List of cocaine analogues


This is a list of cocaine analogues. A cocaine analogue is a artificial construct of a novel chemical compound from cocaine's molecular structure, with the result product sufficiently similar to cocaine to display similarity in, but alteration to, its chemical function. Within the scope of analogous compounds created from the structure of cocaine, so named "cocaine analogues" retain 3β-benzoyloxy or similar functionality on a tropane skeleton, as compared to other stimulants of the kind. Many of the semi-synthetic cocaine analogues proper which have been made & studied have consisted of among the nine following classes of compounds:
However strict analogues of cocaine would also include such other potential combinations as phenacyltropanes & other carbon branched replacements not listed above. The term may also be loosely used to refer to drugs manufactured from cocaine or having their basis as a total synthesis of cocaine, but modified to alter their effect & QSAR. These include both intracellular sodium channel blocker anaesthetics and stimulant dopamine reuptake inhibitor ligands. Additionally, researchers have supported combinatorial approaches for taking the most promising analogues currently elucidated and mixing them to the end of discovering novel & efficacious compounds to optimize their utilization for differing distinct specified purposes.

Analogs ''sensu stricto''">Structural analog#Chemistry">Analogs ''sensu stricto''

Cocaine Stereoisomers

StereoisomerS. Singh's
alphanumeric
assignation		IC50
tritium|WIN 3542 inhibition to
rat striatal membranes
Mean error standard ≤5% in all cases		IUPAC
nomenclature
R-cocaine
102methyl-3--8-methyl-8-azabicyclooctane-2-carboxylate
R-pseudococaine
17215800methyl-3--8-methyl-8-azabicyclooctane-2-carboxylate
R-allococaine1736160methyl-3--8-methyl-8-azabicyclooctane-2-carboxylate
R-allopseudococaine17428500methyl-3--8-methyl-8-azabicyclooctane-2-carboxylate
S-cocaine17515800methyl-3-oxy-8-methyl-8-azabicyclooctane-4-carboxylate
S-pseudococaine17622500methyl-3-oxy-8-methyl-8-azabicyclooctane-4-carboxylate
S-allococaine1779820methyl-3-oxy-8-methyl-8-azabicyclooctane-4-carboxylate
S-allopseudococaine17867700methyl-3-oxy-8-methyl-8-azabicyclooctane-4-carboxylate

Where the 2D diagrams given for the structural analogs below do not indicate stereochemistry, it should be assumed they share the conformation of R-cocaine, unless noted otherwise.
The natural isomerism of cocaine is unstable in several ways besides having a high degree of lability; for instance: the C2 carbomethoxy in its biosynthesis end-product maintains the axial position, which can undergo epimerization via saponification to obtain the former in an equatorial position.
The creation of the following analogues of cocaine have traditionally required a step which has utilized 2-CMT as an intermediate molecular product.

Benzoyl branch cleavage substitutions (excluding the exhaustive phenyl group)

product of aspirin used to make salbutamol. It is relevant to the precursor here though because the migrated acetyl group can be the subject of a haloform reaction. A more direct route to vanillic acid though is just oxidation of the vanillin to a functionalized benzoic acid.

Arene benzene-ring">Aromatic hydrocarbon">Arene benzene-ring 2′, 3′, 4′ (5′ & 6′) position ([aryl]) substitutions

''para''-substituted benzoylmethylecgonines

StructureS. Singh's
alphanumeric
assignation
4′=RDAT
WIN 35428		5-HTT
Paroxetine		NET
Nisoxetine		Selectivity
5-HTT/DAT		Selectivity
NET/DAT
H249 ± 37615 ± 1202500 ± 702.510.0
non-benzoyloxy analogue
comparative ligands
11b

F

24 ± 4
775 ± 20
5200 ± 1270		690 ± 14
762 ± 90
15 ± 3		258 ± 40
135 ± 21
963 ± 158		28.7
1.0
0.003		10.7
0.2
0.2
-------
183aI2522 ± 41052 ± 2318458 ± 10730.47.3
183bPh486 ± 63----
183cOAc144 ± 2----
183dOH158 ± 83104 ± 148601 ± 1119.63.8
F-----

NCS-----

The MAT binding pocket analogous to the lipophilic place on cocaine-like compounds, inclusive of the benzene ring, is approximate to 9 Å in length. Which is only slightly larger than a phenyl ring by itself.

