Stem cells can repair Parkinson’s-damaged circuits in mouse brains

The mature brain is infamously bad at repairing itself following damage like that caused by trauma or strokes, or from degenerative diseases like Parkinson’s. Stem cells, which are endlessly adaptable, have offered the promise of better neural repair. But the brain’s precisely tuned complexity has stymied the development of clinical treatments.

New initiative to study Parkinson disease

Su-Chun Zhang, MD, PhD, the Steenbock Professor in Behavioral and Neural Sciences at the University of Wisconsin-Madison and Waisman Center investigator, is part of an interdisciplinary team of researchers selected by the Aligning Science Across Parkinson’s (ASAP) initiative to receive $9 million over three years for the “Parkinson5D: Deconstructing Proximal Disease Mechanisms Across Cells, Space and Progression” or PD5D project.

Mutation in common protein triggers tangles, chaos inside brain cells

In a study published today, Waisman Center investigators Su-Chun Zhang, Albee Messing and colleagues point to new understandings of the broad range of effects that result from the GFAP mutation impacting astrocytes — important supporting …

A decade after stem cell feat, research ramps up

A decade after scientists announced the development of induced pluripotent stem cells, Waisman investigators, including Su-Chun Zhang and David Gamm, continue to use these cells to research and develop potential therapies for several disorders and conditions, such as ALS, Parkinson’s disease, spinal cord injury, and macular degeneration.