List of JWH cannabinoids

The John W. Huffman research group at Clemson University synthesized over 450 cannabinoids.[1][2][3][4] Some of those are:

Cannabinoids and their K_i values
Name	Class	K_i at CB₁ [nM]	K_i at CB₂ [nM]	Selectivity	CLogP
JWH-004	Naphthoylindole	48 ± 13	4 ± 1.5	CB₂ (12x)	6.43
JWH-007[5]	Naphthoylindole	9.5 ± 4.5	2.9 ± 2.6	CB₂ (3.3x)	6.01
JWH-009	Naphthoylindole	>10000	141 ± 14	CB₂ (>70x)	6.85
JWH-011	Naphthoylindole				6.75
JWH-015[5]	Naphthoylindole	164 ± 22	13.8 ± 4.6	CB₂ (12x)	5.18
JWH-016	Naphthoylindole	22 ± 1.5	4.3 ± 1.6	CB₂ (5.1x)	5.6
JWH-018[5]	Naphthoylindole	9 ± 5	2.9 ± 2.6	CB₂ (3.1x)	5.68
JWH-019	Naphthoylindole	9.8 ± 2	5.55 ± 2	CB₂ (1.77x)	6.09
JWH-020	Naphthoylindole	128 ± 17	205 ± 20	CB₁ (1.6x)	6.51
JWH-030	Naphthoylpyrrole	87 ± 3	320 ± 127	CB₁ (3.7x)	4.62
JWH-031	Naphthoylpyrrole	399 ± 109			5.04
JWH-032	Naphthoylpyrrole	>10000	>10000	-	3.79
JWH-033	Naphthoylpyrrole	666 ± 77			4.21
JWH-036	Naphthoylpyrrole	309 ± 11
JWH-042[6]	Naphthoylindole	>10000	5050 ± 192	CB₂	4.35
JWH-043[6]	Naphthoylindole	1180 ± 44	964 ± 242	CB₂ (1.2x)	4.69
JWH-044	Naphthoylpyrrole	>10000	>10000	-	2.96
JWH-045	Naphthoylpyrrole	>10000	>10000	-	3.3
JWH-046[6]	Naphthoylindole	343 ± 38	16.3 ± 4.9	CB₂ (21x)	6.08
JWH-047[6]	Naphthoylindole	59 ± 3	3.47 ± 1.80	CB₂ (17x)	6.08
JWH-048[6]	Naphthoylindole	10.7 ± 1.0	0.49 ± 0.13	CB₂ (22x)	6.5
JWH-049[6]	Naphthoylindole	55.1 ± 17.0	32.3 ± 2.4	CB₂ (1.7x)	6.92
JWH-050[6]	Naphthoylindole	342 ± 6	526 ± 133	CB₁ (1.5x)	7.33
JWH-051	Dibenzopyran	1.20	0.03	CB₂ (40x)	6.49
JWH-056[7]	Dibenzopyran	>10000	32 ± 9	CB₂	5.92
JWH-057[8]	Dibenzopyran	23 ± 7	2.9 ± 1.6	CB₂ (8x)	7.55
JWH-065[7]	Dibenzopyran	399 ± 76	10 ± 2	CB₂ (40x)	6.72
JWH-070[6]	Naphthoylindole	>10000	>10000		4.02
JWH-071[6]	Naphthoylindole	1340 ± 123	2940 ± 852	CB₁ (2.2x)	4.36
JWH-072	Naphthoylindole	1050 ± 5.5	170 ± 54	CB₂ (6x)	4.84
JWH-073	Naphthoylindole	8.9 ± 1.8	27 ± 12	CB₁ (3x)	5.26
JWH-076[5]	Naphthoylindole	214 ± 11	106 ± 46	CB₂ (2x)	5.33
JWH-077[6]	Naphthoylindole	>10000	>10000		3.89
JWH-078[6]	Naphthoylindole	817 ± 60	633 ± 116	CB₂ (1.3x)	4.23
JWH-079[6]	Naphthoylindole	63.0 ± 3.0	32.0 ± 6.0	CB₂ (2x)	4.72
JWH-080[6]	Naphthoylindole	8.9 ± 1.8	2.21 ± 1.30	CB₂ (4x)	5.13
JWH-081[6]	Naphthoylindole	1.2 ± 0.03	12.4 ± 2.2	CB₁ (10x)	5.55
JWH-082[6]	Naphthoylindole	5.3 ± 0.8	6.40 ± 0.94	CB₁ (1.2x)	5.97
JWH-083[6]	Naphthoylindole	106 ± 12	102 ± 50	-	6.38
JWH-093[6]	Naphthoylindole	40.7 ± 2.8	59.1 ± 10.5	CB₁ (1.45x)	6.37
JWH-094[6]	Naphthoylindole	476 ± 67	97.3 ± 2.7	CB₂ (4.9x)	5.05