''meta''-substituted benzoylmethylecgonines

StructureS. Singh's
alphanumeric
assignation
3′=RDAT
WIN 35428		5-HTT
Paroxetine		NET
Nisoxetine		Selectivity
5-HTT/DAT		Selectivity
NET/DAT
-------
184aI325ɑ----
184bOH1183 ± 115793 ± 333760 ± 5890.73.2
191OBn-----
NCS-----

The hydroxylated 2′-OH analogue exhibited a tenfold increase in potency over cocaine.
StructureS. Singh's
alphanumeric
assignation
2′=RDAT
WIN 35428		5-HTT
Paroxetine		NET
Nisoxetine		Selectivity
5-HTT/DAT		Selectivity
NET/DAT
-------
185aI350ɑ----
185bF604 ± 671770 ± 3091392 ± 1732.92.3
185c
OAc70 ± 1219 ± 2072 ± 93.11.0
185d
OH25 ± 4143 ± 2148 ± 25.71.9

Multi-substitutions or manifold substituted analogues are analogues where more than one modification from the parent molecule takes place. These are created with often surprising structure–activity relationship results extrapolated therefrom. It is even a common case where two separate substitutions can each yield a weaker, lower affinity or even wholly non-efficacious compound respectively; but due to findings that oftentimes, when used together, such two mutually inferior changes being added in tandem to one analogue has the potential to make the resultant derivative display much greater efficacy, affinity, selectivity &/or strength than even the parent compound; which otherwise was compromised by either of those two alternations when made alone.
For an exposition & allusion to this mechanism observe that the opioid oxycodone, derived from codeine, is 1.5×—1.7× the analgesic potency of morphine ; yet oxycodone's intermediates in its synthesis from codeine are: ⅓ the potency of codeine ; 0.13 that of morphine in rats and less in mice ; with the final possible stand alone intermediate compound between codeine & oxycodone being at most 150% to 200% that of codeine.
StructureS. Singh's
alphanumeric
assignation
ortho-2′=Rmeta-3′=Rpara-4′=RDAT
WIN 35428		5-HTT
Paroxetine		NET
Nisoxetine		Selectivity
5-HTT/DAT		Selectivity
NET/DAT
186HOHI215 ± 19195 ± 101021 ± 750.94.7
HOCH3OH-----

benzoyl phenyl-alterations

The naphthalene analogs allow for further numeric substitutions, including eight position peri substituted patterns. Many more alterations creating differing aromatic rings are possible.
StructureS. Singh's
alphanumeric
assignation
C=RDAT
Cocaine 		5-HTT
Paroxetine		NET
Nisoxetine		Selectivity
5-HTT/DAT		Selectivity
NET/DAT
1871-naphthalene742 ± 48----
1882-naphthalene327 ± 63----

Benzoyl branch modifications

A sulfur in place of the oxygen at the benzoyl ester single bond results in a lower electronegativity than that of cocaine.

C1-tropane-ring hydrogen—substitutions

cf. hydroxytropacocaine for a natural alkaloid that is a C1 substituent with a hydroxy group.
StructureTrivial nameR
Ki @ DATKi @ SERTKi @ NETσ1 affinity
Ki		σ2 affinity
Ki		IC50 Na+ inhibition
c		LogP
-CocaineH326 ± 106513 ± 143358 ± 696.7 ± 0.3 μMd"significant"6.99 ± 2.432.30
-1-methyl-cocaineMe163 ± 23435 ± 77488 ± 101"unappreciable"1.13 μM16.01 ± 1.902.67
-1-ethyl-cocaineEt95.1 ± 17.0ɑ1,106 ± 112598 ± 1793.20
-1-n-propyl-cocainen-Pr871 ± 205ɑ2,949 ± 462b796 ± 1953.56
-1-n-pentyl-cocainen-C5H111,272 ± 199b1,866 ± 400ɑ1,596 ± 21b4.64
-1-phenyl-cocainePh32.3 ± 5.7b974 ± 3081,980 ± 99b524 nM198 nM0.29 ± 0.073.77

Cocaine analogs substituting the C1-tropane ring position, requiring sulfinimine chemistry which bind unlike the typical configuration at DAT as cocaine, or in the atypical conformation of the benztropines. Though closer to the open to out: -1-methyl-cocaine = 4.40 Å & -1-phenyl-cocaine = 4.89 Å, and exhibiting preferential interaction with outward facing DAT conformation, they appear to have the lack of behavioral stimulation as-like the closed to out type. Despite having non-stimulant behavior profiles, they still seem to have anti-depressant behavioral profiles.
The C1 phenyl analog is ten times stronger than cocaine as a dopamine reuptake pump ligand, and twenty four times stronger as a local anesthetic, whereas the C1 methyl analog is 2.3 times less potent as a local anesthetic.

