Browsing by Author "Wang, Wei"
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Item Open Access Aging Is Associated With Impaired Activation of Protein Homeostasis-Related Pathways After Cardiac Arrest in Mice.(Journal of the American Heart Association, 2018-09) Shen, Yuntian; Yan, Baihui; Zhao, Qiang; Wang, Zhuoran; Wu, Jiangbo; Ren, Jiafa; Wang, Wei; Yu, Shu; Sheng, Huaxin; Crowley, Steven D; Ding, Fei; Paschen, Wulf; Yang, WeiBackground The mechanisms underlying worse outcome at advanced age after cardiac arrest ( CA ) and resuscitation are not well understood. Because protein homeostasis (proteostasis) is essential for cellular and organismal health, but is impaired after CA , we investigated the effects of age on proteostasis-related prosurvival pathways activated after CA . Methods and Results Young (2-3 months old) and aged (21-22 months old) male C57Bl/6 mice were subjected to CA and cardiopulmonary resuscitation ( CPR ). Functional outcome and organ damage were evaluated by assessing neurologic deficits, histological features, and creatinine level. CA / CPR -related changes in small ubiquitin-like modifier conjugation, ubiquitination, and the unfolded protein response were analyzed by measuring mRNA and protein levels in the brain, kidney, and spinal cord. Thiamet-G was used to increase O-linked β-N-acetylglucosamine modification. After CA / CPR , aged mice had trended lower survival rates, more severe tissue damage in the brain and kidney, and poorer recovery of neurologic function compared with young mice. Furthermore, small ubiquitin-like modifier conjugation, ubiquitination, unfolded protein response, and O-linked β-N-acetylglucosamine modification were activated after CA / CPR in young mice, but their activation was impaired in aged mice. Finally, pharmacologically increasing O-linked β-N-acetylglucosamine modification after CA improved outcome. Conclusions Results suggest that impaired activation of prosurvival pathways contributes to worse outcome after CA / CPR in aged mice because restoration of proteostasis is critical to the survival of cells stressed by ischemia. Therefore, a pharmacologic intervention that targets aging-related impairment of proteostasis-related pathways after CA / CPR may represent a promising therapeutic strategy.Item Open Access Balance Between Plant Growth and Defense: Transcriptional and Translational Control of Plant Immune System(2012) Wang, WeiThe activation and maintenance of plant immune responses require a significant amount of energy because they are accompanied by massive transcriptional reprogramming. Spurious activation of plant defense machinery can lead to autoimmune diseases and growth inhibition. So it is important for plants to tightly regulate the immune system to ensure the balance between growth and defense. However, neither the molecular mechanisms nor the design principles of how plants reach this balance are understood.
In this dissertation work, I showed how transcriptional and translational control of plant immune system can help avoid the constant immune surveillance and elicit a proper level of defense responses when necessary. These fine tunings of the immune system ensure the balance between growth and defense.
My research on the transcriptional regulation of plant defense responses led to the surprising discovery that even without pathogen, plant can 'anticipate' potential infection according to a circadian schedule under conditions that favor the initiation of infection. Functional analysis of 22 novel immune components unveiled their transient expression at dawn, when the infection is most likely to happen. This pulse expression pattern was shown to be regulated by the central circadian oscillator, CIRCADIAN CLOCK ASSOCIATED 1 (CCA1) since these 22 genes are no longer induced in the cca1 mutant. Moreover, the temporal control of the transcription level of these 22 immune genes by CCA1 also fine tunes their expression pattern according to the perceptions of different pathogenic signals. At the basal defense level, the expression of these genes can be transiently induced upon perceptions of critical infection stages of the pathogen. When an elevated level of defense response is needed, the high expression levels of these genes are maintained to confer a stronger immunity against pathogen. Since this stronger form of defense may also cause the suicidal death of the plant cells, the interplay between the circadian clock and defense allows a better decision on the proper level of the immunity to minimize the sacrificial death. The circadian clock is also known to regulate the growth-related cellular functions extensively. So the circadian clock can help to balance the energy used in growth and defense through transcriptional regulation on both sides.