JWH-095[6]	Naphthoylindole	140 ± 4.3	312 ± 83	CB₁ (2.2x)	7.21
JWH-096[6]	Naphthoylindole	33.7 ± 2.9	13.3 ± 5.6	CB₂ (2.5x)	5.47
JWH-097[6]	Naphthoylindole	455 ± 28	121 ± 15	CB₂ (3.8x)	8.04
JWH-098[6]	Naphthoylindole	4.5 ± 0.1	1.9 ± 0.3	CB₂ (2.4x)	5.89
JWH-099[6]	Naphthoylindole	35.3 ± 9.0	17.8 ± 2.9	CB₂ (2x)	6.3
JWH-100[6]	Naphthoylindole	381 ± 102	155 ± 74	CB₂ (2.5x)	6.72
JWH-102[7]	Dibenzopyran	7.9 ± 0.9	5.2 ± 2.0	CB₂ (1.5x)	6.47
JWH-103[7]	Dibenzopyran	28 ± 3	23 ± 7	CB₂ (1.2x)	6.47
JWH-116[9]	Naphthoylindole	52 ± 5			6.5
JWH-120[5]	Naphthoylindole	1054 ± 31	6.1 ± 0.7	CB₂ (173x)	5.33
JWH-122[9]	Naphthoylindole	0.69 ± 0.05	1.2 ± 1.2	-	6.16
JWH-133[7]	Dibenzopyran	677 ± 132	3.4 ± 1.0	CB₂ (200x)	6.3
JWH-139[10]	Dibenzopyran	2290 ± 505	14 ± 10	CB₂ (164x)	5.88
JWH-142[7]	Dibenzopyran	529 ± 49	35 ± 14	CB₂ (15x)	7.48
JWH-143[7]	Dibenzopyran	924 ± 104	65 ± 8	CB₂ (14x)	7.43
JWH-145[11]	Naphthoylpyrrole	14 ± 2	6.4 ± 0.4	CB₂ (2.2x)	6.35
JWH-146[11]	Naphthoylpyrrole	21 ± 2	62 ± 5	CB₂ (3.0x)	7.19
JWH-147[11]	Naphthoylpyrrole	11 ± 1	7.1 ± 0.2	CB₂ (1.5x)	6.72
JWH-148[5]	Naphthoylindole	123 ± 8	14.0 ± 1.0	CB₂ (8x)	5.67
JWH-149[5]	Naphthoylindole	5.0 ± 2.1	0.73 ± 0.03	CB₂ (6.8x)	6.5
JWH-150[11]	Naphthoylpyrrole	60 ± 1	15 ± 2	CB₂ (4x)	6.27
JWH-151[5]	Naphthoylindole	>10000	30 ± 1.1	CB₂ (>333x)	5.05
JWH-153[5]	Naphthoylindole	250 ± 24	11 ± 0.5	CB₂ (23x)	5.89
JWH-156[11]	Naphthoylpyrrole	404 ± 18	104 ± 18	CB₂ (4x)	5.86
JWH-159[5]	Naphthoylindole	45 ± 1	10.4 ± 1.4	CB₂ (4.3x)	5.89
JWH-160[5]	Naphthoylindole	1568 ± 201	441 ± 110	CB₂ (3.6x)	5.05
JWH-161	Dibenzopyran hybrid	19.0			5.86
JWH-163[5]	Naphthoylindole	2358 ± 215	138 ± 12	CB₂ (17x)	4.72
JWH-164[5]	Naphthoylindole	6.6 ± 0.7	6.9 ± 0.2	-	5.55
JWH-165[5]	Naphthoylindole	204 ± 26	71 ± 8	CB₂ (2.9x)	4.72
JWH-166[5]	Naphthoylindole	44 ± 10	1.9 ± 0.08	CB₂ (23x)	5.55
JWH-167	Phenylacetylindole	90 ± 17	159 ± 14	CB₁ (1.77x)	4.62
JWH-171	Hydrocarbon	51			6.91
JWH-175[9]	Naphthylmethylindole	22 ± 2			6.56
JWH-176[9]	Hydrocarbon	26 ± 4			6.91
JWH-180[5]	Naphthoylindole	26 ± 2	9.6 ± 2.0	CB₂ (2.7x)	6.16
JWH-181[5]	Naphthoylindole	1.3 ± 0.1	0.62 ± 0.04	CB₂ (2.1x)	7.33
JWH-182[5]	Naphthoylindole	0.65 ± 0.03	1.1 ± 0.1	CB₁ (1.7x)	7
JWH-184[9]	Naphthylmethylindole	23 ± 6			7.05
JWH-185[9]	Naphthylmethylindole	17 ± 3			6.43
JWH-186[12]	Dibenzopyran	187 ± 23	5.6 ± 1.7	CB₂ (33x)
JWH-187[12]	Dibenzopyran	84 ± 16	3.4 ± 0.5	CB₂ (25x)
JWH-188[12]	Dibenzopyran	270 ± 58	18 ± 2	CB₂ (15x)
JWH-189[5]	Dibenzopyran	52 ± 2	12 ± 0.8	CB₂ (4.3x)