2''β''-substitutions (including transesterification metabolite substitution cocaethylene)

The consideration that large, bulky C2 substituents would alter the tropane by distorting the piperidine ring part of its skeleton sufficiently enough to impair its functionality, or that in said event such would hamper binding, in particular at the 8-aza end to ease steric strain going toward its place from the 2-position, appear to in many cases be unfounded.
.
Compound 197b displayed a 1,131-fold increased selectivity in affinity over the serotonin transporter, with only slight reductions in potency for the dopamine & norepinephrine transporters. Whereas 197c had a 469× increase at SERT, with greater affinity for DAT than cocaine & was approximately equipotent to NET. 197b was 137×, and 196c 27× less potent at binding to the serotonin transporter, but both had a NET / DAT ratio that made for a better dopaminergic than cocaine.

StructureS. Singh's
alphanumeric
assignation
RDAT
WIN 35428		5-HTT
Paroxetine		NET
Nisoxetine		Selectivity
5-HTT/DAT		Selectivity
NET/DAT
-------
Me89 ± 4.81045 ± 893298 ± 29311.737.0
196a
Et195 ± 455801 ± 49310000 ± 75129.751.3
196bn-Pr196 ± 464517 ± 4306124 ± 26223.331.2
196ci-Pr219 ± 4825224 ± 149830384 ± 1685115139
196dPh112 ± 3133666 ± 333031024 ± 1909300277
196eBn257 ± 14302 ± 2320794 ± 9501.280.9
196fβ-phenethyl181 ± 10615 ± 5219944 ± 10263.4110
196gγ-phenylpropyl147 ± 19374 ± 154893 ± 3442.533.3
196hcinnamyl371 ± 15368 ± 6.368931 ± 34761.0186
196ip-NO2-β-phenethyl601 ± 28----
196jp-Cl-β-phenethyl271 ± 12----
196kp-NH2-β-phenethyl72 ± 7----
196lp-NCS-β-phenethyl196 ± 14----
196mp-azido-β-phenethyl227 ± 19----
196nβ-phenethyl61 ± 6----
196oβ-phenethyl86 ± 4----
197aNH2753 ± 41.313725 ± 12563981 ± 22918.25.3
197b-NMe2127 ± 6.36143713 ± 88547329 ± 158113157.7
197c-NMe60 ± 6.428162 ± 25653935 ± 26646965.6
197d-NHMe2424 ± 11844798 ± 21054213 ± 20618.51.7
197e
-OH195000----
197fHOCH2-561 ± 149----
197g
H5180 ± 1160----

[Bioisostere] 2-position carbmethoxy-ester functional replacements

Benzoylecgonine, i.e. compound 197e, has an extreme loss in potency as displayed by in vitro methodologies for determining binding efficacy and is posited to be due possibly to zwitterion formation.
StructureS. Singh's
alphanumeric
assignation
RMazindolDASelectivity
Uptake/Binding
580 ± 70570 ± 1801.0
-----
198aH520 ± 40260 ± 700.5
198bCO2Et 120 ± 10290 ± 402.4
198cBOC2230 ± 2201820 ± 8100.8
198dPh2000 ± 6402920 ± 16201.5
198eCH=CHCO2Me3600 ± 4003590 ± 11801.0
-----

File:2-_cocaine_analogue.png|thumb|right|x180px|2- cocaine analogue.
File:D3-methyl cocaine.svg|thumb|-cocaine: reagent analogue used in radio-labeling ligand binding sites.
StructureS. Singh's
alphanumeric
assignation		RMazindolDASelectivity
Uptake/Binding
-----
199aβCO2Et710 ± 1501060 ± 3401.5
199bαCO2Et5830 ± 6308460 ± 6201.4