Besides the integrated control by the circadian clock, the translational control on a key transcription factor involved in the growth-to-defense transition can also maintain the balance between growth and defense.TBF1 is a major transcription factor that can initiate the growth-to-defense transition through transcriptional repression of growth-associated cellular functions and induction of defense-related machinery. Bioinformatics studies identified 2 upstream open reading frames (uORFs) encoding multiple phenylalanine at 5' of the translation initiation codon of TBF1. Under normal conditions, these 2 uORFs can repress the translation of TBF1 to prevent accidental activation. However, pathogen infection may cause rapid and transient depletion of phenylalanine, a well-known precursor for cell wall components and the SAR signal SA. This depletion signal can be reflected by the increase of uncharged tRNAPhe, which subsequently leads to the phosphorylation of eIF2á and the release of uORFs' repression on TBF1. These findings provided the molecular details of how uORF-based translational control can couple transcriptional reprogramming with metabolic status to coordinately trigger the growth-to-defense transition.
In summary, my dissertation work has identified previously unrecognized regulatory mechanisms by which plant immune responses are balanced with growth. These new findings will further investigations into these novel interfaces between plants and pathogens. Future studies will definitely further improve our understandings of the plant-microbe interactions.
Item Open Access BTLA+CD200+ B cells dictate the divergent immune landscape and immunotherapeutic resistance in metastatic vs. primary pancreatic cancer(Oncogene, 2022-09-16) Diskin, Brian; Adam, Salma; Soto, Gustavo Sanchez; Liria, Miguel; Aykut, Berk; Sundberg, Belen; Li, Eric; Leinwand, Joshua; Chen, Ruonan; Kim, Mirhee; Salas, Ruben D; Cassini, Marcelo F; Buttar, Chandan; Wang, Wei; Farooq, Mohammad Saad; Shadaloey, Sorin AA; Werba, Gregor; Fnu, Amreek; Yang, Fan; Hirsch, Carolina; Glinski, John; Panjwani, Angilee; Weitzner, Yael; Cohen, Deirdre; Asghar, Usman; Miller, GeorgeItem Open Access Cardiac arrest and resuscitation activates the hypothalamic-pituitary-adrenal axis and results in severe immunosuppression.(Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism, 2021-05) Zhao, Qiang; Shen, Yuntian; Li, Ran; Wu, Jiangbo; Lyu, Jingjun; Jiang, Maorong; Lu, Liping; Zhu, Minghua; Wang, Wei; Wang, Zhuoran; Liu, Qiang; Hoffmann, Ulrike; Karhausen, Jörn; Sheng, Huaxin; Zhang, Weiguo; Yang, WeiIn patients who are successfully resuscitated after initial cardiac arrest (CA), mortality and morbidity rates are high, due to ischemia/reperfusion injury to the whole body including the nervous and immune systems. How the interactions between these two critical systems contribute to post-CA outcome remains largely unknown. Using a mouse model of CA and cardiopulmonary resuscitation (CA/CPR), we demonstrate that CA/CPR induced neuroinflammation in the brain, in particular, a marked increase in pro-inflammatory cytokines, which subsequently activated the hypothalamic-pituitary-adrenal (HPA) axis. Importantly, this activation was associated with a severe immunosuppression phenotype after CA. The phenotype was characterized by a striking reduction in size of lymphoid organs accompanied by a massive loss of immune cells and reduced immune function of splenic lymphocytes. The mechanistic link between post-CA immunosuppression and the HPA axis was substantiated, as we discovered that glucocorticoid treatment, which mimics effects of the activated HPA axis, exacerbated post-CA immunosuppression, while RU486 treatment, which suppresses its effects, significantly mitigated lymphopenia and lymphoid organ atrophy and improved CA outcome. Taken together, targeting the HPA axis could be a viable immunomodulatory therapeutic to preserve immune homeostasis after CA/CPR and thus improve prognosis of post-resuscitation CA patients.Item Open Access Chemogenetics-mediated acute inhibition of excitatory neuronal activity improves stroke outcome.(Experimental neurology, 2020-04) Wang, Ya-Chao; Galeffi, Francesca; Wang, Wei; Li, Xuan; Lu, Liping; Sheng, Huaxin; Hoffmann, Ulrike; Turner, Dennis A; Yang, WeiBackground and purpose
