.

Wednesday, June 5, 2019

Causes of Parkinsons Disease

Causes of Parkinsons DiseaseParkinsons unhealthiness (PD) is ca utilize by the progressive death of substantia nigral dopaminergic neur is, resulting in the reduction of caudate-putamen dopamine concentration in the basal ganglia. Insufficient DA produced from the substantia nigral dopaminergic neurones due to progressive adulteration in PD patients results in motor neurone cell death. Afflicting just nether 1% of the population over 60. Little was known about the pathophysiology of PD, with the classical pathological hallmarks of sledding of nigrostriatal dopaminergic neurons and the presence of Lewy bodies (Dauer, 2003).Though the jump clinical description of the disease was written in 1817 An essay on the Shaking Palsy by James Parkinson. Taking nearly 150 years to make real progress, the first milestone occurred in the 1960s when striatal dopamine (DA) levels were discovered to be sharply reduced in PD patients (Garcia-Ruiz, 2014) linking PD to DA content of the basal gangli a. DA production occurs with the substantia nigra pars compacta uses the nigrostriatal pathway to transport dopamine via the dopamine transporter (DAT) controlled via a sodium gradient to the striatum. These co-dependant systems require dopamine production for motor military campaign when the death of substantia nigral dopaminergic neurones occurs dopamine content in the basal ganglia is reduced and thus impairs motor function. Garcia-Ruiz (2014) rationale from his discovery was the two systems ar linked as the storey doesnt produce dopamine indicating its source elsewhere, thus connecting substantia nigra pars compacta (a known producer of dopamine) in PD and that substantia nigra pars compacta neurone death is responsible for the pathophysiological symptoms of PD. Iravani (2005) states that when some 60% of nigral-striatal neurones use up been lost the first motor abnormalities appear resulting in diagnosis as late as 3 years after initial neurone death.Neurodegeneration of su bstantia nigral dopaminergic neurones symptoms of can is managed. Levodopa (L-DOPA), the trumpeter to DA synthesis (making it a logical choice for victimization therapeutically) and DA agonist is able to cross the blood-brain barrier (BBB) via the LAT-1 (large amino acid transporter) where it is converted to dopamine via DOPA decarboxylase. This increases dopamine content in the brain and reduces symptoms such as motor skill deterioration. Levodopa also occurs in peripheral circulation resulting in peripheral dopamine concentration to increase causing a nauseous side effect, as a result levodopa of always given with carbidopa which inhibits the peripheral metabolism reducing this illness (Dauer, 2003) also increases the bioavailability of L-DOPA in the CNS.Lee (2009) an expert in PD, described PD it as a uncouthly diagnosed bradykinesia disorder characterised by s eere pars-compacta nigral-cell loss and aggregated a-synuclein accumulation within cortical regions. Thought to be pa rt of dopamine release and transport regulation, a-synuclein induces microtubule-associated protein fibrillation and within overexpression a reduction in nervous responsiveness. This ties into the prion hypothesis, in which the misfolded protein a-synuclein can trigger aggregation of interconnected groups of neurones, thus resulting in Inflammation, aerobic stress, excito toxicity and reduced responsiveness. Though his theory is contradicted by Leonidas (2012) who claims that in that respect is insufficient take the stand that consists of the idea that there is an overexpression of a-synuclein protein in PD brains when mRNA studies show a decrease of SNCA expression in PD nigra. Though Stefanis. L. does acknowledge there could be a rare familial and sporadic link of SNCA expression and PD, as -synuclein is found within Lewy bodies which are a characteristic of PD.Lewy bodies are aggregates of protein and are a classical sign of neurotoxicity, and closely associated with a-synucl ein due to the radiating fibrillation of a-synuclein tying into Lees (2009) PD description. Lewy bodies also contain ubiquitin, a-B crystalline and neurofilament protein in an aggregated form. The a-synuclein interacts with DNA causing degradation (Power, 2017) and also Power observed -synuclein and III Tubulin from Lewy bodies and n increased mitochondrial loss with neurones developing Lewy bodies, suggesting a link between Lewy body development and substantia nigral dopaminergic neurone death. Powers theory indirectly contradicts Leonidass theory on a-synuclein expression, as a-synuclein is required for Lewy body formation and thus leads to substantia nigral dopaminergic neuronal death Lees research does, however, support the Powers theory.Dauer (2003) infers that it is possible that the misfolding of proteins which result in Lewy bodies could press a level of neuroprotection by interfering with programmed cell death (PCD) and aerophilic stress thus slowing down neurodegeneratio n. Lewy bodies could interfere with Bax molecule formation (which there are elevated concentrations within PD patients) due to the changes in protein morphology, thus counteracting the overexpression of Bax (Dauer, 2003).Though age is a significant risk factor for the development of PD, one toxin, in particular, can cause the disease to develop due to it targeting substantia nigral dopaminergic neurones. Siegel explains that though MTPT (1-methyl- 4-phenyl-1,2,3,6-tetrahydropyridine) itself isnt toxic, though the active metabolite form MPP+ is. Though at the time (1999) the mechanism for MPP+ toxicity