StructureS. Singh's
alphanumeric
assignation		RMazindolDASelectivity
Uptake/Binding
200880 ± 350400 ± 1400.4

Vinylogous 2''β''-position carbmethoxy-ester functional replacements

201b & 201c show significant increased potency over cocaine; whereas 201a, 201d & 201e are considerably less so. This infers the hydrogen bond acceptor at the 2β position to not necessarily be of exclusive import in creation of higher binding analogues of cocaine.
File:D5-phenyl cocaine.svg|thumb|-cocaine: reagent analogue, as above thumbnail of similar compound: rendered from its cocaine parent by replacing a cluster of several adjacent hydrogens with deuterium, in an equivalent but localized spread or cluster.
StructureS. Singh's
alphanumeric
assignation		RMazindolDASelectivity
Uptake/Binding
-----
201aH1730 ± 5501120 ± 3900.6
201bCl222 ± 49368 ± 1901.6
201cCO2Et50 ± 10130 ± 102.6
201dCH=CHCO2Et1220 ± 100870 ± 500.7
201ePO24850 ± 4705500 ± 701.1

''N''-modifications

CompoundS. Singh's
alphanumeric
assignation
N8-RMazindol
binding		DA
uptake		Selectivity
Uptake/Binding
217
-10700 ± 1530ɑ--
CH3280 ± 60
102ɑ		320 ± 101.1
218
H303 ± 59ɑ--
219aBn668 ± 67ɑ--
219bAc3370 ± 1080ɑ--
219cCH2CH2OH700 ± 1001600 ± 2002.3
219dCH2CO2CH3480 ± 401600 ± 1003.3
219eCH2CO2H380 ± 202100 ± 4005.5
220aSO2CH3 1290 ± 801970 ± 701.5
220bSO2CF3 330 ± 30760 ± 202.3
220cSO2NCO120 ± 10160 ± 101.3
220dSO2Ph20800 ± 3500610002.9
220eSO2C6H4-4-NO2 5720 ± 114018800 ± 903.3
220fSO2C6H4-4-OCH36820 ± 58016400 ± 14002.4
221aNO99500 ± 12300231700 ± 395002.3
221bNO27500 ± 90021200 ± 6002.8
221cNHCOCH3>1000000>1000000-
221dNH2---

8 to 2 position tropane bridge

CompoundS. Singh's
alphanumeric
assignation		RMazindolDASelectivity
Uptake/Binding
22244900 ± 6200115000 ± 157002.6

Back-bridged cocaine analogues are considered more akin to untethered cocaine analogs & phenyltropane derivatives and better mimics their affinities. This is due to when the eighth carbon tropane position is freely rotatable and unbound it preferably occupies the axial position as defining its least energy & most unhindered state. In front-bridged analogs the nitrogen lone pairings rigid fixity makes it reside in an equatorial placing for the piperidine ring-part of the tropane nucleus, pointing to the two-carbon & three methylene unit bridgehead; giving the attested front-bridged cocaine analogues preference for SERT over DAT.

Tricyclic cocaine analogues

Tethering the nitrogen 8 tropane position one position further and linking all the way across to the 3β aryl, replacing it; yields an expansive front-bridged structure to create a structurally tricyclic series of cocaine analogues.

8 to 3 position

CompoundXYRSERT Ki DAT Ki NET Ki
1ClClCH2OCOMe1.61870638
2BrClCO2Me2.35420459
3IClCH2OCOPh0.06>10K>10K

Azabornane tropane ring contraction

Alterations shortening the tropane ring system while including the benzoyloxy length at the C3 have been made, contrasting the azabornane phenyltropanes; likely remedying the shallow penetration of the latter.
5-benzoatic & 6-benzoatic
Comparison of tropane ring versus the norbornane in overlay, with contrast of benzoyl branch in its configuration of how it lays extended out from body of either main ring type

6/7 tropane position methoxycocaine & methoxypseudococaine analogues

CompoundS. Singh's
alphanumeric
assignation
XKi
Mazindol binding		Ki
DA uptake		Selectivity
Uptake/Binding
280 ± 60320 ± 101.1
10400 ± 30013800 ± 15001.3
-----
225a2β, 6β-OCH398000 ± 1200068000 ± 50000.7
225b2α, 6β-OCH3190000 ± 11000510000 ± 1100002.7
225c2β, 7β-OCH34200 ± 1006100 ± 2001.4
225d2α, 7β-OCH345000 ± 5000110000 ± 40002.4
225e2α, 7α-OCH354000 ± 3000200000 ± 700003.7

