Research
Peng lab focuses on the molecular and cellular mechanisms of alpha-synuclein and tau related neurodegenerative diseases including but not limited to Parkinson’s disease, Alzheimer’s disease and multiple system atrophy. We are developing cutting edge disease models and applying powerful genetic, multi-omics, structural and high through-put screen methods to investigate a wide range of topics related to the development and progression of this group of diseases. We are particularly interested in the transmission and conformational diversity of pathological proteins in the central nervous system and the role of neuron-glial interactions in this process.
1. Transmission mechanism of pathological protein in the central nervous system
Accumulating evidence supports the inter-cellular transmission and subsequent amplification of pathological proteins in the central nervous system as a key process for the progression of various neurodegenerative disease. We are interested in exploring the molecular mechanisms that modulate this transmission process, which could be exciting new drug targets for these diseases.
2. Conformational diversity of pathological proteins
Clinical and pathological diversity is a shared feature of various neurodegenerative diseases. Part of this diversity could result from the conformational diversity of pathological proteins underlying the diseases. For example, pathological alpha-synuclein in multiple system atrophy patients are a thousand fold more potent to induce alpha-synuclein pathology in various animal and cell model than those from Lewy body disease patients, which is consistent with the highly aggressive nature of multiple system atrophy. We would like to explore the conformational diversity of pathological proteins in diseased brains.
3. Interaction between neurons and glial cells
Neurons and glial cells forms integrated network in the central nervous system. We are interested in how pathological proteins could transmit among glial cells and between neurons and glial cells.