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1. PI3Kγ inhibition circumvents inflammation and vascular leak in SARS-CoV-2 and other infections

Author

Shepard, Ryan M, Ghebremedhin, Anghesom, Pratumchai, Isaraphorn, Robinson, Sally R, Betts, Courtney, Hu, Jingjing, Sasik, Roman, Fisch, Kathleen M, Zak, Jaroslav, Chen, Hui, Paradise, Marc, Rivera, Jason, Amjad, Mohammad, Uchiyama, Satoshi, Seo, Hideya, Campos, Alejandro D, Dayao, Denise Ann, Tzipori, Saul, Piedra-Mora, Cesar, Das, Soumita, Hasteh, Farnaz, Russo, Hana, Sun, Xin, Xu, Le, E Alexander, Laura Crotty, Duran, Jason M, Odish, Mazen, Pretorius, Victor, Kirchberger, Nell C, Chin, Shao-Ming, Von Schalscha, Tami, Cheresh, David, Morrey, John D, Alargova, Rossitza, O'Connell, Brenda, Martinot, Theodore A, Patel, Sandip P, Nizet, Victor, Martinot, Amanda J, Coussens, Lisa M, Teijaro, John R, and Varner, Judith A

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Coronaviruses, Emerging Infectious Diseases, Biodefense, Infectious Diseases, Lung, 2.1 Biological and endogenous factors, Infection, Good Health and Well Being, COVID-19, Class Ib Phosphatidylinositol 3-Kinase, SARS-CoV-2, Animals, Inflammation, Humans, COVID-19 Drug Treatment, Methicillin-Resistant Staphylococcus aureus, Mice, Phosphoinositide-3 Kinase Inhibitors, Cytokine Release Syndrome, Capillary Permeability, Mice, Inbred C57BL, Staphylococcal Infections, Biological Sciences, Medical and Health Sciences, Medical biotechnology, Biomedical engineering
Abstract

Virulent infectious agents such as severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) and methicillin-resistant Staphylococcus aureus (MRSA) induce tissue damage that recruits neutrophils, monocyte, and macrophages, leading to T cell exhaustion, fibrosis, vascular leak, epithelial cell depletion, and fatal organ damage. Neutrophils, monocytes, and macrophages recruited to pathogen-infected lungs, including SARS-CoV-2-infected lungs, express phosphatidylinositol 3-kinase gamma (PI3Kγ), a signaling protein that coordinates both granulocyte and monocyte trafficking to diseased tissues and immune-suppressive, profibrotic transcription in myeloid cells. PI3Kγ deletion and inhibition with the clinical PI3Kγ inhibitor eganelisib promoted survival in models of infectious diseases, including SARS-CoV-2 and MRSA, by suppressing inflammation, vascular leak, organ damage, and cytokine storm. These results demonstrate essential roles for PI3Kγ in inflammatory lung disease and support the potential use of PI3Kγ inhibitors to suppress inflammation in severe infectious diseases.

Published
2024

2. PI3Kγ inhibition combined with DNA vaccination unleashes a B-cell-dependent antitumor immunity that hampers pancreatic cancer

Author

Curcio, Claudia, Mucciolo, Gianluca, Roux, Cecilia, Brugiapaglia, Silvia, Scagliotti, Alessandro, Guadagnin, Giorgia, Conti, Laura, Longo, Dario, Grosso, Demis, Papotti, Mauro Giulio, Hirsch, Emilio, Cappello, Paola, Varner, Judith A, and Novelli, Francesco

Subjects
Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Immunology, Cancer, Pancreatic Cancer, Vaccine Related, Rare Diseases, Digestive Diseases, Orphan Drug, Genetics, Immunotherapy, Immunization, 2.1 Biological and endogenous factors, 5.1 Pharmaceuticals, Animals, Mice, Vaccines, DNA, Pancreatic Neoplasms, B-Lymphocytes, Class Ib Phosphatidylinositol 3-Kinase, Humans, Cell Line, Tumor, Cancer Vaccines, Disease Models, Animal, Myeloid-Derived Suppressor Cells, Oncology and carcinogenesis
Abstract

Phosphoinositide-3-kinase γ (PI3Kγ) plays a critical role in pancreatic ductal adenocarcinoma (PDA) by driving the recruitment of myeloid-derived suppressor cells (MDSC) into tumor tissues, leading to tumor growth and metastasis. MDSC also impair the efficacy of immunotherapy. In this study we verify the hypothesis that MDSC targeting, via PI3Kγ inhibition, synergizes with α-enolase (ENO1) DNA vaccination in counteracting tumor growth.Mice that received ENO1 vaccination followed by PI3Kγ inhibition had significantly smaller tumors compared to those treated with ENO1 alone or the control group, and correlated with i) increased circulating anti-ENO1 specific IgG and IFNγ secretion by T cells, ii) increased tumor infiltration of CD8+ T cells and M1-like macrophages, as well as up-modulation of T cell activation and M1-like related transcripts, iii) decreased infiltration of Treg FoxP3+ T cells, endothelial cells and pericytes, and down-modulation of the stromal compartment and T cell exhaustion gene transcription, iv) reduction of mature and neo-formed vessels, v) increased follicular helper T cell activation and vi) increased "antigen spreading", as many other tumor-associated antigens were recognized by IgG2c "cytotoxic" antibodies. PDA mouse models genetically devoid of PI3Kγ showed an increased survival and a pattern of transcripts in the tumor area similar to that of pharmacologically-inhibited PI3Kγ-proficient mice. Notably, tumor reduction was abrogated in ENO1 + PI3Kγ inhibition-treated mice in which B cells were depleted.These data highlight a novel role of PI3Kγ in B cell-dependent immunity, suggesting that PI3Kγ depletion strengthens the anti-tumor response elicited by the ENO1 DNA vaccine.