3''β''-position 2′—(6′) & 2''β''-substitution combination analogues

CompoundS. Singh's
alphanumeric
assignation		2β-RC2′-RIC50
----
211aCO2OHH6214 ± 1269
211bCH2OCOCH3H2995 ± 223
211cCONHCH3H>100000
211dCO2EtH2031 ± 190
211eCO2-i-PrH1377 ± 10
211fCO2PhH2019 ± 253
211gCO2CH2PhH4602 ± 325
211h3-phenyl-1,2,4-oxadiazoleH3459 ± 60
----
211iCH=CH2H2165 ± 253
211jCH2CH3H2692 ± 486
212CO2-i-PrHO663 ± 70
4507 ± 13ɑ
34838 ± 796b

CompoundS. Singh's
alphanumeric
assignation
XIC50
inhibition of Cocaine binding
IC50
inhibition of DA uptake
Selectivity
uptake/binding
70 ± 10210 ± 703.0
-----
223aH5600 ± 70052600 ± 30009.4
223b4-NO21090 ± 2505700 ± 12005.2
223c4-NH263300 ± 12200>100000-
223d4-N31000 ± 2401180 ± 3601.2
223e4-NCS260 ± 60490 ± 801.9
-----
223f3-NO237 ± 10178 ± 234.8
223g3-NH22070 ± 34023100 ± 90011.1
223h3-N3630 ± 1503900 ± 15906.2
223i3-NCS960 ± 2104900 ± 4205.1

Phenyl 3-position linkage substitutions


: A structural analogue of cocaine with omitted -COO- linkage – a parent compound of many MAT ligands; those of the phenyltropane class.
See: List of phenyltropanes
The difference in the length of the benzoyloxy and the phenyl linkage contrasted between cocaine and phenyltropanes makes for a shorter distance between the centroid of the aromatic benzene and the bridge nitrogen of the tropane in the latter PTs. This distance being on a scale of 5.6 Å for phenyltropanes and 7.7 Å for cocaine or analogs with the benzoyloxy intact. This may account for PTs increased behavioral stimulation profile over cocaine. Differences in binding potency have also been explained considering solvation effects; cocaine containing 2β,3β-ester groups being calculated as more solvated than the WIN-type compounds. Higher pKɑs of the tropane nitrogen, decreased aqueous solvation & decreased conformational flexibility added to increased binding affinity.
Despite the observation of increased stimulation, phenyltropanes lack the local anesthetic sodium channel blocking effect that the benzoyloxy imparts to cocaine. Beside topical affect, this gives cocaine an affinity for binding to sites on the dopamine and serotonin sodium dependent transport areas that are distinct & specific to MAT in contrast to the general sodium channels; creating a separate mechanism of relational affinity to the transporters in addition to its inhibition of the reuptake for those transporters; this is unique to the local anesthetic value in cocaine & analogues with a similar substitute for the benzoyloxy that leaves the sodium channel blockage ability intact. Rendering such compounds as different functionally in their relation to MAT contrasted to phenyltropane analogues which have the local anesthetic bridge removed.. In addition, it even has been postulated that a crucial role regarding the electron energy imparted via voltage sensitization upon a receptor binding site may attenuate the mediating influence of the inhibitory regulation that autoreceptors play by their slowing neurotransmitter release when an efflux is created through an instance of agonism by a compound; allowing said efflux to be continued without the body's attempt to maintain homeostasis enacting in as readily responsive a manner to its conformational change.

3''β''-Alkylphenyltropane & 3''β''-Alkenyl analogues

The compound 224e, the 3β-styrene analogue, had the highest potency in its group. While 224b & 224c showed the most selectivity, with 224b having a ten-fold greater potency for the dopamine transporter than cocaine.
CompoundS. Singh's
alphanumeric
assignation
nIC50
Cocaine binding		IC50
DA uptake		Selectivity
uptake/binding
101 ± 26209 ± 202.1
-----
224a1885 ± 181020 ± 521.1
224b29.9 ± 0.3370.5 ± 1.07.1
224c3344 ± 122680 ± 1907.8
224d71.6 ± 0.7138 ± 91.9
224e2.10 ± 0.045.88 ± 0.092.8

