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1. Fibrotic response to anti-CSF-1R therapy potentiates glioblastoma recurrence

Author

Watson, Spencer S., Zomer, Anoek, Fournier, Nadine, Lourenco, Joao, Quadroni, Manfredo, Chryplewicz, Agnieszka, Nassiri, Sina, Aubel, Pauline, Avanthay, Simona, Croci, Davide, Abels, Erik, Broekman, Marike L.D., Hanahan, Douglas, Huse, Jason T., Daniel, Roy T., Hegi, Monika E., Homicsko, Krisztian, Cossu, Giulia, Hottinger, Andreas F., and Joyce, Johanna A.

Published
2024
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3. Proteomics reveals NNMT as a master metabolic regulator of cancer-associated fibroblasts

Author

Eckert, Mark A, Coscia, Fabian, Chryplewicz, Agnieszka, Chang, Jae Won, Hernandez, Kyle M, Pan, Shawn, Tienda, Samantha M, Nahotko, Dominik A, Li, Gang, Blaženović, Ivana, Lastra, Ricardo R, Curtis, Marion, Yamada, S Diane, Perets, Ruth, McGregor, Stephanie M, Andrade, Jorge, Fiehn, Oliver, Moellering, Raymond E, Mann, Matthias, and Lengyel, Ernst

Subjects
Rare Diseases, Genetics, Ovarian Cancer, Biotechnology, Cancer, Aetiology, Detection, screening and diagnosis, 4.1 Discovery and preclinical testing of markers and technologies, 2.1 Biological and endogenous factors, Cancer-Associated Fibroblasts, Cell Line, Tumor, Cells, Cultured, DNA Methylation, Disease Progression, Female, Histones, Humans, Neoplasm Metastasis, Niacinamide, Nicotinamide N-Methyltransferase, Ovarian Neoplasms, Phenotype, Prognosis, Proteomics, S-Adenosylhomocysteine, S-Adenosylmethionine, General Science & Technology
Abstract

High-grade serous carcinoma has a poor prognosis, owing primarily to its early dissemination throughout the abdominal cavity. Genomic and proteomic approaches have provided snapshots of the proteogenomics of ovarian cancer1,2, but a systematic examination of both the tumour and stromal compartments is critical in understanding ovarian cancer metastasis. Here we develop a label-free proteomic workflow to analyse as few as 5,000 formalin-fixed, paraffin-embedded cells microdissected from each compartment. The tumour proteome was stable during progression from in situ lesions to metastatic disease; however, the metastasis-associated stroma was characterized by a highly conserved proteomic signature, prominently including the methyltransferase nicotinamide N-methyltransferase (NNMT) and several of the proteins that it regulates. Stromal NNMT expression was necessary and sufficient for functional aspects of the cancer-associated fibroblast (CAF) phenotype, including the expression of CAF markers and the secretion of cytokines and oncogenic extracellular matrix. Stromal NNMT expression supported ovarian cancer migration, proliferation and in vivo growth and metastasis. Expression of NNMT in CAFs led to depletion of S-adenosyl methionine and reduction in histone methylation associated with widespread gene expression changes in the tumour stroma. This work supports the use of ultra-low-input proteomics to identify candidate drivers of disease phenotypes. NNMT is a central, metabolic regulator of CAF differentiation and cancer progression in the stroma that may be therapeutically targeted.

Published
2019

7. RADAR: differential analysis of MeRIP-seq data with a random effect model

Author

Zijie Zhang, Qi Zhan, Mark Eckert, Allen Zhu, Agnieszka Chryplewicz, Dario F. De Jesus, Decheng Ren, Rohit N. Kulkarni, Ernst Lengyel, Chuan He, and Mengjie Chen

Subjects
N 6-adenosine methylation (m6A), Differential methylation, MeRIP-seq, Biology (General), QH301-705.5, Genetics, QH426-470
Abstract

Abstract Epitranscriptome profiling using MeRIP-seq is a powerful technique for in vivo functional studies of reversible RNA modifications. We develop RADAR, a comprehensive analytical tool for detecting differentially methylated loci in MeRIP-seq data. RADAR enables accurate identification of altered methylation sites by accommodating variability of pre-immunoprecipitation expression level and post-immunoprecipitation count using different strategies. In addition, it is compatible with complex study design when covariates need to be incorporated in the analysis. Through simulation and real dataset analyses, we show that RADAR leads to more accurate and reproducible differential methylation analysis results than alternatives, which is available at https://github.com/scottzijiezhang/RADAR.