Published
2024

4. PI3Kγ stimulates a high molecular weight form of myosin light chain kinase to promote myeloid cell adhesion and tumor inflammation

Author

Schmid, Michael C, Kang, Sang Won, Chen, Hui, Paradise, Marc, Ghebremedhin, Anghesom, Kaneda, Megan M, Chin, Shao-Ming, Do, Anh, Watterson, D Martin, and Varner, Judith A

Subjects
Biochemistry and Cell Biology, Biomedical and Clinical Sciences, Biological Sciences, Immunology, Oncology and Carcinogenesis, Cancer, 2.1 Biological and endogenous factors, Aetiology, Inflammatory and immune system, Cell Adhesion, Class Ib Phosphatidylinositol 3-Kinase, Humans, Inflammation, Molecular Weight, Myeloid Cells, Myosin-Light-Chain Kinase, Neoplasms
Abstract

Myeloid cells play key roles in cancer immune suppression and tumor progression. In response to tumor derived factors, circulating monocytes and granulocytes extravasate into the tumor parenchyma where they stimulate angiogenesis, immune suppression and tumor progression. Chemokines, cytokines and interleukins stimulate PI3Kγ-mediated Rap1 activation, leading to conformational changes in integrin α4β1 that promote myeloid cell extravasation and tumor inflammation Here we show that PI3Kγ activates a high molecular weight form of myosin light chain kinase, MLCK210, that promotes myosin-dependent Rap1 GTP loading, leading to integrin α4β1 activation. Genetic or pharmacological inhibition of MLCK210 suppresses integrin α4β1 activation, as well as tumor inflammation and progression. These results demonstrate a critical role for myeloid cell MLCK210 in tumor inflammation and serve as basis for the development of alternative approaches to develop immune oncology therapeutics.

Published
2022

5. PI3Kγ inhibition suppresses microglia/TAM accumulation in glioblastoma microenvironment to promote exceptional temozolomide response

Author

Li, Jie, Kaneda, Megan M, Ma, Jun, Li, Ming, Shepard, Ryan M, Patel, Kunal, Koga, Tomoyuki, Sarver, Aaron, Furnari, Frank, Xu, Beibei, Dhawan, Sanjay, Ning, Jianfang, Zhu, Hua, Wu, Anhua, You, Gan, Jiang, Tao, Venteicher, Andrew S, Rich, Jeremy N, Glass, Christopher K, Varner, Judith A, and Chen, Clark C

Subjects
Biological Sciences, Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Rare Diseases, Neurosciences, Brain Cancer, Cancer, Brain Disorders, Genetics, 2.1 Biological and endogenous factors, Aetiology, Adult, Animals, Brain Neoplasms, Cell Line, Tumor, Class Ib Phosphatidylinositol 3-Kinase, Drug Resistance, Neoplasm, Female, Glioblastoma, Humans, Interleukin-11, Male, Mice, Inbred C57BL, Mice, Nude, Microglia, Phosphatidylinositol 3-Kinase, Phosphoinositide-3 Kinase Inhibitors, Signal Transduction, Temozolomide, Tumor Microenvironment, Tumor-Associated Macrophages, Mice, glioblastoma, exceptional responders, IL11, PI3K gamma, microglia/macrophages, PI3Kγ
Abstract

Precision medicine in oncology leverages clinical observations of exceptional response. Toward an understanding of the molecular features that define this response, we applied an integrated, multiplatform analysis of RNA profiles derived from clinically annotated glioblastoma samples. This analysis suggested that specimens from exceptional responders are characterized by decreased accumulation of microglia/macrophages in the glioblastoma microenvironment. Glioblastoma-associated microglia/macrophages secreted interleukin 11 (IL11) to activate STAT3-MYC signaling in glioblastoma cells. This signaling induced stem cell states that confer enhanced tumorigenicity and resistance to the standard-of-care chemotherapy, temozolomide (TMZ). Targeting a myeloid cell restricted an isoform of phosphoinositide-3-kinase, phosphoinositide-3-kinase gamma isoform (PI3Kγ), by pharmacologic inhibition or genetic inactivation disrupted this signaling axis by reducing microglia/macrophage-associated IL11 secretion in the tumor microenvironment. Mirroring the clinical outcomes of exceptional responders, PI3Kγ inhibition synergistically enhanced the anti-neoplastic effects of TMZ in orthotopic murine glioblastoma models. Moreover, inhibition or genetic inactivation of PI3Kγ in murine glioblastoma models recapitulated expression profiles observed in clinical specimens isolated from exceptional responders. Our results suggest key contributions from tumor-associated microglia/macrophages in exceptional responses and highlight the translational potential for PI3Kγ inhibition as a glioblastoma therapy.

Published
2021

6. Arming Tumor-Associated Macrophages to Reverse Epithelial Cancer Progression

Author

Wettersten, Hiromi I, Weis, Sara M, Pathria, Paulina, Von Schalscha, Tami, Minami, Toshiyuki, Varner, Judith A, and Cheresh, David A

Subjects
Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Immunology, Lung Cancer, Cancer, Biotechnology, Lung, 2.1 Biological and endogenous factors, Aetiology, Animals, Antibodies, Monoclonal, Antibody-Dependent Cell Cytotoxicity, Antineoplastic Agents, Disease Progression, Humans, Integrin alphaVbeta3, Macrophages, Mice, Neoplasms, Glandular and Epithelial, Phagocytosis, Tumor Microenvironment, Oncology & Carcinogenesis, Biochemistry and cell biology, Oncology and carcinogenesis
Abstract

Tumor-associated macrophages (TAM) are highly expressed within the tumor microenvironment of a wide range of cancers, where they exert a protumor phenotype by promoting tumor cell growth and suppressing antitumor immune function. Here, we show that TAM accumulation in human and mouse tumors correlates with tumor cell expression of integrin αvβ3, a known driver of epithelial cancer progression and drug resistance. A monoclonal antibody targeting αvβ3 (LM609) exploited the coenrichment of αvβ3 and TAMs to not only eradicate highly aggressive drug-resistant human lung and pancreas cancers in mice, but also to prevent the emergence of circulating tumor cells. Importantly, this antitumor activity in mice was eliminated following macrophage depletion. Although LM609 had no direct effect on tumor cell viability, it engaged macrophages but not natural killer (NK) cells to induce antibody-dependent cellular cytotoxicity (ADCC) of αvβ3-expressing tumor cells despite their expression of the CD47 "don't eat me" signal. In contrast to strategies designed to eliminate TAMs, these findings suggest that anti-αvβ3 represents a promising immunotherapeutic approach to redirect TAMs to serve as tumor killers for late-stage or drug-resistant cancers. SIGNIFICANCE: Therapeutic antibodies are commonly engineered to optimize engagement of NK cells as effectors. In contrast, LM609 targets αvβ3 to suppress tumor progression and enhance drug sensitivity by exploiting TAMs to trigger ADCC.