6-Alkyl-3-benzyltropane analogues

CompoundS. Singh's
alphanumeric
assignation
RKi
WIN 35428 binding		IC50
DA uptake		Selectivity
uptake/binding
32 ± 5
338 ± 221		405 ± 91
405 ± 91		12.6
1.2
11a
33 ± 17
314 ± 222		373 ± 1011.3
-----
-229aH33 ± 5161 ± 1004.9
229aH91 ± 1094 ± 261.0
229bMe211 ± 23--
229cEt307 ± 28--
229dn-Pr4180 ± 418--
229en-Bu8580 ± 249--
229fBn3080 ± 277--
-----
-230aH60 ± 6208 ± 633.5
230aH108 ± 14457 ± 1044.2
230bMe561 ± 64--
230cEt1150 ± 135--
230dn-Pr7240 ± 376--
230en-Bu19700 ± 350--
230fBn7590 ± 53--
-----
231bMe57 ± 5107 ± 361.9
231cEt3110 ± 187--
231dn-Pr5850 ± 702--
231fBn1560 ± 63--
-----
232bMe294 ± 29532 ± 1361.8
232cEt6210 ± 435--
232dn-Pr57300 ± 3440--
232fBn3080 ± 277--
241Bn4830 ± 434--

Sub-category
a
R=H		b
R=Me		c
R=Et		d
R=n-Pr		e
R=n-Bu		f
R=Bn
6α-isomers:
237a—f		------
6α-isomers:
237a—f
6β-isomers :
238a—f		------
6β-isomers :
238a—f
3β-benzyl derivatives:
239a—f		------
3β-benzyl derivatives:
239a—f
intermediate
alkylidene esters:
240a—f		------
intermediate
alkylidene esters:
240a—f

N.B. that 237a and 238a are the same compound as both are the parent for either series with a hydrogen saturated in their respective substitution place.

Direct 2,3-pyrimidino fused

cf. strobamine for a more efficacious compound as like the below.
Structurealphanumeric
assignation		R1R2hDAT
IC50 		hSERT
IC50 		hNET
IC50
------
-3aHC6H558,300 6140 NA
-3aHC6H548,700 6030 NA
------
-3bHNH2NANANA
-3bHNH2NANANA
------
-3cHCH3NANANA
-3cHCH3NANANA
------
-3dHHNANANA
-3dHHNANANA
-3eC6H5C6H530,000 3650 NA

Direct di-hetero-benzene 2,3-fused and thus rigidified cocaine analogs.

Piperidine cocaine-homologues

cf. phenyltropane piperidine-homologues for compounds with a more optimized conformation that yield higher affinities when binding to MAT.
CompoundS. Singh's
alphanumeric
assignation
2β-RIC50
CO2CH3
249 ± 37
183aCO2CH32522 ± 4
---
242H11589 ± 4
243CO2CH38064 ± 4

Cocaine [hapten] analogues

CompoundS. Singh's
alphanumeric
assignation
2β-R
394
ɑ		CO25CO2H
395
CO2CH3
GNEb
including carrier proteins:
GNE-FLiC
GNE-KLH
GNE-BSA
396CONH5CO2H

CompoundS. Singh's
alphanumeric
assignation
R
--
401aCH3
401b5CO2H
401cCH2CO2H
401dCOCH2CH2CO2H
401eH
401fCH2CH2Br
385g2NHCO2CONH2
--
402aO4NHCO2CO2...2,3-dihydro-1H-isoindole-1,3-dione
402bOH
402cO2...1,4-xylene...NH2
402dNH5CO2H
402eO4NHCO2CONH2
--
403aNH2
403bNHCOCH2Br
403cNHCO3CO2H
403d3NHCO2CONH2

Cocaine haptens that create catalytic anti-bodies require transitional states as affected in vivo.
CompoundName
-
K1-KLH/BSA
-
K2-KLH/BSA

Structural/Functional intermediate analogues

Piperidine Analogues

A somewhat recent occurrence among tentative modern folklore which has traversed the circling of rumors mostly confined to the likes of universities and popular culture trivia has been that cocaine is one element, or molecule increment of weight or charge etc., away from the molecular structure of sugar. Though such a statement is false as a general pretense, there is a dextrose based super-structure that has a vaguely similar overlay with cocaine which is "benzoyl-beta-D-glucoside."