JWH-190[12]	Dibenzopyran	8.8 ± 1.4	1.6 ± 0.03	CB₂ (5.5x)
JWH-191[12]	Dibenzopyran	1.8 ± 0.3	0.52 ± 0.03	CB₂ (3.5x)
JWH-192[9]	Naphthylmethylindole	41 ± 13			4.99
JWH-193[9]	Naphthoylindole	6 ± 1			4.1
JWH-194[9]	Naphthylmethylindole	127 ± 19			7.38
JWH-195[9]	Naphthylmethylindole	113 ± 28			4.5
JWH-196[9]	Naphthylmethylindole	151 ± 18			6.9
JWH-197[9]	Naphthylmethylindole	323 ± 98			6.77
JWH-198[9]	Naphthoylindole	10 ± 2			3.49
JWH-199[9]	Naphthylmethylindole	20 ± 2			4.37
JWH-200[9]	Naphthoylindole	42 ± 5			3.62
JWH-201[13]	Phenylacetylindole	1064 ± 21	444 ± 14	CB₂ (2.4x)	4.5
JWH-202[13]	Phenylacetylindole	1678 ± 63	645 ± 6	CB₂ (2.6x)	4.83
JWH-203[13]	Phenylacetylindole	8.0 ± 0.9	7.0 ± 1.3	-	5.18
JWH-204[13]	Phenylacetylindole	13 ± 1	25 ± 1	CB₁ (1.9x)	5.52
JWH-205[13]	Phenylacetylindole	124 ± 23	180 ± 9	CB₁ (1.45x)	4.96
JWH-206[13]	Phenylacetylindole	389 ± 25	498 ± 37	CB₁ (1.28x)	5.18
JWH-207[13]	Phenylacetylindole	1598 ± 134	3723 ± 10	CB₁ (2.33x)	5.52
JWH-208[13]	Phenylacetylindole	179 ± 7	570 ± 127	CB₁ (3.18x)	5.11
JWH-209[13]	Phenylacetylindole	746 ± 49	1353 ± 270	CB₁ (1.81x)	5.45
JWH-210[5]	Naphthoylindole	0.46 ± 0.03	0.69 ± 0.01	CB₁ (1.5x)	6.58
JWH-211[5]	Naphthoylindole	70 ± 0.8	12 ± 0.8	CB₂ (5.8x)	6.08
JWH-212[5]	Naphthoylindole	33 ± 0.9	10 ± 1.2	CB₂ (3.3x)	5.75
JWH-213[5]	Naphthoylindole	1.5 ± 0.2	0.42 ± 0.05	CB₂ (3.6x)	6.92
JWH-215[12]	Dibenzopyran	1008 ± 117	85 ± 21	CB₂ (12x)
JWH-216[12]	Dibenzopyran	1856 ± 148	333 ± 104	CB₂ (5.6x)
JWH-217[12]	Dibenzopyran	>10000	1404 ± 66	CB₂ (>7x)
JWH-220	Hydrocarbon	19			7.4
JWH-224[12]	Dibenzopyran	347 ± 34	28 ± 1	CB₂ (12.3x)
JWH-225[12]	Dibenzopyran	>10000	325 ± 70	CB₂ (>31x)
JWH-226[12]	Dibenzopyran	4001 ± 282	43 ± 3	CB₂ (93x)
JWH-227[12]	Dibenzopyran	40 ± 6	4.4 ± 0.3	CB₂ (9x)
JWH-229[14]	Dibenzopyran	3134 ± 110	18 ± 2	CB₂ (174x)
JWH-230[12]	Dibenzopyran	15 ± 3	1.4 ± 0.12	CB₂ (10.7x)
JWH-233[12]	Dibenzopyran	14 ± 3	1.0 ± 0.3	CB₂ (14x)
JWH-234[5]	Naphthoylindole	8.4 ± 1.8	3.8 ± 0.6	CB₂ (2.2x)	6.58
JWH-235[5]	Naphthoylindole	338 ± 34	123 ± 34	CB₂ (2.7x)	5.75
JWH-236[5]	Naphthoylindole	1351 ± 204	240 ± 63	CB₂ (5.6x)	6.08
JWH-237[13]	Phenylacetylindole	38 ± 10	106 ± 2	CB₁ (2.8x)	5.18
JWH-239[5]	Naphthoylindole	342 ± 20	52 ± 6	CB₂ (6.6x)	6.58
JWH-240[5]	Naphthoylindole	14 ± 1	7.2 ± 1.3	CB₂ (1.9x)	7.42
JWH-241[5]	Naphthoylindole	147 ± 20	49 ± 7	CB₂ (3.0x)	6.92
JWH-242[5]	Naphthoylindole	42 ± 9	6.5 ± 0.3	CB₂ (6.5x)	7.75
JWH-243[11]	Naphthoylpyrrole	285 ± 40	41 ± 3	CB₂ (6.95x)	6.23
