Lobner Lab

The primary focus of my research is on determining the mechanism of cell death in neurodegenerative diseases. The neurodegenerative diseases, Alzheimer’s, Parkinson’s, and amyotrophic lateral sclerosis (ALS) are all similar in that the disease is usually caused by a combination of genetic predisposition and environmental factors. However, what those environmental factors are is completely unknown. We use cell culture methods to study the mechanism of toxicity of a number of potential candidates, including mercury, pesticides, and BMAA. BMAA is a non-protein amino acid that was first implicated in neurodegenerative diseases on the pacific island of Guam, but recent evidence suggests that it may be involved in triggering the onset of neurodegenerative diseases throughout the world.  We have found that BMAA acts through the cystine/glutamate transporter (system xc-) to cause neuronal death.  The goal of the research is to determine how environmental toxins interact with genetic predisposition, particularly at the level of system xc-, to cause neurodegenerative diseases.

A second area of interest is the toxicity of dental materials. When dental pulp cells are exposed to the environment, whether it is due to trauma, rapidly progressing cavities, or overly aggressive restoration procedures, vital pulp therapy is required to attempt to prevent the death of those cells.  If this procedure fails, a root canal procedure will be required in the future.  During vital pulp therapy a pulp capping material is used. The objective of the pulp capping material is to stimulate the formation of a dentin bridge over the exposed pulp.  Calcium hydroxide containing materials are widely used for pulp capping because of their ability to stimulate reparative dentin formation.  Reports of the success rate of pulp capping treatments vary greatly and it is clear that in actual dental practice current procedures are not always effective.  A potential alternative, or adjunct, to calcium hydroxide compounds is the use of growth factors during pulp capping procedures.  Growth factors have been shown to induce the formation of reparative dentine and we have shown that they can protect dental pulp cells against toxicity induced by a number of insults.  Importantly, we found that the protective effects of growth factors are due to their ability to upregulate system xc-.  The hypothesis being tested is that alterations in system xc- function is a determining factor in the success of pulp capping materials.  The information obtained from these studies will provide guidance to determining the most effective pulp capping material to prevent the need for root-canal procedures.

Selected Publications


Schroeder Complex

Contact Biomedical Sciences

Department of Biomedical Sciences
College of Health Sciences
Schroeder Complex, 426
P.O. Box 1881
Milwaukee, WI 53201-1881

Phone: (414) 288-7251
Fax: (414) 288-6564