Your search keyword '"Camelia Quek"' showing total 40 results

1. Stroma-infiltrating T cell spatiotypes define immunotherapy outcomes in adolescent and young adult patients with melanoma

Author

Xinyu Bai, Grace H. Attrill, Tuba N. Gide, Peter M. Ferguson, Kazi J. Nahar, Ping Shang, Ismael A. Vergara, Umaimainthan Palendira, Ines Pires da Silva, Matteo S. Carlino, Alexander M. Menzies, Georgina V. Long, Richard A. Scolyer, James S. Wilmott, and Camelia Quek

Subjects

Science

Abstract

Abstract The biological underpinnings of therapeutic resistance to immune checkpoint inhibitors (ICI) in adolescent and young adult (AYA) melanoma patients are incompletely understood. Here, we characterize the immunogenomic profile and spatial architecture of the tumor microenvironment (TME) in AYA (aged ≤ 30 years) and older adult (aged 31–84 years) patients with melanoma, to determine the AYA-specific features associated with ICI treatment outcomes. We identify two ICI-resistant spatiotypes in AYA patients with melanoma showing stroma-infiltrating lymphocytes (SILs) that are distinct from the adult TME. The SILhigh subtype was enriched in regulatory T cells in the peritumoral space and showed upregulated expression of immune checkpoint molecules, while the SILlow subtype showed a lack of immune activation. We establish a young immunosuppressive melanoma score that can predict ICI responsiveness in AYA patients and propose personalized therapeutic strategies for the ICI-resistant subgroups. These findings highlight the distinct immunogenomic profile of AYA patients, and individualized TME features in ICI-resistant AYA melanoma that require patient-specific treatment strategies.

Published

2024

2. Cross-platform comparison of immune signatures in immunotherapy-treated patients with advanced melanoma using a rank-based scoring approach

Author

Yizhe Mao, Tuba N. Gide, Nurudeen A. Adegoke, Camelia Quek, Nigel Maher, Alison Potter, Ellis Patrick, Robyn P. M. Saw, John F. Thompson, Andrew J. Spillane, Kerwin F. Shannon, Matteo S. Carlino, Serigne N. Lo, Alexander M. Menzies, Inês Pires da Silva, Georgina V. Long, Richard A. Scolyer, and James S. Wilmott

Subjects

Advanced melanoma, Immunotherapy, Immune signature, Gene expression profile, Single-sample signature score, Cross-platform analyses, Medicine

Abstract

Abstract Background Gene expression profiling is increasingly being utilised as a diagnostic, prognostic and predictive tool for managing cancer patients. Single-sample scoring approach has been developed to alleviate instability of signature scores due to variations from sample composition. However, it is a challenge to achieve comparable signature scores across different expressional platforms. Methods The pre-treatment biopsies from a total of 158 patients, who have received single-agent anti-PD-1 (n = 84) or anti-PD-1 + anti-CTLA-4 therapy (n = 74), were performed using NanoString PanCancer IO360 Panel. Multiple immune-related signature scores were measured from a single-sample rank-based scoring approach, singscore. We assessed the reproducibility and the performance in reporting immune profile of singscore based on NanoString assay in advance melanoma. To conduct cross-platform analyses, singscores between the immune profiles of NanoString assay and the previous orthogonal whole transcriptome sequencing (WTS) data were compared through linear regression and cross-platform prediction. Results singscore-derived signature scores reported significantly high scores in responders in multiple PD-1, MHC-1-, CD8 T-cell-, antigen presentation-, cytokine- and chemokine-related signatures. We found that singscore provided stable and reproducible signature scores among the repeats in different batches and cross-sample normalisations. The cross-platform comparisons confirmed that singscores derived via NanoString and WTS were comparable. When singscore of WTS generated by the overlapping genes to the NanoString gene set, the signatures generated highly correlated cross-platform scores (Spearman correlation interquartile range (IQR) [0.88, 0.92] and r 2 IQR [0.77, 0.81]) and better prediction on cross-platform response (AUC = 86.3%). The model suggested that Tumour Inflammation Signature (TIS) and Personalised Immunotherapy Platform (PIP) PD-1 are informative signatures for predicting immunotherapy-response outcomes in advanced melanoma patients treated with anti-PD-1-based therapies. Conclusions Overall, the outcome of this study confirms that singscore based on NanoString data is a feasible approach to produce reliable signature scores for determining patients’ immune profiles and the potential clinical utility in biomarker implementation, as well as to conduct cross-platform comparisons, such as WTS.

Published

2023

3. Understanding the Tumor Microenvironment in Melanoma Patients with In-Transit Metastases and Its Impacts on Immune Checkpoint Immunotherapy Responses

Author

Jiabao Tian and Camelia Quek

Subjects

melanoma, in-transit metastases, immune checkpoint inhibitors, tumor microenvironment, immunotherapy response, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Melanoma is the leading cause of global skin cancer-related death and currently ranks as the third most commonly diagnosed cancer in Australia. Melanoma patients with in-transit metastases (ITM), a type of locoregional metastasis located close to the primary tumor site, exhibit a high likelihood of further disease progression and poor survival outcomes. Immunotherapies, particularly immune checkpoint inhibitors (ICI), have demonstrated remarkable efficacy in ITM patients with reduced occurrence of further metastases and prolonged survival. The major challenge of immunotherapeutic efficacy lies in the limited understanding of melanoma and ITM biology, hindering our ability to identify patients who likely respond to ICIs effectively. In this review, we provided an overview of melanoma and ITM disease. We outlined the key ICI therapies and the critical immune features associated with therapy response or resistance. Lastly, we dissected the underlying biological components, including the cellular compositions and their communication networks within the tumor compartment, to enhance our understanding of the interactions between immunotherapy and melanoma, providing insights for future investigation and the development of drug targets and predictive biomarkers.

Published

2024

4. Single-Cell Informatics for Tumor Microenvironment and Immunotherapy

Author

Jiabao Tian, Xinyu Bai, and Camelia Quek

Subjects

cancer, cancer environment, tumor immune communication, bioinformatics, treatment response, immunotherapy, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Cancer comprises malignant cells surrounded by the tumor microenvironment (TME), a dynamic ecosystem composed of heterogeneous cell populations that exert unique influences on tumor development. The immune community within the TME plays a substantial role in tumorigenesis and tumor evolution. The innate and adaptive immune cells “talk” to the tumor through ligand–receptor interactions and signaling molecules, forming a complex communication network to influence the cellular and molecular basis of cancer. Such intricate intratumoral immune composition and interactions foster the application of immunotherapies, which empower the immune system against cancer to elicit durable long-term responses in cancer patients. Single-cell technologies have allowed for the dissection and characterization of the TME to an unprecedented level, while recent advancements in bioinformatics tools have expanded the horizon and depth of high-dimensional single-cell data analysis. This review will unravel the intertwined networks between malignancy and immunity, explore the utilization of computational tools for a deeper understanding of tumor–immune communications, and discuss the application of these approaches to aid in diagnosis or treatment decision making in the clinical setting, as well as the current challenges faced by the researchers with their potential future improvements.

Published

2024

5. Classification of the tumor immune microenvironment and associations with outcomes in patients with metastatic melanoma treated with immunotherapies

Author

Ines Pires da Silva, Richard A Scolyer, Georgina Long, Matteo S Carlino, Ismael A Vergara, James S Wilmott, Serigne N Lo, Tuba N Gide, Alexander Maxwell Menzies, Nurudeen A Adegoke, Yizhe Mao, Camelia Quek, and Ellis Patrick

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Background Tumor microenvironment (TME) characteristics are potential biomarkers of response to immune checkpoint inhibitors in metastatic melanoma. This study developed a method to perform unsupervised classification of TME of metastatic melanoma.Methods We used multiplex immunohistochemical and quantitative pathology-derived assessment of immune cell compositions of intratumoral and peritumoral regions of metastatic melanoma baseline biopsies to classify TME in relation to response to anti-programmed cell death protein 1 (PD-1) monotherapy or in combination with anti-cytotoxic T-cell lymphocyte-4 (ipilimumab (IPI)+PD-1).Results Spatial profiling of CD8+T cells, macrophages, and melanoma cells, as well as phenotypic PD-1 receptor ligand (PD-L1) and CD16 proportions, were used to identify and classify patients into one of three mutually exclusive TME classes: immune-scarce, immune-intermediate, and immune-rich tumors. Patients with immune-rich tumors were characterized by a lower proportion of melanoma cells and higher proportions of immune cells, including higher PD-L1 expression. These patients had higher response rates and longer progression-free survival (PFS) than those with immune-intermediate and immune-scarce tumors. At a median follow-up of 18 months (95% CI: 6.7 to 49 months), the 1-year PFS was 76% (95% CI: 64% to 90%) for patients with an immune-rich tumor, 56% (95% CI: 44% to 72%) for those with an immune-intermediate tumor, and 33% (95% CI: 23% to 47%) for patients with an immune-scarce tumor. A higher response rate was observed in patients with an immune-scarce or immune-intermediate tumor when treated with IPI+PD-1 compared with those treated with PD-1 alone.Conclusions Our study provides an automatic TME classification method that may predict the clinical efficacy of immunotherapy for patients with metastatic melanoma.