Published
2019
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12. Aberrant hyperexpression of the RNA binding protein FMRP in tumors mediates immune evasion

Author

Qiqun Zeng, Sadegh Saghafinia, Agnieszka Chryplewicz, Nadine Fournier, Lucine Christe, Yu-Qing Xie, Jeremy Guillot, Simge Yucel, Pumin Li, José A. Galván, Eva Karamitopoulou, Inti Zlobec, Dalya Ataca, Fleuriane Gallean, Peng Zhang, José Antonio Rodriguez-Calero, Mark Rubin, Mélanie Tichet, Krisztian Homicsko, and Douglas Hanahan

Subjects
Mice, Fragile X Mental Retardation Protein, Multidisciplinary, Neoplasms, Immune Tolerance, 570 Life sciences, biology, Animals, Humans, Chemokine CCL7, 610 Medicine & health, Interleukin-33, Immune Evasion, Protein S
Abstract

Many human cancers manifest the capability to circumvent attack by the adaptive immune system. In this work, we identified a component of immune evasion that involves frequent up-regulation of fragile X mental retardation protein (FMRP) in solid tumors. FMRP represses immune attack, as revealed by cancer cells engineered to lack its expression. FMRP-deficient tumors were infiltrated by activated T cells that impaired tumor growth and enhanced survival in mice. Mechanistically, FMRP’s immunosuppression was multifactorial, involving repression of the chemoattractant C-C motif chemokine ligand 7 (CCL7) concomitant with up-regulation of three immunomodulators—interleukin-33 (IL-33), tumor-secreted protein S (PROS1), and extracellular vesicles. Gene signatures associate FMRP’s cancer network with poor prognosis and response to therapy in cancer patients. Collectively, FMRP is implicated as a regulator that orchestrates a multifaceted barrier to antitumor immune responses.

Published
2022

13. Aberrant hyperexpression of the RNA binding protein FMRP in tumors mediates immune evasion

Author

Zeng, Qiqun, primary, Saghafinia, Sadegh, additional, Chryplewicz, Agnieszka, additional, Fournier, Nadine, additional, Christe, Lucine, additional, Xie, Yu-Qing, additional, Guillot, Jeremy, additional, Yucel, Simge, additional, Li, Pumin, additional, Galván, José A., additional, Karamitopoulou, Eva, additional, Zlobec, Inti, additional, Ataca, Dalya, additional, Gallean, Fleuriane, additional, Zhang, Peng, additional, Rodriguez-Calero, José Antonio, additional, Rubin, Mark, additional, Tichet, Mélanie, additional, Homicsko, Krisztian, additional, and Hanahan, Douglas, additional

Published
2022
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14. Abstract B40: Co-targeting autophagy, macrophages and vasculature in glioma tumors triggers tumor immunity

Author

Agnieszka Chryplewicz, Julie Scotton, Mélanie Tichet, and Douglas Hanahan

Subjects
Cancer Research, Immunology
Abstract

Glioblastoma (GBM) is the most common primary tumor arising in the central nervous system (CNS). The currently approved standard of care has transient clinical benefit as GBM tends to be exceedingly aggressive. Despite pronounced efforts to identify novel therapies, curative options for GBM do not exist, and the survival rate of diagnosed patients is very low. Therefore, there is an urgent need for new treatment strategies. One approach would be to co-target and thereby disrupt distinct hallmarks of cancer, aiming to elicit sustained therapeutic responses. We have assessed this concept by combining a tricyclic antidepressant -imipramine - with drugs targeting VEGF-A ligand or VEGF-Receptor in mice bearing de novo GBM. All monotherapies were ineffective. In notable contradistinction, we found that combinatorial regimens significantly increased survival benefit and regressed established tumors. Investigation of the basis for the therapeutic efficacy revealed that combining the VEGF pathway inhibitor with imipramine accentuated autophagy while modifying the angiogenic tumor vasculature to be more normal-like with induction of high endothelial venules. In addition, imipramine downregulated an M2-like phenotype of tumor-associated macrophages via histamine receptor and reprogramed them to express chemokines attracting otherwise rare CD8 T cells, which demonstrably contributed to the observed efficacy. As such, these hallmark co-targeting combinations reprogram the GBM microenvironment from immunosuppressive to pro-inflammatory, thereby rendering it immunogenic and sensitizing the tumors to immune checkpoint blockade, as evidenced by enhanced responses when an anti-PD-L1 therapy was included in the mix. The results to be presented will elaborate on a provocative new therapeutic approach for glioblastoma that has the prospect of motivating clinical evaluation in this daunting form of human cancer. Citation Format: Agnieszka Chryplewicz, Julie Scotton, Mélanie Tichet, Douglas Hanahan. Co-targeting autophagy, macrophages and vasculature in glioma tumors triggers tumor immunity [abstract]. In: Proceedings of the AACR Special Conference: Tumor Immunology and Immunotherapy; 2022 Oct 21-24; Boston, MA. Philadelphia (PA): AACR; Cancer Immunol Res 2022;10(12 Suppl):Abstract nr B40.

Published
2022
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15. Abstract B41: Reprogramming immunosuppressive tumor-associated macrophages potentiates standard-of-care therapy in melanoma

