Your search keyword '"Olin Pope BE"' showing total 4 results

1. Multi-Parameter Quantitative Imaging of Tumor Microenvironments Reveals Perivascular Immune Niches Associated With Anti-Tumor Immunity

Author

Caleb R. Stoltzfus, Ramya Sivakumar, Leo Kunz, Brandy E. Olin Pope, Elena Menietti, Dario Speziale, Roberto Adelfio, Marina Bacac, Sara Colombetti, Mario Perro, and Michael Y. Gerner

Subjects

spatial analysis, quantitative microscopy, tumor microenvironments, CD8 T cells, dendritic cells, macrophages, Immunologic diseases. Allergy, RC581-607

Abstract

Tumors are populated by a multitude of immune cell types with varied phenotypic and functional properties, which can either promote or inhibit anti-tumor responses. Appropriate localization and function of these cells within tumors is critical for protective immunity, with CD8 T cell infiltration being a biomarker of disease outcome and therapeutic efficacy. Recent multiplexed imaging approaches have revealed highly complex patterns of localization for these immune cell subsets and the generation of distinct tumor microenvironments (TMEs), which can vary among cancer types, individuals, and within individual tumors. While it is recognized that TMEs play a pivotal role in disease progression, a better understanding of their composition, organization, and heterogeneity, as well as how distinct TMEs are reshaped with immunotherapy, is necessary. Here, we performed spatial analysis using multi-parameter confocal imaging, histocytometry, and CytoMAP to study the microanatomical organization of immune cells in two widely used preclinical cancer models, the MC38 colorectal and KPC pancreatic murine tumors engineered to express human carcinoembryonic antigen (CEA). Immune responses were examined in either unperturbed tumors or after immunotherapy with a CEA T cell bispecific (CEA-TCB) surrogate antibody and anti-PD-L1 treatment. CEA-TCB mono and combination immunotherapy markedly enhanced intra-tumoral cellularity of CD8 T cells, dominantly driven by the expansion of TCF1-PD1+ effector T cells and with more minor increases in TCF1+PD1+ resource CD8 T cells. The majority of infiltrating T cells, particularly resource CD8 T cells, were colocalized with dendritic cells (DCs) or activated MHCII+ macrophages, but largely avoided the deeper tumor nest regions composed of cancer cells and non-activated macrophages. These myeloid cell – T cell aggregates were found in close proximity to tumor blood vessels, generating perivascular immune niches. This perivascular TME was present in untreated samples and markedly increased after CEA-TCB therapy, with its relative abundance positively associated with response to therapy. Together, these studies demonstrate the utility of advanced spatial analysis in cancer research by revealing that blood vessels are key organizational hubs of innate and adaptive immune cells within tumors, and suggesting the likely relevance of the perivascular immune TME in disease outcome.

Published

2021

2. Multi-Parameter Quantitative Imaging of Tumor Microenvironments Reveals Perivascular Immune Niches Associated with Anti-Tumor Immunity

Author

Leo Kunz, Dario Speziale, Roberto Adelfio, Marina Bacac, Sara Colombetti, Mario Perro, Elena Menietti, Michael Y. Gerner, Brandy E Olin Pope, Caleb R. Stoltzfus, and Ramya Sivakumar

Subjects

Male, Myeloid, spatial analysis, T-Lymphocytes, medicine.medical_treatment, T cell, Immunology, Mice, Transgenic, CD8 T cells, Biology, B7-H1 Antigen, blood vessels, Antineoplastic Agents, Immunological, Immune system, Cell Line, Tumor, Neoplasms, tumor microenvironments, Antibodies, Bispecific, Tumor Microenvironment, medicine, Animals, Immunology and Allergy, Cytotoxic T cell, dendritic cells, Immune Checkpoint Inhibitors, checkpoint blockade therapy, Original Research, Mice, Inbred BALB C, Tumor microenvironment, Microscopy, Confocal, quantitative microscopy, Immunotherapy, RC581-607, Carcinoembryonic Antigen, macrophages, medicine.anatomical_structure, Cancer cell, Cancer research, biology.protein, Immunologic diseases. Allergy, Antibody

Abstract

Tumors are populated by a multitude of immune cell types with varied phenotypic and functional properties, which can either promote or inhibit anti-tumor responses. Appropriate localization and function of these cells within tumors is critical for protective immunity, with CD8 T cell infiltration being a biomarker of disease outcome and therapeutic efficacy. Recent multiplexed imaging approaches have revealed highly complex patterns of localization for these immune cell subsets and the generation of distinct tumor microenvironments (TMEs), which can vary among cancer types, individuals, and within individual tumors. While it is recognized that TMEs play a pivotal role in disease progression, a better understanding of their composition, organization, and heterogeneity, as well as how distinct TMEs are reshaped with immunotherapy, is necessary. Here, we performed spatial analysis using multi-parameter confocal imaging, histocytometry, and CytoMAP to study the microanatomical organization of immune cells in two widely used preclinical cancer models, the MC38 colorectal and KPC pancreatic murine tumors engineered to express human carcinoembryonic antigen (CEA). Immune responses were examined in either unperturbed tumors or after immunotherapy with a CEA T cell bispecific (CEA-TCB) surrogate antibody and anti-PD-L1 treatment. CEA-TCB mono and combination immunotherapy markedly enhanced intra-tumoral cellularity of CD8 T cells, dominantly driven by the expansion of TCF1− PD1+ effector T cells and with more minor increases in TCF1+PD1+ resource CD8 T cells. The majority of infiltrating T cells, particularly resource CD8 T cells, were colocalized with dendritic cells (DCs) or activated MHCII+ macrophages, but largely avoided the deeper tumor nest regions composed of cancer cells and non-activated macrophages. These myeloid cell – T cell aggregates were found in close proximity to tumor blood vessels, generating perivascular immune niches. This perivascular TME was present in untreated samples and markedly increased after CEA-TCB therapy, with its relative abundance positively associated with response to therapy. Together, these studies demonstrate the utility of advanced spatial analysis in cancer research by revealing that blood vessels are key organizational hubs of innate and adaptive immune cells within tumors, and suggesting the likely relevance of the perivascular immune TME in disease outcome.

Published

2021

3. Multi-Parameter Quantitative Imaging of Tumor Microenvironments Reveals Perivascular Immune Niches Associated With Anti-Tumor Immunity

Author

Stoltzfus, Caleb R., primary, Sivakumar, Ramya, additional, Kunz, Leo, additional, Olin Pope, Brandy E., additional, Menietti, Elena, additional, Speziale, Dario, additional, Adelfio, Roberto, additional, Bacac, Marina, additional, Colombetti, Sara, additional, Perro, Mario, additional, and Gerner, Michael Y., additional

Published

2021

4. Quantitative 3D assessment of the lung cancer microenvironment using multi-resolution open-top light-sheet microscopy.

Author

Stoltzfus, Caleb R, Reder, Nicholas, Alvarsson, Alexandra, DeWitt, Anna, Storey, Carl, Wilson, Jasmine, Grant, Nathan, Simmons, David, Olin-Pope, Brandy, Vierkant, Robert A., Tufariello, Jessica, Bungum, Aaron O, Naso, Julia R., Chan, Cheuk Ki, Edell, Eric S, Hartley, Christopher P, and Reisenauer, Janani S

Published

2023