Published

2023

6. Distinct pretreatment innate immune landscape and posttreatment T cell responses underlie immunotherapy-induced colitis

Author

Kazi J. Nahar, Felix Marsh-Wakefield, Robert V. Rawson, Tuba N. Gide, Angela L. Ferguson, Ruth Allen, Camelia Quek, Ines Pires da Silva, Stephen Tattersal, Christopher J. Kiely, Neomal Sandanayake, Matteo S. Carlino, Geoff McCaughan, James S. Wilmott, Richard A. Scolyer, Georgina V. Long, Alexander M. Menzies, and Umaimainthan Palendira

Subjects

Immunology, Oncology, Medicine

Abstract

Immune-related adverse events represent a major hurdle to the success of immunotherapy. The immunological mechanisms underlying their development and relation to antitumor responses are poorly understood. By examining both systemic and tissue-specific immune changes induced by combination anti–CTLA-4 and anti–PD-1 immunotherapy, we found distinct repertoire changes in patients who developed moderate-severe colitis, irrespective of their antitumor response to therapy. The proportion of circulating monocytes were significantly increased at baseline in patients who subsequently developed colitis compared with patients who did not develop colitis, and biopsies from patients with colitis showed monocytic infiltration of both endoscopically and histopathologically normal and inflamed regions of colon. The magnitude of systemic expansion of T cells following commencement of immunotherapy was also greater in patients who developed colitis. Importantly, we show expansion of specific T cell subsets within inflamed regions of the colon, including tissue-resident memory CD8+ T cells and Th1 CD4+ T cells in patients who developed colitis. Our data also suggest that CD8+ T cell expansion was locally induced, while Th1 cell expansion was systemic. Together, our data show that exaggerated innate and T cell responses to combination immunotherapy synergize to propel colitis in susceptible patients.

Published

2022

7. Non-Antigenic Modulation of Antigen Receptor (TCR) Cβ-FG Loop Modulates Signalling: Implications of External Factors Influencing T-Cell Responses

Author

Nicholas Manolios, Son Pham, Guojiang Hou, Jonathan Du, Camelia Quek, and David Hibbs

Subjects

T-cell antigen receptor, computer modelling, in silico, short chain fatty acids, T-cell signalling, environmental factors, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

T-cell recognition of antigens is complex, leading to biochemical and cellular events that impart both specific and targeted immune responses. The end result is an array of cytokines that facilitate the direction and intensity of the immune reaction—such as T-cell proliferation, differentiation, macrophage activation, and B-cell isotype switching—all of which may be necessary and appropriate to eliminate the antigen and induce adaptive immunity. Using in silico docking to identify small molecules that putatively bind to the T-cell Cβ-FG loop, we have shown in vitro using an antigen presentation assay that T-cell signalling is altered. The idea of modulating T-cell signalling independently of antigens by directly targeting the FG loop is novel and warrants further study.

Published

2023

8. Validation of an Accurate Automated Multiplex Immunofluorescence Method for Immuno-Profiling Melanoma

Author

Zarwa Yaseen, Tuba N. Gide, Jordan W. Conway, Alison J. Potter, Camelia Quek, Angela M. Hong, Georgina V. Long, Richard A. Scolyer, and James S. Wilmott

Subjects

multiplex immunofluorescence, immunohistochemistry, multispectral imaging, melanoma, tumour microenvironment, pathology, Biology (General), QH301-705.5

Abstract

Multiplex immunofluorescence staining enables the simultaneous detection of multiple immune markers in a single tissue section, and is a useful tool for the identification of specific cell populations within the tumour microenvironment. However, this technology has rarely been validated against standard clinical immunohistology, which is a barrier for its integration into clinical practice. This study sought to validate and investigate the accuracy, precision and reproducibility of a multiplex immunofluorescence compared with immunohistochemistry (IHC), including tissue staining, imaging and analysis, in characterising the expression of immune and melanoma markers in both the tumour and its microenvironment. Traditional chromogenic IHC, single-plex immunofluorescence and multiplex immunofluorescence were each performed on serial tissue sections of a formalin-fixed paraffin-embedded (FFPE) tissue microarray containing metastatic melanoma specimens from 67 patients. The panel included the immune cell markers CD8, CD68, CD16, the immune checkpoint PD-L1, and melanoma tumour marker SOX10. Slides were stained with the Opal™ 7 colour Kit (Akoya Biosciences) on the intelliPATH autostainer (Biocare Medical) and imaged using the Vectra 3.0.5 microscope. Marker expression was quantified using Halo v.3.2.181 (Indica Labs). Comparison of the IHC and single-plex immunofluorescence revealed highly significant positive correlations between the cell densities of CD8, CD68, CD16, PD-L1 and SOX10 marker positive cells (Spearman’s rho = 0.927 to 0.750, p < 0.0001). Highly significant correlations were also observed for all markers between single-plex immunofluorescence and multiplex immunofluorescence staining (Spearman’s rho >0.9, p < 0.0001). Finally, correlation analysis of the three multiplex replicates revealed a high degree of reproducibility between slides (Spearman’s rho >0.940, p < 0.0001). Together, these data highlight the reliability and validity of multiplex immunofluorescence in accurately profiling the tumour and its associated microenvironment using FFPE metastatic melanoma specimens. This validated multiplex panel can be utilised for research evaluating melanoma and its microenvironment, such as studies performed to predict patient response or resistance to immunotherapies.

Published

2022

9. Characteristics of Hepatitis B Virus Genotype and Sub-Genotype in Hepatocellular Cancer Patients in Vietnam

Author

Phat Tan Ho, Mario Giosuè Balzanelli, Pietro Distratis, Rita Lazzaro, Duy Khanh Tran, Kieu C. D. Nguyen, Tri Minh Bui, Thinh Tien Nguyen, Son Truong Pham, Huy Song Dinh Nguyen, Vinh Thanh Tran, Toan Trong Ho, Gianna Dipalma, Francesco Inchingolo, Camelia Quek, Huong Thien Pham, Ciro Gargiulo Isacco, Luigi Santacroce, and Van Hung Pham

Subjects

hepatitis B virus, genotype, sub-genotype, hepatocellular carcinoma, Medicine (General), R5-920

Abstract

Untreated chronic hepatitis B virus (HBV) infection can lead to chronic liver disease and may progress to cirrhosis or hepatocellular carcinoma (HCC). HBV infection has been prevalent in Vietnam, but there is little information available on the genotypes, sub-genotypes, and mutations of HBV in patients with HBV-related HCC confirmed by histopathological diagnosis. We studied the molecular characteristics of HBV and its genetic variants in Vietnamese HCC patients after liver tumor resection. We conducted a descriptive cross-sectional study on 107 HBV-related HCC hospitalized patients from October 2018 to April 2019. The specimens collected included EDTA anticoagulant blood and liver tissues. Extracted HBV DNA was subjected to whole genome sequencing by the Sanger method. We discovered 62 individuals (57.9%) with genotype B and 45 patients (42.1%) with genotype C, with only sub-genotypes B4 and C1. Among the mutations, the double mutation, A1762T-G1764A, had the most significant frequency (73/107 samples; 68.2%) and was higher in genotype C than in genotype B (p < 0.001). The most common genotypes found in HCC patients in this investigation were B and C, with sub-genotypes B4 and C1 for each. The prevalence of genotype B4 was greater in HBV-infected Vietnamese HCC patients.

