Transcript Document

Nervous System Outline.
I. CNS
II. Peripheral Nervous System.
Afferent - Sensory, signals go to the brain.
Efferent - Motor and physiological control. Signals come from the brain.
Main effect of local anesthetics is on the afferent nervous system. Also included is spinal
nerve blockage which is a “local” CNS effect.
Summary of local anesthetic action.
•loss of sensation and pain. May include loss of motor function
•drugs are usually injected directly at the site of anesthesia, or may be topically
administered.
•choice of drug is often based on the duration required
•major side effect is convulsions and/or CNS depression from excess systemic
absorption.
•Drugs are often administered with epinephrine to slow systemic absorption
(vasoconstrictive effect). This decreases the side effects and increases the
duration. Some cause vasoconstriction directly, like cocaine
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Mechanism of action.
Generally, local anesthetics interfere with Na+ ion channel passage across the
nerve cell membrane. The greatest effect is on small, unmyelinated nerves.
Myelinated nerves are also susceptible due to access at the nodes of Ranvier.
Figure 4. Regeneration of action potentials at the nodes of Ranvier. (A) the influx of Na+ ions with an action potential at one node
results in the depolarization of that region of the axonal membrane. The depolarizing current moves the next Node of Ranvier
because the high resistance of the myelin sheath prevents discharge of the internodal membrane capacitance. (B) The nodal
region, however, depolarizes to threshold, resulting in a new action potential. By this mechanism, the action potential "jumps" down
the axon. http://human.physiol.arizona.edu/sched/cv/wright/16action.htm
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Mechanism II
The unionized form of local anesthetics diffuses through the nerve cell membrane to a
specific hydrophobic binding site on the Na+ ion channel. The ability to exist in an ionized
form improves water solubility and there may be polar interactions between the drug and
the binding site. All the injectable anesthetics exist as a equilibrium mixture of ionized
and unionized forms.
N
CH3
O
OCH3
O
O
H+
H
N+
CH3
O
OCH3
O
O
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Ion Channel Blockers
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Ion Channels
Figure 1. Schematic depictions of the Na+ channel subunitA, putative transmembrane folding. The charged S4 segments are shown in
yellow, and the pore-lining P segments in green. B, aligned primary amino acid sequences in single-letter code of the P segments in a K+ channel
(Shaker B), the four domains of the cardiac L-type Ca2+ channel, and the four domains of the Na+ channel. Residues shown in upper case are
highly conserved among voltage-dependent Na+ channels. The diamonds indicate the external and internal binding sites for tetraethylammonium
(TEA) ion in the K+ channel and the red boxes outline the putative selectivity filters, although, in the case of the Na + channel, the residues
which are most important for selectivity (circled in green) are mostly outside the box.
http://jp.physoc.org/content/vol508/issue3/fulltext/647/647-F1.html
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Nobel Prize in Chemistry 2003
Nobel Prize in Chemistry 2003
8 October 2003
Press Release: The
The Royal Swedish Academy of Sciences has decided to award the Nobel Prize in
Chemistry for 2003 “for discoveries concerning channels in cell membranes”, with one half
of the prize to
Peter Agre
Johns Hopkins University School of Medicine, Baltimore, USA
“for the discovery of water channels”
and one half of the prize to
Roderick MacKinnon
Howard Hughes Medical Institute, The Rockefeller University, New York, USA
“for structural and mechanistic studies of ion channels”.
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K+ Channel
Potassium channel receptor site for the inactivation gate and quaternary amine inhibitors.
Nature. 2001 Jun 7;411(6838):657-61.
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K+ Channel - II
Figure 1 Architecture of a voltage-dependent K +channel. Transmembrane-spanning segments (S1–S6) are labelled (blue segments); four subunits
surround the pore. S1–S4 form the voltage sensor and S5–S6 form the pore, represented by the KcsA K +channel structure (backbone model). In
sequences of prokaryotic and eukaryotic K Vchannels, regions of high homology are coloured in grey; functionally important residues are coloured
red. Alignment was made with ClustalW followed by manual adjustment and exclusion of loops. The K +channels are: Apernix, Aeropyrum pernix
(GI: 5104624); Paeru, Pseudomonas aeruginosa (GI: 15596693); Dradio, Deinococcus radiodurans (GI: 15805856); Shaker, Drosophila
melanogaster (GI: 13432103); RatK V2.1, Rattus norvegicus (GI: 24418849); HsapK V4.3, Homo sapiens (GI: 5059060)
Nature 422 , 180 - 185 (2003)
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K+ Channel - III
Nature 423 , 33 - 41 (2003) X-ray structure of a voltage-dependent K +channel YOUXING JIANG*, ALICE LEE,
JIAYUN CHEN, VANESSA RUTA, MARTINE CADENE, BRIAN T. CHAIT & RODERICK MACKINNON
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Mechanism II
1. The unionized form of local anesthetics diffuses through the nerve cell membrane to a
specific hydrophobic binding site on the Na+ ion channel. The ability to exist in an ionized
form improves water solubility and there may be polar interactions between the drug and
the binding site. All the injectable anesthetics exist as a equilibrium mixture of ionized
and unionized forms.
