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Year 2018, Volume: 10 Issue: 3, 794 - 794, 18.08.2018
https://doi.org/10.37212/jcnos.610152

Abstract

References

  • Braniste V, Al-Asmakh M, Kowal C, Anuar F, Abbaspour A, Tóth M, Korecka A, Bakocevic N, Ng LG, Kundu P, Gulyás B, Halldin C, Hultenby K, Nilsson H, Hebert H, Volpe BT, Diamond B, Pettersson S. 2014. The gut microbiota influences blood-brain barrier permeability in mice. Sci Transl Med. 6:263ra158.
  • Parashar A, Udayabanu M. 2017. Gut microbiota: Implications in Parkinson's disease. Parkinsonism Relat Disord. 38:1-7.
  • Matsumoto L, Takuma H, Tamaoka A, Kurisaki H, Date H, Tsuji S, Iwata A. 2010. CpG demethylation enhances alpha-synuclein expression and affects the pathogenesis of Parkinson's disease. PLoS One. 5:e15522.
  • Sampson TR, Debelius JW, Thron T, Janssen S, Shastri GG, Ilhan ZE, Challis C, Schretter CE, Rocha S, Gradinaru V, Chesselet MF, Keshavarzian A, Shannon KM, Krajmalnik-Brown R, Wittung- Stafshede P, Knight R, Mazmanian SK. 2016. Gut microbiota regulate motor deficits and neuroinflammation in a model of Parkinson's Disease. Cell 167:1469-1480.e12.

Human gut microbiota and Parkinson Disease

Year 2018, Volume: 10 Issue: 3, 794 - 794, 18.08.2018
https://doi.org/10.37212/jcnos.610152

Abstract

Human gut microbiota (GM) has now been accepted as a potential modulator ofhuman biology. Although new to the world of science, GM's impaction brain and behavior has drawn great attention around the globe. Studies have now proven that GM can directly or indirectly modify brain neurochemistry via various mechanisms like neural, immune and endocrine. The intestinal microbiota influence neurodevelopment, modulate behavior, and contribute to neurological disorders. This presentation is an overview of recent findings regarding the GM -brain axis in PD (Braniste et al. 2014; Sampson et al. 2016) Parkinson disease (PD) is the second-most common neurodegenerative disorder. PD patients show alpha-synuclein deposits and neurodegeneration in the enteric nervous system as well as breakdown of the mucosal barrier, bacterial invasion, and mucosal inflammation in the colon. Alterations in GM and increased gut permeability may influence PD pathophysiology via epigenetic processes that alter αSyn regulation (Matsumoto et al. 2010). Sampson et al. (2016) suggest that GM are required for the hallmark motor and GI dysfunction in a mouse model of PD, via postnatal gut-brain signaling by microbial molecules that impact neuroinflammation and αSyn aggregation. They propose that GM regulate movement disorders and suggest that alterations in thehuman microbiome represent a risk factor for PD. GM do not only affect gut physiology, but there is also an intense bidirectional interaction with the brain influencing neuronal activity, behavior, as well as levels of neurotransmitter receptors, neurotrophic factors, and inflammation. Recently, gut microbiome alterations in PD subjects and a connection between GM and motoras well as non-motor symptoms have been described (Sampson et al. 2016; Parashar and Udayabanu 2017)

References

  • Braniste V, Al-Asmakh M, Kowal C, Anuar F, Abbaspour A, Tóth M, Korecka A, Bakocevic N, Ng LG, Kundu P, Gulyás B, Halldin C, Hultenby K, Nilsson H, Hebert H, Volpe BT, Diamond B, Pettersson S. 2014. The gut microbiota influences blood-brain barrier permeability in mice. Sci Transl Med. 6:263ra158.
  • Parashar A, Udayabanu M. 2017. Gut microbiota: Implications in Parkinson's disease. Parkinsonism Relat Disord. 38:1-7.
  • Matsumoto L, Takuma H, Tamaoka A, Kurisaki H, Date H, Tsuji S, Iwata A. 2010. CpG demethylation enhances alpha-synuclein expression and affects the pathogenesis of Parkinson's disease. PLoS One. 5:e15522.
  • Sampson TR, Debelius JW, Thron T, Janssen S, Shastri GG, Ilhan ZE, Challis C, Schretter CE, Rocha S, Gradinaru V, Chesselet MF, Keshavarzian A, Shannon KM, Krajmalnik-Brown R, Wittung- Stafshede P, Knight R, Mazmanian SK. 2016. Gut microbiota regulate motor deficits and neuroinflammation in a model of Parkinson's Disease. Cell 167:1469-1480.e12.
There are 4 citations in total.

Details

Primary Language English
Subjects Clinical Sciences
Journal Section Original Articles
Authors

Mustafa Güzel

Publication Date August 18, 2018
Published in Issue Year 2018 Volume: 10 Issue: 3

Cite

APA Güzel, M. (2018). Human gut microbiota and Parkinson Disease. Journal of Cellular Neuroscience and Oxidative Stress, 10(3), 794-794. https://doi.org/10.37212/jcnos.610152
AMA Güzel M. Human gut microbiota and Parkinson Disease. J Cell Neurosci Oxid Stress. August 2018;10(3):794-794. doi:10.37212/jcnos.610152
Chicago Güzel, Mustafa. “Human Gut Microbiota and Parkinson Disease”. Journal of Cellular Neuroscience and Oxidative Stress 10, no. 3 (August 2018): 794-94. https://doi.org/10.37212/jcnos.610152.
EndNote Güzel M (August 1, 2018) Human gut microbiota and Parkinson Disease. Journal of Cellular Neuroscience and Oxidative Stress 10 3 794–794.
IEEE M. Güzel, “Human gut microbiota and Parkinson Disease”, J Cell Neurosci Oxid Stress, vol. 10, no. 3, pp. 794–794, 2018, doi: 10.37212/jcnos.610152.
ISNAD Güzel, Mustafa. “Human Gut Microbiota and Parkinson Disease”. Journal of Cellular Neuroscience and Oxidative Stress 10/3 (August 2018), 794-794. https://doi.org/10.37212/jcnos.610152.
JAMA Güzel M. Human gut microbiota and Parkinson Disease. J Cell Neurosci Oxid Stress. 2018;10:794–794.
MLA Güzel, Mustafa. “Human Gut Microbiota and Parkinson Disease”. Journal of Cellular Neuroscience and Oxidative Stress, vol. 10, no. 3, 2018, pp. 794-, doi:10.37212/jcnos.610152.
Vancouver Güzel M. Human gut microbiota and Parkinson Disease. J Cell Neurosci Oxid Stress. 2018;10(3):794-.

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