Nancy M. Dahms, PhD
Professor


Dr. Dahms received her Bachelor of Science degree from Marquette University in 1980 and her Doctorate degree in Biochemistry from the Johns Hopkins University School of Medicine in 1986. She was a postdoctoral fellow at Washington University School of Medicine from 1986-1989 where she isolated and characterized the cDNA clones for the receptors involved in targeting lysosomal enzymes to the lysosome. She joined the faculty of the Medical College of Wisconsin in 1989.

Contact Information

Phone: (414) 955-4698
Fax: (414) 955-6510
Email: ndahms@mcw.edu


 

Background and Research Interests

The P-type lectin family, comprised of the cation-independent mannose 6-phosphate/IGF2 receptor (CI-MPR or IGF2R) and the cation-dependent mannose 6-phosphate receptor (CD-MPR) is named for the members’ ability to recognize N-linked glycans displaying mannose 6-phosphate (M6P). These receptors play a critical role in the biogenesis of lysosomes by targeting newly synthesized acid hydrolases containing M6P to the lysosome. Furthermore, treatment of patients with lysosomal storage diseases by enzyme replacement therapy depends on cell surface CI-MPRs delivering recombinant enzymes to the lysosome. The MPRs define a larger family of proteins which contain a similar domain(s) called Mannose 6-phosphate Receptor Homology or MRH domain.  These MRH domains are found in proteins in the ER and Golgi and play vital roles in protein folding and protein degradation.

 

The Family of MRH Proteins

Our research investigates the molecular mechanisms underlying the role of glycans and their receptors in the secretory pathway.  One major focus is on the biogenesis of lysosomes and the quality control pathway of glycoprotein folding in the endoplasmic reticulum (ER).  

The Role of MRH Domains in Protein Folding and Degradation

 

MRH domains are found in several proteins in the ER and Golgi.  In collaboration Dr. Cecilia D’Alessio, we have initiated structural studies of Glucosidase II (GlcII).  GlcII is a heterodimic protein with a catalytic α domain and a β domain responsible for ER retention as well as housing a MRH domain essential for full GlcII activity.  Through collaborations with Drs. Brian Volkman and Francis Peterson, we were able to solve the structure of this MRH domain using NMR.

 

The Role of MRH Domains in Lysosome Biogenesis

 

To begin to understand how these receptors are able to bind and release the diverse population of  lysosomal acid hydrolases as they travel through the secretory pathway, we employ structural studies utilizing both X-ray crystallography in collaboration with Dr. Jung-Ja Kim as well as NMR (collaborations listed above).  These studies allow us to not only investigate the protein ligand interactions through high resolution structures, but also allow us to evalutate the dynamics of the MRH domains as a function of ligand binding and pH.

 

Specificity of Carbohydrate Binding

CI-MPR harbors 4 carbohydrate binding sites while CD-MPR houses only one carbohydrate recognition domain (CRD) per monomer.  These CRDs all have different ligand preferences in order to accomplish the cellular role of these receptors.  We use surface plasmon resonance (SPR) techniques to evaluate the interplay between receptor and ligand.  Our longstanding collaboration with Drs. Richard Cummings and David Smith of the National Center for Functional Glycomics allows us to further investigate carbohydrate specificity through use of their glycan arrays.


 

CI-MPR/IGF2R is a Multifunctional Protein

 

Another area of investigation involves the regulation of signaling pathways and activation of growth factors and proteases through CI-MPR’s interactions with uPAR, plasminogen, and IGF2.

 

Current studies are directed towards defining the signaling pathways involved in the differentiation of fibroblasts to myofibroblasts. Overabundance of myofibroblasts is associated with tissue fibrosis and corneal hazing. In collaborative studies with Dr. Sally Twining, we have shown that the CI-MPR is a critical component required for the conversion of corneal fibroblasts to myofibroblasts.

Accepted Publications
 

Bohnsack, RN, Warejcka, DJ, Wang, L, Gillespie, SR, Bernstein, AM, Twining, SS, and Dahms, NM  (2014) Expression of Insulin-like Growth Factor 2 Receptor (IGF2R) in Corneal Keratocytes during Differentiation and in Response to Wound Healing. Investigative Ophthalmology & Visual Science

Recent Publications

 

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