Levodopa inhibitors

The main clinical use of COMT inhibitors is as adjunct (or additional adjunct) in the therapy of Parkinson s disease. The standard therapy of Parkinson s disease is oral L-dopa (as a drug levodopa) given with a dopa decarboxylase (DDC) inhibitor (e.g. carbidopa and benserazide), which does not reach the brain. When the peripheral DDC is inhibited, the concentration of 3-O-methyldopa (3-OMD), a product of COMT, in plasma is many times that of L-dopa. Since the half-life of 3-OMD is about 15 h, compared to about 1 h for L-dopa, the concentration of 3-OMD remains particularly high during chronic therapy, especially if new slow release L-dopa preparations are used. A triple therapy (L-dopa plus DDC inhibitor plus COMT-inhibitor) will... 

The dopamine precursor l-DOPA (levodopa) is commonly used in TH treatment of the symptoms of PD. l-DOPA can be absorbed in the intestinal tract and transported across the blood-brain barrier by the large neutral amino acid (LNAA) transport system, where it taken up by dopaminergic neurons and converted into dopamine by the activity of TH. In PD treatment, peripheral AADC can be blocked by carbidopa or benserazide to increase the amount of l-DOPA reaching the brain. Selective MAO B inhibitors like deprenyl (selegiline) have also been effectively used with l-DOPA therapy to reduce the metabolism of dopamine. Recently, potent and selective nitrocatechol-type COMT inhibitors such as entacapone and tolcapone have been shown to be clinically effective in improving the bioavailability of l-DOPA and potentiating its effectiveness in the treatment of PD. 

Parkinson s disease (PD) 1. In a non-human primate model of PD endocannabinoid levels are elevated in the basal ganglia and may contribute to the generation of parkinsonian symptoms and/or to expression of levodopa-induced dyskinesia. The cerebrospinal fluid of untreated PD patients contains elevated levels of AEA 1. CB-) antagonists or biosynthesis inhibitors... 

The dopaminergic drug are contraindicated in patients with known hypersensitivity to the drugs. Levodopa is contraindicated in patients with narrow-angle glaucoma, those receiving a monoamine oxidase inhibitor (see... 

Levodopa interacts with many different drugs. When levodopa is used with phenytoin, reserpine, and papaverine, there is a decrease in response to levodopa The risk of a hypertensive crisis increases when levodopa is used with the monoamine oxidase inhibitors (see Chap. 31). Foods high in pyridoxine (vitamin B6) or vitamin B6 preparations reverse the effect of levodopa However, when carbidopa is used with levodopa, pyridoxine has no effect on the action of levodopa hi fact, when levodopa and carbidopa are given together, pyridoxine may be prescribed to decrease the adverse effects associated with levodopa... 

These drugs are thought to prolong the effect of levodopa by blocking an enzyme, catechol-O-methyltransferase (COMT), which eliminates dopamine. When given with levodopa, the COMT inhibitors increase the plasma concentrations and duration of action of levodopa... 

Monoamine oxidase exists in two forms, MAOa and MAOb. The former is more active against NA and 5-HT than it is against DA, which is a substrate for both, even though, like S-phenylethylamine, it is more affected by MAOb. H seems likely that MAOb is the dominant enzyme in human brain and inhibitors of it, such as selegiline, have some value in the treatment of Parkinson s disease by prolonging the action of the remaining endogenous DA as well as that formed from administered levodopa. 

Figure 15.4 The central and peripheral metabolism of levodopa and its modification by drugs, (a) Levodopa alone. After oral administration alone most dopa is rapidly decarboxylated to DA in the gut and blood with some o-methylated (COMT) to o-methyl/dopa (OMD). Only a small amount (3%) enters the CNS to be converted to DA. (b) After an extracerebral dopa decarboxylase inhibitor. Blocking just the peripheral dopa decarboxylase (DD) with inhibitors like carbidopa and benserazide, that cannot enter the CNS (extra cerebral dopa decarboxylase inhibitors, ExCDDIs), stops the conversion of levodopa to DA peripherally, so that more enters the CNS or is o-methylated peripherally to OMD.

Blocking the conversion to DA would appear stupid unless this could be restricted to the periphery. More dopa would then be preserved for entry into the brain, where it could be decarboxylated to DA as usual. Drugs like carbidopa and benserazide do precisely that and are used successfully with levodopa. They are known as extracerebral dopa decarboxylase inhibitors (ExCDDIs). Carbidopa (a-methyldopa hydrazine) is structurally similar to dopa but its hydrazine group (NHNH2) reduces lipid solubility and CNS penetration (Fig. 15.4). 

Levodopa is a better substrate for COMT than MAO and when given with an ExCDDI most of it is o-methylated to OMD (Fig. 15.4). Recently COMT inhibitors have been developed which act either just peripherally (entacopone) or centrally as well... 

Opioids, benzodiazepines, barbiturates, corticosteroids, dopamine agonists (e.g., amantadine, bromocriptine, levodopa, pergolide, pramipexole, ropinirole), H2-receptor antagonists, anticholinergics (e.g., diphenhydramine, trihexylphenidyl), P-adrenergic blockers, clonidine, methyldopa, carbamazepine, phenytoin, baclofen, cyclobenzaprine, lithium, antidepressants (e.g., tricyclic antidepressants, selective serotonin reuptake inhibitors), and interleukin-2... 

