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Treatment of Parkinson’s Disease Christopher Buchanan CHEM 5398/Buynak April 3, 2007 Parkinson’s Disease Overview • Prevalence: 0.3% of U.S. Population – Increases to 4-5% for those 85 years old and older • Dopaminergic degeneration in the substantia nigra – in the deep gray matter of the brain – Basal ganglia produce less dopamine Parkinson’s Overview (cont’d) • Symptoms: – Bradykinesia (slowed movements) – Resting tremor – Rigidity • Other Neurotransmitters are affected – Non-Adrenergic, Serotinergic, and Cholinergic neurons are lost – Results in: cognitive decline, sleep abnormalities, depression, gastrointestinal and genitourinary problems – Usually Seen in Later Stages of Parkinson’s Therapy • Therapy should begin when normal functions are impaired to due to symptoms (i.e. limits daily activities) – Therapy must be individualized based on progression and time of onset • Therapies vary depending on age of onset, progression of symptoms, and side-effects of drugs Medicinal Therapy • Levadopa (L-DOPA) – Still the preferred medication to control Motor symptoms – Used in combination with Carbidopa to prevent premature decarboxylation • Drug: Sinemet NH3+ HO H N HO NH2 HO O O HO H3C CO2H H L-DOPA Carbidopa L-DOPA HO Tyrosine H2 hydroxylase HO NH2 CO2H HO Dopa Decarboxylase NH2 HO Dopamine Levodopa (L-DOPA) OH OH HO NHMe • LevodopaN-methyl is decarboxylated to form dopamine, transferase thus replenishing the dimished supply HO (in Adrenal medulla) HO • Dopa Decarboxylase is saturated at 70 to 100 Epinephrine Norepinephrine (Adrenaline) mg/day (Noradrenaline) HO NH2 -Adapted from Presentation Slide from Dr. John Buynak L-DOPA • Downsides – Continual use can lead to motor complications (dyskinesia), which must be treated – This can be somewhat offset by lowering the dosage • This is an important factor for patients with Early Onset Parkinson’s Disease Dopamine Agonists • Directly stimulate dopamine receptors • Bromocriptine (Perlodel) • Pergolide (Permax) http://en.wikipedia.org/wiki/Pergolide wikipedia http://en..org/wiki/Parl odel Dopamine Agonists • Often used in combination with Levadopa • Studies have shown that its use alone delays or lowers the incidence of motor complications associated with the use of Levadopa • Often prescribed to patients with mild disease at a younger onset age Late Stage Parkinson’s • Seen in 40% of Patients having received Levadopa treatment for 5+ years – Motor complications usually arise • Patients experience a “wearing off” effect – Each dose of levadopa has a shorter duration of effect • Motor Complications treated with: – Dopamine Agonists, MAO-B Inhibitors, COMT Inhibitors MAO-B Inhibitors • MAO = monoamine oxidase H R-C-NH2 + O2 + H2O H → H R-C=O + NH3 + H2O2 -Oxidative deamination • Reduce disability and delay need for Levadopa – Believed to be somewhat neuroprotective MAO-B Inhibitors • Selegiline (Eldepryl) http://en.wikipedia.org/wiki/Selegiline • Rasagiline (Azilect) http://en.wikipedia.org/wiki/Rasagiline COMT Inhibitors • COMT: catechol O-methyltransferase • Inhibition increases the half life of Levadopa --> decreases “Off” times • Tolcapone (Tasmar): http://en.wikipedia.org/wiki/Tolcapone • Monitored closely due to rare side effect of fatal hepatotoxicity COMT & MAO Inhibitors http://en.wikipedia.org/wiki/Image:Dopamine_degradation.svg New Therapeutic Approaches • Glial Cell-line-Derived Neurotrophic Factor (GDNF) – Shown to aid degenerating neurons – However, there is very little evidence to support it’s widespread use • Adenosine Antagonists – Colocalized with striatal dopamine (D2) receptors – Studies show that they often reverse motor defects from Parkinson’s Novel Approaches • N-methyl-D-Aspartate (NMDA) Receptor Antagonists – Shown to reduce motor complications from L-DOPA therapy – Amantadine (Symmetrel): http://en.wikipedia.org/wiki/Amantadine Surgical Therapies • Deep Brain Stimulation – With precise brain mapping, stimulation of the subthalamic nucleus can be performed – Improves motor function – Reduces dyskinesia and need for medications – Downfall: often causes destructive lesions Interesting Observations • An inverse relationship between smoking and Parkinson’s has been demonstrated – Mechanism of protection (if any) is unknown • Consuming Caffeine (an adenosine antagonist) has been linked with a lesser risk of developing Parkinson’s Sources Figures: Wikipedia.org Schapira, Anthony H., Bezard, Erwan, et. al “Novel Pharmacological targets for the treatment of Parkinson’s Disease.” Nature Reviews: Drug Discovery. 5 (2006): 845854. Rao, Shobha A., Hoffman, Laura A., and Shakil, Amer. “Parkinson’s Disease: Diagnosis and Treatment.” American Family Physician. 74 (2006): 2046-2054 Jankovic, Joseph. “An Update on the Treatment of Parkinson’s Disease.” Mount Sinai Journal of Medicine. 73 (2006): 682-689