Published
2019

7. Securing the Payload, Finding the Cell, and Avoiding the Endosome: Peptide‐Targeted, Fusogenic Porous Silicon Nanoparticles for Delivery of siRNA

Author

Kim, Byungji, Sun, Si, Varner, Judith A, Howell, Stephen B, Ruoslahti, Erkki, and Sailor, Michael J

Subjects
Engineering, Chemical Sciences, Physical Sciences, Genetics, Bioengineering, Rare Diseases, Ovarian Cancer, Gene Therapy, Biotechnology, Nanotechnology, Cancer, Aetiology, 5.2 Cellular and gene therapies, 2.1 Biological and endogenous factors, Development of treatments and therapeutic interventions, 5.1 Pharmaceuticals, Generic health relevance, Animals, Cell Line, Tumor, Drug Carriers, Endosomes, Gene Silencing, Humans, Mice, Nanoparticles, Peptides, Porosity, RNA, Small Interfering, Silicon, cancer treatment, immunotherapy, liposomes, macrophages, ovarian cancer, Nanoscience & Nanotechnology, Chemical sciences, Physical sciences
Abstract

Despite the promise of ribonucleic acid interference therapeutics, the delivery of oligonucleotides selectively to diseased tissues in the body, and specifically to the cellular location in the tissues needed to provide optimal therapeutic outcome, remains a significant challenge. Here, key material properties and biological mechanisms for delivery of short interfering RNAs (siRNAs) to effectively silence target-specific cells in vivo are identified. Using porous silicon nanoparticles as the siRNA host, tumor-targeting peptides for selective tissue homing, and fusogenic lipid coatings to induce fusion with the plasma membrane, it is shown that the uptake mechanism can be engineered to be independent of common receptor-mediated endocytosis pathways. Two examples of the potential broad clinical applicability of this concept in a mouse xenograft model of ovarian cancer peritoneal carcinomatosis are provided: silencing the Rev3l subunit of polymerase Pol ζ to impair DNA repair in combination with cisplatin; and reprogramming tumor-associated macrophages into a proinflammatory state.

Published
2019

8. MST1R kinase accelerates pancreatic cancer progression via effects on both epithelial cells and macrophages

Author

Babicky, Michele L, Harper, Megan M, Chakedis, Jeffery, Cazes, Alex, Mose, Evangeline S, Jaquish, Dawn V, French, Randall P, Childers, Betzaira, Alakus, Hakan, Schmid, Michael C, Foubert, Phillippe, Miyamoto, Jaclyn, Holman, Patrick J, Walterscheid, Zakkary J, Tang, Chih-Min, Varki, Nissi, Sicklick, Jason K, Messer, Karen, Varner, Judith A, Waltz, Susan E, and Lowy, Andrew M

Subjects
Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Immunology, Pancreatic Cancer, Rare Diseases, Cancer, Digestive Diseases, Aetiology, Development of treatments and therapeutic interventions, 5.1 Pharmaceuticals, 2.1 Biological and endogenous factors, Animals, Carcinoma, Pancreatic Ductal, Disease Progression, Epithelial Cells, Female, Gene Knockdown Techniques, Humans, Intracellular Signaling Peptides and Proteins, Macrophages, Male, Mice, Mice, Inbred C57BL, Mice, Transgenic, Pancreatic Neoplasms, Proof of Concept Study, Protein Serine-Threonine Kinases, Receptor Protein-Tyrosine Kinases, Signal Transduction, Tumor Microenvironment, Clinical Sciences, Oncology & Carcinogenesis, Biochemistry and cell biology, Oncology and carcinogenesis
Abstract

The MST1R (RON) kinase is overexpressed in >80% of human pancreatic cancers, but its role in pancreatic carcinogenesis is unknown. In this study, we examined the relevance of Mst1r kinase to Kras driven pancreatic carcinogenesis using genetically engineered mouse models. In the setting of mutant Kras, Mst1r overexpression increased acinar-ductal metaplasia (ADM), accelerated the progression of pancreatic intraepithelial neoplasia (PanIN), and resulted in the accumulation of (mannose receptor C type 1) MRC1+, (arginase 1) Arg+ macrophages in the tumor microenvironment. Conversely, absence of a functional Mst1r kinase slowed PanIN initiation, resulted in smaller tumors, prolonged survival and a reduced tumor-associated macrophage content. Mst1r expression was associated with increased production of its ligand Mst1, and in orthotopic models, suppression of Mst1 expression resulted in reduced tumor size, changes in macrophage polarization and enhanced T cell infiltration. This study demonstrates the functional significance of Mst1r during pancreatic cancer initiation and progression. Further, it provides proof of concept that targeting Mst1r can modulate pancreatic cancer growth and the microenvironment. This study provides further rationale for targeting Mst1r as a therapeutic strategy.

Published
2019

9. Integrin CD11b activation drives anti-tumor innate immunity.

Author

Schmid, Michael C, Khan, Samia Q, Kaneda, Megan M, Pathria, Paulina, Shepard, Ryan, Louis, Tiani L, Anand, Sudarshan, Woo, Gyunghwi, Leem, Chris, Faridi, M Hafeez, Geraghty, Terese, Rajagopalan, Anugraha, Gupta, Seema, Ahmed, Mansoor, Vazquez-Padron, Roberto I, Cheresh, David A, Gupta, Vineet, and Varner, Judith A

Subjects
Macrophages, Animals, Mice, Transgenic, Melanoma, Experimental, Neovascularization, Pathologic, Benzoates, Thiohydantoins, Proto-Oncogene Proteins c-myc, MicroRNAs, CD11b Antigen, Mice, Transgenic, Melanoma, Experimental, Neovascularization, Pathologic, Cancer, Hematology, 2.1 Biological and endogenous factors, Inflammatory and Immune System, MD Multidisciplinary
Abstract

Myeloid cells are recruited to damaged tissues where they can resolve infections and tumor growth or stimulate wound healing and tumor progression. Recruitment of these cells is regulated by integrins, a family of adhesion receptors that includes integrin CD11b. Here we report that, unexpectedly, integrin CD11b does not regulate myeloid cell recruitment to tumors but instead controls myeloid cell polarization and tumor growth. CD11b activation promotes pro-inflammatory macrophage polarization by stimulating expression of microRNA Let7a. In contrast, inhibition of CD11b prevents Let7a expression and induces cMyc expression, leading to immune suppressive macrophage polarization, vascular maturation, and accelerated tumor growth. Pharmacological activation of CD11b with a small molecule agonist, Leukadherin 1 (LA1), promotes pro-inflammatory macrophage polarization and suppresses tumor growth in animal models of murine and human cancer. These studies identify CD11b as negative regulator of immune suppression and a target for cancer immune therapy.