N
CH3
O
OCH3
O
O
H+
H
N+
CH3
O
OCH3
O
O
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Tetrodotoxin
2. Other compounds, like toxins for instance, enter the ion channel from the
exterior of the cell and bind to distinct, specific sites on the hydrophilic regions of
the ion channel. Tetrodotoxin and Saxitoxin are examples. Tetrodotoxin is 10,000
fold more active in vitro than procaine with a lethal dose of 8 g/kg. About 0.5 mg
for humans.
OOH
O
O
NH2 +
H
N
HOCH 2
N
OH
OH
H
Tetrodotoxin
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More Mechanism Stuff
3. For the therapeutic compounds, Ca+2 channel effects may also be involved.
Premature displacement of Ca+2 diminishes the response of an action potential.
This shouldn’t be a surprise, but indicates that Ca+2 channels may play a role and
be a potential target site for local anesthetics.
4. Finally, we have the famous “membrane structure effect” Interactions with membrane
lipids may play a role, but there are several arguments against this. More when we talk
about general anesthetics.
Topical, non-injectable local anesthetics
Isogramine - lost in antiquity. Has systemic side effects and relatively short duration.
Phenol - topical. An active ingredient in sore throat medicine. Chloraseptic.
Benzyl alcohol - similar to phenol
Eugenol - found in oil of clove. Used for toothache.
Benzocaine - good topical anesthetic. Not water soluble enough to be used for injection.
Sunburn cremes, skin cremes. Also in chloraseptic lozenges
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Structures - I
1. Topical anesthetics
CH 2N
NH
CH 3
CH 3
Isogramine
Phenol
CH 3O
HO
CH 2OH
OH
Benzyl Alcohol
O
CH 2CH CH 2
Eugenol (Clove Oil)
H 2N
C OCH 2CH 3
Benzocaine
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Stuctures - II
2. Compounds that bind on the outside of the Na+ ion channel with affinities of 2-8 nM.
Tetrodotoxin from Fugu and Saxitoxin from dinoflagellates (red tides).
-
H 2N
O
OH
O
O
HOCH 2
OH
+
NH 2
H
N
OH
Tetrodotoxin
(From Fugu)
O
H
N
O
HN
+
H 2N
NH 2
N
N
H
HO
N
+
H
OH
Saxitoxin
(From Dinoflagellates)
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Structures - III
3. Injectable local anesthetics. These can exist in either ionized and unionized forms.
O
O
CH 2CH 3
C OCH 2CH 2N
CH 2CH 3
H2N
C4H9N
C OCH2CH 2N
O
N C CH 2N
H
CH 3
CH 3
Tetracaine
(potent - long duration)
Procaine
CH 3
CH 3
CH 3
CH 2CH 3
O
N C CHN
CH 2CH 3
H
CH 2CH 3
CH 2CH 3
CH 3
Lidocaine
(Medium Duration)
Etidocaine
(Potent - long duration)
4. Miscellaneous Local Anesthetics.
CH 3(CH 2)3 O
O
H
+
C CH 2CH 2 N
N
Dyclonine
CH 3(CH 2)3 O
H+
N
C
N
H
OC2H5
OC2H5
H
+
O (CH 2)3 N
CH3
O
OCH 3
O
Pramoxine
(Topical)
O
Cocaine
O
Phenacaine
("1897")
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Local Anesthetic Structure-Activity Relationships.
A. Benzoic Acid Derivatives:
These are synthetic compounds patterned after cocaine.
O
Aryl C X Aminoalkyl
N
CH3
O
OCH 3
O
Cocaine
O
Aryl group - This group is either attached directly to the carbonyl or through a vinyl
group. Substituents on the aryl group that are electron donating (alkoxy, amino,
alkylamino) enhance activity if at the para or ortho positions. (alter liposolubility.
X group - The bridge, X, may be C, O, N, or S. When X = N, these amides are less
prone to hydrolysis.
Aminoalkyl group - This is not necessary for activity, but is used to form watersoluble salts. 3° amines are best.
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LA SAR Continued.
B. Amides (Lidocaine analogs):
These are the progeny of isogramine.
X
H
Aryl N C Aminoalkyl
Aryl group - Attached to an sp2 carbon via a nitrogen bridge. Substituents at the 2
and 6 positions enhance activity, and also increase stability to hydrolysis. The
amides are already more stable than esters
X group - The “carbonyl” X, may be C, O, or N. “Can be”, but is almost always “O”.
Aminoalkyl group - This is not necessary for activity, but is used to form watersoluble salts. 3° amines are best. Basically the same story as for the esters.
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SAR III
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