Author

Melanie Tichet, Agnieszka Chryplewicz, and Douglas Hanahan

Subjects
Cancer Research, Immunology
Abstract

Cutaneous melanoma is a highly aggressive cancer capable of distant and lethal metastatic spread. Recent breakthroughs have come from understanding oncogenic signaling and cancer immunobiology. Targeted therapies successfully block MAPK signaling in BRAFV600e mutant melanoma with remarkably high clinical responses followed by rapid relapse, whereas checkpoint inhibitors activating the immune response induce long-lasting responses, albeit only in a subset of patients. These limitations have driven interest in understanding innate and acquired resistance. Using an immunocompetent genetically-engineered mouse model of BRAF-driven melanoma, which phenocopies the human disease in its development, histopathology, and response to therapy, we focused on the tumor microenvironment (TME), seeking to elucidate resistance mechanisms. Our investigations have revealed that tumor-associated macrophages (TAMs) are a critical component of the TME, predominantly polarized toward a pro-tumoral “M2-like” phenotype, producing immunosuppressive factors and exhibiting extensive immuno-suppressive capabilities suggesting that they might significantly hinder immune responses in the melanoma TME. Seeking to assess their functional importance, we have found that combining conventional strategies with TAMs-reprogramming agents stimulates anti-tumor immune responses, leading to improved survival and responsiveness to standard-of-care therapies. These data highlight the central role played by macrophages in melanoma progression and demonstrate that pharmacologic reprogramming of macrophages represents a new therapeutic modality with the potential to elicit more effective anti-tumor immune responses against this devastating disease. Citation Format: Melanie Tichet, Agnieszka Chryplewicz, Douglas Hanahan. Reprogramming immunosuppressive tumor-associated macrophages potentiates standard-of-care therapy in melanoma [abstract]. In: Proceedings of the AACR Special Conference: Tumor Immunology and Immunotherapy; 2022 Oct 21-24; Boston, MA. Philadelphia (PA): AACR; Cancer Immunol Res 2022;10(12 Suppl):Abstract nr B41.

Published
2022
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16. Germline mutations in Black women with ovarian, fallopian tube and primary peritoneal carcinomas

Author

Somasegar, Sahana, primary, Weiss, Arielle, additional, Norquist, Barbara, additional, Khasnavis, Nithisha, additional, Radke, Marc, additional, Manhardt, Enna, additional, Pennil, Christopher, additional, Pennington, Kathryn, additional, Eckert, Mark, additional, Chryplewicz, Agnieszka, additional, Lengyel, Ernst, additional, and Swisher, Elizabeth, additional

Published
2022
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17. Ultrasensitive, multiplexed chemoproteomic profiling with soluble activity-dependent proximity ligation

Author

Jeffrey E. Montgomery, Raymond E. Moellering, Agnieszka Chryplewicz, Gang Li, Mark A. Eckert, Ernst Lengyel, and Jae Won Chang

Subjects
Proteomics, Multidisciplinary, Proteome, Protein family, Chemistry, Oligonucleotide, Proteolytic enzymes, Computational biology, Biological Sciences, Real-Time Polymerase Chain Reaction, Sensitivity and Specificity, Enzymes, Tandem Mass Spectrometry, In vivo, Cell Line, Tumor, Neoplasms, Humans, Profiling (information science), Chemoproteomics, Chromatography, Liquid
Abstract

Chemoproteomic methods can report directly on endogenous, active enzyme populations, which can differ greatly from measures of transcripts or protein abundance alone. Detection and quantification of family-wide probe engagement generally requires LC-MS/MS or gel-based detection methods, which suffer from low resolution, significant input proteome requirements, laborious sample preparation, and expensive equipment. Therefore, methods that can capitalize on the broad target profiling capacity of family-wide chemical probes but that enable specific, rapid, and ultrasensitive quantitation of protein activity in native samples would be useful for basic, translational, and clinical proteomic applications. Here we develop and apply a method that we call soluble activity-dependent proximity ligation (sADPL), which harnesses family-wide chemical probes to convert active enzyme levels into amplifiable barcoded oligonucleotide signals. We demonstrate that sADPL coupled to quantitative PCR signal detection enables multiplexed "writing" and "reading" of active enzyme levels across multiple protein families directly at picogram levels of whole, unfractionated proteome. sADPL profiling in a competitive format allows for highly sensitive detection of drug-protein interaction profiling, which allows for direct quantitative measurements of in vitro and in vivo on- and off-target drug engagement. Finally, we demonstrate that comparative sADPL profiling can be applied for high-throughput molecular phenotyping of primary human tumor samples, leading to the discovery of new connections between metabolic and proteolytic enzyme activity in specific tumor compartments and patient outcomes. We expect that this modular and multiplexed chemoproteomic platform will be a general approach for drug target engagement, as well as comparative enzyme activity profiling for basic and clinical applications.

Published
2019
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18. ECCR1 and NFKB2 Polymorphisms as Potential Biomarkers of Non-small Cell Lung Cancer in a Polish Population

Author

Monika Kosacka, Tomasz Dyła, Katarzyna Bogunia-Kubik, Anna Brzecka, Agnieszka Chryplewicz, and Monika Chaszczewska-Markowska

Subjects
Oncology, Cancer Research, medicine.medical_specialty, biology, business.industry, Complement receptor 1, Single-nucleotide polymorphism, General Medicine, medicine.disease, Lung cancer susceptibility, 03 medical and health sciences, 0302 clinical medicine, 030220 oncology & carcinogenesis, Internal medicine, medicine, Genetic predisposition, Allele, biology.gene, ERCC1, Lung cancer, business, Genotyping
Abstract