JWH-244[11]	Naphthoylpyrrole	130 ± 6	18 ± 1	CB₂ (7.22x)	6.84
JWH-245[11]	Naphthoylpyrrole	276 ± 4	25 ± 2	CB₂ (11x)	6.91
JWH-246[11]	Naphthoylpyrrole	70 ± 4	16 ± 1	CB₂ (4.38x)	6.91
JWH-247[12]	Dibenzopyran	427 ± 31	99 ± 4	CB₂ (4.3x)
JWH-248[13]	Phenylacetylindole	1028 ± 39	657 ± 19	CB₂ (1.56x)	5.45
JWH-249[13]	Phenylacetylindole	8.4 ± 1.8	20 ± 2	CB₁ (2.38x)	5.45
JWH-250[13]	Phenylacetylindole	11 ± 2	33 ± 2	CB₁ (3x)	4.5
JWH-251[13]	Phenylacetylindole	29 ± 3	146 ± 36	CB₂ (5x)	5.11
JWH-252[13]	Phenylacetylindole	23 ± 3	19 ± 1	CB₂ (1.2x)	5.45
JWH-253[13]	Phenylacetylindole	62 ± 10	84 ± 12	CB₁ (1.35x)	4.83
JWH-254[12]	Dibenzopyran	4724 ± 509	319 ± 16	CB₂ (14.8x)
JWH-256[12]	Dibenzopyran	4300 ± 888	97 ± 18	CB₂ (44x)
JWH-258[5]	Naphthoylindole	4.6 ± 0.6	10.5 ± 1.3	CB₁ (2.3x)	5.89
JWH-259[5]	Naphthoylindole	220 ± 29	74 ± 7	CB₂ (3.0x)	5.05
JWH-260[5]	Naphthoylindole	29 ± 0.4	25 ± 1.9	CB₂ (1.2x)	6.22
JWH-261[5]	Naphthoylindole	767 ± 105	221 ± 14	CB₂ (3.5x)	5.39
JWH-262[5]	Naphthoylindole	28 ± 3	5.6 ± 0.7	CB₂ (5.0x)	6.92
JWH-265[5]	Naphthoylindole	3788 ± 323	80 ± 13	CB₂ (47x)	4.72
JWH-266[5]	Naphthoylindole	>10000	455 ± 55	CB₂ (>22x)	5.05
JWH-267[5]	Naphthoylindole	381 ± 16	7.2 ± 0.14	CB₂ (53x)	5.55
JWH-268[5]	Naphthoylindole	1379 ± 193	40 ± 0.6	CB₂ (34x)	5.89
JWH-277[12]	Dibenzopyran	3905 ± 91	589 ± 65	CB₂ (6.6x)
JWH-278[12]	Dibenzopyran	906 ± 80	69 ± 6	CB₂ (13x)
JWH-292[11]	Naphthoylpyrrole	29 ± 1	20 ± 1	CB₂ (1.45x)	6.23
JWH-293[11]	Naphthoylpyrrole	100 ± 5	41 ± 4	CB₂ (2.44x)
JWH-298[12]	Dibenzopyran	812 ± 67	198 ± 23	CB₂ (4.1x)
JWH-299[12]	Dibenzopyran	415 ± 50	30 ± 2	CB₂ (13.8x)
JWH-300[10]	Dibenzopyran	118 ± 16	5.3 ± 0.1	CB₂ (22x)
JWH-301[12]	Dibenzopyran	295 ± 64	48 ± 4	CB₂ (6.1x)
JWH-302[13]	Phenylacetylindole	17 ± 2	89 ± 15	CB₁ (5.26x)	4.5
JWH-303[13]	Phenylacetylindole	117 ± 10	138 ± 12	CB₁ (1.18x)	5.52
JWH-304[13]	Phenylacetylindole	3363 ± 332	2679 ± 688	CB₂ (1.26x)	5.79
JWH-305[13]	Phenylacetylindole	15 ± 1.8	29 ± 5	CB₁ (1.93x)	5.79
JWH-306[13]	Phenylacetylindole	25 ± 1	82 ± 11	CB₁ (3.28x)	4.83
JWH-307[11]	Naphthoylpyrrole	7.7 ± 1.8	3.3 ± 0.2	CB₂ (2.33x)	6.51
JWH-308[11]	Naphthoylpyrrole	41 ± 1	33 ± 2	CB₂ (1.24x)	6.51
JWH-309[11]	Naphthoylpyrrole	41 ± 3	49 ± 7	CB₁ (1.20x)	7.35
JWH-310[12]	Dibenzopyran	1059 ± 51	36 ± 3	CB₂ (29x)
JWH-311[13]	Phenylacetylindole	23 ± 2	39 ± 3	CB₁ (1.70x)	4.78
JWH-312[13]	Phenylacetylindole	72 ± 7	91 ± 20	CB₁ (1.26x)	4.78
JWH-313[13]	Phenylacetylindole	422 ± 19	365 ± 92	CB₂ (1.16x)	4.78
JWH-314[13]	Phenylacetylindole	39 ± 2	76 ± 4	CB₁ (1.95x)	5.12