Published
2018

11. PI3Kgamma activates integrin alpha4 and promotes immune suppressive myeloid cell polarization during tumor progression

Author

Foubert, Philippe, Kaneda, Megan M, and Varner, Judith A

Subjects
Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Immunology, Colo-Rectal Cancer, Cancer, Digestive Diseases, Aetiology, 2.1 Biological and endogenous factors, Animals, Antibodies, Cell Line, Tumor, Cell Polarity, Cells, Cultured, Class Ib Phosphatidylinositol 3-Kinase, Cytokines, Female, Immune Tolerance, Integrin alpha4beta1, Lymphocytes, Tumor-Infiltrating, Macrophages, Mice, Inbred C57BL, Mice, Knockout, Myeloid Cells, Neoplasms, Phosphoinositide-3 Kinase Inhibitors, Pharmacology and Pharmaceutical Sciences, Oncology and carcinogenesis
Abstract

Immunosuppressive myeloid-derived suppressor cells (MDSCs) and tumor-associated macrophages (TAMs) accumulate in tumors where they inhibit T cell-mediated antitumor immune responses and promote tumor progression. Myeloid cell PI3Kγ plays a role in regulating tumor immune suppression by promoting integrin α4-dependent MDSC recruitment to tumors and by stimulating the immunosuppressive polarization of MDSCs and TAMs. Here, we show that integrin α4 promotes immunosuppressive polarization of MDSCs and TAMs downstream of PI3Kγ, thereby inhibiting antitumor immunity. Genetic or pharmacological suppression of either PI3Kγ or integrin α4 blocked MDSC recruitment to tumors and also inhibited immune suppressive myeloid cell polarization, thereby reducing expression of IL10 and increasing expression of IL12 and IFNγ within tumors. Inhibition of PI3Kγ or integrin α4 within tumors stimulated dendritic cell and CD8+ T-cell recruitment and maturation, as well as tumor cell cytotoxicity in vivo, thereby inhibiting tumor growth. As blockade of PI3Kγ or integrin α4 prevents accumulation of MDSC and reduces myeloid cell expression of immunosuppressive factors that stimulate tumor immune escape, these results highlight PI3Kγ and integrin α4 as targets for the design of cancer therapeutics. Cancer Immunol Res; 5(11); 957-68. ©2017 AACR.

Published
2017

12. Combination immunotherapy with TLR agonists and checkpoint inhibitors suppresses head and neck cancer

Author

Sato-Kaneko, Fumi, Yao, Shiyin, Ahmadi, Alast, Zhang, Shannon S, Hosoya, Tadashi, Kaneda, Megan M, Varner, Judith A, Pu, Minya, Messer, Karen S, Guiducci, Cristiana, Coffman, Robert L, Kitaura, Kazutaka, Matsutani, Takaji, Suzuki, Ryuji, Carson, Dennis A, Hayashi, Tomoko, and Cohen, Ezra EW

Subjects
Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Immunology, Cancer, Rare Diseases, Dental/Oral and Craniofacial Disease, Sexually Transmitted Infections, Immunization, Development of treatments and therapeutic interventions, 5.1 Pharmaceuticals, Good Health and Well Being, Animals, CD8-Positive T-Lymphocytes, Cell Line, Tumor, Head and Neck Neoplasms, Heterografts, Humans, Immunotherapy, Killer Cells, Natural, Macrophages, Mice, Mice, Inbred C3H, Programmed Cell Death 1 Receptor, Squamous Cell Carcinoma of Head and Neck, Toll-Like Receptor 7, Toll-Like Receptor 9, Tumor Microenvironment, Cancer immunotherapy, Head & neck cancer, Biomedical and clinical sciences, Health sciences
Abstract

Checkpoint inhibitors have demonstrated efficacy in patients with recurrent or metastatic head and neck squamous cell carcinoma (HNSCC). However, the majority of patients do not benefit from these agents. To improve the efficacy of checkpoint inhibitors, intratumoral (i.t.) injection with innate immune activators, TLR7 and TLR9 agonists, were tested along with programmed death-1 receptor (PD-1) blockade. The combination therapy suppressed tumor growth at the primary injected and distant sites in human papillomavirus-negative (HPV-negative) SCC7 and MOC1, and HPV-positive MEER syngeneic mouse models. Abscopal effects and suppression of secondary challenged tumor suggest that local treatment with TLR agonists in combination with anti-PD-1 provided systemic adaptive immunity. I.t. treatment with a TLR7 agonist increased the ratio of M1 to M2 tumor-associated macrophages (TAMs) and promoted the infiltration of tumor-specific IFNγ-producing CD8+ T cells. Anti-PD-1 treatment increased T cell receptor (TCR) clonality of CD8+ T cells in tumors and spleens of treated mice. Collectively, these experiments demonstrate that combination therapy with i.t. delivery of TLR agonists and PD-1 blockade activates TAMs and induces tumor-specific adaptive immune responses, leading to suppression of primary tumor growth and prevention of metastasis in HNSCC models.

