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| title | chunk | source | category | tags | date_saved | instance |
|---|---|---|---|---|---|---|
| List of phenyltropanes | 4/4 | https://en.wikipedia.org/wiki/List_of_phenyltropanes | reference | science, encyclopedia | 2026-05-05T07:59:53.479705+00:00 | kb-cron |
=== Transition metal complexes === These compounds include transition metals in their heteroatomic conformation, unlike non-radiolabel intended chelates where their element is chosen for intrinsic affectation to binding and function, these are tagged on by a "tail" (or similar) with a sufficient spacer to remain separated from known binding properties and instead are meant to add radioactivity enough to be easily tracked via observation methods that utilize radioactivity. As for anomalies of binding within the spectrum of the under-written kinds just mentioned: other factors not otherwise considered to account for its relatively lower potency, "compound 89c" is posited to protrude forward at the aryl place on its moiety toward the MAT ligand acceptor site in a manner detrimental to its efficacy. That is considered due to the steric bulk of the eight-position "tail" chelate substituted constituent, overreaching the means by which it was intended to be isolated from binding factors upon a tail, and ultimately nonetheless, interfering with its ability to bind. However, to broach this discrepancy, decreasing of the nitrogen tether at the eight position by a single methylene unit (89d) was shown to bring the potency of the analogous compound to the expected, substantially higher, potency: The N-methyl analog of 89c having an IC50 of 1.09 ± 0.02 @ DAT & 2.47 ± 0.14 nM @ SERT; making 89c upwards of thirty-three times weaker at those MAT uptake sites.
ɑIUPAC: [2-[[2-[[[3-(4-chlorophenyl)-7-methyl-8-azabicyclo[3,2,1]oct-2-yl]methyl]-(2-mercaptoethyl)amino]ethyl]amino]ethanethiolato-(3—)-N2, N2′, S2, S2′]oxo-[1''R''-(''exo'', ''exo'')]-[99mTc]technetium bR- & S- isomer values are Ki (nM) for displacement of [125I]IPT with technetium-99m replaced by rhenium cIC50 (nM) values for displacement of [3H]WIN 35428 with ligand tricarbonyltechnetium replaced with rhenium. (IC50 for WIN 35428 were 2.62 ± 1.06 @ high affinity binding & 139 ± 72 @ low affinity binding sites) dKi value for displacement of [125I]IPT radioligand.
== Select annotations of above == Phenyltropanes can be grouped by "N substitution" "Stereochemistry" "2-substitution" & by the nature of the 3-phenyl group substituent X. Often this has dramatic effects on selectivity, potency, and duration, also toxicity, since phenyltropanes are highly versatile. For more examples of interesting phenyltropanes, see some of the more recent patents, e.g. U.S. patent 6,329,520, U.S. patent 7,011,813, U.S. patent 6,531,483, and U.S. patent 7,291,737. Potency in vitro should not be confused with the actual dosage, as pharmacokinetic factors can have a dramatic influence on what proportion of an administered dose actually gets to the target binding sites in the brain, and so a drug that is very potent at binding to the target may nevertheless have only moderate potency in vivo. For example, RTI-336 requires a higher dosage than cocaine. Accordingly, the active dosage of RTI-386 is exceedingly poor despite the relatively high ex vivo DAT binding affinity.
== Sister substances == Many molecular drug structures have exceedingly similar pharmarcology to phenyltropanes, yet by certain technicalities do not fit the phenyltropane moniker. These are namely classes of dopaminergic cocaine analogues that are in the piperidine class (a category that includes methylphenidate) or benztropine class (such as Difluoropine: which is extremely close to fitting the criteria of being a phenyltropane.) Whereas other potent DRIs are far removed from being in the phenyltropane structural family, such as Benocyclidine or Vanoxerine. Most any variant with a tropane locant—3-β (or α) connecting linkage differing from, e.g. longer than, a single methylene unit (i.e. "phenyl"), including alkylphenyls (see the styrene analog, first image given in example below) is more correctly a "cocaine analogue" proper, and not a phenyltropane. Especially if this linkage imparts a sodium channel blocker functionality to the molecule.
== See also == List of cocaine analogues List of local anesthetics List of methylphenidate analogues
== References ==
=== Citations ===
=== Im-pact indices (exact locations within sources cited) & foot-notations ===
== External links == U.S. Provisional Patent Application listing examples of compounds that are tropanes for prospective use in research Article on cocaine analogue research Archived 2006-09-22 at the Wayback Machine