Published

2022

10. Intratumoral CD16+ Macrophages Are Associated with Clinical Outcomes of Patients with Metastatic Melanoma Treated with Combination Anti-PD-1 and Anti-CTLA-4 Therapy

Author

Hansol Lee, Angela L. Ferguson, Camelia Quek, Ismael A. Vergara, Ines Pires daSilva, Ruth Allen, Tuba Nur Gide, Jordan W. Conway, Lambros T. Koufariotis, Nicholas K. Hayward, Nicola Waddell, Matteo S. Carlino, Alexander M. Menzies, Robyn P.M. Saw, Elena Shklovskaya, Helen Rizos, Serigne Lo, Richard A. Scolyer, Georgina V. Long, Umaimainthan Palendira, and James S. Wilmott

Subjects

Cancer Research, Oncology

Abstract

Purpose: This study characterizes intratumoral macrophage populations within baseline melanoma biopsies from patients with advanced melanoma who received either anti-PD-1 monotherapy or a combination with anti-CTLA-4. Particularly, FcγRIIIa (CD16)-expressing macrophage densities were investigated for associations with response and progression-free survival. Experimental Design: Patients with advanced melanoma who received either anti-PD-1 monotherapy or combination anti-PD-1 and anti-CTLA-4 were retrospectively identified. Macrophage populations were analyzed within baseline melanoma biopsies via multiplex IHC in relation to treatment outcomes. Results: Patients who responded to combination immune checkpoint inhibitor contained higher CD16+ macrophage densities than those who did not respond (196 vs. 7 cells/mm2; P = 0.0041). There was no diffidence in CD16+ macrophage densities in the PD-1 monotherapy-treated patients based on response (118 vs. 89 cells/mm2; P = 0.29). A significantly longer 3-year progression-free survival was observed in combination-treated patients with high intratumoral densities of CD16+ macrophages compared with those with low densities (87% vs. 42%, P = 0.0056, n = 40). No association was observed in anti-PD-1 monotherapy-treated patients (50% vs. 47%, P = 0.4636, n = 50). Melanoma biopsies with high densities of CD16+ macrophages contained upregulated gene expression of critical T-cell recruiting chemokines (CXCL9, CXCL10, and CXCL11). Conclusions: Our data demonstrate that tumor microenvironments enriched with CD16+ macrophages are favorable for response to combination anti-PD-1 and anti-CTLA-4 therapy but not anti-PD-1 monotherapy. These data provides a potential biomarker of response for combination immunotherapies in patients with metastatic melanoma.

Published

2023

11. Supplementary Figure S2 from Intratumoral CD16+ Macrophages Are Associated with Clinical Outcomes of Patients with Metastatic Melanoma Treated with Combination Anti-PD-1 and Anti-CTLA-4 Therapy

Author

James S. Wilmott, Umaimainthan Palendira, Georgina V. Long, Richard A. Scolyer, Serigne Lo, Helen Rizos, Elena Shklovskaya, Robyn P.M. Saw, Alexander M. Menzies, Matteo S. Carlino, Nicola Waddell, Nicholas K. Hayward, Lambros T. Koufariotis, Jordan W. Conway, Tuba Nur Gide, Ruth Allen, Ines Pires daSilva, Ismael A. Vergara, Camelia Quek, Angela L. Ferguson, and Hansol Lee

Abstract

C1Q and PD-1 expression on CD16+ macrophages in on treatment biopsies of melanoma patients treated with PD-1 or PD-1+CTLA-4 ICB. Dynamics between pretreatment and early-during treatment biopsies on (a) CD16+ macrophages as a proportion of all macrophages (b) CD16+ C1q+ macrophages as a proportion of all C1q+ macrophages (c) PD-1+ CD16+ macrophages as a proportion of PD-1+ macrophages (d) PD-1+ CD16+ C1q+ macrophages as a proportion of all macrophages (e) C1q+ CD16+ macrophages as a proportion of CD16+ macrophages (f) PD-1+ CD16+ macrophages as a proportion of CD16+ macrophages. (g) Log2 RNA expression of C1qa-c in pretreatment (PRE) and early during treatment (EDT) biopsies of responding and non-responding patients treated with PD-1 or PD-1+CTLA-4 ICB. (h) Flow cytometry analysis of ipilimumab (IgG1) and/or secondary anti-IgG1 binding to CD16+ and CD16- macrophages in a melanoma patient's tumor dissociate. FMO, a no-secondary control.

Published

2023

12. Supplementary Table S3 from Intratumoral CD16+ Macrophages Are Associated with Clinical Outcomes of Patients with Metastatic Melanoma Treated with Combination Anti-PD-1 and Anti-CTLA-4 Therapy

Author

James S. Wilmott, Umaimainthan Palendira, Georgina V. Long, Richard A. Scolyer, Serigne Lo, Helen Rizos, Elena Shklovskaya, Robyn P.M. Saw, Alexander M. Menzies, Matteo S. Carlino, Nicola Waddell, Nicholas K. Hayward, Lambros T. Koufariotis, Jordan W. Conway, Tuba Nur Gide, Ruth Allen, Ines Pires daSilva, Ismael A. Vergara, Camelia Quek, Angela L. Ferguson, and Hansol Lee

Abstract

Differential expression analysis gene list of FACS sorted CD16+ compared to CD16- macrophages from human melanoma dissociates.

Published

2023

13. Supplementary Tables 1 and 6-8 from Obesity Is Associated with Altered Tumor Metabolism in Metastatic Melanoma

Author

Jennifer L. McQuade, Yana G. Najjar, Greg M. Delgoffe, Michael A. Davies, Weiyi Peng, James S. Wilmott, Jianhua Zhang, Andrew Futreal, Han Liang, Ralph J. DeBerardinis, John M. Kirkwood, Jennifer A. Wargo, Dirk Schadendorf, Alexander J. Lazar, Michael T. Tetzlaff, Richard A. Scolyer, Georgina V. Long, Jeffrey E. Gershenwald, Nadim Ajami, Patrick Hwu, Jeffrey E. Lee, John F. Thompson, Khalida M. Wani, Jian Wang, Grant M. Fischer, Renato Guerrieri, Y.N. Vashisht Gopal, Scott E. Woodman, Nagireddy Putluri, Chantale Bernatchez, Julie M. Simon, Jared Malke, Elizabeth M. Burton, Vancheswaran Gopalakrishnan, M.A. Wadud Khan, Lauren E. Haydu, Theodore Nowicki, Courtney W. Hudgens, Carrie R. Daniel, Alexander M. Menzies, Christine N. Spencer, Yan Zang, Camelia Quek, Tuba N. Gide, Aditya K. Mishra, Xiaogang Wu, Jun Li, Mingchu Xu, Ryan C. Augustin, Dayana B. Rivadeneira, Ashley V. Menk, and Andrew W. Hahn

Abstract

Supplementary Table 1: Baseline characteristics for patients included in the integrated gene set enrichment analysis (Figure 2-3) by cohort; Supplementary Table 6: The most frequent somatic alterations (alts) in patients with regionally metastatic melanoma by body mass index from The Cancer Genome Atlas cohort; Supplemental Table 7: Integrated gene set enrichment analysis for pathways associated with fatty acid metabolism by body mass index; Supplemental Table 8: Gene expression of selected genes of interest involved in fatty acid metabolism.

Published

2023

14. Supplementary Figure S1 from Obesity Is Associated with Altered Tumor Metabolism in Metastatic Melanoma

Author

Jennifer L. McQuade, Yana G. Najjar, Greg M. Delgoffe, Michael A. Davies, Weiyi Peng, James S. Wilmott, Jianhua Zhang, Andrew Futreal, Han Liang, Ralph J. DeBerardinis, John M. Kirkwood, Jennifer A. Wargo, Dirk Schadendorf, Alexander J. Lazar, Michael T. Tetzlaff, Richard A. Scolyer, Georgina V. Long, Jeffrey E. Gershenwald, Nadim Ajami, Patrick Hwu, Jeffrey E. Lee, John F. Thompson, Khalida M. Wani, Jian Wang, Grant M. Fischer, Renato Guerrieri, Y.N. Vashisht Gopal, Scott E. Woodman, Nagireddy Putluri, Chantale Bernatchez, Julie M. Simon, Jared Malke, Elizabeth M. Burton, Vancheswaran Gopalakrishnan, M.A. Wadud Khan, Lauren E. Haydu, Theodore Nowicki, Courtney W. Hudgens, Carrie R. Daniel, Alexander M. Menzies, Christine N. Spencer, Yan Zang, Camelia Quek, Tuba N. Gide, Aditya K. Mishra, Xiaogang Wu, Jun Li, Mingchu Xu, Ryan C. Augustin, Dayana B. Rivadeneira, Ashley V. Menk, and Andrew W. Hahn

Abstract

Integrated gene set enrichment analysis by body mass index (BMI) with correction for S phase. This figure presents a dotplot of genes differentially up- or downregulated in OW/OB patients versus NL BMI patients. Red indicates upregulation in OW/OB verse NL. The far left column is all patients, and then, an analysis controlling for sex, cohort, and tissue site is shown in the 3 columns to the right.

