1 / 15

The role of CNS Iron in Parkinson’s Disease

PHM142 Fall 2013 Coordinator: Dr. Jeffrey Henderson Instructor: Dr. David Hampson. The role of CNS Iron in Parkinson’s Disease. Adam Abraha, Saliha Syeda, Sara Temkit, Leyla Warsame . November 6, 2013. What is P arkinsons’s Disease? .

meira
Download Presentation

The role of CNS Iron in Parkinson’s Disease

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. PHM142 Fall 2013 Coordinator: Dr. Jeffrey Henderson Instructor: Dr. David Hampson The role of CNS Iron in Parkinson’s Disease Adam Abraha, Saliha Syeda, Sara Temkit, Leyla Warsame November 6, 2013

  2. What is Parkinsons’s Disease? • Parkinson’s disease is a neurodegenerative disorder that is the result of the atrophy of neuron cells that produce dopamine in the CNS. • It is the 2nd most common neurological disease after Alzheimer’s • It is a progressive disease that manifests as tremors which results in increasing difficulty to control motor function • There is currently no cure for Parkinson’s disease

  3. Who Does Parkinson’s Affect? • Generally affects the elderly, specifically people over the age of 50 • The main risk factor of Parkinson’s disease is age. • Men are more likely to develop Parkinson’s than women • Can be induced by environmental factors such as: smoking, regular caffeine intake, pesticide exposures.

  4. Human Studies • [Iron] in the brain changes over lifetime: highest at birth, ↓ during the 1st two postnasal weeks, ↑ again during death • Even though there is a natural ↑in CNS [iron], PD shown to have extensive iron deposits • Post-mortem Studies & Imaging studies have shown ↑ iron in PD compared to controls • Males are actually at a higher risk than females. One Reason: Menstruation is protective • Fewer menses or greater lifetime exposure to iron—increases the risk of PD. Substantia niagra-SN, Caudate nucleus –CN, Globus pallidus -GP

  5. Animal Studies • Animal models that mimic pathological components of PD have been studied • Studies in Rats have shown reduction in dopamine levels associated with ↑ brain iron concentration • Mouse models have shown excess CNS iron correlated with↑ levels of oxidative stress • Another study in Mice showed 35% ↓ in striatal dopamine and impaired motor function • ↑SN iron in adult animals show motor dysfunctions • ↑SN iron concentration at 3 months with elevated markers of oxidative stress, and decreased striatum dopamine at 12, 16, 24 months, but not at 2 months Substantia niagra-SN, Caudate nucleus –CN, Globus pallidus -GP

  6. Role of Iron in the Pathological Mechanisms of PD • 1. Iron Contributes to Lewy Body Formation • Abnormal protein aggregates develop inside nerve cells in PD • The primary constituent of Lewy Bodies is alpha-synuclein • Iron contributes to lewy body formation by inducing alpha-synuclein fibril formation • The 5’UTR of alpha-synuclein mRNA contains an IRE • Iron can bind to IRE-BP, liberating it from the 5’UTR of alpha-synuclein, allowing transcription of the alpha-synuclein

  7. Role of Iron in the Pathological Mechanisms of PD 2. Iron Inhibits Ubiquitin-Proteosome System • Proteosomes normally degrade damaged/unneeded proteins • The targeted proteins are first ubiquitinated and then lysed • UPS inhibition can lead to alpha-synuclein accumulation • Iron chelators diminish drug-induced proteasome inhibition and loss of DAergic neurons

  8. Role of Iron in the Pathological Mechanisms of PD 3. Iron plays role in Oxidative Stress • DA is capable of autooxidation in the presence of ROS • Autooxidation is the direct rxn with O2 to produce hydrogen peroxide • Iron(Fe2+) can increase the rate of DA autooxidation via the fenton reaction • More ROS ultimately lead to damage to mitochondrial and nuclear DNA, lipid peroxidation and protein aggregation (adducts). • Brain is known for high oxygen utilization and low regenerative capacity

  9. To summarize the Biochemical Mechanisms: • Ironpromotes alpha-synuclein formation and DA autooxidation. • It increases alpha synuclein formation: • Increasing transcription (IRE-BP) • Decreasing degradation (UPS)

  10. Putting it All Together Iron – increases alpha synuclein synthesis and protein adduct formation

  11. Iron in Combination with Other Predictors of PD: Cigarette Smoking • Cigarette smoking associated with a lower risk of Parkinson’s Disease. • Strong protective association between PD and smoking. • Cigarette smoke may stimulate dopamine release and upregulate nicotinic receptors through nicotine. • Inhibit free radical damage to nigral cells through carbon monoxide. • Nicotine complexes strongly with iron. • Formation of 6-hydroxydopamine is decreased. • Caused by Fe2+ and H2O2 reacting with dopamine (Fenton Reaction). • [Iron] is decreased, oxidative stress in dopamine neurons is decreased.