JWH-315[13]	Phenylacetylindole	430 ± 24	182 ± 23	CB₂ (3.36x)	5.12
JWH-316[13]	Phenylacetylindole	2862 ± 670	781 ± 105	CB₂ (3.66x)	5.12
JWH-336[10]	Dibenzopyran	4589 ± 367	153 ± 15	CB₂ (30x)
JWH-338[12]	Dibenzopyran	>10000	111 ± 16	CB₂ (>90x)
JWH-339[12]	Dibenzopyran	>10000	2317 ± 93	CB₂ (>4.3x)
JWH-340[12]	Dibenzopyran	135 ± 6	30 ± 1	CB₂ (4.5x)
JWH-341[12]	Dibenzopyran	100 ± 8	10 ± 0.1	CB₂ (10x)
JWH-346[11]	Naphthoylpyrrole	67 ± 6	39 ± 2	CB₂ (1.72x)	6.84
JWH-347[11]	Naphthoylpyrrole	333 ± 17	169 ± 17	CB₂ (1.97x)	7.35
JWH-348[11]	Naphthoylpyrrole	218 ± 19	53 ± 1	CB₂ (4.11x)	7.28
JWH-349[12]	Dibenzopyran	376 ± 1	38 ± 4	CB₂ (9.9x)
JWH-350[10]	Dibenzopyran	395 ± 50	12 ± 1	CB₂ (33x)
JWH-351[12]	Dibenzopyran	>10000	295 ± 3	CB₂ (>34x)
JWH-352[12]	Dibenzopyran	>10000	47 ± 2	CB₂ (>213x)
JWH-353[12]	Dibenzopyran	1493 ± 10	31 ± 1	CB₂ (48x)
JWH-354[12]	Dibenzopyran	1961 ± 21	241 ± 14	CB₂ (8.1x)
JWH-355[12]	Dibenzopyran	2162 ± 220	108 ± 17	CB₂ (20x)
JWH-356[12]	Dibenzopyran	5837 ± 701	108 ± 17	CB₂ (54x)
JWH-357[12]	Dibenzopyran	647 ± 78	185 ± 4	CB₂ (3.5x)
JWH-358[12]	Dibenzopyran	1243 ± 266	52 ± 3	CB₂ (24x)
JWH-359	Dibenzopyran	2918 ± 450	13.0 ± 0.2	CB₂ (220x)	6.5
JWH-360[12]	Dibenzopyran	2449 ± 606	160 ± 8	CB₂ (15x)
JWH-361[12]	Dibenzopyran	63 ± 3	2.7 ± 0.1	CB₂ (23x)
JWH-362[12]	Dibenzopyran	127 ± 8	34 ± 5	CB₂ (3.7x)
JWH-363[11]	Naphthoylpyrrole	245 ± 5	71 ± 1	CB₂ (3.45x)	7.28
JWH-364[11]	Naphthoylpyrrole	34 ± 3	29 ± 1	CB₂ (1.17x)	7.26
JWH-365[11]	Naphthoylpyrrole	17 ± 1	3.4 ± 0.2	CB₂ (5.0x)	7.26
JWH-366[11]	Naphthoylpyrrole	191 ± 12	24 ± 1	CB₂ (7.96x)	5.02
JWH-367[11]	Naphthoylpyrrole	53 ± 2	23 ± 1	CB₂ (2.30x)	6.23
JWH-368[11]	Naphthoylpyrrole	16 ± 1	9.1 ± 0.7	CB₂ (1.76x)	6.51
JWH-369[11]	Naphthoylpyrrole	7.9 ± 0.4	5.2 ± 0.3	CB₂ (1.52x)	6.91
JWH-370[11]	Naphthoylpyrrole	5.6 ± 0.4	4.0 ± 0.5	CB₂ (1.40x)	6.84
JWH-371[11]	Naphthoylpyrrole	42 ± 1	64 ± 2	CB₁ (1.52x)	8.09
JWH-372[11]	Naphthoylpyrrole	77 ± 2	8.2 ± 0.2	CB₁ (9.39x)	7.28
JWH-373[11]	Naphthoylpyrrole	60 ± 3	69 ± 2	CB₁ (1.15x)	8.09
JWH-387[15]	Naphthoylindole	1.2 ± 0.1	1.1 ± 0.1	-
JWH-398[16]	Naphthoylindole	2.3 ± 0.1	2.8 ± 0.2	CB₁ (1.22x)	6.23
JWH-416[15]	Naphthoylindole	73 ± 10	3.3 ± 0.1	CB₂ (22x)
JWH-417[15]	Naphthoylindole	522 ± 58	13 ± 0.2	CB₂ (40x)
JWH-422[15]	Naphthoylindole	501 ± 48	20 ± 0.4	CB₂ (25x)
JWH-423[15]	Naphthoylindole	140 ± 10	6.6 ± 0.2	CB₂ (21x)
JWH-424[15]	Naphthoylindole	21 ± 3.4	5.4 ± 0.2	CB₂ (3.9x)
JWH-425[15]	Naphthoylindole	54 ± 11	10 ± 0.4	CB₂ (5.4x)

