Difference between revisions of "Selegiline"
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==Mechanism of Action== | ==Mechanism of Action== | ||
− | Selegiline is a selective monoamine oxidase (MAO) type B inhibitor (I), also commonly known as L-deprenyl. Monoamine Oxidase (MAO) is the main enzyme responsible for | + | Selegiline is a selective monoamine oxidase (MAO) type B inhibitor (I), also commonly known as L-deprenyl. Monoamine Oxidase (MAO) is the main enzyme responsible for the oxidative deamination of the monoamine neurotransmitters (adrenaline, nor-adrenaline, serotonin, histamine and dopamine)<ref name="Overall">Overall, K.L., 2001. Pharmacological Treatment in Behavioural Medicine: The Importance of Neurochemistry, Molecular Biology and Mechanistic Hypotheses. The Veterinary Journal, 162, 9-23</ref>. |
− | Two forms exist, | + | Two forms of MAO exist, which differ in their distribution in tissues and substrate specificity: |
*MAOA: Catabolises serotonin, adrenaline, nor-adrenaline. | *MAOA: Catabolises serotonin, adrenaline, nor-adrenaline. | ||
*MAOB: Catabolises dopamine and histamine. | *MAOB: Catabolises dopamine and histamine. | ||
− | Selegiline therefore increases the availability of dopamine for inclusion into secretory vesicles by the vesicular monoamine transporter (VMAT) proteins on the surface of cytoplasmic vesicles in dopaminergic neurons. | + | Selegiline has a high specificity for inhibiting MAOB, and therefore increases the availability of dopamine for inclusion into secretory vesicles by the vesicular monoamine transporter (VMAT) proteins on the surface of cytoplasmic vesicles in dopaminergic neurons. |
− | Most MAOI antidepressants are mixed or selective inhibitors of MAOA. These have very similar effects on serotonergic and nor-adrenergic neurotransmission to SRI/SSRI drugs, and lead to almost identical postsynaptic receptor regulation. | + | Most MAOI antidepressants are mixed or selective inhibitors of MAOA. These have very similar effects on serotonergic and nor-adrenergic neurotransmission to SRI/SSRI drugs, and lead to almost identical postsynaptic receptor regulation. MAOA inhibitory drugs require dietary modification since they can become toxic in the presence of excess dietary tyramine. This is not the case with relatively selective MAOB inhibitors like selegiline. MAOA inhibitory drugs are therefore NOT suitable alternatives to selegiline. |
− | |||
− | MAOA inhibitory drugs require dietary modification since they can become toxic in the presence of excess dietary tyramine. This is not the case with relatively selective MAOB inhibitors like selegiline. MAOA inhibitory drugs are NOT suitable alternatives to selegiline | ||
− | |||
− | |||
+ | Although a selective inhibitor of MAOB, there is evidence that selegiline does also partially inhibit MAOA, potentially leading to some MAOAi-like anti-depressant and anti-anxiety effects . In addition there is some further evidence that it could possibly increase dopaminergic activity by other mechanisms. These include increased synthesis and release of dopamine into the synapse and interference with re-uptake of dopamine from the synapse<ref>Heinonen EH, Lammintausta R: A review of the pharmacology of selegiline. Acta Neurol Scand 84:(suppl. 136):44-59, 1991</ref> <ref>Heikkila RE, Cabbat FS, Manzino L, et al: Potentiation by deprenil of l-dopa induced circling in nigral-lesioned rats. Pharmacol Biochem Behav 15:75-79, 1981.</ref>. | ||
The exact mechanism of action of selegiline is not fully understood, but the following points summarise its supposed action. | The exact mechanism of action of selegiline is not fully understood, but the following points summarise its supposed action. | ||
− | |||
*There may be some reduction in anxiety due to MAOA effects, but this is thought to be relatively small. | *There may be some reduction in anxiety due to MAOA effects, but this is thought to be relatively small. | ||
− | * | + | *There is a dopaminergic-related increase in playfulness and exploratory behaviour (which is sometimes confused with an anti-depressant effect). |