Ischemic stroke significantly perturbs neuronal homeostasis leading to a cascade of pathologic events causing brain damage. In this study, we assessed acute stroke outcome after chemogenetic inhibition of forebrain excitatory neuronal activity.Methods
We generated hM4Di-TG transgenic mice expressing the inhibitory hM4Di, a Designer Receptors Exclusively Activated by Designer Drugs (DREADD)-based chemogenetic receptor, in forebrain excitatory neurons. Clozapine-N-oxide (CNO) was used to activate hM4Di DREADD. Ischemic stroke was induced by transient occlusion of the middle cerebral artery. Neurologic function and infarct volumes were evaluated. Excitatory neuronal suppression in the hM4Di-TG mouse forebrain was assessed electrophysiologically in vitro and in vivo, based on evoked synaptic responses, and in vivo based on occurrence of potassium-induced cortical spreading depolarizations.Results
Detailed characterization of hM4Di-TG mice confirmed that evoked synaptic responses in both in vitro hippocampal slices and in vivo motor cortex were significantly reduced after CNO-mediated activation of the inhibitory hM4Di DREADD. Further, CNO treatment had no obvious effects on physiology and motor function in either control or hM4Di-TG mice. Importantly, hM4Di-TG mice treated with CNO at either 10 min before ischemia or 30 min after reperfusion exhibited significantly improved neurologic function and smaller infarct volumes compared to CNO-treated control mice. Mechanistically, we showed that potassium-induced cortical spreading depression episodes were inhibited, including frequency and duration of DC shift, in CNO-treated hM4Di-TG mice.Conclusions
Our data demonstrate that acute inhibition of a subset of excitatory neurons after ischemic stroke can prevent brain injury and improve functional outcome. This study, together with the previous work in optogenetic neuronal modulation during the chronic phase of stroke, supports the notion that targeting neuronal activity is a promising strategy in stroke therapy.Item Open Access Development and Evaluation of a Novel Mouse Model of Asphyxial Cardiac Arrest Revealed Severely Impaired Lymphopoiesis After Resuscitation.(J Am Heart Assoc, 2021-05-20) Wang, Wei; Li, Ran; Miao, Wanying; Evans, Cody; Lu, Liping; Lyu, Jingjun; Li, Xuan; Warner, David S; Zhong, Xiaoping; Hoffmann, Ulrike; Sheng, Huaxin; Yang, WeiBackground Animal disease models represent the cornerstone in basic cardiac arrest (CA) research. However, current experimental models of CA and resuscitation in mice are limited. In this study, we aimed to develop a mouse model of asphyxial CA followed by cardiopulmonary resuscitation (CPR), and to characterize the immune response after asphyxial CA/CPR. Methods and Results CA was induced in mice by switching from an O2/N2 mixture to 100% N2 gas for mechanical ventilation under anesthesia. Real-time measurements of blood pressure, brain tissue oxygen, cerebral blood flow, and ECG confirmed asphyxia and ensuing CA. After a defined CA period, mice were resuscitated with intravenous epinephrine administration and chest compression. We subjected young adult and aged mice to this model, and found that after CA/CPR, mice from both groups exhibited significant neurologic deficits compared with sham mice. Analysis of post-CA brain confirmed neuroinflammation. Detailed characterization of the post-CA immune response in the peripheral organs of both young adult and aged mice revealed that at the subacute phase following asphyxial CA/CPR, the immune system was markedly suppressed as manifested by drastic atrophy of the spleen and thymus, and profound lymphopenia. Finally, our data showed that post-CA systemic lymphopenia was accompanied with impaired T and B lymphopoiesis in the thymus and bone marrow, respectively. Conclusions