References

Manera C, Tuccinardi T, Martinelli A. Indoles and related compounds as cannabinoid ligands. Mini Rev Med Chem. 2008 Apr;8(4):370-87. PMID 18473928 doi:10.2174/138955708783955935
Wiley JL, Marusich JA, Huffman JW. Moving around the molecule: relationship between chemical structure and in vivo activity of synthetic cannabinoids. Life Sci. 2014 Feb 27;97(1):55-63. PMID 24071522 doi:10.1016/j.lfs.2013.09.011
Wiley JL, Marusich JA, Thomas BF. Combination Chemistry: Structure-Activity Relationships of Novel Psychoactive Cannabinoids. Curr Top Behav Neurosci. 2017;32:231-248. PMID 27753007 doi:10.1007/7854_2016_17
Banister SD, Connor M. The Chemistry and Pharmacology of Synthetic Cannabinoid Receptor Agonists as New Psychoactive Substances: Origins. Handb Exp Pharmacol. 2018;252:165-190. PMID 29980914 doi:10.1007/164_2018_143
Huffman JW, Zengin G, Wu MJ, Lu J, Hynd G, Bushell K, Thompson AL, Bushell S, Tartal C, Hurst DP, Reggio PH, Selley DE, Cassidy MP, Wiley JL, Martin BR (January 2005). "Structure-activity relationships for 1-alkyl-3-(1-naphthoyl)indoles at the cannabinoid CB(1) and CB(2) receptors: steric and electronic effects of naphthoyl substituents. New highly selective CB(2) receptor agonists". Bioorganic & Medicinal Chemistry. 13 (1): 89–112. doi:10.1016/j.bmc.2004.09.050. PMID 15582455.
Aung MM, Griffin G, Huffman JW, Wu M, Keel C, Yang B, Showalter VM, Abood ME, Martin BR (August 2000). "Influence of the N-1 alkyl chain length of cannabimimetic indoles upon CB(1) and CB(2) receptor binding". Drug and Alcohol Dependence. 60 (2): 133–40. doi:10.1016/S0376-8716(99)00152-0. PMID 10940540.
Huffman JW, Liddle J, Yu S, Aung MM, Abood ME, Wiley JL, Martin BR (December 1999). "3-(1',1'-Dimethylbutyl)-1-deoxy-delta8-THC and related compounds: synthesis of selective ligands for the CB2 receptor". Bioorganic & Medicinal Chemistry. 7 (12): 2905–14. doi:10.1016/s0968-0896(99)00219-9. PMID 10658595.
Huffman JW, Yu S, Showalter V, Abood ME, Wiley JL, Compton DR, Martin BR, Bramblett RD, Reggio PH (September 1996). "Synthesis and pharmacology of a very potent cannabinoid lacking a phenolic hydroxyl with high affinity for the CB2 receptor". Journal of Medicinal Chemistry. 39 (20): 3875–7. doi:10.1021/JM960394Y. PMID 8831752.
Huffman JW, Mabon R, Wu MJ, Lu J, Hart R, Hurst DP, Reggio PH, Wiley JL, Martin BR (February 2003). "3-Indolyl-1-naphthylmethanes: new cannabimimetic indoles provide evidence for aromatic stacking interactions with the CB(1) cannabinoid receptor". Bioorganic & Medicinal Chemistry. 11 (4): 539–49. doi:10.1016/S0968-0896(02)00451-0. PMID 12538019.
Howlett AC, Barth F, Bonner TI, Cabral G, Casellas P, Devane WA, Felder CC, Herkenham M, Mackie K, Martin BR, Mechoulam R, Pertwee RG (June 2002). "International Union of Pharmacology. XXVII. Classification of cannabinoid receptors". Pharmacological Reviews. 54 (2): 161–202. doi:10.1124/pr.54.2.161. PMID 12037135.
