David Chia, PhD
Dr. David Chia's major research interest is in the development of bio-markers for the early detection of cancers. Chia and his colleagues are involved in two National Cancer Institute (NCI)-sponsored studies designed to evaluate the efficacy of screening a population of normal individuals for a variety of tumor-associated markers in reducing mortality from prostate, lung, colon and ovarian cancers. The researchers measure the prostate-specific antigen, PSA, and another cancer antigen, Ca-125, levels in a large normal population as part of a national study, but are interested in several other tumor markers as well. Continued >>
Alistair Cochran, MD
Melanocytic tumors and the interactions of immunological, molecular and genetic factors that determine whether metastatic spread occurs
Dr. Alistair Cochran is primarily interested in the pathology of the skin with a focus on diseases and tumors of the melanocytes: nevi and melanomas. Secondary interests include the pathology of diseases of the breast and lung. His research interests include the elucidation of mechanisms of metastasis as a basis for the development of new and better approaches to the prevention and treatment of metastases in melanoma and breast cancer. Continued >>
David Dawson, MD, PhD
Epigenetics and growth signaling in pancreatic carcinogenesis
Pancreatic cancer is a highly aggressive and lethal cancer due to its typically advanced stage at initial diagnosis, poor response to chemotherapy and propensity to recur and metastasize. My research addresses the role of epigenetic modifications, including DNA methylation and histone modifications, in mediating pancreatic cancer progression. In addition, we are exploring the importance of specific growth signaling pathways in the evolution and maintenance of pancreatic cancer stem cells, as accumulating data support the concept that cancer stem cells may be critical determinants of chemoresistance, metastasis and disease recurrence in pancreatic cancer.Continued >>
Sarah Dry, MD
Clinical and translational research in sarcoma and pancreatic cancer
Dr. Sarah Dry focuses on clinical and translational research in sarcoma and pancreatic cancer. An emerging area of research interest is the use of digital pathology, including automated analysis, in clinical, translational and basic science studies. More Info >>
Steven Dubinett, MD
Inflammation and immunity in the pathogenesis of lung cancer
Dr. Dubinett conducts translational research in the immunobiology of lung cancer. Building on original discoveries regarding inflammation in human non-small cell lung cancer (NSCLC), he has developed a translational research program, which now utilizes these laboratory-based studies in the laboratory and clinical setting. His laboratory has identified inflammation-dependent genes and proteins mediating angiogenesis, apoptosis resistance, invasion and immune suppression in NSCLC. His studies focus on the microenvironment, inflammation and epithelial mesenchymal transition in the pathogenesis of lung cancer.
Michael Fishbein, MD
Formation and progression of lung cancer
Dr. Fishbein has a broad range of research interests spanning many aspects of pulmonary and cardiovascular diseases. Dr. Fishbein does collaborative basic, translational, and clinical research in pulmonary neoplasms and interstitial lung diseases and cardiovascular diseases including arteriosclerotic vascular diseases and cardiac arrhythmogenesis. Pathology of heart and lung transplantation is another major research area. More Info >>
Samuel French, MD, PhD
Hepatitis C viral mediated hepatocarcinogenesis
Hepatocellular carcinoma (HCC) is the third most common cause of cancer related death worldwide. One of most common causes of HCC includes infection with hepatitis C virus (HCV) in association with cirrhosis. We study the impact of HCV on hepatocyte cell signaling that augments viral infection and promotes hepatocarcinogenesis. We primarily utilize a proteomic approach to identify pathways targeted by HCV. More Info >>
Oliver Hankinson, PhD
Research Interests: Dr. Hankinson's research focuses on several areas. In one line of investigation he studies the mechanism of carcinogenesis by polycyclic aromatic hydrocarbons (found in cigarette smoke and smog) and dioxin (a widespread pollutant), and related compounds. Carcinogenesis by these compounds depends upon their binding to the aryl hydrocarbon receptor (AHR) and the subsequent dimerization of AHR with the ARNT protein.