BACKGROUND/AIM Although genetic factors are presumed to account only for a part of the inter-individual variation in lung cancer susceptibility, the results are conflicting and there are no data available regarding the Polish population. We, therefore, performed a case-control study to investigate the association of seven selected single nucleotide polymorphisms (SNPs), in genes coding for excision repair cross-complimentary group 1 (ERCC1: rs11615, rs3212986, rs2298881), nuclear factor ĸB (NFKB2: rs7897947, rs12769316), bone morphogenetic protein 4 (BMP4: rs1957860), complement receptor 1 (CR1: rs7525160) and del/ins polymorphism in the family hypoxia inducible factor 2 gene (EGLN2: rs10680577), with non-small cell lung cancer (NSCLC) risk. MATERIALS AND METHODS Real-time PCR with melting curve analysis was used for genotyping of NSCLC patients and healthy individuals of Polish origin. RESULTS The ERCC1 rs11615 T allele and rs3212986 GG homozygosity were found to be associated with a higher risk of developing NSCLC. In addition, NFKB2 rs12769316 GG homozygosity was more frequently detected among male patients than controls, while no significant differences were found between the five polymorphisms. CONCLUSION ERCC1 polymorphisms may affect NSCLC risk in the Polish population, while the NFKB2 variant may be a possible marker of the disease in males.

Published
2019
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19. Germline mutations in Black patients with ovarian, fallopian tube and primary peritoneal carcinomas

Author

Barbara M. Norquist, Arielle S. Weiss, Mark A. Eckert, Ernst Lengyel, Agnieszka Chryplewicz, Elizabeth M. Swisher, Kathryn P. Pennington, Enna Manhardt, Marc R. Radke, C. Pennil, Sahana Somasegar, and Nithisha Khasnavis

Subjects
Adult, endocrine system diseases, Black People, Germline, White People, Germline mutation, Primary peritoneal carcinoma, Ovarian carcinoma, Genetic predisposition, Medicine, Fallopian Tube Neoplasms, Humans, Genetic Predisposition to Disease, Homologous Recombination, Germ-Line Mutation, Peritoneal Neoplasms, Genetic testing, Aged, Aged, 80 and over, BRCA2 Protein, Ovarian Neoplasms, medicine.diagnostic_test, business.industry, BRCA1 Protein, Obstetrics and Gynecology, Cancer, Middle Aged, medicine.disease, female genital diseases and pregnancy complications, Oncology, Cancer research, Female, business, Ovarian cancer
Abstract

Objective Routine genetic testing for ovarian cancer and identification of germline mutations can help improve early detection of cancer as well as guide treatment. Knowledge of genetic counseling and referral rates for genetic testing has been lower for Black patients, compared to White patients. We aimed to describe the demographics and presence of germline mutations in Black individuals with ovarian, fallopian tube or peritoneal carcinoma at two large academic institutions. Methods Fifty-one Black patients with invasive epithelial ovarian, fallopian tube, or primary peritoneal carcinoma were identified via institutional tissue banks over a 20-year time-period. Germline DNA was sequenced using BROCA, a targeted capture and parallel sequencing assay that identified pathogenic germline mutations in ovarian carcinoma susceptibility genes. Results Germline mutations in ovarian cancer susceptibility genes were found in 25.5% of women, most commonly BRCA1 and BRCA2. This mutation frequency mirrors those previously described among predominantly White populations. Our data suggests there may be an advantage in survival among those with germline mutations, although this was not statistically significant. Conclusions Given similar frequencies of germline mutations between Black and White patients with ovarian cancer, we conclude that there are not major differences in the genetic predisposition to ovarian carcinoma. Equitable access to genomic advancements including germline and tumor sequencing would facilitate equal access to PARP inhibitors, the standard of care for patients with BRCA mutated advanced ovarian cancer.

Published
2021

21. Phosphonic Analogs of Alanine as Acylpeptide Hydrolase Inhibitors

Author

Łukasz Winiarski, Józef Oleksyszyn, Agnieszka Chryplewicz, Marcin Sieńczyk, Sandra Olewińska, Maciej A. Walczak, Mateusz Psurski, and Karolina Torzyk

Subjects
DNA damage, Phosphorous Acids, Oligopeptidase, Bioengineering, Antineoplastic Agents, Protein degradation, 01 natural sciences, Biochemistry, Dipeptidyl peptidase, Cell Line, Tumor, Neoplasms, Humans, Protease Inhibitors, Molecular Biology, Cell Proliferation, Alanine, Serine protease, chemistry.chemical_classification, biology, Esterification, 010405 organic chemistry, Chemistry, General Chemistry, General Medicine, 0104 chemical sciences, 010404 medicinal & biomolecular chemistry, Enzyme, Proteasome, biology.protein, Molecular Medicine, Peptide Hydrolases
Abstract

Acylpeptide hydrolase is a serine protease, which, together with prolyl oligopeptidase, dipeptidyl peptidase IV and oligopeptidase B, belongs to the prolyl oligopeptidase family. Its primary function is associated with the removal of N-acetylated amino acid residues from proteins and peptides. Although the N-acylation occurs in 50-90 % of eukaryotic proteins, the precise functions of this modification remains unclear. Recent findings have indicated that acylpeptide hydrolase participates in various events including oxidized proteins degradation, amyloid β-peptide cleavage, and response to DNA damage. Considering the protein degradation cycle cross-talk between acylpeptide hydrolase and proteasome, inhibition of the first enzyme resulted in down-regulation of the ubiquitin-proteasome system and induction of cancer cell apoptosis. Acylpeptide hydrolase has been proposed as an interesting target for the development of new potential anticancer agents. Here, we present the synthesis of simple derivatives of (1-aminoethyl)phosphonic acid diaryl esters, phosphonic analogs of alanine diversified at the N-terminus and ester rings, as inhibitors of acylpeptide hydrolase and discuss the ability of the title compounds to induce apoptosis of U937 and MV-4-11 tumor cell lines.

