C. Marcela Diaz, PhD
Scientific Director, Immunomonitoring Lab
Email: [email protected]
Location: Cleveland Clinic Main Campus
Research
The main research focus of our laboratory pertains to elucidating the mechanisms that mediate the optimal induction of anti-tumor immune responses.
Biography
Dr. C. Marcela Diaz obtained her PhD in Experimental Pathology at the University of Texas Medical Branch where she worked on vaccine development for Mediterranean spotted fever (Rickettsia conorii), a disease that closely resembles Rocky Mountain spotted fever. She continued as a postdoctoral fellow at the University of Texas MD Anderson Cancer Center, during which she investigated the physiological changes that enable cancer cells to become anchor-independent and metastasize. She was a Research Instructor at the Medical University of South Carolina and Research Assistant Professor at the University of Miami Miller School of Medicine before joining the Cleveland Clinic Lerner Research Institute as Project Staff and the Case Western School of Medicine as Adjunct Assistant Professor in 2013. Dr. Diaz and her lab joined the Center for Immunotherapy and Precision Immuno-Oncology (CITI) in 2022.
In parallel, she was appointed Scientific Director of the Immunomonitoring Lab (IML), where she combines her translational research interests with the IML’s menu of immunophenotypic and banking services. As one of three shared resources in CITI, the IML provides cutting edge technology for the comprehensive immunophenotyping of human blood and tissue. Dr. Diaz's lab supports translational investigators who aim to monitor the efficacy and biologic underpinnings of therapeutic interventions using immunologic profiling for precision treatment regimens. Her IML platform has extensive expertise and refinement in the process of biobanking samples for immediate or downstream immunophenotypic cell sorting, sequencing, and linkage to computational sequencing analysis with the CITI Computational Immunology Platform – a one stop shop!
Education & Professional Highlights
Appointed
2022
Education and Fellowships
Postdoctoral Fellowship - University of Texas, MD Anderson Cancer Center
Department of Immunology
Houston, TX USA
2005
Graduate - University of Texas, Medical Branch
Experimental Pathology
Galveston, TX USA
2001
Graduate - Texas A&M University
Microbiology
Kingsville, TX USA
1997
Undergraduate - Universidad Industrial de Santander
Biology
Bucaramanga, Colombia
1993
Awards & Honors
- Bogush Memorial Scholarship, Texas A&M-Kingsville
- Clayton Fund Pre-Doctoral Fellowship, University of Texas Medical Branch
- Center for Tropical Diseases Student Award, University of Texas Medical Branch
- Onstead Foundation Fellow Award, U.T.M.D. Anderson Cancer Center
- Trainee Travel Award, American Society for Investigative Pathology
- Minority Scholar Award, American Association for Cancer Research
Memberships
- Society for Immunotherapy of Cancer
2013-present - American Society for Clinical Oncology
2006-present - American Association for Cancer Research
2003-2014 - American Society for Investigative Pathology
1998-2008 - American Association of Immunologists
1998-2006
Research
Overview
The main research focus of our laboratory pertains to elucidating the mechanisms that mediate the optimal induction of anti-tumor immune responses. To accomplish this, we have developed a preclinical model that recapitulates the generation of protective anti-tumor immune responses in the setting of adoptive cell transfer. Using this model, we have previously demonstrated unique biological traits of ex vivo activated T cells that have important implications for the design of clinical trials that utilize adoptive cell therapy. We have also developed tumor models with variable levels and types of inflammation with the goal of understanding how intratumoral inflammation influences the factors that promote or inhibit anti-tumor immune responses. We collaborate with solid tumor oncologists in several projects aimed at elucidating the mechanisms behind resistance to immunotherapy. Our group was one of the first to demonstrate the clinical relevance of myeloid derived suppressor cells in cancer and we currently focus on understanding the factors that promote MDSC function.
Our ongoing projects include:
- Identifying the traits of activated anti-tumor T cells that associate with enhanced survival, homing and cytotoxic function. Our model of productive adoptive T cell therapy involves the ex vivo expansion of T cells in the presence of IL-12. We have modified the conditions of T c ell expansion and/or transfer to mimic both productive and non-productive T cell-mediated anti-tumor responses. We are using this model to elucidate the immune determinants that are required for clinically beneficial T cell mediated responses induced after adoptive transfer.
- Characterizing the inflammatory mediators that promote and/or impede effective anti-tumor responses. We are utilizing tumor cell lines that mediate varying levels of inflammation to identify the stromal cell sources responsible for the production of the functionally relevant products that govern a pro-tumor or anti-tumor inflammatory state. These findings will provide the scientific rationale for devising synergistic combinatorial strategies that target the relevant mediators with the goal of enhancing the effectiveness of checkpoint blockade.
- We are using preclinical models and patient-derived materials for in vivo and in vitro functional assays as well as immunogenomic profiling to understand the mechanisms that mediate the elicitation and function of MDSCs and their impact on responses to immunotherapy.
Our Team
Selected Publications
View publications for C. Marcela Diaz, PhD
(Disclaimer: This search is powered by PubMed, a service of the U.S. National Library of Medicine. PubMed is a third-party website with no affiliation with Cleveland Clinic.)
Díaz-Montero CM, Salem ML, Garrett-Mayer E, Cole DJ, Montero AJ. Increased Levels of Circulating Myeloid-Derived Suppressor Cells In Whole Blood Correlate With Advanced Clinical Cancer Stage, Increased Tumor Burden, and Cyclophosphamide Containing Chemotherapy in Solid Tumor Patients. Cancer Immunol Immunother. 2009 Jan;58(1):49-59.
Najjar YG, Rayman PA, Jia X, Pavicic PG, Rini BI, Tannenbaum CS, Ko J, Haywood S, Cohen PA, Hamilton T, Díaz Montero CM, Finke JH. Myeloid derived suppressor cell subset accumulation in renal cell carcinoma parenchyma is associated with intratumoral expression of IL-1β, IL-8, CXCL5 and Mip-1α. Clin Cancer Res. 2017 May 1;23(9):2346-2355.
Lin L, Rayman P, Pavicic PG Jr, Tannenbaum C, Hamilton T, Montero A, Ko J, Gastman B, Finke J, Ernstoff M, Díaz-Montero CM. Ex vivo conditioning with IL-12 protects tumor-infiltrating CD8+ T cells from negative regulation by local IFN-γ. Cancer Immunol Immunother. 2019 Mar;68(3):395-405
Tannenbaum CS, Rayman PA, Pavicic PG, Kim JS, Wei W, Polefko A, Wallace W, Rini BI, Morris-Stiff G, Allende DS, Hamilton T, Finke JH, Díaz-Montero CM. Mediators of Inflammation-Driven Expansion, Trafficking, and Function of Tumor-Infiltrating MDSCs. Cancer Immunol Res. 2019 Aug 22.
Díaz-Montero CM, Rini BI, Finke JH. The Immunology of Renal Carcinoma. Nature Reviews Nephrology. 2020 Dec;16(12):721-735.
Careers
Research News
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