Benztropine (3α-Diphenylmethoxy Tropane) Analogs

Unlike cocaine & phenyltropanes, the benztropines & GBR compounds among others are considered "atypical" DAT re-uptake pump ligands because they stabilize the dopamine transporter in an inward-facing or closed-to-out conformation, this contrasts what is considered "cocaine-like" affinity to DAT; which would instead keep DAT stable in an open-to-out conformation. This means the binding of many dopamine reuptake inhibitors is atypical of cocaine's method of binding to DAT and significantly diverges from it.
"Difluoropine" is not a phenyltropane but actually belongs to the benzatropine family of DRIs. Not to be confused for the "diaryl"-phenyltropanes.
In certain respects these are important because they share SAR overlap with GBR 12909 and related analogs.
SARs have shown that 4′,4′-difluorination is an excellent way to boost DAT activity of benztropine, and gives excellent selectivity over the SERT and the NET.
Furthermore, replacing the N-Me with, e.g. n-phenylpropyl helps to bring muscarinic activity down to something that is the same as DRI affinity.
This is remarkable considering unmodified benztropine is 60 times more active as an anticholinergic than as a dopaminergic.
M1 receptor considerations aside, analogues of this benztropine class still won't substitute for cocaine, and have no propensity to elevate locomotor activity.
CompoundS. Singh's
alphanumeric
assignation
RR′Ki
WIN 35428 binding		IC50
DA
uptake		Selectivity
uptake/binding
388 ± 47--
11.6 ± 31--
------
HH118 ± 9403 ± 1153.4
249a4′-FH32.2 ± 10481.5
249b
4′-F4′-F11.8 ± 1716.0
249c3′,4′-di-FH27.9 ± 11181 ± 45.76.5
249d4′-ClH30.0 ± 121153.8
249e4′-Cl4′-Cl20.0 ± 14753.8
249f3′,4′-di-ClH21.1 ± 19472.2
249g3′,4′-di-ClF18.9 ± 14241.3
249h4′-BrH37.9 ± 7290.8
249i4′-Br4′-Br91.6340.4
249j4′-NO2H197 ± 82191.1
249k4′-CNH196 ± 92221.1
249l4′-CF3H635 ± 1021553.4
249m4′-OHH297 ± 136772.3
249n4′-OMeH78.4 ± 84686.0
249o4′-OMe4′-OMe2000 ± 728761.4
249p4′-MeH187 ± 55122.7
249q4′-Me4′-Me420 ± 725366.0
249r4′-EtH520 ± 89841.9
249s4′-t-BuH191844562.3
250a3′-FH68.5 ± 12250 ± 64.73.6
250b3′-F3′-F47.4 ± 1407 ± 63.98.6
250c3′-ClH21.6 ± 7228 ± 77.110.5
250d3′-CF3H187 ± 5457 ± 72.02.4
251a2′-FH50.0 ± 12140 ± 17.22.8
251b2′-ClH228 ± 9997 ± 1094.4
251c2′-MeH309 ± 61200 ± 1.643.9
251d2′-NH2H840 ± 8373 ± 1170.4

CompoundS. Singh's
alphanumeric
assignation
RnIC50
DAT
IC50
5-HTT
Selectivity
5-HTT/DAT
------
258a20.3 ± 3.5--
258bH1223 ± 534970 ± 70022.3
258cH322.0 ± 11.919.7 ± 30.9
258dBr380.2 ± 8.8234 ± 0.52.9
258eI3119 ± 112200 ± 125018.5
258fH599.0 ± 28550 ± 635.5
259616 ± 8855200 ± 2000089.3

CompoundS. Singh's
alphanumeric
assignation
RKi
DAT
IC50
5-HTT
Selectivity
uptake/binding
-----
260
H11.2 ± 119.70.9
261a3-phenylpropyl41.9 ± 112305.5
261bindole-3-ethyl44.6 ± 11120026.9
261c4-phenylbutyl8.51 ± 14394.6
261d4-butyl20.2 ± 1165032.2
261e3-propyl60.7 ± 12--
262an-butyl24.6 ± 837015.0
262bcyclopropylmethyl32.4 ± 91805.5
262callyl29.9 ± 10140.5
262dbenzyl82.2 ± 152903.5
262e4-fluorobenzyl95.6 ± 102002.1
262fcinnanyl86.4 ± 121802.1
262gethyl634 ± 23--
262hethyl57.0 ± 17--
263acetyl234046002.0
264formyl2020 ± 1354002.7
265aTs0%ɑ--
265bMs18%ɑ--
CH2CH=CH2---
CH2CH2CH2CH3---
CH2CH2NH2---
CH2CH2CH2CH2Ph---
266108 ± 121301.2