Published

2023

15. Supplementary Table 3 from Obesity Is Associated with Altered Tumor Metabolism in Metastatic Melanoma

Author

Jennifer L. McQuade, Yana G. Najjar, Greg M. Delgoffe, Michael A. Davies, Weiyi Peng, James S. Wilmott, Jianhua Zhang, Andrew Futreal, Han Liang, Ralph J. DeBerardinis, John M. Kirkwood, Jennifer A. Wargo, Dirk Schadendorf, Alexander J. Lazar, Michael T. Tetzlaff, Richard A. Scolyer, Georgina V. Long, Jeffrey E. Gershenwald, Nadim Ajami, Patrick Hwu, Jeffrey E. Lee, John F. Thompson, Khalida M. Wani, Jian Wang, Grant M. Fischer, Renato Guerrieri, Y.N. Vashisht Gopal, Scott E. Woodman, Nagireddy Putluri, Chantale Bernatchez, Julie M. Simon, Jared Malke, Elizabeth M. Burton, Vancheswaran Gopalakrishnan, M.A. Wadud Khan, Lauren E. Haydu, Theodore Nowicki, Courtney W. Hudgens, Carrie R. Daniel, Alexander M. Menzies, Christine N. Spencer, Yan Zang, Camelia Quek, Tuba N. Gide, Aditya K. Mishra, Xiaogang Wu, Jun Li, Mingchu Xu, Ryan C. Augustin, Dayana B. Rivadeneira, Ashley V. Menk, and Andrew W. Hahn

Abstract

Differential gene expression analysis for each subgroup.

Published

2023

16. Data from Obesity Is Associated with Altered Tumor Metabolism in Metastatic Melanoma

Author

Jennifer L. McQuade, Yana G. Najjar, Greg M. Delgoffe, Michael A. Davies, Weiyi Peng, James S. Wilmott, Jianhua Zhang, Andrew Futreal, Han Liang, Ralph J. DeBerardinis, John M. Kirkwood, Jennifer A. Wargo, Dirk Schadendorf, Alexander J. Lazar, Michael T. Tetzlaff, Richard A. Scolyer, Georgina V. Long, Jeffrey E. Gershenwald, Nadim Ajami, Patrick Hwu, Jeffrey E. Lee, John F. Thompson, Khalida M. Wani, Jian Wang, Grant M. Fischer, Renato Guerrieri, Y.N. Vashisht Gopal, Scott E. Woodman, Nagireddy Putluri, Chantale Bernatchez, Julie M. Simon, Jared Malke, Elizabeth M. Burton, Vancheswaran Gopalakrishnan, M.A. Wadud Khan, Lauren E. Haydu, Theodore Nowicki, Courtney W. Hudgens, Carrie R. Daniel, Alexander M. Menzies, Christine N. Spencer, Yan Zang, Camelia Quek, Tuba N. Gide, Aditya K. Mishra, Xiaogang Wu, Jun Li, Mingchu Xu, Ryan C. Augustin, Dayana B. Rivadeneira, Ashley V. Menk, and Andrew W. Hahn

Abstract

Purpose:Overweight/obese (OW/OB) patients with metastatic melanoma unexpectedly have improved outcomes with immune checkpoint inhibitors (ICI) and BRAF-targeted therapies. The mechanism(s) underlying this association remain unclear, thus we assessed the integrated molecular, metabolic, and immune profile of tumors, as well as gut microbiome features, for associations with patient body mass index (BMI).Experimental Design:Associations between BMI [normal (NL < 25) or OW/OB (BMI ≥ 25)] and tumor or microbiome characteristics were examined in specimens from 782 patients with metastatic melanoma across 7 cohorts. DNA associations were evaluated in The Cancer Genome Atlas cohort. RNA sequencing from 4 cohorts (n = 357) was batch corrected and gene set enrichment analysis (GSEA) by BMI category was performed. Metabolic profiling was conducted in a subset of patients (x = 36) by LC/MS, and in flow-sorted melanoma tumor cells (x = 37) and patient-derived melanoma cell lines (x = 17) using the Seahorse XF assay. Gut microbiome features were examined in an independent cohort (n = 371).Results:DNA mutations and copy number variations were not associated with BMI. GSEA demonstrated that tumors from OW/OB patients were metabolically quiescent, with downregulation of oxidative phosphorylation and multiple other metabolic pathways. Direct metabolite analysis and functional metabolic profiling confirmed decreased central carbon metabolism in OW/OB metastatic melanoma tumors and patient-derived cell lines. The overall structure, diversity, and taxonomy of the fecal microbiome did not differ by BMI.Conclusions:These findings suggest that the host metabolic phenotype influences melanoma metabolism and provide insight into the improved outcomes observed in OW/OB patients with metastatic melanoma treated with ICIs and targeted therapies.See related commentary by Smalley, p. 5

Published

2023

17. Data from Intratumoral CD16+ Macrophages Are Associated with Clinical Outcomes of Patients with Metastatic Melanoma Treated with Combination Anti-PD-1 and Anti-CTLA-4 Therapy

Author

James S. Wilmott, Umaimainthan Palendira, Georgina V. Long, Richard A. Scolyer, Serigne Lo, Helen Rizos, Elena Shklovskaya, Robyn P.M. Saw, Alexander M. Menzies, Matteo S. Carlino, Nicola Waddell, Nicholas K. Hayward, Lambros T. Koufariotis, Jordan W. Conway, Tuba Nur Gide, Ruth Allen, Ines Pires daSilva, Ismael A. Vergara, Camelia Quek, Angela L. Ferguson, and Hansol Lee

Abstract

Purpose:This study characterizes intratumoral macrophage populations within baseline melanoma biopsies from patients with advanced melanoma who received either anti-PD-1 monotherapy or a combination with anti-CTLA-4. Particularly, FcγRIIIa (CD16)-expressing macrophage densities were investigated for associations with response and progression-free survival.Experimental Design:Patients with advanced melanoma who received either anti-PD-1 monotherapy or combination anti-PD-1 and anti-CTLA-4 were retrospectively identified. Macrophage populations were analyzed within baseline melanoma biopsies via multiplex IHC in relation to treatment outcomes.Results:Patients who responded to combination immune checkpoint inhibitor contained higher CD16+ macrophage densities than those who did not respond (196 vs. 7 cells/mm2; P = 0.0041). There was no diffidence in CD16+ macrophage densities in the PD-1 monotherapy-treated patients based on response (118 vs. 89 cells/mm2; P = 0.29). A significantly longer 3-year progression-free survival was observed in combination-treated patients with high intratumoral densities of CD16+ macrophages compared with those with low densities (87% vs. 42%, P = 0.0056, n = 40). No association was observed in anti-PD-1 monotherapy-treated patients (50% vs. 47%, P = 0.4636, n = 50). Melanoma biopsies with high densities of CD16+ macrophages contained upregulated gene expression of critical T-cell recruiting chemokines (CXCL9, CXCL10, and CXCL11).Conclusions:Our data demonstrate that tumor microenvironments enriched with CD16+ macrophages are favorable for response to combination anti-PD-1 and anti-CTLA-4 therapy but not anti-PD-1 monotherapy. These data provides a potential biomarker of response for combination immunotherapies in patients with metastatic melanoma.

Published

2023

18. Supplementary Table 2 from Obesity Is Associated with Altered Tumor Metabolism in Metastatic Melanoma

Author

Jennifer L. McQuade, Yana G. Najjar, Greg M. Delgoffe, Michael A. Davies, Weiyi Peng, James S. Wilmott, Jianhua Zhang, Andrew Futreal, Han Liang, Ralph J. DeBerardinis, John M. Kirkwood, Jennifer A. Wargo, Dirk Schadendorf, Alexander J. Lazar, Michael T. Tetzlaff, Richard A. Scolyer, Georgina V. Long, Jeffrey E. Gershenwald, Nadim Ajami, Patrick Hwu, Jeffrey E. Lee, John F. Thompson, Khalida M. Wani, Jian Wang, Grant M. Fischer, Renato Guerrieri, Y.N. Vashisht Gopal, Scott E. Woodman, Nagireddy Putluri, Chantale Bernatchez, Julie M. Simon, Jared Malke, Elizabeth M. Burton, Vancheswaran Gopalakrishnan, M.A. Wadud Khan, Lauren E. Haydu, Theodore Nowicki, Courtney W. Hudgens, Carrie R. Daniel, Alexander M. Menzies, Christine N. Spencer, Yan Zang, Camelia Quek, Tuba N. Gide, Aditya K. Mishra, Xiaogang Wu, Jun Li, Mingchu Xu, Ryan C. Augustin, Dayana B. Rivadeneira, Ashley V. Menk, and Andrew W. Hahn

Abstract

Differential gene expression analysis for covariates controlled.

