, physiological assays in gain-of-function mutant
mice were used to assess in vivo activity at α4b2^* and α6β2^*-nAChRs. This approach has identified several
compounds with agonist or partial agonist activity that display improved selectivity for α6β2^*-nAChR
Structure-Activity Studies Of 7-Heteroaryl-3-Azabicyclo[3.3.1]Non-6-Enes: A Novel Class Of Highly Potent Nicotinic Receptor Ligands
The potential for nicotinic ligands with affinity for the α4β2 or α7 subtypes to treat such diverse diseases as nicotine addiction, neuropathic pain, and neurodegenerative and cognitive disorders has been exhibited clinically for several compounds while preclinical activity in relevant in vivo models has been demonstrated for many more. For several therapeutic programs, we sought nicotinic ligands with various combinations of affinity and function across both subtypes, with an emphasis on dual α4β2-α7 ligands, to explore the possibility of synergistic effects. We report here the structure-activity relationships (SAR) for a novel series of 7-heteroaryl-3-azabicyclo[3.3.1]non-6-enes and characterize many of the analogues for activity at multiple nicotinic subtypes. © 2012 American Chemical Society
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