*Dopaminergic neurons are concentrated in the mesocorticolimbic dopamine system of the midbrain. This is thought to be part of the reward system that somehow assigns value to adaptive behaviours. Recent experiments have shown that normal dogs treated with the drug improve their performance in certain learned tasks and it is believed that this is due to improved function of the reward system. | *Dopaminergic neurons are concentrated in the mesocorticolimbic dopamine system of the midbrain. This is thought to be part of the reward system that somehow assigns value to adaptive behaviours. Recent experiments have shown that normal dogs treated with the drug improve their performance in certain learned tasks and it is believed that this is due to improved function of the reward system. | ||
*D<sub>1</sub> receptors are affected in mood disorders and stereotypes and manifest their post-synaptic inhibition in the limbic system<ref name="Overall"/>. In mood disorders and stereotypies D<sub>2</sub>, D<sub>3</sub> and D<sub>4</sub> receptors are all also affected. | *D<sub>1</sub> receptors are affected in mood disorders and stereotypes and manifest their post-synaptic inhibition in the limbic system<ref name="Overall"/>. In mood disorders and stereotypies D<sub>2</sub>, D<sub>3</sub> and D<sub>4</sub> receptors are all also affected. | ||
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==Use== | ==Use== | ||
− | The main uses for selegiline are the treatment of fears and phobias, and cognitive decline where reduced dopamine levels are implicated | + | The main uses for selegiline are the treatment of fears and phobias, and cognitive decline where reduced dopamine levels are implicated. Selegiline should be administered for a minimum of 8 weeks before evaluating efficacy. If there is not a considerable improvement after this time an increased dose may be necessary or re-evaluation of cause of the behavioural problem. Before treatment with selegiline other causes of abnormal behaviour should be ruled out. |
*Licensed (dog) | *Licensed (dog) | ||
:*Treatment of behavioural problems of emotional origin (including specific phobias) | :*Treatment of behavioural problems of emotional origin (including specific phobias) | ||
− | :* | + | :*Canine cognitive dysfunction. <ref>Selegiline hydrochloride [https://www.zoetisus.com/_locale-assets/mcm-portal-assets/products/pdf/anipryl_pi.pdf data sheet]</ref> |
*Unlicensed | *Unlicensed | ||
− | :*Other fear related problems (including aggression) | + | :*Other fear related problems (including fear-related aggression) |
:*Spraying (fear related in cats) | :*Spraying (fear related in cats) | ||
:*Hyperactivity | :*Hyperactivity | ||
Line 43: | Line 39: | ||
==Adverse Effects== | ==Adverse Effects== | ||
+ | Adverse effects include: | ||
*Agitation | *Agitation | ||
*GI signs (nausea, diarrhoea, usually transient) | *GI signs (nausea, diarrhoea, usually transient) | ||
Line 52: | Line 49: | ||
*Itching | *Itching | ||
*Shaking | *Shaking | ||
− | *Increased | + | *Increased owner directed aggression and inter-dog competitive aggression (in cases where these problems already exist). |
'''Caution should be taken in if the animal suffers from any of the following pre-existing medical conditions:''' | '''Caution should be taken in if the animal suffers from any of the following pre-existing medical conditions:''' | ||
*Hyperadrenocorticism (not of pituitary origin) | *Hyperadrenocorticism (not of pituitary origin) | ||
+ | *Owner-directed aggression | ||
'''Care should be taken if used in conjunction with any of the following drugs, which may interact and cause adverse effects:''' | '''Care should be taken if used in conjunction with any of the following drugs, which may interact and cause adverse effects:''' | ||
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==References== | ==References== | ||
<references/> | <references/> | ||
− | {{ | + | |
− | + | <br><br> | |
+ | {{Jon Bowen reviewed | ||
+ | |date=September 9, 2014 | ||
+ | }} | ||
+ | |||
+ | {{Ceva}} | ||
+ | {{OpenPages}} | ||
+ | |||
[[Category:Pharmacological Approach to Problem Behaviour]] | [[Category:Pharmacological Approach to Problem Behaviour]] |
Latest revision as of 09:47, 16 July 2015
Mechanism of Action
Selegiline is a selective monoamine oxidase (MAO) type B inhibitor (I), also commonly known as L-deprenyl. Monoamine Oxidase (MAO) is the main enzyme responsible for the oxidative deamination of the monoamine neurotransmitters (adrenaline, nor-adrenaline, serotonin, histamine and dopamine)[1].