Published

2023

19. Supplementary Table 4 from Obesity Is Associated with Altered Tumor Metabolism in Metastatic Melanoma

Author

Jennifer L. McQuade, Yana G. Najjar, Greg M. Delgoffe, Michael A. Davies, Weiyi Peng, James S. Wilmott, Jianhua Zhang, Andrew Futreal, Han Liang, Ralph J. DeBerardinis, John M. Kirkwood, Jennifer A. Wargo, Dirk Schadendorf, Alexander J. Lazar, Michael T. Tetzlaff, Richard A. Scolyer, Georgina V. Long, Jeffrey E. Gershenwald, Nadim Ajami, Patrick Hwu, Jeffrey E. Lee, John F. Thompson, Khalida M. Wani, Jian Wang, Grant M. Fischer, Renato Guerrieri, Y.N. Vashisht Gopal, Scott E. Woodman, Nagireddy Putluri, Chantale Bernatchez, Julie M. Simon, Jared Malke, Elizabeth M. Burton, Vancheswaran Gopalakrishnan, M.A. Wadud Khan, Lauren E. Haydu, Theodore Nowicki, Courtney W. Hudgens, Carrie R. Daniel, Alexander M. Menzies, Christine N. Spencer, Yan Zang, Camelia Quek, Tuba N. Gide, Aditya K. Mishra, Xiaogang Wu, Jun Li, Mingchu Xu, Ryan C. Augustin, Dayana B. Rivadeneira, Ashley V. Menk, and Andrew W. Hahn

Abstract

Body mass index values by patient ID for all RNASeq cohorts.

Published

2023

20. Data from Prevalence and Cellular Distribution of Novel Immune Checkpoint Targets Across Longitudinal Specimens in Treatment-naïve Melanoma Patients: Implications for Clinical Trials

Author

Richard A. Scolyer, Georgina V. Long, James S. Wilmott, Umaimainthan Palendira, Alexander M. Menzies, John F. Thompson, Robyn P.M. Saw, Benjamin Allanson, Ruth Allen, Angela Ferguson, Marcel Batten, Camelia Quek, Inês Pires da Silva, Annie Tasker, and Jarem Edwards

Abstract

Purpose:Immunotherapies targeting costimulating and coinhibitory checkpoint receptors beyond PD-1 and CTLA-4 have entered clinical trials. Little is known about the relative abundance, coexpression, and immune cells enriched for each specific drug target, limiting understanding of the biological basis of potential treatment outcomes and development of predictive biomarkers for personalized immunotherapy. We sought to assess the abundance of checkpoint receptors during melanoma disease progression and identify immune cells enriched for them.Experimental Design: Multiplex immunofluorescence staining for immune checkpoint receptors (ICOS, GITR, OX40, PD-1, TIM-3, VISTA) was performed on 96 melanoma biopsies from 41 treatment-naïve patients, including patient-matched primary tumors, nodal metastases, and distant metastases. Mass cytometry was conducted on tumor dissociates from 18 treatment-naïve melanoma metastases to explore immune subsets enriched for checkpoint receptors.Results:A small subset of tumor-infiltrating leukocytes expressed checkpoint receptors at any stage of melanoma disease. GITR and OX40 were the least abundant checkpoint receptors, with +/CD103+/CD8+) were enriched for TIGIT (>70%) and other coinhibitory but not costimulatory receptors. The proportion of GITR+ T cells decreased from primary melanoma (>5%) to lymph node (P = 0.04) and distant metastases (P = 0.0005).Conclusions:This study provides the first comprehensive assessment of immune checkpoint receptor expression in any cancer and provides important data for rational selection of targets for trials and predictive biomarker development.

Published

2023

21. Table S5, Table S6, and Table S7 from Prevalence and Cellular Distribution of Novel Immune Checkpoint Targets Across Longitudinal Specimens in Treatment-naïve Melanoma Patients: Implications for Clinical Trials

Author

Richard A. Scolyer, Georgina V. Long, James S. Wilmott, Umaimainthan Palendira, Alexander M. Menzies, John F. Thompson, Robyn P.M. Saw, Benjamin Allanson, Ruth Allen, Angela Ferguson, Marcel Batten, Camelia Quek, Inês Pires da Silva, Annie Tasker, and Jarem Edwards

Abstract

Antibodies used in CYTOF experiment

Published

2023

22. Figure S7 from Macrophage-Derived CXCL9 and CXCL10 Are Required for Antitumor Immune Responses Following Immune Checkpoint Blockade

Author

Paul A. Beavis, Phillip K. Darcy, Sherene Loi, James S. Wilmott, Georgina V. Long, Richard A. Scolyer, Camelia Quek, Tuba N. Gide, Sherly Mardiana, Kevin Sek, Emma V. Petley, Lauren Giuffrida, Melissa A. Henderson, Kirsten L. Todd, Zhi L. Teo, Amanda J. Oliver, Amanda X.Y. Chen, Junyun Lai, Peter Savas, and Imran G. House

Abstract

Figure S7 shows the gene expression profile of macrophages and other immune cell subsets in cancer patients

Published

2023

23. Supplementary Data from Distinct Molecular Profiles and Immunotherapy Treatment Outcomes of V600E and V600K BRAF-Mutant Melanoma

Author

Alexander M. Menzies, Georgina V. Long, Jean Y.H. Yang, Richard A. Scolyer, Helen Rizos, Richard F. Kefford, Rajat Rai, Jennifer L. McQuade, Douglas B. Johnson, Graham Mann, Yibing Yan, Matthew Wongchenko, Camelia Quek, John J. Park, Matteo S. Carlino, Jeff Holst, James S. Wilmott, Kevin Y.X. Wang, and Inês Pires da Silva

Abstract

Supplementary Tables 1-2, and Figures 1-5.

Published

2023

24. Data from Macrophage-Derived CXCL9 and CXCL10 Are Required for Antitumor Immune Responses Following Immune Checkpoint Blockade

Author

Paul A. Beavis, Phillip K. Darcy, Sherene Loi, James S. Wilmott, Georgina V. Long, Richard A. Scolyer, Camelia Quek, Tuba N. Gide, Sherly Mardiana, Kevin Sek, Emma V. Petley, Lauren Giuffrida, Melissa A. Henderson, Kirsten L. Todd, Zhi L. Teo, Amanda J. Oliver, Amanda X.Y. Chen, Junyun Lai, Peter Savas, and Imran G. House

Abstract

Purpose:Response rates to immune checkpoint blockade (ICB; anti-PD-1/anti-CTLA-4) correlate with the extent of tumor immune infiltrate, but the mechanisms underlying the recruitment of T cells following therapy are poorly characterized. A greater understanding of these processes may see the development of therapeutic interventions that enhance T-cell recruitment and, consequently, improved patient outcomes. We therefore investigated the chemokines essential for immune cell recruitment and subsequent therapeutic efficacy of these immunotherapies.Experimental Design:The chemokines upregulated by dual PD-1/CTLA-4 blockade were assessed using NanoString-based analysis with results confirmed at the protein level by flow cytometry and cytometric bead array. Blocking/neutralizing antibodies confirmed the requirement for key chemokines/cytokines and immune effector cells. Results were confirmed in patients treated with immune checkpoint inhibitors using single-cell RNA-sequencing (RNA-seq) and paired survival analyses.Results:The CXCR3 ligands, CXCL9 and CXCL10, were significantly upregulated following dual PD-1/CTLA-4 blockade and both CD8+ T-cell infiltration and therapeutic efficacy were CXCR3 dependent. In both murine models and patients undergoing immunotherapy, macrophages were the predominant source of CXCL9 and their depletion abrogated CD8+ T-cell infiltration and the therapeutic efficacy of dual ICB. Single-cell RNA-seq analysis of patient tumor-infiltrating lymphocytes (TIL) revealed that CXCL9/10/11 was predominantly expressed by macrophages following ICB and we identified a distinct macrophage signature that was associated with positive responses to ICB.Conclusions:These data underline the fundamental importance of macrophage-derived CXCR3 ligands for the therapeutic efficacy of ICB and highlight the potential of manipulating this axis to enhance patient responses.

