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Query: EC:6.2.1.1 (
ACS
)
78,556
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The 5-HT
2A
receptor (5-HT
2A
R) plays an important role in various neuropsychiatric disorders, including
substance use
disorder and schizophrenia. Homodimerization of this receptor has been suggested, but tools that allow direct assessment of the relevance of the 5-HT
2A
R:5-HT
2A
R homodimer in these disorders are necessary. We chemically modified the selective 5-HT
2A
R antagonist M100907 to synthesize a series of homobivalent ligands connected by ethylene glycol linkers of varying lengths that may be useful tools for probing 5-HT
2A
R:5-HT
2A
R homodimer function. We tested these molecules for 5-HT
2A
R antagonist activity in a cell line stably expressing the functional 5-HT
2A
R and quantified a downstream signaling target, activation (phosphorylation) of extracellular regulated kinases 1/2 (ERK
1/2
), in comparison to in vivo efficacy of altering spontaneous or cocaine-evoked locomotor activity in rats. All of the synthetic compounds inhibited 5-HT-mediated phosphorylation of ERK
1/2
in the cellular signaling assay; the potency of the bivalent ligands varied as a function of linker length, with the intermediate linker lengths being the most potent. The K
i
values for the binding of bivalent ligands to 5-HT
2A
R were only slightly lower than the values for the parent (+)-M100907 compound, but significant selectivity for 5-HT
2A
R over 5-HT
2B
R or 5-HT
2C
R binding was retained. In addition, the 11-atom-linked bivalent 5-HT
2A
R antagonist (2 mg/kg, intraperitoneally) demonstrated efficacy on par with that of (+)-M100907 in inhibiting cocaine-evoked hyperactivity. As we develop further strategies for ligand-evoked receptor assembly and analyses of diverse signaling and functional roles, these novel homobivalent 5-HT
2A
R antagonist ligands will serve as useful in vitro and in vivo probes of 5-HT
2A
R structure and function.
ACS
Chem Neurosci 2018 03 21
PMID:Novel Bivalent 5-HT
2A
Receptor Antagonists Exhibit High Affinity and Potency in Vitro and Efficacy in Vivo. 2911 77
Chronic peri-adolescent stress in humans increases risk to develop a
substance use
disorder during adulthood. Rats reared in social isolation during peri-adolescence (aSI; 1 rat/cage) period show greater ethanol and cocaine intake compared to group housed (aGH; 4 rats/cage) rats. In addition, aSI rats have a heightened dopamine response in the nucleus accumbens (NAc) to rewarding and aversive stimuli. Furthermore, single pulse electrical stimulation in slices containing NAc core elicits greater dopamine release in aSI rats. Here, we further investigated dopamine release kinetics and machinery following aSI. Dopamine release, across a wide range of stimulation intensities and frequencies, was significantly greater in aSI rats. Interestingly, subthreshold intensity stimulations also resulted in measurable dopamine release in accumbal slices from aSI but not aGH rats. Extracellular [Ca
2+
] manipulations revealed augmented calcium sensitivity of dopamine release in aSI rats. The readily releasable pools of dopamine, examined by bath application of Ro-04-1284/000, a vesicular monoamine transporter 2 (VMAT2) inhibitor, were depleted faster in aGH rats. Western blot analysis of release machinery proteins (VMAT2, Synaptogyrin-3, Syntaxin-1, and Munc13-3) showed no difference between the two groups. Tyrosine hydroxylase (TH) protein expression levels, however, were elevated in aSI rats. The greater dopamine release could potentially be explained by higher levels of TH, the rate-limiting step for dopamine synthesis. This augmented responsivity of the dopamine system and heightened dopamine availability post-aSI may lead to an increased risk of addiction vulnerability.
ACS
Chem Neurosci 2019 04 17
PMID:Chronic Social Isolation Stress during Peri-Adolescence Alters Presynaptic Dopamine Terminal Dynamics via Augmentation in Accumbal Dopamine Availability. 3028 6
Buprenorphine has not only had an interdisciplinary impact on our understanding of key neuroscience topics like opioid pharmacology, pain signaling, and reward processing but has also been a key influence in changing the way that substance use disorders are approached in modern medical systems. From its leading role in expanding outpatient treatment of opioid use disorders to its continued influence on research into next-generation analgesics, buprenorphine has been a continuous player in the ever-evolving societal perception of opioids and
substance use
disorder. To provide a multifaceted account on the enormous diversity of areas where this molecule has made an impact, this article discusses buprenorphine's chemical properties, synthesis and development, pharmacology, adverse effects, manufacturing information, and historical place in the field of chemical neuroscience.
ACS
Chem Neurosci 2020 05 20
PMID:Classics in Chemical Neuroscience: Buprenorphine. 3230 75