Published
2020

22. m6A mRNA methylation regulates AKT activity to promote the proliferation and tumorigenicity of endometrial cancer

Author

Chuan He, Jianzhao Liu, Ying Yang, Jing-Tao Huang, Xiao-Hua Leng, Bryan T. Harada, Zhi-Gao Xu, Xue-Chen Yu, Song-Mei Liu, Samantha M. Tienda, Jie Cao, Shao-Min Chen, Zezhou Zhang, Kangkang Yu, Agnieszka Chryplewicz, Allen Zhu, Zhike Lu, Mark A. Eckert, Jun Liu, and Ernst Lengyel

Subjects
0301 basic medicine, Adenosine, Time Factors, Carcinogenesis, Cellular differentiation, Mice, Nude, Mechanistic Target of Rapamycin Complex 2, Biology, medicine.disease_cause, Methylation, Article, 03 medical and health sciences, Cell Line, Tumor, medicine, Phosphoprotein Phosphatases, Animals, Humans, RNA, Messenger, RNA, Neoplasm, RNA Processing, Post-Transcriptional, Protein kinase B, PI3K/AKT/mTOR pathway, Cell Proliferation, Regulation of gene expression, Methyltransferase complex, Cell Biology, Methyltransferases, 3. Good health, Cell biology, Endometrial Neoplasms, Tumor Burden, Gene Expression Regulation, Neoplastic, 030104 developmental biology, Mutation, Female, MRNA methylation, Proto-Oncogene Proteins c-akt, Signal Transduction
Abstract

N6-methyladenosine (m6A) messenger RNA methylation is a gene regulatory mechanism affecting cell differentiation and proliferation in development and cancer. To study the roles of m6A mRNA methylation in cell proliferation and tumorigenicity, we investigated human endometrial cancer in which a hotspot R298P mutation is present in a key component of the methyltransferase complex (METTL14). We found that about 70% of endometrial tumours exhibit reductions in m6A methylation that are probably due to either this METTL14 mutation or reduced expression of METTL3, another component of the methyltransferase complex. These changes lead to increased proliferation and tumorigenicity of endometrial cancer cells, likely through activation of the AKT pathway. Reductions in m6A methylation lead to decreased expression of the negative AKT regulator PHLPP2 and increased expression of the positive AKT regulator mTORC2. Together, these results reveal reduced m6A mRNA methylation as an oncogenic mechanism in endometrial cancer and identify m6A methylation as a regulator of AKT signalling.

Published
2018

26. RADAR: Differential analysis of MeRIP-seq data with a random effect model

Author

Rohit N. Kulkarni, Dario F. De Jesus, Allen Zhu, Mark A. Eckert, Agnieszka Chryplewicz, Qi Zhan, Ernst Lengyel, Mengjie Chen, Chuan He, Zijie Zhang, and Decheng Ren

Subjects
lcsh:QH426-470, Computer science, 0206 medical engineering, MeRIP-seq, Method, Locus (genetics), 02 engineering and technology, Computational biology, Biology, Methylation, Differential analysis, law.invention, 03 medical and health sciences, law, Covariate, Animals, Humans, Immunoprecipitation, Functional studies, Differential methylation, Radar, lcsh:QH301-705.5, 030304 developmental biology, Mice, Knockout, 0303 health sciences, Models, Statistical, N 6-adenosine methylation (m6A), Sequence Analysis, RNA, 030302 biochemistry & molecular biology, RNA, Random effects model, lcsh:Genetics, lcsh:Biology (General), N6-adenosine methylation (m6A), Differential Methylation, 020602 bioinformatics, Software
Abstract

Epitranscriptome profiling using MeRIP-seq is a powerful technique for in vivo functional studies of reversible RNA modifications. We develop RADAR, a comprehensive analytical tool for detecting differentially methylated loci in MeRIP-seq data. RADAR enables accurate identification of altered methylation sites by accommodating variability of pre-immunoprecipitation expression level and post-immunoprecipitation count using different strategies. In addition, it is compatible with complex study design when covariates need to be incorporated in the analysis. Through simulation and real datasets analyses, we show that RADAR leads to more accurate and reproducible differential methylation analysis results than alternatives, which is available at https://github.com/scottzijiezhang/RADAR.

Published
2019
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27. Metabolic reprogramming of the stromal epigenome in ovarian cancer metastasis

Author

Oliver Fiehn, Jae Wong Chang, Gang Li, Ruth Perets, Samantha M. Tienda, Agnieszka Chryplewicz, Matthias Mann, Kyle M. Hernandez, Shawn Pan, Dominik A Nahotko, S. Diane Yamada, Stephanie M. McGregor, Raymond E. Moellering, Fabian Coscia, Marion Curtis, Jorge Andrade, Ivana Blaženović, Mark A. Eckert, Ernst Lengyel, and Ricardo R. Lastra

Subjects
Stromal cell, business.industry, Metabolic reprogramming, Epigenome, medicine.disease, Biochemistry, Metastasis, Genetics, medicine, Cancer research, Ovarian cancer, business, Molecular Biology, Biotechnology
Published
2019
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28. Abstract 1652: Co-targeting distinct hallmark capabilities for therapeutic benefit in pre-clinical GBM models