Siavash Kurdistani, MD
Chromatin is a highly condensed complex of nucleic acid and basic proteins whose fundamental subunit, the nucleosome, has the same type of design in all eukaryotes. The nucleosome contains ~200 bp of DNA wrapped around an octamer of histones consisting of two copies of each histone H2A, H2B, H3 and H4. All histones are modified by covalent linkage of extra chemical moieties to the free groups of certain amino acids.
Bogdan Pasaniuc, PhD
Dr. Pasaniuc is primarily interested in statistical and computational methods for understanding genetic risk factors for common diseases with a particular focus in the study of admixed populations.
Dinesh Rao, MD, PhD
Regulation of hematopoietic development and cancer by non-coding RNA
Broadly speaking, we want to understand the physiology and pathology of non-coding RNA and their interactors in hematopoiesis. Gene expression is a key component of regulating hematopoiesis, and many non-coding RNAs have some effect on gene expression. One subset of non-coding RNA, microRNAs, regulate gene expression and are thought, in most cases, to repress mRNA translation or cause degradation. More Info >>
Jian Yu Rao, MD
Cancer molecular signatures, biomarker and prevention
The research in my laboratory is focused on developing biomarkers that can be used for individual risk assessment, early detection, and therapeutic monitoring of cancer. To reach this goal, we have two specific research areas: The first area of research is to study the molecular basis of tumor morphogenesis, we focus our effort on investigating how cytoskeletal proteins, specifically the microfilament actin and the associated binding...More Info >>
Jonathan Said, MD
Pathologic basis of neoplastic disease
The laboratory has a number of ongoing projects related to: Use of tumor markers to characterize neoplastic proliferations. These include use of immunohistochemistry and in-situ hybridization to identify tumor antigens and gene products associated with neoplastic transformation and tumor progression. Mechanisms of lymphomagenesis including the role of dendritic cells in the pathogenesis of lymphomas... Continued >>
Robert Schiestl, PhD
Molecular mechanism of carcinogenesis
The work is centered on gene-environment-nutrition interactions in carcinogenesis. Why certain people are predisposed to environmentally caused cancer and how nutrition can counteract such elevated cancer risk. As research organisms we use yeast, mammalian cells and mice. Endpoints are mostly genetic instability, mutations, DNA single and double strand breaks, DNA repair efficiency and oxidative DNA damage.
Peggy Sullivan, MD
Cytologic, breast and gynecologic pathology
Dr. Sullivan is a board certified cytopathologist, gynecologic, and breast pathologist who completed her anatomic/clinical pathology residency, cytopathology fellowship, and women's health pathology fellowship training at UCLA. She is co-director of the Fine Needle Aspiration Clinic and a staff pathologist in the Translational Pathology Core Laboratory. Continued >>
Michael Teitell, MD, PhD
Signaling and epigenetics in immune system development and cancer
My laboratory studies two overlapping areas with emerging roles in cancer of the immune system. We initially compared gene expression profiles from B cell tumors that arose in immune deficient versus immune competent settings. This approach resulted in the isolation of a large number of differentially expressed genes. We have characterized these isolates and focused on members of the TCL1 gene family, which... Continued >>
Madhuri Wadehra, PhD
Dr. Madhuri Wadehra's research and discovery efforts are focused on two related themes in tumor biology: understanding the function of a tetraspan protein epithelial membrane protein-2 (EMP2) in tumor progression, and developing therapeutic and diagnostic agents that target tumors that overexpress EMP2. Continued >>
Anna Wu, PhD
Engineered antibodies for cancer targeting and imaging
Our research interests center around understanding and using molecular recognition (protein-protein, nucleic acid-nucleic acid, and protein-nucleic acid) to distinguish tumor cells from normal cells and to develop practical applications in oncology - diagnostic or therapeutic. Recent work has focused on genetic engineering of antibodies to provide optimal agents for delivery of radionuclides to tumor cells.