Published

2023

25. Data from CD103+ Tumor-Resident CD8+ T Cells Are Associated with Improved Survival in Immunotherapy-Naïve Melanoma Patients and Expand Significantly During Anti–PD-1 Treatment

Author

Umaimainthan Palendira, Richard A. Scolyer, Georgina V. Long, Alexander M. Menzies, John F. Thompson, Robyn P.M. Saw, Warwick J. Britton, Wolfgang Weninger, Thomas Gebhardt, Peter Hersey, Rehana Hewavisenti, Jinbiao Chen, Angela Ferguson, Annie Tasker, Camelia Quek, Tuba Nur Gide, Jason Madore, James S. Wilmott, and Jarem Edwards

Abstract

Purpose: Therapeutic blockade of immune checkpoints has revolutionized cancer treatment. Durable responses, however, occur in less than half of those treated, and efforts to improve treatment efficacy are confounded by a lack of understanding of the characteristics of the cells that initiate antitumor immune response.Patients and Methods: We performed multiparameter flow cytometry and quantitative multiplex immunofluorescence staining on tumor specimens from immunotherapy-naïve melanoma patients and longitudinal biopsy specimen obtained from patients undergoing anti–PD-1 therapy.Results: Increased numbers of CD69+CD103+ tumor-resident CD8+ T cells were associated with improved melanoma-specific survival in immunotherapy-naïve melanoma patients. Local IL15 expression levels strongly correlated with these tumor-resident T-cell numbers. The expression of several immune checkpoints including PD-1 and LAG3 was highly enriched in this subset, and these cells significantly expanded early during anti–PD-1 immunotherapy.Conclusions: Tumor-resident CD8+ T-cell numbers are more prognostic than total CD8+ T cells in metastatic melanoma. In addition, they are likely to initiate response to anti–PD-1 and anti–LAG-3 treatments. We propose that the immune profile of these cells prior to treatment could inform strategies for immune checkpoint blockade. Clin Cancer Res; 24(13); 3036–45. ©2018 AACR.

Published

2023

26. Supplementary Figure Legends from Macrophage-Derived CXCL9 and CXCL10 Are Required for Antitumor Immune Responses Following Immune Checkpoint Blockade

Author

Paul A. Beavis, Phillip K. Darcy, Sherene Loi, James S. Wilmott, Georgina V. Long, Richard A. Scolyer, Camelia Quek, Tuba N. Gide, Sherly Mardiana, Kevin Sek, Emma V. Petley, Lauren Giuffrida, Melissa A. Henderson, Kirsten L. Todd, Zhi L. Teo, Amanda J. Oliver, Amanda X.Y. Chen, Junyun Lai, Peter Savas, and Imran G. House

Abstract

Supplementary Figure Legends

Published

2023

27. Figure S1 from Prevalence and Cellular Distribution of Novel Immune Checkpoint Targets Across Longitudinal Specimens in Treatment-naïve Melanoma Patients: Implications for Clinical Trials

Author

Richard A. Scolyer, Georgina V. Long, James S. Wilmott, Umaimainthan Palendira, Alexander M. Menzies, John F. Thompson, Robyn P.M. Saw, Benjamin Allanson, Ruth Allen, Angela Ferguson, Marcel Batten, Camelia Quek, Inês Pires da Silva, Annie Tasker, and Jarem Edwards

Abstract

Checkpoint expression in PD-1 negative biopsies and VISTA expression in tumors

Published

2023

28. Figure S2 from CD103+ Tumor-Resident CD8+ T Cells Are Associated with Improved Survival in Immunotherapy-Naïve Melanoma Patients and Expand Significantly During Anti–PD-1 Treatment

Author

Umaimainthan Palendira, Richard A. Scolyer, Georgina V. Long, Alexander M. Menzies, John F. Thompson, Robyn P.M. Saw, Warwick J. Britton, Wolfgang Weninger, Thomas Gebhardt, Peter Hersey, Rehana Hewavisenti, Jinbiao Chen, Angela Ferguson, Annie Tasker, Camelia Quek, Tuba Nur Gide, Jason Madore, James S. Wilmott, and Jarem Edwards

Abstract

Supplementary data on flow cytometry analysis

Published

2023

29. Figure legends S1-S4 from Prevalence and Cellular Distribution of Novel Immune Checkpoint Targets Across Longitudinal Specimens in Treatment-naïve Melanoma Patients: Implications for Clinical Trials

Author

Richard A. Scolyer, Georgina V. Long, James S. Wilmott, Umaimainthan Palendira, Alexander M. Menzies, John F. Thompson, Robyn P.M. Saw, Benjamin Allanson, Ruth Allen, Angela Ferguson, Marcel Batten, Camelia Quek, Inês Pires da Silva, Annie Tasker, and Jarem Edwards

Abstract

These are the supplementary data figure legends (S1-S4)

Published

2023

30. Table S3 from Prevalence and Cellular Distribution of Novel Immune Checkpoint Targets Across Longitudinal Specimens in Treatment-naïve Melanoma Patients: Implications for Clinical Trials

Author

Richard A. Scolyer, Georgina V. Long, James S. Wilmott, Umaimainthan Palendira, Alexander M. Menzies, John F. Thompson, Robyn P.M. Saw, Benjamin Allanson, Ruth Allen, Angela Ferguson, Marcel Batten, Camelia Quek, Inês Pires da Silva, Annie Tasker, and Jarem Edwards

Abstract

Clinical characteristics of melanoma biopsies used in CYTOF

Published

2023

31. Table S1 from CD103+ Tumor-Resident CD8+ T Cells Are Associated with Improved Survival in Immunotherapy-Naïve Melanoma Patients and Expand Significantly During Anti–PD-1 Treatment

Author

Umaimainthan Palendira, Richard A. Scolyer, Georgina V. Long, Alexander M. Menzies, John F. Thompson, Robyn P.M. Saw, Warwick J. Britton, Wolfgang Weninger, Thomas Gebhardt, Peter Hersey, Rehana Hewavisenti, Jinbiao Chen, Angela Ferguson, Annie Tasker, Camelia Quek, Tuba Nur Gide, Jason Madore, James S. Wilmott, and Jarem Edwards

Abstract

Supplementary table with clinical data

Published

2023

32. Data from Distinct Molecular Profiles and Immunotherapy Treatment Outcomes of V600E and V600K BRAF-Mutant Melanoma

Author

Alexander M. Menzies, Georgina V. Long, Jean Y.H. Yang, Richard A. Scolyer, Helen Rizos, Richard F. Kefford, Rajat Rai, Jennifer L. McQuade, Douglas B. Johnson, Graham Mann, Yibing Yan, Matthew Wongchenko, Camelia Quek, John J. Park, Matteo S. Carlino, Jeff Holst, James S. Wilmott, Kevin Y.X. Wang, and Inês Pires da Silva

Abstract

Purpose:BRAF V600E and V600K melanomas have distinct clinicopathologic features, and V600K appear to be less responsive to BRAFi±MEKi. We investigated mechanisms for this and explored whether genotype affects response to immunotherapy.Experimental Design:Pretreatment formalin-fixed paraffin-embedded tumors from patients treated with BRAFi±MEKi underwent gene expression profiling and DNA sequencing. Molecular results were validated using The Cancer Genome Atlas (TCGA) data. An independent cohort of V600E/K patients treated with anti–PD-1 immunotherapy was examined.Results:Baseline tissue and clinical outcome with BRAFi±MEKi were studied in 93 patients (78 V600E, 15 V600K). V600K patients had numerically less tumor regression (median, −31% vs. −52%, P = 0.154) and shorter progression-free survival (PFS; median, 5.7 vs. 7.1 months, P = 0.15) compared with V600E. V600K melanomas had lower expression of the ERK pathway feedback regulator dual-specificity phosphatase 6, confirmed with TCGA data (116 V600E, 17 V600K). Pathway analysis showed V600K had lower expression of ERK and higher expression of PI3K-AKT genes than V600E. Higher mutational load was observed in V600K, with a higher proportion of mutations in PIK3R1 and tumor-suppressor genes. In patients treated with anti–PD-1, V600K (n = 19) had superior outcomes than V600E (n = 84), including response rate (53% vs. 29%, P = 0.059), PFS (median, 19 vs. 2.7 months, P = 0.049), and overall survival (20.4 vs. 11.7 months, P = 0.081).Conclusions:BRAF V600K melanomas appear to benefit less from BRAFi±MEKi than V600E, potentially due to less reliance on ERK pathway activation and greater use of alternative pathways. In contrast, these melanomas have higher mutational load and respond better to immunotherapy.

