Therapeutic effect of near infrared (NIR) light on Parkinson’s disease models.

Janis Eells // Publications // Dec 29 2011

PubMed ID: 22201916

Author(s): Quirk BJ, Desmet KD, Henry M, Buchmann E, Wong-Riley M, Eells JT, Whelan HT. Therapeutic effect of near infrared (NIR) light on Parkinson’s disease models. Front Biosci (Elite Ed). 2012 Jan 1;4:818-23. PMID 22201916

Journal: Frontiers In Bioscience (Elite Edition), Volume 4, Jan 2012

Parkinson’s disease (PD) is a neurodegenerative disorder that affects large numbers of people, particularly those of a more advanced age. Mitochondrial dysfunction plays a central role in PD, especially in the electron transport chain. This mitochondrial role allows the use of inhibitors of complex I and IV in PD models, and enhancers of complex IV activity, such as NIR light, to be used as possible therapy. PD models fall into two main categories; cell cultures and animal models. In cell cultures, primary neurons, mutant neuroblastoma cells, and cell cybrids have been studied in conjunction with NIR light. Primary neurons show protection or recovery of function and morphology by NIR light after toxic insult. Neuroblastoma cells, with a gene for mutant alpha-synuclein, show similar results. Cell cybrids, containing mtDNA from PD patients, show restoration of mitochondrial transport and complex I and IV assembly. Animal models include toxin-insulted mice, and alpha-synuclein transgenic mice. Functional recovery of the animals, chemical and histological evidence, and delayed disease progression show the potential of NIR light in treating Parkinson’s disease.