Hans Schreiber, M.D., Ph.D.

APPOINTMENTS

  • Professor, Department of Pathology/MPMM, Cancer Research Center, Committee on Cancer Biology, Committee on Immunology

EDUCATION

M.D.        University of Freiburg 
D.M.Sc.  University of Freiburg
Ph.D.     The University of Chicago

CONTACT INFORMATION

The University of Chicago
AMB G308, (MC 1089)
5841 South Maryland Avenue
Chicago, Illinois 60637

hszz@uchicago.edu

Phone:  (773) 702-9204

RESEARCH SUMMARY

Tumor Immunology; Tumor Progression, Tumor-Specific T-cell Clones; Characterization of Tumor Variants; Molecular Genetics of Tumor Antigens

The main focus of this laboratory is to study the fundamental mechanisms that govern the interaction of cancer cells with the immune system. In particular, our laboratory is trying to exploit the fact that cancer cells usually carry cancer-specific mutations and antigens, and that, under certain conditions, the immune system can destroy cancer cells even after they have disseminated in the body. We are trying to understand the mechanisms that often allow immunogenic cancer cells to escape immune destruction, and we want to develop new strategies and principles on which to base novel therapeutic approaches. We are also studying the signals needed for the immune system to be alerted by cancer cells, and then to destroy these cells. For these studies we are using newest molecular tools and novel bio-engineered molecules and technologies. Finally, we combine immunology with genetics and biochemistry, a combination that provides a most powerful tool to search for cancer-specific changes in malignant cells. Identification of these changes may not only identify critical causative mechanisms but also new immunological and pharmacological targets that can be used to destroy the cancer.

Some of the ongoing projects in my laboratory are:

1. Mechanism of tumor escape from host immunity. Development of new strategies to prevent this escape by genetic engineering and immune manipulations.

2. Mechanisms leading to paracrine stimulation of tumor growth. Novel
approaches of using tumor stroma as therapeutic target.

3. Use of tumor-specific mutant proteins or viral oncoproteins (E6/E7 of HPV) as target for immune prevention of primary cancer development.

4. Identification of the molecular basis and genetic origins of tumor-specific target antigens and target molecules that cannot be lost by cancer cells.

View Research Papers on PubMed