Published

2023

33. Obesity is associated with altered tumor metabolism in metastatic melanoma

Author

Andrew W. Hahn, Ashley V. Menk, Dayana B. Rivadeneira, Ryan C. Augustin, Mingchu Xu, Jun Li, Xiaogang Wu, Aditya K. Mishra, Tuba N. Gide, Camelia Quek, Yan Zang, Christine N. Spencer, Alexander M. Menzies, Carrie R. Daniel, Courtney W. Hudgens, Theodore Nowicki, Lauren E. Haydu, M.A. Wadud Khan, Vancheswaran Gopalakrishnan, Elizabeth M. Burton, Jared Malke, Julie M. Simon, Chantale Bernatchez, Nagireddy Putluri, Scott E. Woodman, Y.N. Vashisht Gopal, Renato Guerrieri, Grant M. Fischer, Jian Wang, Khalida M. Wani, John F. Thompson, Jeffrey E. Lee, Patrick Hwu, Nadim Ajami, Jeffrey E. Gershenwald, Georgina V. Long, Richard A. Scolyer, Michael T. Tetzlaff, Alexander J. Lazar, Dirk Schadendorf, Jennifer A. Wargo, John M. Kirkwood, Ralph J. DeBerardinis, Han Liang, Andrew Futreal, Jianhua Zhang, James S. Wilmott, Weiyi Peng, Michael A. Davies, Greg M. Delgoffe, Yana G. Najjar, and Jennifer L. McQuade

Subjects

Cancer Research, Oncology, Humans, Neoplasms, Second Primary, Obesity, Overweight, Melanoma, Article

Abstract

Purpose: Overweight/obese (OW/OB) patients with metastatic melanoma unexpectedly have improved outcomes with immune checkpoint inhibitors (ICI) and BRAF-targeted therapies. The mechanism(s) underlying this association remain unclear, thus we assessed the integrated molecular, metabolic, and immune profile of tumors, as well as gut microbiome features, for associations with patient body mass index (BMI). Experimental Design: Associations between BMI [normal (NL < 25) or OW/OB (BMI ≥ 25)] and tumor or microbiome characteristics were examined in specimens from 782 patients with metastatic melanoma across 7 cohorts. DNA associations were evaluated in The Cancer Genome Atlas cohort. RNA sequencing from 4 cohorts (n = 357) was batch corrected and gene set enrichment analysis (GSEA) by BMI category was performed. Metabolic profiling was conducted in a subset of patients (x = 36) by LC/MS, and in flow-sorted melanoma tumor cells (x = 37) and patient-derived melanoma cell lines (x = 17) using the Seahorse XF assay. Gut microbiome features were examined in an independent cohort (n = 371). Results: DNA mutations and copy number variations were not associated with BMI. GSEA demonstrated that tumors from OW/OB patients were metabolically quiescent, with downregulation of oxidative phosphorylation and multiple other metabolic pathways. Direct metabolite analysis and functional metabolic profiling confirmed decreased central carbon metabolism in OW/OB metastatic melanoma tumors and patient-derived cell lines. The overall structure, diversity, and taxonomy of the fecal microbiome did not differ by BMI. Conclusions: These findings suggest that the host metabolic phenotype influences melanoma metabolism and provide insight into the improved outcomes observed in OW/OB patients with metastatic melanoma treated with ICIs and targeted therapies. See related commentary by Smalley, p. 5

Published

2023

34. Abstract 2369: Spatial organization of the tumour immune microenvironment (TIME) in primary and metastatic melanoma is associated with patient outcome

Author

Grace Heloise Attrill, Eva R. Shteinman, Xinyu Bai, Felix Marsh-Wakefield, Camelia Quek, Umaimainthan Palendira, Ismael A. Vergara, Georgina V. Long, Richard A. Scolyer, and James S. Wilmott

Subjects

Cancer Research, Oncology

Abstract

Introduction The complex spatial cellular interactions of immune cell populations within the melanoma TIME are associated with patient prognosis and immunotherapy response. Novel multiplex immunofluorescence (mIHC) and spatial analysis techniques enable comprehensive investigation of these interactions. This study aimed to develop an automated spatial analysis workflow for large patient cohorts and to determine immunospatial patterns associated with outcome in patients (pts) with primary melanoma as well as pts with stage III melanoma treated with adjuvant immunotherapy. Methods Two cohorts with available clinical & mIHC data were studied: one of primary melanoma pts (primary cohort, n=46), and another of baseline resected stage III melanoma pts who received adjuvant anti-PD-1 (stage III cohort, n=119). Melanoma tissue was stained for CD8+ T cells and the markers CD103, PD-1 and CD39 in both cohorts and the primary cohort was additionally stained for NK cells, B cells, and Langerhans cells (LCs). mIHC data was investigated using the SPIAT spatial analysis R package. Immune-melanoma and immune-immune spatial relationships were quantified throughout the entire tissue and analysed using neighborhood analysis and cell colocalization metrics including entropy and mixing interaction scores. Results In the primary melanoma cohort, 11 neighborhood metaclusters (NMCs) were identified from 1617 neighborhoods. NMCs with high B cells, CD39+CD103+ CD8+ T cells, or LCs were associated with improved outcomes in this cohort. Neighborhood composition varied significantly based on tissue localisation, with B cells, LCs and NK cells significantly increased in marginal and stromal neighborhoods (p Conclusions In developing a cohort-wide TIME spatial analytic approach and workflow, we identified multiple immunospatial associations with patient outcome in primary and stage III metastatic melanoma. Intratumoral immune diversity and immune cell neighborhoods indicate beneficial anti-tumor immune functions contributing towards improved patient outcomes. Citation Format: Grace Heloise Attrill, Eva R. Shteinman, Xinyu Bai, Felix Marsh-Wakefield, Camelia Quek, Umaimainthan Palendira, Ismael A. Vergara, Georgina V. Long, Richard A. Scolyer, James S. Wilmott. Spatial organization of the tumour immune microenvironment (TIME) in primary and metastatic melanoma is associated with patient outcome [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 1 (Regular and Invited Abstracts); 2023 Apr 14-19; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2023;83(7_Suppl):Abstract nr 2369.

Published

2023

35. Abstract 5701: Predictive biomarker models of immunotherapy response in patients with metastatic melanoma: genomic, transcriptomic, and immune profiles from the Personalised Immunotherapy Program (PIP)

Author

Tuba N. Gide, Nurudeen A. Adegoke, Yizhe Mao, Monica Lennox, Saurab Raj, Camelia Quek, Ismael A. Vergara, Nigel Maher, Alison Potter, Robyn P. Saw, John F. Thompson, Andrew J. Spillane, Kerwin F. Shannon, Matteo S. Carlino, Maria Gonzalez, Serigne N. Lo, Alexander M. Menzies, Inês Pires da Silva, Richard A. Scolyer, Georgina V. Long, and James S. Wilmott

Subjects

Cancer Research, Oncology

Abstract

Background: While immune checkpoint inhibitors (ICI) have become the standard-of-care for advanced melanoma patients, only half of treated patients will survive beyond 5-years and many develop significant toxicity. The PIP study is combining pre-treatment clinical, molecular, and immunological profiles of melanoma patients to provide accurate prediction of response to ICI therapies. Methods: 504 patients with advanced melanoma who received anti-PD-1±CTLA-4 ICI were studied to develop predictive models of resistance to ICI. Resistance was defined as patients with progressive disease as best response, or partial response/stable disease with Results: Models were developed and validated using sequential addition of omics features to relevant clinical factors. Baseline clinical data alone achieved an AUC of 68%. Clinical plus three-tier TMB (20 mut/mb) achieved an AUC of 78%. Clinical data plus GEP achieved 79% AUC, inclusive of tumor inflammation, antigen presentation and T-cell related signatures. Clinical and MIF spatial pathology achieved an 82% AUC including the distances between T-cells, CD16+ cells and melanoma cells as features in the model. Finally, the combination of TMB and GEP achieved an 83% AUC. Prospective validation of the models is awaiting follow-up milestones. Conclusion: Multi-omic models using pre-treatment tissue and clinicopathology can significantly improve the accuracy of predicting patient outcomes to ICI treatments compared to baseline clinical data alone. Several models may be required based on different omic combinations to account for the reality of biopsy suitability and assay failures. These findings prove personalized precision treatment of patients with immunotherapies is possible in the clinical setting and such approaches should become routine care. Citation Format: Tuba N. Gide, Nurudeen A. Adegoke, Yizhe Mao, Monica Lennox, Saurab Raj, Camelia Quek, Ismael A. Vergara, Nigel Maher, Alison Potter, Robyn P. Saw, John F. Thompson, Andrew J. Spillane, Kerwin F. Shannon, Matteo S. Carlino, Maria Gonzalez, Serigne N. Lo, Alexander M. Menzies, Inês Pires da Silva, Richard A. Scolyer, Georgina V. Long, James S. Wilmott. Predictive biomarker models of immunotherapy response in patients with metastatic melanoma: genomic, transcriptomic, and immune profiles from the Personalised Immunotherapy Program (PIP). [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 1 (Regular and Invited Abstracts); 2023 Apr 14-19; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2023;83(7_Suppl):Abstract nr 5701.