Published
2017

13. Correction: Corrigendum: PI3Kγ is a molecular switch that controls immune suppression

Author

Kaneda, Megan M, Messer, Karen S, Ralainirina, Natacha, Li, Hongying, Leem, Christopher J, Gorjestani, Sara, Woo, Gyunghwi, Nguyen, Abraham V, Figueiredo, Camila C, Foubert, Philippe, Schmid, Michael C, Pink, Melissa, Winkler, David G, Rausch, Matthew, Palombella, Vito J, Kutok, Jeffery, McGovern, Karen, Frazer, Kelly A, Wu, Xuefeng, Karin, Michael, Sasik, Roman, Cohen, Ezra EW, and Varner, Judith A

Subjects
Biological Sciences, Bioinformatics and Computational Biology, Genetics, Cancer, General Science & Technology
Published
2017

14. Corrigendum: PI3Kγ is a molecular switch that controls immune suppression.

Author

Kaneda, Megan M, Messer, Karen S, Ralainirina, Natacha, Li, Hongying, Leem, Christopher J, Gorjestani, Sara, Woo, Gyunghwi, Nguyen, Abraham V, Figueiredo, Camila C, Foubert, Philippe, Schmid, Michael C, Pink, Melissa, Winkler, David G, Rausch, Matthew, Palombella, Vito J, Kutok, Jeffery, McGovern, Karen, Frazer, Kelly A, Wu, Xuefeng, Karin, Michael, Sasik, Roman, Cohen, Ezra EW, and Varner, Judith A

Subjects
Genetics, Cancer, General Science & Technology
Published
2017

15. PI3Kγ is a molecular switch that controls immune suppression

Author

Kaneda, Megan M, Messer, Karen S, Ralainirina, Natacha, Li, Hongying, Leem, Christopher J, Gorjestani, Sara, Woo, Gyunghwi, Nguyen, Abraham V, Figueiredo, Camila C, Foubert, Philippe, Schmid, Michael C, Pink, Melissa, Winkler, David G, Rausch, Matthew, Palombella, Vito J, Kutok, Jeffery, McGovern, Karen, Frazer, Kelly A, Wu, Xuefeng, Karin, Michael, Sasik, Roman, Cohen, Ezra EW, and Varner, Judith A

Subjects
Cancer, Animals, CCAAT-Enhancer-Binding Protein-beta, Cells, Cultured, Class Ib Phosphatidylinositol 3-Kinase, Female, Humans, Immune Tolerance, Inflammation, Lymphocyte Activation, Macrophages, Male, Mice, Mice, Inbred C57BL, NF-kappa B, Neoplasms, Phosphoinositide-3 Kinase Inhibitors, Programmed Cell Death 1 Receptor, Proto-Oncogene Proteins c-akt, Signal Transduction, T-Lymphocytes, TOR Serine-Threonine Kinases, Tumor Escape, General Science & Technology
Abstract

Macrophages play critical, but opposite, roles in acute and chronic inflammation and cancer. In response to pathogens or injury, inflammatory macrophages express cytokines that stimulate cytotoxic T cells, whereas macrophages in neoplastic and parasitic diseases express anti-inflammatory cytokines that induce immune suppression and may promote resistance to T cell checkpoint inhibitors. Here we show that macrophage PI 3-kinase γ controls a critical switch between immune stimulation and suppression during inflammation and cancer. PI3Kγ signalling through Akt and mTor inhibits NFκB activation while stimulating C/EBPβ activation, thereby inducing a transcriptional program that promotes immune suppression during inflammation and tumour growth. By contrast, selective inactivation of macrophage PI3Kγ stimulates and prolongs NFκB activation and inhibits C/EBPβ activation, thus promoting an immunostimulatory transcriptional program that restores CD8+ T cell activation and cytotoxicity. PI3Kγ synergizes with checkpoint inhibitor therapy to promote tumour regression and increased survival in mouse models of cancer. In addition, PI3Kγ-directed, anti-inflammatory gene expression can predict survival probability in cancer patients. Our work thus demonstrates that therapeutic targeting of intracellular signalling pathways that regulate the switch between macrophage polarization states can control immune suppression in cancer and other disorders.

Published
2016

16. Macrophage PI3Kγ Drives Pancreatic Ductal Adenocarcinoma Progression

Author

Kaneda, Megan M, Cappello, Paola, Nguyen, Abraham V, Ralainirina, Natacha, Hardamon, Chanae R, Foubert, Philippe, Schmid, Michael C, Sun, Ping, Mose, Evangeline, Bouvet, Michael, Lowy, Andrew M, Valasek, Mark A, Sasik, Roman, Novelli, Francesco, Hirsch, Emilio, and Varner, Judith A

Subjects
Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Immunology, Rare Diseases, Digestive Diseases, Cancer, Orphan Drug, Pancreatic Cancer, 2.1 Biological and endogenous factors, Aetiology, Animals, Antineoplastic Agents, Biomarkers, Carcinoma, Pancreatic Ductal, Cell Line, Tumor, Cell Movement, Class Ib Phosphatidylinositol 3-Kinase, Disease Models, Animal, Disease Progression, Gene Expression, Gene Knockout Techniques, Heterografts, Humans, Immunomodulation, Macrophage Activation, Macrophages, Male, Mice, Mice, Knockout, Mice, Transgenic, Mortality, Neoplasm Metastasis, Pancreatic Neoplasms, Phenols, Phosphoinositide-3 Kinase Inhibitors, Platelet-Derived Growth Factor, Pteridines, Xenograft Model Antitumor Assays, Biochemistry and cell biology, Oncology and carcinogenesis
Abstract

UnlabelledPancreatic ductal adenocarcinoma (PDAC) is a devastating disease with a low 5-year survival rate, yet new immunotherapeutic modalities may offer hope for this and other intractable cancers. Here, we report that inhibitory targeting of PI3Kγ, a key macrophage lipid kinase, stimulates antitumor immune responses, leading to improved survival and responsiveness to standard-of-care chemotherapy in animal models of PDAC. PI3Kγ selectively drives immunosuppressive transcriptional programming in macrophages that inhibits adaptive immune responses and promotes tumor cell invasion and desmoplasia in PDAC. Blockade of PI3Kγ in PDAC-bearing mice reprograms tumor-associated macrophages to stimulate CD8(+) T-cell-mediated tumor suppression and to inhibit tumor cell invasion, metastasis, and desmoplasia. These data indicate the central role that macrophage PI3Kγ plays in PDAC progression and demonstrate that pharmacologic inhibition of PI3Kγ represents a new therapeutic modality for this devastating tumor type.SignificanceWe report here that PI3Kγ regulates macrophage transcriptional programming, leading to T-cell suppression, desmoplasia, and metastasis in pancreas adenocarcinoma. Genetic or pharmacologic inhibition of PI3Kγ restores antitumor immune responses and improves responsiveness to standard-of-care chemotherapy. PI3Kγ represents a new therapeutic immune target for pancreas cancer. Cancer Discov; 6(8); 870-85. ©2016 AACR.This article is highlighted in the In This Issue feature, p. 803.