  12. Iron in Combination with Other Predictors of PD: Coffee Drinking • Components of coffee and tea tend to show antioxidant activity. • Caffeine causes oxygen radical production by binding to copper ions and reducing them. • Therefore, in the presence of high metal ion concentrations and caffeine it shows pro-oxidant activity. • Maillard reaction products when combined with iron, protect a DNA strand from breaking. • This shows that it protects against oxidative damage that would be caused by the Fenton reaction. • Coffee and tea make it hard for the intestine to absorb iron.

  13. Iron in Combination with Other Predictors of PD: Pesticides • Paraquat is a herbicide that was studied. • Paraquat is a conversion product of MPTP. • MPTP is toxic and produces Parkinson like symptoms when injected. • Exposure of Paraquat leads to increased production of H2O2. • H2O2 reacts with neural Iron and produces reactive oxygen species (Fenton reaction). • Higher Iron levels make paraquat more toxic.

  14. Summary • Parkinson’s is a progressive disease of the nervous system and very prevalent in the elderly population • It is caused by the destruction of dopamine producing neurons which leads to a decrease in the ability to maintain muscle and motor function • Human studies have shown that ↑ iron in substantia niagra have lead to the severity of PD • Animal studies have shown that ↑ iron in substantia niagra is associated with decreased striatal dopamine, disturbed motor functions and ↑ oxidative stress • Nicotine, caffeine and pesticides have been shown to play a role in the causation of Parkinson’s disease due to the creation of reactive metabolites

  15. References Benedetti MD, Maraganore DM, Bower JH, McDonnell SK, Peterson BJ, Ahlskog JE, SchaidDJ,Rocca WA. Hysterectomy, menopause, and estrogen use preceding Parkinson’s disease: an exploratory case–control study. MovDisord. 2001; 16:830–837. [PubMed: 11746612] GerlachM, Ben-Shachar D, Riederer P, Youdim MB. Altered brain metabolism of iron as a cause of neurodegenerative diseases? J Neurochem. 1994; 63:793–807. [PubMed: 7519659] Graham DG. Oxidative pathways for catecholamines in the genesis of neuromelanin and cytotoxic quinones. MolPharmacol. 1978; 14:633–643. [PubMed: 98706] Hallgren B, Sourander P. The effect of age on the non-haemin iron in the human brain. J Neurochem.1958; 3:41–51. [PubMed: 13611557] Mancuso C, Scapagini G, Currò D, Giuffrida Stella AM, De Marco C, Butterfield DA, Calabrese V. Mitochondrial dysfunction, free radical generation and cellular stress response in neurodegenerative disorders. Front Biosci. 2007; 12:1107–1123. [PubMed: 17127365] McCormack AL, Thiruchelvam M, Manning-Bog AB, Thiffault C, Langston JW, Cory-Slechta DA, Di Monte DA. Environmental risk factors and Parkinson’s disease: selective degeneration of nigral dopaminergic neurons caused by the herbicide paraquat. Neurobiol Dis. 2002; 10:119–127. [PubMed: 12127150] Parkinson's disease: Risk Factors. Mayo Clinic. http://www.mayoclinic.com/health/parkinsons-disease/DS00295/DSECTION=risk-factors. Accessed November 4, 213. Rhodes SL and Ritz B. (2008). Review. Genetics of iron regulation and the possible role of iron in Parkinson's disease. Neurobiology Dis 32(2):183-195 Ritz B, Ascherio A, Checkoway H, Marder KS, Nelson LM, Rocca WA, Ross GW, Strickland D, Van Den Eeden SK, Gorell J. Pooled analysis of tobacco use and risk of Parkinson’s disease. Arch Neurol. 2007; 64:990–997. [PubMed: 17620489] Sziraki I, Mohanakumar KP, Rauhala P, Kim HG, Yeh KJ, Chiueh CC. Manganese: a transition metal protects nigrostriatal neurons from oxidative stress in the iron-induced animal model of parkinsonism. Neuroscience. 1998; 85:1101–1111. [PubMed: 9681949] Wijewickreme AN, Kitts DD. Modulation of metal-induced genotoxicity by Maillard reaction products isolated from coffee. Food ChemToxicol. 1998; 36:543–553. [PubMed: 9687961] http://www.ncbi.nlm.nih.gov/pubmed/20226175 (Reaction of Quinone adducts with alpha-synuclein) http://www.lib.okayama-u.ac.jp/www/acta/pdf/62_3_141.pdf (Autoxidation of Dopamine) http://www.fasebj.org/content/18/6/637.full.pdf+html (Role of Alpha-Synuclein) http://www.fasebj.org/content/18/6/637.full.pdf+html (Role of DA oxidation in mitochondrial dysfunction) http://www.ncbi.nlm.nih.gov/pubmed/11843096 (Role of Iron in the promotion of alpha synuclein accumulation)

More Related