Huffman JW, Padgett LW, Isherwood ML, Wiley JL, Martin BR (October 2006). "1-Alkyl-2-aryl-4-(1-naphthoyl)pyrroles: new high affinity ligands for the cannabinoid CB1 and CB2 receptors". Bioorganic & Medicinal Chemistry Letters. 16 (20): 5432–5. doi:10.1016/j.bmcl.2006.07.051. PMID 16889960.
Marriott KS, Huffman JW (2008). "Recent advances in the development of selective ligands for the cannabinoid CB(2) receptor". Current Topics in Medicinal Chemistry. 8 (3): 187–204. doi:10.2174/156802608783498014. PMID 18289088.
Huffman JW, Szklennik PV, Almond A, Bushell K, Selley DE, He H, Cassidy MP, Wiley JL, Martin BR (September 2005). "1-Pentyl-3-phenylacetylindoles, a new class of cannabimimetic indoles". Bioorganic & Medicinal Chemistry Letters. 15 (18): 4110–3. doi:10.1016/j.bmcl.2005.06.008. PMID 16005223.
Huffman JW, Bushell SM, Miller JR, Wiley JL, Martin BR (December 2002). "1-Methoxy-, 1-deoxy-11-hydroxy- and 11-hydroxy-1-methoxy-Delta(8)-tetrahydrocannabinols: new selective ligands for the CB2 receptor". Bioorganic & Medicinal Chemistry. 10 (12): 4119–29. doi:10.1016/s0968-0896(02)00331-0. PMID 12413866.
Wiley JL, Smith VJ, Chen J, Martin BR, Huffman JW (2012). "Synthesis and pharmacology of 1-alkyl-3-(1-naphthoyl)indoles: Steric and electronic effects of 4- and 8-halogenated naphthoyl substituents". Bioorganic & Medicinal Chemistry. 20 (6): 2067–2081. doi:10.1016/j.bmc.2012.01.038. PMC 3298571. PMID 22341572.
The Cannabinoid Receptors. 2009. doi:10.1007/978-1-59745-503-9. ISBN 978-1-58829-712-9.

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[1] Manera C, Tuccinardi T, Martinelli A. Indoles and related compounds as cannabinoid ligands. Mini Rev Med Chem. 2008 Apr;8(4):370-87. PMID 18473928 doi:10.2174/138955708783955935

[2] Wiley JL, Marusich JA, Huffman JW. Moving around the molecule: relationship between chemical structure and in vivo activity of synthetic cannabinoids. Life Sci. 2014 Feb 27;97(1):55-63. PMID 24071522 doi:10.1016/j.lfs.2013.09.011

[3] Wiley JL, Marusich JA, Thomas BF. Combination Chemistry: Structure-Activity Relationships of Novel Psychoactive Cannabinoids. Curr Top Behav Neurosci. 2017;32:231-248. PMID 27753007 doi:10.1007/7854_2016_17

[4] Banister SD, Connor M. The Chemistry and Pharmacology of Synthetic Cannabinoid Receptor Agonists as New Psychoactive Substances: Origins. Handb Exp Pharmacol. 2018;252:165-190. PMID 29980914 doi:10.1007/164_2018_143

[Naphthoylindoles-5] Huffman JW, Zengin G, Wu MJ, Lu J, Hynd G, Bushell K, Thompson AL, Bushell S, Tartal C, Hurst DP, Reggio PH, Selley DE, Cassidy MP, Wiley JL, Martin BR (January 2005). "Structure-activity relationships for 1-alkyl-3-(1-naphthoyl)indoles at the cannabinoid CB(1) and CB(2) receptors: steric and electronic effects of naphthoyl substituents. New highly selective CB(2) receptor agonists". Bioorganic & Medicinal Chemistry. 13 (1): 89–112. doi:10.1016/j.bmc.2004.09.050. PMID 15582455.