Two forms of MAO exist, which differ in their distribution in tissues and substrate specificity:
- MAOA: Catabolises serotonin, adrenaline, nor-adrenaline.
- MAOB: Catabolises dopamine and histamine.
Selegiline has a high specificity for inhibiting MAOB, and therefore increases the availability of dopamine for inclusion into secretory vesicles by the vesicular monoamine transporter (VMAT) proteins on the surface of cytoplasmic vesicles in dopaminergic neurons.
Most MAOI antidepressants are mixed or selective inhibitors of MAOA. These have very similar effects on serotonergic and nor-adrenergic neurotransmission to SRI/SSRI drugs, and lead to almost identical postsynaptic receptor regulation. MAOA inhibitory drugs require dietary modification since they can become toxic in the presence of excess dietary tyramine. This is not the case with relatively selective MAOB inhibitors like selegiline. MAOA inhibitory drugs are therefore NOT suitable alternatives to selegiline.
Although a selective inhibitor of MAOB, there is evidence that selegiline does also partially inhibit MAOA, potentially leading to some MAOAi-like anti-depressant and anti-anxiety effects . In addition there is some further evidence that it could possibly increase dopaminergic activity by other mechanisms. These include increased synthesis and release of dopamine into the synapse and interference with re-uptake of dopamine from the synapse[2] [3].
The exact mechanism of action of selegiline is not fully understood, but the following points summarise its supposed action.
- There may be some reduction in anxiety due to MAOA effects, but this is thought to be relatively small.
- There is a dopaminergic-related increase in playfulness and exploratory behaviour (which is sometimes confused with an anti-depressant effect).
- Dopaminergic neurons are concentrated in the mesocorticolimbic dopamine system of the midbrain. This is thought to be part of the reward system that somehow assigns value to adaptive behaviours. Recent experiments have shown that normal dogs treated with the drug improve their performance in certain learned tasks and it is believed that this is due to improved function of the reward system.
- D1 receptors are affected in mood disorders and stereotypes and manifest their post-synaptic inhibition in the limbic system[1]. In mood disorders and stereotypies D2, D3 and D4 receptors are all also affected.
- Dopamine is also important in the putative ‘seeking’ circuit, which is involved in reinforcement of search, exploratory and investigatory behaviours. Animals that have an enhancement of the ‘seeking’ system become immensely interested in what is around them and become excited when they anticipate the arrival of things that they want.
- Two of the main metabolites of selegiline, L-amphetamine and L-methamphetamine are also stimulants of brain activity and may play a role in its effects, however the extent to which this is the case is uncertain.
- A decrease in the concentration of catecholamines in the CNS and reduced level of neurotransmission are thought to be the pathogenesis behind the clinical signs associated with cognitive decline[4].
Remembering that in veterinary medicine depression, anxiety and the inhibitory effects of fear are measured by observing behaviour, a drug that increases exploratory behaviour, activity, playfulness and response to appetitive events would, by definition, reduce observed levels of depression. So the effect of selegiline may in some way be to reduce fear and anxiety, whilst at the same time increasing the tendency to explore and then enhancing reward for behaviours.