Author

Agnieszka Chryplewicz and Douglas Hanahan

Subjects
Cancer Research, Oncology
Abstract

Glioblastoma (GBM) is the most common primary tumor arising in the central nervous system (CNS). The currently approved standard of care has transient clinical benefit as GBM tends to be exceedingly aggressive. Despite pronounced efforts to identify novel therapies, curative options for GBM do not exist and the survival rate of diagnosed patients is very low. Therefore, there is an urgent need for new treatment strategies, and one approach would be to co-target and thereby disrupt distinct hallmarks of cancer, aiming to elicit sustained therapeutic responses. We have assessed this concept by combining a tricyclic antidepressant -imipramine - with drugs targeting VEGF-A ligand or VEGF-Receptor in mice bearing de novo GBM. All monotherapies were ineffective. In notable contradistinction, we found that combinatorial regimens significantly increased survival benefit and regressed established tumors. Investigation of the basis for the therapeutic efficacy revealed that combining the VEGF pathway inhibitor with imipramine hyperactivated autophagy to the level of eliciting cancer cell-intrinsic autophagy-associated cell death, whilst modifying the tumor vasculature to be more normal-like. In addition, imipramine downregulated an M2-like phenotype of tumor-associated macrophages and reprogramed them to express chemokines attracting otherwise rare CD8 T cells, which were demonstrably contributing to the observed efficacy. As such, these hallmark co-targeting combinations served to reprogram the GBM microenvironment from immunosuppressive to pro-inflammatory, thereby sensitizing the tumors to immune checkpoint blockade, as evidenced by enhanced responses when an anti-PD-L1 therapy was included in the mix. The results to be presented will elaborate a provocative new therapeutic approach for glioblastoma that has prospect to motivate clinical evaluation in this daunting form of human cancer. Citation Format: Agnieszka Chryplewicz, Douglas Hanahan. Co-targeting distinct hallmark capabilities for therapeutic benefit in pre-clinical GBM models [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2021; 2021 Apr 10-15 and May 17-21. Philadelphia (PA): AACR; Cancer Res 2021;81(13_Suppl):Abstract nr 1652.

Published
2021
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30. Mutant p53 regulates LPA signaling through lysophosphatidic acid phosphatase type 6

Author

Pamela Peters, Mark A. Eckert, Ernst Lengyel, Dominik A Nahotko, Samantha M. Tienda, and Agnieszka Chryplewicz

Subjects
0301 basic medicine, Lysophosphatidic acid phosphatase type 6, Mutant, lcsh:Medicine, Down-Regulation, Mice, Nude, Biology, Article, Metastasis, Focal adhesion, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Downregulation and upregulation, Cell Line, Tumor, Lysophosphatidic acid, medicine, Animals, Humans, Neoplasm Metastasis, lcsh:Science, Fallopian Tubes, Multidisciplinary, lcsh:R, Epithelial Cells, medicine.disease, Phosphoric Monoester Hydrolases, 030104 developmental biology, HEK293 Cells, chemistry, Mutation, Cancer research, lcsh:Q, Female, Signal transduction, Lysophospholipids, Tumor Suppressor Protein p53, Ovarian cancer, 030217 neurology & neurosurgery, Signal Transduction
Abstract

Emerging evidence has indicated that high-grade serous ovarian cancer (HGSOC) originates in the fallopian tube, where the earliest known genetic lesion is the mutation of TP53. In addition to such genetic changes, HGSOC is characterized by altered metabolism, including the production of oncogenic lipids such as lysophosphatidic acid (LPA). To understand the crosstalk between TP53 mutations and LPA signaling, we utilized primary fallopian tube epithelial cells (FTEC) engineered to overexpress mutant p53. We found that gain-of-function (GOF) p53 mutations downregulated the LPA-degrading enzyme lysophosphatidic acid phosphatase type 6 (ACP6), leading to upregulation of focal adhesion signaling in an LPA-dependent manner. Although highly expressed in normal fallopian tube epithelium, ACP6 expression was significantly reduced in ovarian cancer tumors and early in situ lesions. Downregulation of ACP6 in ovarian cancer cells was necessary and sufficient to support HGSOC proliferation, adhesion, migration, and invasion. Using mouse models of metastasis, we established that attenuation of ACP6 expression was associated with increased tumor burden. Conversely, overexpression of ACP6 suppressed invasive behavior. These data identify an involvement of oncogenic p53 mutations in LPA signaling and HGSOC progression through regulation of ACP6 expression.