MAOb inhibitors include selegiline and rasagaline. They may provide mild symptomatic benefit for those patients who choose to delay dopaminergic medications. Combining selegiline or rasagaline with levodopa in early treatment may delay motor complications. In patients with advanced disease, they decrease off time and improve wearing-off symptoms in patients with motor fluctuations. 

Carbidopa, a dopa-decarboxylase inhibitor, is added to the levodopa in order to decrease the peripheral conversion of levodopa to dopamine. It does not cross the blood-brain barrier and does not interfere with levodopa conversion in the brain. Concomitant administration of carbidopa and levodopa allows for lower levodopa doses and minimizes levodopa peripheral side effects such as nausea, vomiting, anorexia, and hypotension. For most patients, at least 75 to 100 mg daily of carbidopa is required to adequately block dopamine decarboxylase in the peripheral metabolism of levodopa in most patients. Taking extra carbidopa may reduce nausea related to initiating levodopa.8,16... 

When additional relief is needed, the addition of levodopa (L-dopa) should be considered. With the development of motor fluctuations, addition of a catechol-O-methyltransferase (COMT) inhibitor should be considered to extend L-dopa duration of activity. 

Chlorpromazine is an aliphatic phenothiazine antipsychotic used in schizophrenia and which may exacerbate parkinsonism. Co-careldopa is a combination of levodopa and the peripheral dopa-decarboxylase inhibitor, carbidopa. Co-careldopa, amantadine, entacapone and bromocriptine are all indicated in the management of parkinsonism. 

Bromocriptine is a dopamine agonist acting by direct stimulation of the dopamine receptors. In Parkinson s disease, it is reserved for use in patients who are intolerant to levodopa or in whom levodopa alone is not sufficient. Orphenadrine is an antimuscarinic indicated in Parkinson s disease. Antimuscarinics tend to be more effective than levodopa in targeting tremor rather than rigidity and bradykinesia. Moclobemide is an antidepressant referred to as a reversible monoamine oxidase inhibitor (RIAAA) type A. 

Co-careldopa is a combination of levodopa and the peripheral dopadecar-boxylase inhibitor. Co-careldopa is indicated in Parkinson s disease to improve bradykinesia and rigidity rather than tremor. Orphenadrine is an antimuscarinic agent indicated in patients with Parkinson s disease where tremor predominates. Trifluoperazine is a piperazine antipsychotic that should be used with caution in patients with Parkinson s disease as its use may exacerbate the condition. 

L-Dopa. Dopamine itself cannot penetrate the blood-brain barrier however, its natural precursor, L-dihydroxy-phenylalanine (levodopa), is effective in replenishing striatal dopamine levels, because it is transported across the blood-brain barrier via an amino acid carrier and is subsequently decarboxy-lated by DOPA-decarboxylase, present in striatal tissue. Decarboxylation also takes place in peripheral organs where dopamine is not needed, likely causing undesirable effects (tachycardia, arrhythmias resulting from activation of Pi-adrenoceptors [p. 114], hypotension, and vomiting). Extracerebral production of dopamine can be prevented by inhibitors of DOPA-decarboxylase (car-bidopa, benserazide) that do not penetrate the blood-brain barrier, leaving intracerebral decarboxylation unaffected. Excessive elevation of brain dopamine levels may lead to undesirable reactions, such as involuntary movements (dyskinesias) and mental disturbances. 

Inhibitors of monoamine oxi-dase-B (MAOb). This isoenzyme breaks down dopamine in the corpus striatum and can be selectively inhibited by selegiline. Inactivation of norepinephrine, epinephrine, and 5-HT via MAOa is unaffected. The antiparkinsonian effects of selegiUne may result from decreased dopamine inactivation (enhanced levodopa response) or from neuroprotective mechanisms (decreased oxyradical formation or blocked bioactivation of an unknown neurotoxin). 

In medical practice, four types of dopaminergic drags are used, and they can be characterized as dopamine precursors (levodopa), dopamine-releasing drugs (amantadine), dopamine receptor agonists (bromocriptine), and dopamine inactivation inhibitors (selegiline). 

This drug is a selective inhibitor of monoaminooxidase B, which suppresses dopamine-inactivation processes and facilitates an increase of its level in the brain. In treating Parkinsonism, selegiline is usually used in combination with levodopa. The most common synonyms of selegiline are deprenyl, eldepryl, eldopal, and others. 

Pharmacology Entacapone is a selective and reversible inhibitor of catechol-O-methyltransferase (COMT), which alters the plasma pharmacokinetics of levodopa. When entacapone is given in conjunction with levodopa and an aromatic amino acid decarboxylase inhibitor (such as carbidopa), plasma levels of levodopa are greater and more sustained than after administration of levodopa and an aromatic amino acid decarboxylase inhibitor alone. 

Drugs that may affect metoclopramide include levodopa, anticholinergics, and narcotic analgesics. Drugs that may be affected by metoclopramide include alcohol, cimetidine, cyclosporine, digoxin, levodopa, MAO inhibitors, and succinylcholine. 

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