[Aung_2000-6] Aung MM, Griffin G, Huffman JW, Wu M, Keel C, Yang B, Showalter VM, Abood ME, Martin BR (August 2000). "Influence of the N-1 alkyl chain length of cannabimimetic indoles upon CB(1) and CB(2) receptor binding". Drug and Alcohol Dependence. 60 (2): 133–40. doi:10.1016/S0376-8716(99)00152-0. PMID 10940540.

[Huffman_1999-7] Huffman JW, Liddle J, Yu S, Aung MM, Abood ME, Wiley JL, Martin BR (December 1999). "3-(1',1'-Dimethylbutyl)-1-deoxy-delta8-THC and related compounds: synthesis of selective ligands for the CB2 receptor". Bioorganic & Medicinal Chemistry. 7 (12): 2905–14. doi:10.1016/s0968-0896(99)00219-9. PMID 10658595.

[Aung_1996-8] Huffman JW, Yu S, Showalter V, Abood ME, Wiley JL, Compton DR, Martin BR, Bramblett RD, Reggio PH (September 1996). "Synthesis and pharmacology of a very potent cannabinoid lacking a phenolic hydroxyl with high affinity for the CB2 receptor". Journal of Medicinal Chemistry. 39 (20): 3875–7. doi:10.1021/JM960394Y. PMID 8831752.

[Naphthylmethanes-9] Huffman JW, Mabon R, Wu MJ, Lu J, Hart R, Hurst DP, Reggio PH, Wiley JL, Martin BR (February 2003). "3-Indolyl-1-naphthylmethanes: new cannabimimetic indoles provide evidence for aromatic stacking interactions with the CB(1) cannabinoid receptor". Bioorganic & Medicinal Chemistry. 11 (4): 539–49. doi:10.1016/S0968-0896(02)00451-0. PMID 12538019.

[Howlett_2002-10] Howlett AC, Barth F, Bonner TI, Cabral G, Casellas P, Devane WA, Felder CC, Herkenham M, Mackie K, Martin BR, Mechoulam R, Pertwee RG (June 2002). "International Union of Pharmacology. XXVII. Classification of cannabinoid receptors". Pharmacological Reviews. 54 (2): 161–202. doi:10.1124/pr.54.2.161. PMID 12037135.

[Huffman_2006-11] Huffman JW, Padgett LW, Isherwood ML, Wiley JL, Martin BR (October 2006). "1-Alkyl-2-aryl-4-(1-naphthoyl)pyrroles: new high affinity ligands for the cannabinoid CB1 and CB2 receptors". Bioorganic & Medicinal Chemistry Letters. 16 (20): 5432–5. doi:10.1016/j.bmcl.2006.07.051. PMID 16889960.

[Huffman_2008-12] Marriott KS, Huffman JW (2008). "Recent advances in the development of selective ligands for the cannabinoid CB(2) receptor". Current Topics in Medicinal Chemistry. 8 (3): 187–204. doi:10.2174/156802608783498014. PMID 18289088.

[Phenylacetylindoles-13] Huffman JW, Szklennik PV, Almond A, Bushell K, Selley DE, He H, Cassidy MP, Wiley JL, Martin BR (September 2005). "1-Pentyl-3-phenylacetylindoles, a new class of cannabimimetic indoles". Bioorganic & Medicinal Chemistry Letters. 15 (18): 4110–3. doi:10.1016/j.bmcl.2005.06.008. PMID 16005223.

[Huffman_2002-14] Huffman JW, Bushell SM, Miller JR, Wiley JL, Martin BR (December 2002). "1-Methoxy-, 1-deoxy-11-hydroxy- and 11-hydroxy-1-methoxy-Delta(8)-tetrahydrocannabinols: new selective ligands for the CB2 receptor". Bioorganic & Medicinal Chemistry. 10 (12): 4119–29. doi:10.1016/s0968-0896(02)00331-0. PMID 12413866.

[Wiley_2012-15] Wiley JL, Smith VJ, Chen J, Martin BR, Huffman JW (2012). "Synthesis and pharmacology of 1-alkyl-3-(1-naphthoyl)indoles: Steric and electronic effects of 4- and 8-halogenated naphthoyl substituents". Bioorganic & Medicinal Chemistry. 20 (6): 2067–2081. doi:10.1016/j.bmc.2012.01.038. PMC 3298571. PMID 22341572.

[CIPISAR-16] The Cannabinoid Receptors. 2009. doi:10.1007/978-1-59745-503-9. ISBN 978-1-58829-712-9.

List of JWH cannabinoids

See also

References