Published
2018

33. Metabolic reprogramming of the stromal epigenome in ovarian cancer metastasis

Author

Eckert, Mark A, primary, Coscia, Fabian, additional, Chryplewicz, Agnieszka A, additional, Chang, Jae Wong, additional, Hernandez, Kyle M, additional, Pan, Shawn, additional, Tienda, Samantha M, additional, Nahotko, Dominik A, additional, Li, Gang, additional, Blaženović, Ivana, additional, Lastra, Ricardo R, additional, Curtis, Marion, additional, Yamada, S. Diane, additional, Perets, Ruth, additional, McGregor, Stephanie, additional, Andrade, Jorge, additional, Fiehn, Oliver, additional, Moellering, Raymond E, additional, Mann, Matthias, additional, and Lengyel, Ernst, additional

Published
2019
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34. Proteomics reveals NNMT as a master metabolic regulator of cancer-associated fibroblasts

Author

Stephanie M. McGregor, Jorge Andrade, S. Diane Yamada, Dominik A Nahotko, Samantha M. Tienda, Fabian Coscia, Ivana Blaženović, Oliver Fiehn, Ruth Perets, Jae Won Chang, Matthias Mann, Mark A. Eckert, Ernst Lengyel, Gang Li, Shawn Pan, Raymond E. Moellering, Agnieszka Chryplewicz, Ricardo R. Lastra, Kyle M. Hernandez, and Marion Curtis

Subjects
0301 basic medicine, Proteomics, S-Adenosylmethionine, Metastasis, Histones, 0302 clinical medicine, Cancer-Associated Fibroblasts, Histone methylation, Nicotinamide N-Methyltransferase, 2.1 Biological and endogenous factors, Aetiology, Neoplasm Metastasis, Cells, Cultured, Cancer, Ovarian Neoplasms, screening and diagnosis, Cultured, Tumor, Multidisciplinary, Prognosis, S-Adenosylhomocysteine, Ovarian Cancer, Detection, Phenotype, 030220 oncology & carcinogenesis, DNA methylation, Disease Progression, Female, Biotechnology, Niacinamide, Stromal cell, General Science & Technology, Cells, Nicotinamide N-methyltransferase, Biology, Article, Cell Line, 03 medical and health sciences, Rare Diseases, Stroma, Cell Line, Tumor, Genetics, medicine, Humans, DNA Methylation, medicine.disease, 4.1 Discovery and preclinical testing of markers and technologies, 030104 developmental biology, Cancer research, Ovarian cancer
Abstract

High-grade serous carcinoma has a poor prognosis, owing primarily to its early dissemination throughout the abdominal cavity. Genomic and proteomic approaches have provided snapshots of the proteogenomics of ovarian cancer1,2, but a systematic examination of both the tumour and stromal compartments is critical in understanding ovarian cancer metastasis. Here we develop a label-free proteomic workflow to analyse as few as 5,000 formalin-fixed, paraffin-embedded cells microdissected from each compartment. The tumour proteome was stable during progression from in situ lesions to metastatic disease; however, the metastasis-associated stroma was characterized by a highly conserved proteomic signature, prominently including the methyltransferase nicotinamide N-methyltransferase (NNMT) and several of the proteins that it regulates. Stromal NNMT expression was necessary and sufficient for functional aspects of the cancer-associated fibroblast (CAF) phenotype, including the expression of CAF markers and the secretion of cytokines and oncogenic extracellular matrix. Stromal NNMT expression supported ovarian cancer migration, proliferation and in vivo growth and metastasis. Expression of NNMT in CAFs led to depletion of S-adenosyl methionine and reduction in histone methylation associated with widespread gene expression changes in the tumour stroma. This work supports the use of ultra-low-input proteomics to identify candidate drivers of disease phenotypes. NNMT is a central, metabolic regulator of CAF differentiation and cancer progression in the stroma that may be therapeutically targeted. The authors find that stromal methyltransferase nicotinamide N-methyltransferase (NNMT) regulates the transition of normal fibroblasts to cancer-associated fibroblasts through histone methylation and promotes ovarian cancer growth and metastasis.

Published
2017

37. Ultrasensitive, multiplexed chemoproteomic profiling with soluble activity-dependent proximity ligation.

Author

Gang Li, Eckert, Mark A., Jae Won Chang, Montgomery, Jeffrey E., Chryplewicz, Agnieszka, Lengyel, Ernst, and Moellering, Raymond E.

Subjects
PROTEOLYTIC enzymes, MESSENGER RNA, SIGNAL detection, CHEMICAL sample preparation, TARGETED drug delivery
Abstract

Chemoproteomic methods can report directly on endogenous, active enzyme populations, which can differ greatly from measures of transcripts or protein abundance alone. Detection and quantification of family-wide probe engagement generally requires LC-MS/MS or gel-based detection methods, which suffer from low resolution, significant input proteome requirements, laborious sample preparation, and expensive equipment. Therefore, methods that can capitalize on the broad target profiling capacity of family-wide chemical probes but that enable specific, rapid, and ultrasensitive quantitation of protein activity in native samples would be useful for basic, translational, and clinical proteomic applications. Here we develop and apply a method that we call soluble activity-dependent proximity ligation (sADPL), which harnesses family-wide chemical probes to convert active enzyme levels into amplifiable barcoded oligonucleotide signals. We demonstrate that sADPL coupled to quantitative PCR signal detection enablesmultiplexed “writing” and “reading” of active enzyme levels across multiple protein families directly at picogram levels of whole, unfractionated proteome. sADPL profiling in a competitive format allows for highly sensitive detection of drug–protein interaction profiling, which allows for direct quantitative measurements of in vitro and in vivo on- and offtarget drug engagement. Finally, we demonstrate that comparative sADPL profiling can be applied for high-throughput molecular phenotyping of primary human tumor samples, leading to the discovery of new connections between metabolic and proteolytic enzyme activity in specific tumor compartments and patient outcomes. We expect that this modular and multiplexed chemoproteomic platform will be a general approach for drug target engagement, as well as comparative enzyme activity profiling for basic and clinical applications. [ABSTRACT FROM AUTHOR]

