Your search keyword '"Burton, Elizabeth A."' showing total 4 results

1. B cells and tertiary lymphoid structures promote immunotherapy response

Author

Helmink, Beth A, Reddy, Sangeetha M, Gao, Jianjun, Zhang, Shaojun, Basar, Rafet, Thakur, Rohit, Yizhak, Keren, Sade-Feldman, Moshe, Blando, Jorge, Han, Guangchun, Gopalakrishnan, Vancheswaran, Xi, Yuanxin, Zhao, Hao, Amaria, Rodabe N, Tawbi, Hussein A, Cogdill, Alex P, Liu, Wenbin, LeBleu, Valerie S, Kugeratski, Fernanda G, Patel, Sapna, Davies, Michael A, Hwu, Patrick, Lee, Jeffrey E, Gershenwald, Jeffrey E, Lucci, Anthony, Arora, Reetakshi, Woodman, Scott, Keung, Emily Z, Gaudreau, Pierre-Olivier, Reuben, Alexandre, Spencer, Christine N, Burton, Elizabeth M, Haydu, Lauren E, Lazar, Alexander J, Zapassodi, Roberta, Hudgens, Courtney W, Ledesma, Deborah A, Ong, SuFey, Bailey, Michael, Warren, Sarah, Rao, Disha, Krijgsman, Oscar, Rozeman, Elisa A, Peeper, Daniel, Blank, Christian U, Schumacher, Ton N, Butterfield, Lisa H, Zelazowska, Monika A, McBride, Kevin M, Kalluri, Raghu, Allison, James, Petitprez, Florent, Fridman, Wolf Herman, Sautès-Fridman, Catherine, Hacohen, Nir, Rezvani, Katayoun, Sharma, Padmanee, Tetzlaff, Michael T, Wang, Linghua, and Wargo, Jennifer A

Subjects

Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Immunology, Immunization, Cancer, Vaccine Related, Genetics, B-Lymphocytes, Biomarkers, Tumor, Carcinoma, Renal Cell, Cell Cycle Checkpoints, Clone Cells, Dendritic Cells, Follicular, Gene Expression Regulation, Neoplastic, Humans, Immunologic Memory, Immunotherapy, Mass Spectrometry, Melanoma, Neoplasm Metastasis, Phenotype, Prognosis, RNA-Seq, Receptors, Immunologic, Single-Cell Analysis, T-Lymphocytes, Tertiary Lymphoid Structures, Transcriptome, General Science & Technology

Abstract

Treatment with immune checkpoint blockade (ICB) has revolutionized cancer therapy. Until now, predictive biomarkers1-10 and strategies to augment clinical response have largely focused on the T cell compartment. However, other immune subsets may also contribute to anti-tumour immunity11-15, although these have been less well-studied in ICB treatment16. A previously conducted neoadjuvant ICB trial in patients with melanoma showed via targeted expression profiling17 that B cell signatures were enriched in the tumours of patients who respond to treatment versus non-responding patients. To build on this, here we performed bulk RNA sequencing and found that B cell markers were the most differentially expressed genes in the tumours of responders versus non-responders. Our findings were corroborated using a computational method (MCP-counter18) to estimate the immune and stromal composition in this and two other ICB-treated cohorts (patients with melanoma and renal cell carcinoma). Histological evaluation highlighted the localization of B cells within tertiary lymphoid structures. We assessed the potential functional contributions of B cells via bulk and single-cell RNA sequencing, which demonstrate clonal expansion and unique functional states of B cells in responders. Mass cytometry showed that switched memory B cells were enriched in the tumours of responders. Together, these data provide insights into the potential role of B cells and tertiary lymphoid structures in the response to ICB treatment, with implications for the development of biomarkers and therapeutic targets.

Published

2020

2. Neoadjuvant immunotherapy across cancers: meeting report from the Immunotherapy Bridge—December 1st–2nd, 2021

Author

Burton, Elizabeth M., Amaria, Rodabe N., Cascone, Tina, Chalabi, Myriam, Gross, Neil D., Mittendorf, Elizabeth A., Scolyer, Richard A., Sharma, Padmanee, and Ascierto, Paolo A.

Published

2022

3. Short-term treatment with multi-drug regimens combining BRAF/MEK-targeted therapy and immunotherapy results in durable responses in Braf-mutated melanoma.

