Philip Morris
Synthesis and Biological Characterization of Pyridohomotropanes. Structure-Activity Relationships of Conformationally Restricted Nicotinoids
Fields
- Author
- Abood, L.G.
- Kanne, D.B.
- Area
- CENTRAL FILES/PRE-DB WAREHOUSE
- Type
- SCRT, REPORT, SCIENTIFIC
- BIBL, BIBLIOGRAPHY
- CHAR, CHART, GRAPH, TABLE, MAPS
- BIBL, BIBLIOGRAPHY
- Site
- R107
- Named Person
- Ashworth, D.
- Broadhurst, M.D.
- Callahan, W.
- Chavdarian, C.G.
- Cheng, M.
- Pearlman
- Broadhurst, M.D.
- Request
- Stmn/R1-078
- Stmn/R1-147
- Document File
- 2021576679/2021576983a/Missing
- 2021576680/2021576983/870000
- Named Organization
- New England Nuclear
- Author (Organization)
- Stauffer Chemical
- Univ of Rochester
- Litigation
- Stmn/Produced
- Master ID
- 2021576754/6831
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- Date Loaded
- 05 Jun 1998
- UCSF Legacy ID
- bkr44e00
Document Images
1
SUMMARY
The recently discovered nicotinic agonist pyrido[3,4-b]homotropane (PHT)
as well as its N-methyl and 21-methyl derivatives (syntheses reported herein)
were compared with nicotine, nor-nicotine and anatoxin-a in a series of in
vitro and in vivo assays encompassing both central and peripheral effects.
The results reveal that PHT possesses activity equal to that of the highly
potent agonist anatoxin-a. The relative inactivity, both in vitro and in
vivo, of N-methyl and 2'-Me-PHT supplies additional information on the
structure-activity requirements of conformationally restricted nicotinoids.
5
by prostration in rats, correlated well with the relative affinity of
['H]-nicotine (Table 3). With [3H]-MCC as the ligand, the binding affinity as
well as their rank order was similar to that observed with [=H]-nicotine with
a few exceptions: the affinity of both PHT and anatoxin-a was 100-fold greater
for Tor edo than for rat brain membranes (Table 2). Furthermore, the affinity
of both agents for Torpedo membranes with ['H]-MCC as the ligand was 10-fold
greater than that for nicotine; and the IC50 values were 10-fold less than
those obtained with [=H]-nicotine as the ligand. This difference in the affi-
nities of the nicotinoids for Torpedo and rat brain membranes may be a reflec-
tion of the differential nature of the nicotinic receptors; while their
differences in relative affinities with the two radioligands is indicative of
the more complex nature of the recognitioin sites for nicotine as compared to
acetylcholine or MCC.5
Although 2'-Me PHT (3b) places a methyl in about the same position as the
acetyl methyl of s-cis anatoxin-a (4a) its activity was greatly diminished
compared to PHT (3a). It is possible that the rigidly planar pyridine of 3b,
in contrast to the flexible enone of anatoxin-a, is unable to avoid energeti-
cally unfavorable steric interactions arising from the presence of the added
methyl. Methylation of pyridohomotropane on nitrogen to give 3c also resulted
in a considerable loss of activity. The analogous methylation of nornicotine,
on the other hand, produces a compound (nicotine) which has ten times the
activity of the secondary amine`. It is likely that the tertiary amine (3c)
is not sufficiently accessible to the site of negative charge at the receptor
because of the addition of the 2-carbon bridge and its protons.
N
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Conclusion
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