ɑInhibition at 10 μM
; a di-para-fluoro benztropine, and hybrid between benzatropine & difluoropine.
CompoundS. Singh's
alphanumeric
assignation
IC50
DAT
IC50
5-HTT
R/S-2682β,3β>10000>1660
R/S-2692α,3β20300>1660
R/S-2702α,3α22300>1660
R/S-2712β,3α520>1660

Tropanyl Isoxazoline Analogues

CompoundName---
-
-4a4c5a5c
-
-6a6b6c7a
-
-7b7c8a8b
-
-8c9a9b9c
--
-9c10a10b10c
-
-11a11b12a12b

8-Aminopentacyclo (σ receptor ligand) [Trishomocubane] Analogs

cf. other trishomocubanes such as basketane.
Sigma receptor agonists with nanomolar affinity such as CM156 have been shown to counteract the deleterious effects of cocaine when co-administered with it. Indicative that e.g. the local anesthetic effect at the sigma site mediating the toxicity or otherwise a cross over or tie in of cocaine's separate functionalities lowering threshold to its safety profile.
Polycyclic cage molecules: N-substituted 8-aminopentacycloundecanes & related.
The 3-FPh, 14b, has 1.2 ± 0.1 Ki @ DAT.

Bicyclic Amine Analogues

Quinuclidine Analogues

Dihydroimidazoles

See: List of Mazindol analogues
Mazindol is usually considered a non-habituating tetracyclic dopamine reuptake inhibitor.
It is a loosely functional analog used in cocaine research; due in large part to N-Ethylmaleimide being able to inhibit approximately 95% of the specific binding of Mazindol to the residues of the MAT binding site, however said effect of 10 mM N-Ethylmaleimide was prevented in its entirety by just 10 μM cocaine. Whereas neither 300 μM dopamine or D-amphetamine afforded sufficient protection to contrast the efficacy of cocaine.
The above steps in its synthesis show the similitude of its precursors to the MAT reuptake inhibitor pipradrol & related compounds.

Local anesthetics (not usually CNS stimulants)

In animal studies, certain of the local anesthetics have displayed residual dopamine reuptake inhibitor properties, although not normally ones that are easily available. These are expected to be more cardiotoxic than phenyltropanes. For example, dimethocaine has behavioral stimulant effects if a dose of it is taken that is 10 times the amount of cocaine. Dimethocaine is equipotent to cocaine in terms of its anesthetic equivalency. has been shown to reverse the cardiotoxic effects of sodium channel blockers and presumably those effects when from cocaine administered intravenously as well.
NameOther common names
AmylocaineStovaine
ArticaineAstracaine, Septanest, Septocaine, Ultracaine, Zorcaine
Benzocaine
BupivacaineMarcaine, Sensorcaine, Vivacaine
Butacaine
Carticaine
ChloroprocaineNesacaine
Cinchocaine/DibucaineCincain, Cinchocaine, Nupercainal, Nupercaine, Sovcaine
CyclomethycaineSurfacaine, Topocaine
Etidocaine
Eucaineα-eucaine, β-eucaine
Fomocaine
Fotocaine
HexylcaineCyclaine, Osmocaine
LevobupivacaineChirocaine
Lidocaine/LignocaineXylocaine, Betacaine
MepivacaineCarbocaine, Polocaine
Meprylcaine/OracaineEpirocain
MetabutoxycainePrimacaine
Phenacaine/Holocaine
PiperocaineMetycaine
Pramocaine/Pramoxine
PrilocaineCitanest
Propoxycaine/Ravocaine
Procaine/NovocaineBorocaine, Ethocaine
Proparacaine/Alcaine
QuinisocaineDimethisoquin
Risocaine
RopivacaineNaropin
Tetracaine/AmethocainePontocaine, Dicaine
TrimecaineMesdicain, Mesocain, Mesokain