Published
2019
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38. Abstract 5899: Compartment-resolved proteomics reveal NNMT as a master metabolic regulator of cancer associated fibroblasts

Author

Anthony G. Montag, Mark A. Eckert, Ernst Lengyel, S. Diane Yamada, Matthias Mann, Fabian Coscia, Samantha M. Tienda, Chun-Yi Chiang, Agnieszka Chryplewicz, and Shawn Pan

Subjects
Cancer Research, Pathology, medicine.medical_specialty, Stromal cell, Cancer, Ovary, Cell migration, Biology, medicine.disease, Proteomics, Metastasis, medicine.anatomical_structure, Oncology, Stroma, medicine, Ovarian cancer
Abstract

The poor outcome of ovarian cancer patients is due to late detection and the ability of ovarian cancer cells to metastasize quickly throughout the abdominal cavity. Recent research, including histopathological studies and experiments with mouse models, suggest that ovarian cancer may actually arise in the fallopian tube as serous tubal intraepithelial carcinomas (STIC). Lesions of the ovary would, therefore, represent metastases from the fallopian tube. To better understand the molecular events that occur in both the tumor and stromal compartment during ovarian cancer progression, we performed shotgun proteomics on laser-microdissected tumor and stromal compartments from anatomic sites representing the hypothetical progression series for ovarian cancer (STIC → fallopian tube → ovary → omentum). With an optimized sample preparation technique, we successfully quantified 4-5000 proteins per anatomic site with high reproducibility and with as few as several thousand microdissected cells derived from formalin-fixed and paraffin-embedded (FFPE) biobank specimens. Proteomics of the tumor compartments revealed high inter-patient heterogeneity, with no conserved protein signatures associated with invasion or metastasis. In strong contrast, a highly conserved molecular signature of stromal proteins associated with metastasis to the omentum was identified. In particular, nicotinamide N-methyl transferase (NNMT) was highly upregulated in the stroma of omental and peritoneal metastases. Functionally, NNMT was necessary and sufficient for multiple aspects of the cancer associated fibroblast (CAF) phenotype, including expression of CAF markers and secretion of cytokines and oncogenic extracellular matrix. NNMT expression was necessary for the ability of CAFs to support ovarian cancer cell migration, proliferation, adhesion, and in vivo growth. Mechanistically, high expression of NNMT in CAFs led to a depletion of S-adenosyl methionine (SAM) and a reduction in histone methylation associated with gene expression changes in the tumor stroma. This work supports the use of ultra-low input proteomics for compartment-resolved identification of candidate drivers of disease phenotypes and identifies NNMT as a central, metabolic regulator of CAF differentiation. Citation Format: Mark A. Eckert, Fabian Coscia, Shawn Pan, Samantha M. Tienda, Agnieszka A. Chryplewicz, Chun-Yi Chiang, Anthony Montag, S. Diane Yamada, Matthias Mann, Ernst R. Lengyel. Compartment-resolved proteomics reveal NNMT as a master metabolic regulator of cancer associated fibroblasts [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2017; 2017 Apr 1-5; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2017;77(13 Suppl):Abstract nr 5899. doi:10.1158/1538-7445.AM2017-5899

Published
2017
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42. Bispecific PD1-IL2v and anti-PD-L1 break tumor immunity resistance by enhancing stem-like tumor- reactive CD8+T cells and reprogramming macrophages

Author

Tichet, Melanie, Wullschleger, Stephan, Chryplewicz, Agnieszka, Fournier, Nadine, Marcone, Rachel, Kauzlaric, Annamaria, Homicsko, Krisztian, Deak, Laura Codarri, Umana, Pablo, Klein, Christian, and Hanahan, Douglas

Subjects
modulation, normalization, tolerance, antigen, pd-l1, expression, interleukin-2, immunotherapy, differentiation, cd8(+) t-cells
Abstract

Immunotherapies have shown remarkable, albeit tumor-selective, therapeutic benefits in the clinic. Most pa-tients respond transiently at best, highlighting the importance of understanding mechanisms underlying resistance. Herein, we evaluated the effects of the engineered immunocytokine PD1-IL2v in a mouse model of de novo pancreatic neuroendocrine cancer that is resistant to checkpoint and other immunotherapies. PD1-IL2v utilizes anti-PD-1 as a targeting moiety fused to an immuno-stimulatory IL-2 cytokine variant (IL2v) to precisely deliver IL2v to PD-1+ T cells in the tumor microenvironment. PD1-IL2v elicited substantial infiltration by stem-like CD8+ T cells, resulting in tumor regression and enhanced survival in mice. Combining anti-PD-L1 with PD1-IL2v sustained the response phase, improving therapeutic efficacy both by reprogram-ming immunosuppressive tumor-associated macrophages and enhancing T cell receptor (TCR) immune repertoire diversity. These data provide a rationale for clinical trials to evaluate the combination therapy of PD1-IL2v and anti-PD-L1, particularly in immunotherapy-resistant tumors infiltrated with PD-1+ stem-like T cells.

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