wasnt understood it was later described by Alexander (2004). MPP+ toxicity via the inhibition of the mitochondrial complex I resulting in inhibition of the respiratory chain and enhanced oxidative stress within SNc neurones resulting in PCD. MPTP is used in experimental parkinsonism as dosing marmosets via subcutaneous administration of MPTP 1 mg kg for 3 neat days, which Iravani (2 005) found to produce reproducible results. The use of MPTP on marmosets and the development of PD provides sufficient evidence that MPTP is connected to the development of PD, it also allows for research to be through with(p) on animals are they can be given the disorder within a 6 month period an allow for research into the causative factor behind PD and the regions of the CNS that are affected.The expansion of understanding PD pathogenicity has grown over the last 25 years according to Schapira, as toxin research, premier investigations and gene deficits with familial PD have become general knowledge in consensus about the underlying mechanisms of cell death and neuronal loss. inflammatory change, mitochondrial dysfunction, oxidative stress, and altered protein formation are considered the main lead into understanding PD (Schapira, 2011). This ties into Dauers theory on Lewy bodies, Lees explantation on a-synuclein as they/were researching the leads mentioned by Schapira.The ca usative reasons for Parkinsons disease are thoroughly understood today compared to 1817, however, research is still underway to definitively understand the disorder. There is a clear understanding that (PD) is caused by the progressive death of substantia nigral dopaminergic neurones resulting in a reduced SNc dopamine content resulting in pathophysiological side effects. It is clear however that Lewy bodies are a classical characteristic of PD and are used in the diagnosis of the disorder, their true function is still under research. There is still some grey area of what causes the sudden initial death of theses neurones, though MPTP is linked to PD development via the study of marmosets. The research will continue to enhance a limited knowledge of the disorder and if there will ever be a possible way to regenerate those lost signalling pathways. Stem cell research on the cutting edge of neuronal regeneration as these unspecialised cells will eventually become neurones, replacing t he one already loss to cell death. Though ethically there are issues around using stem cells, it is a case of the good out weights the bad.ReferencesAbeliovich. A, S. Y.-L. (2000). Mice Lacking -Synuclein Display Functional Deficits in the Nigrostriatal Dopamine System. Neuron, 25(1), 239-252.Alexander, G. E. (2004). BIology of Parkinsons disease pathogenesis and pathophysiology of a multisystem neurodegenerative disorder. Dialogues in clinical Neuroscience, 3(6), 259-280.Baba, M. N. (1998). Aggregation of alpha-synuclein in Lewy bodies of sporadic Parkinsons disease and dementia with Lewy bodies. The American Journal of Pathology, 152(4), 879-884.Bai-Yun Zeng, M. M. (2010). Morphological changes in serotoninergic neurites in the striatum and globus pallidus in levodopa primed MPTP treated customary marmosets with dyskinesia. Neurobiology Of Disease, 40, 599-607. doi10.1016/j.nbd.2010.08.004Barbeau, A. (1969). L-DOPA Therapy in Parkinsons Disease A Critical Review of Nine Years Exp erience. Canadian Medical Association Journal, 101(13), 59-68.Chesselet, M.-F. (2008). In vivo alpha-synuclein overexpression in rodents a useful model of Parkinsons disease? Experimental Neurology, 209(1), 22-27. doi10.1016/j.expneurol.2007.08.006Haber, D. D. (2001, July 1). Striatal Responses to Partial Dopaminergic Lesion Evidence for Compensatory Sprouting. Journal Of Neuroscience, 20(13), 5102-5114.Iria G. Dopeso-Reyes, A. J. (2014, December 14). Calbindin content and differential vulnerability of midbrain efferent dopaminergic neurons in macaques. doi10.3389/fnana.2014.00146Lees. A.J, H. J. (2009, June 13). Parkinsons disease. The Lancet, 373, 2066.Leonidas, S. (2012). -Synuclein in Parkinsons Disease. Cold Spring Harbor Perspectives in Medicine, 2(2). doihttp//doi.org/10.1101/cshperspect.a009399Mahmoud M. Iravani, E. S. (2005). A modified MPTP treatment regime produces reproducible partial nigrostriatal lesions in common marmosets. European Journal Of Neuroscience, 21, 841-85 4.Marina Picillo, G. S. (2017). Association between dopaminergic dysfunction and anxiety in de novo Parkinsons disease. Parkinsonism and Related Disorders. Retrieved from http//dx.doi.org/10.1016/j.parkreldis.2017.02.010Pedro J. Garcia-Ruiz, K. R.-M. (2014). Non-motor symptoms of Parkinsons disease A reviewfrom the past. Journal Of Neurological Sciences, 338, 30-33. Retrieved from http//dx.doi.org/10.1016/j.jns.2014.01.002Power, J. B. (2017). Lewy Bodies and the Mechanisms of neuronic Cell Death in Parkinsons Disease and Dementia with Lewy Bodies. Brain Pathology, 27(1), 3-12. doi10.1111/bpa.12344Przedborski, V. J.-L. (2007). Protocol for the MPTP mouse model of Parkinsons disease. Nature Protocols, 2, 141-151. doidoi10.1038/nprot.2006.342Schapira, A. J. (2001). Etiology and pathogenesis of Parkinsons disease. ride Disorders, 26(6), 1049-1055. doi10.1002/mds.23732Siegel G.J, A. B. (Neurochemistry Molecular, Cellular and Medical Aspects). MPTP-Induced Parkinsonian Syndrome (6th ed. ). Philadelphia Lippincott-Raven. Retrieved from https//www.ncbi.nlm.nih.gov/books/NBK27974/William Dauer, S. P. (2003). Parkinsons Disease Mechanisms and Models. Neuron, 39(6), 889-909. doihttp//dx.doi.org/10.1016/S0896-6273(03)00568-3

No comments:

Post a Comment