Use
The main uses for selegiline are the treatment of fears and phobias, and cognitive decline where reduced dopamine levels are implicated. Selegiline should be administered for a minimum of 8 weeks before evaluating efficacy. If there is not a considerable improvement after this time an increased dose may be necessary or re-evaluation of cause of the behavioural problem. Before treatment with selegiline other causes of abnormal behaviour should be ruled out.
- Licensed (dog)
- Treatment of behavioural problems of emotional origin (including specific phobias)
- Canine cognitive dysfunction. [5]
- Unlicensed
- Other fear related problems (including fear-related aggression)
- Spraying (fear related in cats)
- Hyperactivity
- Compulsive/stereotypical disorders (predominantly involving fear)
Some individuals treated with selegiline show signs of agitation and restlessness, which is a reason for drug withdrawal.
Adverse Effects
Adverse effects include:
- Agitation
- GI signs (nausea, diarrhoea, usually transient)
- Drowsiness
- Headache
- Abdominal pain
- Hallucinations
- Loss of hearing
- Itching
- Shaking
- Increased owner directed aggression and inter-dog competitive aggression (in cases where these problems already exist).
Caution should be taken in if the animal suffers from any of the following pre-existing medical conditions:
- Hyperadrenocorticism (not of pituitary origin)
- Owner-directed aggression
Care should be taken if used in conjunction with any of the following drugs, which may interact and cause adverse effects:
- TCA/SSRI: severe CNS toxicity and risk of serotonin syndrome[6].
- Benzodiazepines: Effects of benzodiazepines potentiated by selegiline. Isolated [human] problems with MAOA inhibitors, probably not relevant to selegiline.
- Buspirone: isolated (human) cases of non-fatal hypertension.
- Pethidine: some serious (fatal) adverse reactions seen in man. Hyperpyrexia, respiratory failure, impaired consciousness, neurological signs.
- Phenylpropanolamine, Phenylephrine, ephedrine, pseudoephedrine: extreme fluctuations of blood pressure and life-threatening hypertension seen in man.
- Amitraz: found in some tick collars
A minimum of a 2 week gap should be allowed between withdrawal of selegiline and initiation of treatment with a tricyclic antidepressant or selective serotonin reuptake inhibitor[1]. Due to the long half-life of fluoxetine and its active metabolites, at least 5 weeks should elapse between discontinuation of fluoxetine and initiation of treatment with selegiline.
Note that most of the potential interactions relate to mixed and selective MAOA inhibitors in man, but it is sensible to be aware of these interactions when using a drug, like selegiline, that has a short history of use in veterinary medicine. Any adverse reaction should be reported via the NOAH reporting system.
References
- ↑ 1.0 1.1 1.2 Overall, K.L., 2001. Pharmacological Treatment in Behavioural Medicine: The Importance of Neurochemistry, Molecular Biology and Mechanistic Hypotheses. The Veterinary Journal, 162, 9-23
- ↑ Heinonen EH, Lammintausta R: A review of the pharmacology of selegiline. Acta Neurol Scand 84:(suppl. 136):44-59, 1991
- ↑ Heikkila RE, Cabbat FS, Manzino L, et al: Potentiation by deprenil of l-dopa induced circling in nigral-lesioned rats. Pharmacol Biochem Behav 15:75-79, 1981.
- ↑ Houpt, K.A., 2001. Cognitive dysfunction in geriatric cats, in August, J.R. (Ed.), Consulations in Feline Internal Medicine. 4. Philadelphia. WB Saunders, pp. 583-590.
- ↑ Selegiline hydrochloride data sheet
- ↑ Brown, T. M., Skop, B. P. & Mareth, T. R. (1996). Pathophysiology and management of the serotonin syndrome. The Annals of Pharmacotherapy 30, 527–33.
This article has been expert reviewed by Jon Bowen BVetMed DipAS(CABC) MRCVS. Date reviewed: September 9, 2014 |
The creation of this content was made possible by Ceva Santé Animale as part of the feline behaviour project. |
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