Published

2023

36. Defining the purity of exosomes required for diagnostic profiling of small RNA suitable for biomarker discovery

Author

Lesley Cheng, Andrew F. Hill, Shayne A. Bellingham, Robyn A. Sharples, Benjamin J. Scicluna, Mitch Shambrook, Chol-Hee Jung, and Camelia Quek

Subjects

0301 basic medicine, Small RNA, Hypothalamus, Computational biology, exosomes, Biology, Exosome, Cell Line, Workflow, 03 medical and health sciences, Mice, RNA, Transfer, Animals, small RNA, Biomarker discovery, Small nucleolar RNA, Molecular Biology, miRNA, Uncategorized, Neurons, Gene Expression Profiling, RNA, High-Throughput Nucleotide Sequencing, Cell Biology, Non-coding RNA, Molecular biology, Microvesicles, MicroRNAs, 030104 developmental biology, RNA, Small Untranslated, Small nuclear RNA, Biomarkers, Research Paper

Abstract

Small non-coding RNAs (ncRNA), including microRNAs (miRNA), enclosed in exosomes are being utilised for biomarker discovery in disease. Two common exosome isolation methods involve differential ultracentrifugation or differential ultracentrifugation coupled with Optiprep gradient fractionation. Generally, the incorporation of an Optiprep gradient provides better separation and increased purity of exosomes. The question of whether increased purity of exosomes is required for small ncRNA profiling, particularly in diagnostic and biomarker purposes, has not been addressed and highly debated. Utilizing an established neuronal cell system, we used next-generation sequencing to comprehensively profile ncRNA in cells and exosomes isolated by these 2 isolation methods. By comparing ncRNA content in exosomes from these two methods, we found that exosomes from both isolation methods were enriched with miRNAs and contained a diverse range of rRNA, small nuclear RNA, small nucleolar RNA and piwi-interacting RNA as compared with their cellular counterparts. Additionally, tRNA fragments (30–55 nucleotides in length) were identified in exosomes and may act as potential modulators for repressing protein translation. Overall, the outcome of this study confirms that ultracentrifugation-based method as a feasible approach to identify ncRNA biomarkers in exosomes.

Published

2022

37. Genetics and Genomics of Melanoma: Current Progress and Future Directions

Author

Camelia Quek

Subjects

Genetics, Genetics (clinical)

Abstract

Melanoma is a form of skin cancer that develops in the skin’s pigment cells, known as melanocytes, and can spread via blood and the lymphatic system to nearby tissues or distant organs in the body [...]

Published

2023

38. Distinct pretreatment innate immune landscape and posttreatment T cell responses underlie immunotherapy-induced colitis

Author

Kazi J. Nahar, Felix Marsh-Wakefield, Robert V. Rawson, Tuba N. Gide, Angela L. Ferguson, Ruth Allen, Camelia Quek, Ines Pires da Silva, Stephen Tattersal, Christopher J. Kiely, Neomal Sandanayake, Matteo S. Carlino, Geoff McCaughan, James S. Wilmott, Richard A. Scolyer, Georgina V. Long, Alexander M. Menzies, and Umaimainthan Palendira

Subjects

Programmed Cell Death 1 Receptor, Humans, Immunologic Factors, General Medicine, Immunotherapy, CD8-Positive T-Lymphocytes, Colitis, Immunity, Innate

Abstract

Immune-related adverse events represent a major hurdle to the success of immunotherapy. The immunological mechanisms underlying their development and relation to antitumor responses are poorly understood. By examining both systemic and tissue-specific immune changes induced by combination anti-CTLA-4 and anti-PD-1 immunotherapy, we found distinct repertoire changes in patients who developed moderate-severe colitis, irrespective of their antitumor response to therapy. The proportion of circulating monocytes were significantly increased at baseline in patients who subsequently developed colitis compared with patients who did not develop colitis, and biopsies from patients with colitis showed monocytic infiltration of both endoscopically and histopathologically normal and inflamed regions of colon. The magnitude of systemic expansion of T cells following commencement of immunotherapy was also greater in patients who developed colitis. Importantly, we show expansion of specific T cell subsets within inflamed regions of the colon, including tissue-resident memory CD8+ T cells and Th1 CD4+ T cells in patients who developed colitis. Our data also suggest that CD8+ T cell expansion was locally induced, while Th1 cell expansion was systemic. Together, our data show that exaggerated innate and T cell responses to combination immunotherapy synergize to propel colitis in susceptible patients.

Published

2021

39. High-Dimensional Single-Cell Transcriptomics in Melanoma and Cancer Immunotherapy

Author

Richard A. Scolyer, Xinyu Bai, Camelia Quek, James S. Wilmott, and Georgina V. Long

Subjects

diagnosis, Computer science, Single cell transcriptomics, medicine.medical_treatment, Translational research, Context (language use), Review, Computational biology, QH426-470, transcriptomics, Cancer immunotherapy, Tumor Microenvironment, medicine, melanoma, Genetics, Humans, cancer, Genetics (clinical), treatment, business.industry, Melanoma, Cancer, Immunotherapy, sequencing, single-cell, medicine.disease, spatial, Analytics, immunotherapy, Single-Cell Analysis, Transcriptome, business

Abstract

Recent advances in single-cell transcriptomics have greatly improved knowledge of complex transcriptional programs, rapidly expanding our knowledge of cellular phenotypes and functions within the tumour microenvironment and immune system. Several new single-cell technologies have been developed over recent years that have enabled expanded understanding of the mechanistic cells and biological pathways targeted by immunotherapies such as immune checkpoint inhibitors, which are now routinely used in patient management with high-risk early-stage or advanced melanoma. These technologies have method-specific strengths, weaknesses and capabilities which need to be considered when utilising them to answer translational research questions. Here, we provide guidance for the implementation of single-cell transcriptomic analysis platforms by reviewing the currently available experimental and analysis workflows. We then highlight the use of these technologies to dissect the tumour microenvironment in the context of cancer patients treated with immunotherapy. The strategic use of single-cell analytics in clinical settings are discussed and potential future opportunities are explored with a focus on their use to rationalise the design of novel immunotherapeutic drug therapies that will ultimately lead to improved cancer patient outcomes.

Published

2021

40. Unravelling Tumour Microenvironment in Melanoma at Single-Cell Level and Challenges to Checkpoint Immunotherapy

Author

Xinyu Bai and Camelia Quek

Subjects

Tumor Microenvironment, Genetics, Humans, Immunologic Factors, Immunotherapy, Melanoma, Genetics (clinical)

Abstract

Melanoma is known as one of the most immunogenic tumours and is often characterised by high mutation burden, neoantigen load and immune infiltrate. The application of immunotherapies has led to impressive improvements in the clinical outcomes of advanced stage melanoma patients. The standard of care immunotherapies leverage the host immunological influence on tumour cells, which entail complex interactions among the tumour, stroma, and immune cells at the tumour microenvironmental level. However, not all cancer patients can achieve a long-term durable response to immunotherapy, and a significant proportion of patients develops resistance and still die from their disease. Owing to the multi-faceted problems of tumour and microenvironmental heterogeneity, identifying the key factors underlying tumour progression and immunotherapy resistance poses a great challenge. In this review, we outline the main challenges to current cancer immunotherapy research posed by tumour heterogeneity and microenvironment complexities including genomic and transcriptomic variability, selective outgrowth of tumour subpopulations, spatial and temporal tumour heterogeneity and the dynamic state of host immunity and microenvironment orchestration. We also highlight the opportunities to dissect tumour heterogeneity using single-cell sequencing and spatial platforms. Integrative analyses of large-scale datasets will enable in-depth exploration of biological questions, which facilitates the clinical application of translational research.

Published

2022