PiN Faculty Member - Kwang-Soo Kim, PhD

Kwang-Soo Kim, PhD

Professor of Psychiatry and Neuroscience

McLean Hospital
Mol. Neurobiology Lab, MRC, Rm. 216
115 Mill Street
Belmont, MA 02478
Tel: 617-855-2024
Fax: 617-855-3479
Visit my lab page here.

Abnormal regulation/degeneration of midbrain dopamine neuron is associated with major neurological and psychiatric disorders such as Parkinson’s disease, schizophrenia, and substance abuse. We are interested in understanding the molecular mechanisms underlying the development and maintenance of dopamine neurons in healthy and diseased brains. This is accomplished through detailed mechanistic studies of the relationship between critical extrinsic signals and intrinsic transcription factors, leading to important genetic networks and their functional roles in orchestrating the development and maintenance of dopamine neurons. Based on this molecular information, we seek to translate our results to preclinical and clinical application for neurodegenerative disorders such as Parkinson’s disease. In particular, we identified several key transcription factors that are crucial for early development and long-term maintenance and protection of midbrain dopamine neurons, leading us to identify them as potential drug targets for neurodegenerative disorders. We established efficient in vitro and in vivo assay systems and are currently investigating the development of novel therapeutics that may have neuroprotective and disease-modifying effects on neurodegenerative disorders.

Another area of research interest is the study of stem cells. In particular, we have recently focused on the development of clinically feasible and safe induced pluripotent stem (iPS) cell technology, which has great potential to study and treat human diseases. At present, the majority of iPS cells are derived through the use of viral vectors, resulting in clinically unsafe stem cells. We are interested in developing clinically and biomedically ideal iPS cells by safe techniques such as protein-based reprogramming with the long-term goal of advancing future personalized regenerative medicine. Once this technology is fully optimized, it will open an era of ‘cellular alchemy’ and provide potential platforms for human disease mechanism studies and novel therapeutic developments.

Last Update: 3/6/2018


For a complete listing of publications click here.



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