Published
2016

17. Bruton Tyrosine Kinase–Dependent Immune Cell Cross-talk Drives Pancreas Cancer

Author

Gunderson, Andrew J, Kaneda, Megan M, Tsujikawa, Takahiro, Nguyen, Abraham V, Affara, Nesrine I, Ruffell, Brian, Gorjestani, Sara, Liudahl, Shannon M, Truitt, Morgan, Olson, Peter, Kim, Grace, Hanahan, Douglas, Tempero, Margaret A, Sheppard, Brett, Irving, Bryan, Chang, Betty Y, Varner, Judith A, and Coussens, Lisa M

Subjects
Rare Diseases, Orphan Drug, Digestive Diseases, Pancreatic Cancer, Cancer, Agammaglobulinaemia Tyrosine Kinase, Animals, B-Lymphocytes, Biomarkers, Carcinoma, Pancreatic Ductal, Cell Communication, Cell Line, Tumor, Class Ib Phosphatidylinositol 3-Kinase, Disease Models, Animal, Disease Progression, Humans, Immune System, Leukocytes, Macrophage Activation, Macrophages, Mice, Mice, Knockout, Myeloid Cells, Pancreatic Neoplasms, Protein-Tyrosine Kinases, Receptors, IgG, Signal Transduction, Oncology and Carcinogenesis
Abstract

UnlabelledPancreas ductal adenocarcinoma (PDAC) has one of the worst 5-year survival rates of all solid tumors, and thus new treatment strategies are urgently needed. Here, we report that targeting Bruton tyrosine kinase (BTK), a key B-cell and macrophage kinase, restores T cell-dependent antitumor immune responses, thereby inhibiting PDAC growth and improving responsiveness to standard-of-care chemotherapy. We report that PDAC tumor growth depends on cross-talk between B cells and FcRγ(+) tumor-associated macrophages, resulting in T(H)2-type macrophage programming via BTK activation in a PI3Kγ-dependent manner. Treatment of PDAC-bearing mice with the BTK inhibitor PCI32765 (ibrutinib) or by PI3Kγ inhibition reprogrammed macrophages toward a T(H)1 phenotype that fostered CD8(+) T-cell cytotoxicity, and suppressed PDAC growth, indicating that BTK signaling mediates PDAC immunosuppression. These data indicate that pharmacologic inhibition of BTK in PDAC can reactivate adaptive immune responses, presenting a new therapeutic modality for this devastating tumor type.SignificanceWe report that BTK regulates B-cell and macrophage-mediated T-cell suppression in pancreas adenocarcinomas. Inhibition of BTK with the FDA-approved inhibitor ibrutinib restores T cell-dependent antitumor immune responses to inhibit PDAC growth and improves responsiveness to chemotherapy, presenting a new therapeutic modality for pancreas cancer.

Published
2016

18. Integrin α4 Enhances Metastasis and May Be Associated with Poor Prognosis in MYCNlow Neuroblastoma

Author

Young, Shanique A, McCabe, Katelyn E, Bartakova, Alena, Delaney, Joe, Pizzo, Donald P, Newbury, Robert O, Varner, Judith A, Schlaepfer, David D, and Stupack, Dwayne G

Subjects
Biochemistry and Cell Biology, Biomedical and Clinical Sciences, Biological Sciences, Pediatric, Cancer, Rare Diseases, Neurosciences, Pediatric Cancer, Neuroblastoma, Development of treatments and therapeutic interventions, 5.1 Pharmaceuticals, Animals, Cell Adhesion, Cell Line, Tumor, Cell Movement, Gene Expression Regulation, Neoplastic, Humans, Integrin alpha4, Intercellular Signaling Peptides and Proteins, Liver Neoplasms, Lymphatic Metastasis, Mice, N-Myc Proto-Oncogene Protein, Neoplasm Transplantation, Nervous System Neoplasms, Nuclear Proteins, Oncogene Proteins, Peptides, Prognosis, Signal Transduction, Survival Analysis, Vascular Cell Adhesion Molecule-1, General Science & Technology
Abstract

High-risk neuroblastoma is associated with an overall survival rate of 30-50%. Neuroblastoma-expressed cell adhesion receptors of the integrin family impact cell adhesion, migration, proliferation and survival. Integrin α4 is essential for neural crest cell motility during development, is highly expressed on leukocytes, and is critical for transendothelial migration. Thus, cancer cells that express this receptor may exhibit increased metastatic potential. We show that α4 expression in human and murine neuroblastoma cell lines selectively enhances in vitro interaction with the alternatively spliced connecting segment 1 of fibronectin, as well as vascular cell adhesion molecule-1 and increases migration. Integrin α4 expression enhanced experimental metastasis in a syngeneic tumor model, reconstituting a pattern of organ involvement similar to that seen in patients. Accordingly, antagonism of integrin α4 blocked metastasis, suggesting adhesive function of the integrin is required. However, adhesive function was not sufficient, as mutants of integrin α4 that conserved the matrix-adhesive and promigratory function in vitro were compromised in their metastatic capacity in vivo. Clinically, integrin α4 is more frequently expressed in non-MYNC amplified tumors, and is selectively associated with poor prognosis in this subset of disease. These results reveal an unexpected role for integrin α4 in neuroblastoma dissemination and identify α4 as a potential prognostic indicator and therapeutic target.