Author

White, Michael G., Sloane, Robert Szczepaniak, Witt, Russell G., Reuben, Alexandre, Gaudreau, Pierre Olivier, Andrews, Miles C., Ningping Feng, Johnson, Sarah, Class, Caleb A., Bristow, Christopher, Wani, Khalida, Hudgens, Courtney, Nezi, Luigi, Manzo, Teresa, De Macedo, Mariana Pettaccia, Jianhua Hu, Davis, Richard, Hong Jiang, Prieto, Peter, and Burton, Elizabeth

Subjects

MELANOMA, IMMUNE checkpoint inhibitors, IMMUNOLOGIC memory, IMMUNOTHERAPY, HEMATOLOGIC malignancies

Abstract

Targeted and immunotherapy regimens have revolutionized the treatment of advanced melanoma patients. Despite this, only a subset of patients respond durably. Recently, combination strategies of BRAF/MEK inhibitors with immune checkpoint inhibitor monotherapy (α-CTLA-4 or α-PD-1) have increased the rate of durable responses. Based on evidence from our group and others, these therapies appear synergistic, but at the cost of significant toxicity. We know from other treatment paradigms (e.g. hematologic malignancies) that combination strategies with multi-drug regimens (>4 drugs) are associated with more durable disease control. To better understand the mechanism of these improved outcomes, and to identify and prioritize new strategies for testing, we studied several multi-drug regimens combining BRAF/MEK targeted therapy and immunotherapy combinations in a Braf-mutant murine melanoma model (BrafV600E/Pten-/-). Short-term treatment with α-PD-1 and α-CTLA-4 monotherapies were relatively ineffective, while treatment with α-OX40 demonstrated some efficacy [17% of mice with no evidence of disease, (NED), at 60-days]. Outcomes were improved in the combined α-OX40/α-PD-1 group (42% NED). Short-term treatment with quadruplet therapy of immunotherapy doublets in combination with targeted therapy [dabrafenib and trametinib (DT)] was associated with excellent tumor control, with 100% of mice having NED after combined DT/α-CTLA-4/α-PD-1 or DT/α-OX40/α-PD-1. Notably, tumors from mice in these groups demonstrated a high proportion of effector memory T cells, and immunologic memory was maintained with tumor re-challenge. Together, these data provide important evidence regarding the potential utility of multi-drug therapy in treating advanced melanoma and suggest these models can be used to guide and prioritize combinatorial treatment strategies. [ABSTRACT FROM AUTHOR]

Published

2021

4. Identification of MicroRNA–mRNA Networks in Melanoma and Their Association with PD-1 Checkpoint Blockade Outcomes.

Author

Sloane, Robert A. Szczepaniak, White, Michael G., Witt, Russell G., Banerjee, Anik, Davies, Michael A., Han, Guangchun, Burton, Elizabeth, Ajami, Nadim, Simon, Julie M., Bernatchez, Chantale, Haydu, Lauren E., Tawbi, Hussein A., Gershenwald, Jeffrey E., Keung, Emily, Ross, Merrick, McQuade, Jennifer, Amaria, Rodabe N., Wani, Khalida, Lazar, Alexander J., and Woodman, Scott E.

Subjects

IMMUNE checkpoint inhibitors, MELANOMA, MICRORNA, METABOLISM, GENE expression, TREATMENT effectiveness, MESSENGER RNA, MEMBRANE proteins, CELL lines, TUMOR markers, IMMUNOTHERAPY, CHEMICAL inhibitors, THERAPEUTICS

Abstract

Simple Summary: We conducted a network analysis of microRNA–mRNA associations in melanoma tissue and cell lines to identify the microRNAs central to melanoma biology and their associated gene expression profiles. Further, we evaluated expression of these microRNAs in melanoma patient biopsies and found that increased expression of miR-100-5p and miR-125b-5p were associated with improved outcomes with anti-PD-1 immunotherapy. Further investigation of these microRNAs as biomarkers and potential targets to improve immunotherapy response in melanoma is warranted. Metastatic melanoma is a deadly malignancy with poor outcomes historically. Immuno-oncology (IO) agents, targeting immune checkpoint molecules such as cytotoxic T-lymphocyte associated protein-4 (CTLA-4) and programmed cell death-1 (PD-1), have revolutionized melanoma treatment and outcomes, achieving significant response rates and remarkable long-term survival. Despite these vast improvements, roughly half of melanoma patients do not achieve long-term clinical benefit from IO therapies and there is an urgent need to understand and mitigate mechanisms of resistance. MicroRNAs are key post-transcriptional regulators of gene expression that regulate many aspects of cancer biology, including immune evasion. We used network analysis to define two core microRNA–mRNA networks in melanoma tissues and cell lines corresponding to 'MITF-low' and 'Keratin' transcriptomic subsets of melanoma. We then evaluated expression of these core microRNAs in pre-PD-1-inhibitor-treated melanoma patients and observed that higher expression of miR-100-5p and miR-125b-5p were associated with significantly improved overall survival. These findings suggest that miR-100-5p and 125b-5p are potential markers of response to PD-1 inhibitors, and further evaluation of these microRNA–mRNA interactions may yield further insight into melanoma resistance to PD-1 inhibitors. [ABSTRACT FROM AUTHOR]

Published

2021