Published
2015

19. Integrin α4 Enhances Metastasis and May Be Associated with Poor Prognosis in MYCN-low Neuroblastoma.

Author

Young, Shanique A, McCabe, Katelyn E, Bartakova, Alena, Delaney, Joe, Pizzo, Donald P, Newbury, Robert O, Varner, Judith A, Schlaepfer, David D, and Stupack, Dwayne G

Subjects
Cell Line, Tumor, Animals, Humans, Mice, Neuroblastoma, Liver Neoplasms, Nervous System Neoplasms, Lymphatic Metastasis, Intercellular Signaling Peptides and Proteins, Peptides, Vascular Cell Adhesion Molecule-1, Integrin alpha4, Oncogene Proteins, Nuclear Proteins, Prognosis, Survival Analysis, Neoplasm Transplantation, Cell Adhesion, Signal Transduction, Cell Movement, Gene Expression Regulation, Neoplastic, N-Myc Proto-Oncogene Protein, Cell Line, Tumor, Gene Expression Regulation, Neoplastic, Rare Diseases, Cancer, Neurosciences, Pediatric Cancer, Pediatric, 5.1 Pharmaceuticals, General Science & Technology
Abstract

High-risk neuroblastoma is associated with an overall survival rate of 30-50%. Neuroblastoma-expressed cell adhesion receptors of the integrin family impact cell adhesion, migration, proliferation and survival. Integrin α4 is essential for neural crest cell motility during development, is highly expressed on leukocytes, and is critical for transendothelial migration. Thus, cancer cells that express this receptor may exhibit increased metastatic potential. We show that α4 expression in human and murine neuroblastoma cell lines selectively enhances in vitro interaction with the alternatively spliced connecting segment 1 of fibronectin, as well as vascular cell adhesion molecule-1 and increases migration. Integrin α4 expression enhanced experimental metastasis in a syngeneic tumor model, reconstituting a pattern of organ involvement similar to that seen in patients. Accordingly, antagonism of integrin α4 blocked metastasis, suggesting adhesive function of the integrin is required. However, adhesive function was not sufficient, as mutants of integrin α4 that conserved the matrix-adhesive and promigratory function in vitro were compromised in their metastatic capacity in vivo. Clinically, integrin α4 is more frequently expressed in non-MYNC amplified tumors, and is selectively associated with poor prognosis in this subset of disease. These results reveal an unexpected role for integrin α4 in neuroblastoma dissemination and identify α4 as a potential prognostic indicator and therapeutic target.

Published
2015

23. Myeloid cells in tumor inflammation

Author

Schmid, Michael C and Varner, Judith A

Abstract

Abstract Bone marrow derived myeloid cells progressively accumulate in tumors, where they establish an inflammatory microenvironment that is favorable for tumor growth and spread. These cells are comprised primarily of monocytic and granulocytic myeloid derived suppressor cells (MDSCs) or tumor-associated macrophages (TAMs), which are generally associated with a poor clinical outcome. MDSCs and TAMs promote tumor progression by stimulating immunosuppression, neovascularization, metastasis and resistance to anti-cancer therapy. Strategies to target the tumor-promoting functions of myeloid cells could provide substantial therapeutic benefit to cancer patients.

Published
2012

27. Data from Bruton Tyrosine Kinase–Dependent Immune Cell Cross-talk Drives Pancreas Cancer

Author

Gunderson, Andrew J., primary, Kaneda, Megan M., primary, Tsujikawa, Takahiro, primary, Nguyen, Abraham V., primary, Affara, Nesrine I., primary, Ruffell, Brian, primary, Gorjestani, Sara, primary, Liudahl, Shannon M., primary, Truitt, Morgan, primary, Olson, Peter, primary, Kim, Grace, primary, Hanahan, Douglas, primary, Tempero, Margaret A., primary, Sheppard, Brett, primary, Irving, Bryan, primary, Chang, Betty Y., primary, Varner, Judith A., primary, and Coussens, Lisa M., primary

Published
2023
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29. Data from Macrophage PI3Kγ Drives Pancreatic Ductal Adenocarcinoma Progression

Author

Kaneda, Megan M., primary, Cappello, Paola, primary, Nguyen, Abraham V., primary, Ralainirina, Natacha, primary, Hardamon, Chanae R., primary, Foubert, Philippe, primary, Schmid, Michael C., primary, Sun, Ping, primary, Mose, Evangeline, primary, Bouvet, Michael, primary, Lowy, Andrew M., primary, Valasek, Mark A., primary, Sasik, Roman, primary, Novelli, Francesco, primary, Hirsch, Emilio, primary, and Varner, Judith A., primary

Published
2023
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30. Supplementary Figure 3 from Macrophage PI3Kγ Drives Pancreatic Ductal Adenocarcinoma Progression

Author

Kaneda, Megan M., primary, Cappello, Paola, primary, Nguyen, Abraham V., primary, Ralainirina, Natacha, primary, Hardamon, Chanae R., primary, Foubert, Philippe, primary, Schmid, Michael C., primary, Sun, Ping, primary, Mose, Evangeline, primary, Bouvet, Michael, primary, Lowy, Andrew M., primary, Valasek, Mark A., primary, Sasik, Roman, primary, Novelli, Francesco, primary, Hirsch, Emilio, primary, and Varner, Judith A., primary

Published
2023
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31. Supplementary Methods, Figure Legends from Macrophage PI3Kγ Drives Pancreatic Ductal Adenocarcinoma Progression

Author

Kaneda, Megan M., primary, Cappello, Paola, primary, Nguyen, Abraham V., primary, Ralainirina, Natacha, primary, Hardamon, Chanae R., primary, Foubert, Philippe, primary, Schmid, Michael C., primary, Sun, Ping, primary, Mose, Evangeline, primary, Bouvet, Michael, primary, Lowy, Andrew M., primary, Valasek, Mark A., primary, Sasik, Roman, primary, Novelli, Francesco, primary, Hirsch, Emilio, primary, and Varner, Judith A., primary

Published
2023
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33. Supplementary Figure 1 from Macrophage PI3Kγ Drives Pancreatic Ductal Adenocarcinoma Progression

Author

Kaneda, Megan M., primary, Cappello, Paola, primary, Nguyen, Abraham V., primary, Ralainirina, Natacha, primary, Hardamon, Chanae R., primary, Foubert, Philippe, primary, Schmid, Michael C., primary, Sun, Ping, primary, Mose, Evangeline, primary, Bouvet, Michael, primary, Lowy, Andrew M., primary, Valasek, Mark A., primary, Sasik, Roman, primary, Novelli, Francesco, primary, Hirsch, Emilio, primary, and Varner, Judith A., primary

Published
2023
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34. Supplementary Figure 6 from Macrophage PI3Kγ Drives Pancreatic Ductal Adenocarcinoma Progression

Author

Kaneda, Megan M., primary, Cappello, Paola, primary, Nguyen, Abraham V., primary, Ralainirina, Natacha, primary, Hardamon, Chanae R., primary, Foubert, Philippe, primary, Schmid, Michael C., primary, Sun, Ping, primary, Mose, Evangeline, primary, Bouvet, Michael, primary, Lowy, Andrew M., primary, Valasek, Mark A., primary, Sasik, Roman, primary, Novelli, Francesco, primary, Hirsch, Emilio, primary, and Varner, Judith A., primary

Published
2023
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35. Supplementary Figure 2 from Macrophage PI3Kγ Drives Pancreatic Ductal Adenocarcinoma Progression

Author

Kaneda, Megan M., primary, Cappello, Paola, primary, Nguyen, Abraham V., primary, Ralainirina, Natacha, primary, Hardamon, Chanae R., primary, Foubert, Philippe, primary, Schmid, Michael C., primary, Sun, Ping, primary, Mose, Evangeline, primary, Bouvet, Michael, primary, Lowy, Andrew M., primary, Valasek, Mark A., primary, Sasik, Roman, primary, Novelli, Francesco, primary, Hirsch, Emilio, primary, and Varner, Judith A., primary

Published
2023
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37. Supplementary Figures S1 - S6 from Bruton Tyrosine Kinase–Dependent Immune Cell Cross-talk Drives Pancreas Cancer

Author

Gunderson, Andrew J., primary, Kaneda, Megan M., primary, Tsujikawa, Takahiro, primary, Nguyen, Abraham V., primary, Affara, Nesrine I., primary, Ruffell, Brian, primary, Gorjestani, Sara, primary, Liudahl, Shannon M., primary, Truitt, Morgan, primary, Olson, Peter, primary, Kim, Grace, primary, Hanahan, Douglas, primary, Tempero, Margaret A., primary, Sheppard, Brett, primary, Irving, Bryan, primary, Chang, Betty Y., primary, Varner, Judith A., primary, and Coussens, Lisa M., primary

Published
2023
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38. Supplementary Figure 7 from Macrophage PI3Kγ Drives Pancreatic Ductal Adenocarcinoma Progression

Author

Kaneda, Megan M., primary, Cappello, Paola, primary, Nguyen, Abraham V., primary, Ralainirina, Natacha, primary, Hardamon, Chanae R., primary, Foubert, Philippe, primary, Schmid, Michael C., primary, Sun, Ping, primary, Mose, Evangeline, primary, Bouvet, Michael, primary, Lowy, Andrew M., primary, Valasek, Mark A., primary, Sasik, Roman, primary, Novelli, Francesco, primary, Hirsch, Emilio, primary, and Varner, Judith A., primary

Published
2023
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39. Supplementary Figure 4 from Macrophage PI3Kγ Drives Pancreatic Ductal Adenocarcinoma Progression

Author

Kaneda, Megan M., primary, Cappello, Paola, primary, Nguyen, Abraham V., primary, Ralainirina, Natacha, primary, Hardamon, Chanae R., primary, Foubert, Philippe, primary, Schmid, Michael C., primary, Sun, Ping, primary, Mose, Evangeline, primary, Bouvet, Michael, primary, Lowy, Andrew M., primary, Valasek, Mark A., primary, Sasik, Roman, primary, Novelli, Francesco, primary, Hirsch, Emilio, primary, and Varner, Judith A., primary

Published
2023
Full Text
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40. Supplementary Methods, Figure Legends from Bruton Tyrosine Kinase–Dependent Immune Cell Cross-talk Drives Pancreas Cancer

Author

Gunderson, Andrew J., primary, Kaneda, Megan M., primary, Tsujikawa, Takahiro, primary, Nguyen, Abraham V., primary, Affara, Nesrine I., primary, Ruffell, Brian, primary, Gorjestani, Sara, primary, Liudahl, Shannon M., primary, Truitt, Morgan, primary, Olson, Peter, primary, Kim, Grace, primary, Hanahan, Douglas, primary, Tempero, Margaret A., primary, Sheppard, Brett, primary, Irving, Bryan, primary, Chang, Betty Y., primary, Varner, Judith A., primary, and Coussens, Lisa M., primary

Published
2023
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41. Supplementary Figure 5 from Macrophage PI3Kγ Drives Pancreatic Ductal Adenocarcinoma Progression

Author

Kaneda, Megan M., primary, Cappello, Paola, primary, Nguyen, Abraham V., primary, Ralainirina, Natacha, primary, Hardamon, Chanae R., primary, Foubert, Philippe, primary, Schmid, Michael C., primary, Sun, Ping, primary, Mose, Evangeline, primary, Bouvet, Michael, primary, Lowy, Andrew M., primary, Valasek, Mark A., primary, Sasik, Roman, primary, Novelli, Francesco, primary, Hirsch, Emilio, primary, and Varner, Judith A., primary

Published
2023
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47. Data from Integrin α4β1 Signaling Is Required for Lymphangiogenesis and Tumor Metastasis

Author

Garmy-Susini, Barbara, primary, Avraamides, Christie J., primary, Schmid, Michael C., primary, Foubert, Philippe, primary, Ellies, Lesley G., primary, Barnes, Leo, primary, Feral, Chloe, primary, Papayannopoulou, Thalia, primary, Lowy, Andrew, primary, Blair, Sarah L., primary, Cheresh, David, primary, Ginsberg, Mark, primary, and Varner, Judith A., primary

Published
2023
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48. Supplementary Figures 1-10 from Integrin α4β1 Signaling Is Required for Lymphangiogenesis and Tumor Metastasis

Author

Garmy-Susini, Barbara, primary, Avraamides, Christie J., primary, Schmid, Michael C., primary, Foubert, Philippe, primary, Ellies, Lesley G., primary, Barnes, Leo, primary, Feral, Chloe, primary, Papayannopoulou, Thalia, primary, Lowy, Andrew, primary, Blair, Sarah L., primary, Cheresh, David, primary, Ginsberg, Mark, primary, and Varner, Judith A., primary

Published
2023
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