In this study, we established a novel validated asphyxial CA model in mice. Using this new model, we further demonstrated that asphyxial CA/CPR markedly affects both the nervous and immune systems, and notably impairs lymphopoiesis of T and B cells.Item Open Access Innate αβ T Cells Mediate Antitumor Immunity by Orchestrating Immunogenic Macrophage Programming(Cancer Discovery, 2019-09-01) Hundeyin, Mautin; Kurz, Emma; Mishra, Ankita; Rossi, Juan Andres Kochen; Liudahl, Shannon M; Leis, Kenna R; Mehrotra, Harshita; Kim, Mirhee; Torres, Luisana E; Ogunsakin, Adesola; Link, Jason; Sears, Rosalie C; Sivagnanam, Shamilene; Goecks, Jeremy; Islam, KM Sadeq; Dolgalev, Igor; Savadkar, Shivraj; Wang, Wei; Aykut, Berk; Leinwand, Joshua; Diskin, Brian; Adam, Salma; Israr, Muhammad; Gelas, Maeliss; Lish, Justin; Chin, Kathryn; Farooq, Mohammad Saad; Wadowski, Benjamin; Wu, Jingjing; Shah, Suhagi; Adeegbe, Dennis O; Pushalkar, Smruti; Vasudevaraja, Varshini; Saxena, Deepak; Wong, Kwok-Kin; Coussens, Lisa M; Miller, GeorgeAbstract Unconventional T-lymphocyte populations are emerging as important regulators of tumor immunity. Despite this, the role of TCRαβ+CD4−CD8−NK1.1− innate αβ T cells (iαβT) in pancreatic ductal adenocarcinoma (PDA) has not been explored. We found that iαβTs represent ∼10% of T lymphocytes infiltrating PDA in mice and humans. Intratumoral iαβTs express a distinct T-cell receptor repertoire and profoundly immunogenic phenotype compared with their peripheral counterparts and conventional lymphocytes. iαβTs comprised ∼75% of the total intratumoral IL17+ cells. Moreover, iαβT-cell adoptive transfer is protective in both murine models of PDA and human organotypic systems. We show that iαβT cells induce a CCR5-dependent immunogenic macrophage reprogramming, thereby enabling marked CD4+ and CD8+ T-cell expansion/activation and tumor protection. Collectively, iαβTs govern fundamental intratumoral cross-talk between innate and adaptive immune populations and are attractive therapeutic targets. Significance: We found that iαβTs are a profoundly activated T-cell subset in PDA that slow tumor growth in murine and human models of disease. iαβTs induce a CCR5-dependent immunogenic tumor-associated macrophage program, T-cell activation and expansion, and should be considered as novel targets for immunotherapy. See related commentary by Banerjee et al., p. 1164. This article is highlighted in the In This Issue feature, p. 1143Item Open Access Intrahepatic microbes govern liver immunity by programming NKT cells(Journal of Clinical Investigation, 2022-04-15) Leinwand, Joshua C; Paul, Bidisha; Chen, Ruonan; Xu, Fangxi; Sierra, Maria A; Paluru, Madan M; Nanduri, Sumant; Alcantara, Carolina G; Shadaloey, Sorin AA; Yang, Fan; Adam, Salma A; Li, Qianhao; Bandel, Michelle; Gakhal, Inderdeep; Appiah, Lara; Guo, Yuqi; Vardhan, Mridula; Flaminio, Zia; Grodman, Emilie R; Mermelstein, Ari; Wang, Wei; Diskin, Brian; Aykut, Berk; Khan, Mohammad; Werba, Gregor; Pushalkar, Smruti; McKinstry, Mia; Kluger, Zachary; Park, Jaimie J; Hsieh, Brandon; Dancel-Manning, Kristen; Liang, Feng-Xia; Park, James S; Saxena, Anjana; Li, Xin; Theise, Neil D; Saxena, Deepak; Miller, GeorgeItem Open Access Macrophages in Nonalcoholic Steatohepatitis: Friend or Foe?(EMJ Hepatology) Grunhut, Joel; Wang, Wei; Aykut, Berk; Gakhal, Inderdeep; Torres-Hernandez, Alejandro; Miller, GeorgeNonalcoholic steatohepatitis (NASH) is a subtype of nonalcoholic fatty liver disease that is characterised by steatosis, chronic inflammation, and hepatocellular injury with or without fibrosis. The role and activation of macrophages in the pathogenesis of NASH is complex and is being studied for possible therapeutic options to help the millions of people diagnosed with the disease. The purpose of this review is to discuss the pathogenesis of NASH through the activation and role of Kupffer cells and other macrophages in causing inflammation and progression of NASH. Furthermore, this review aims to outline some of the current therapeutic options targeting the pathogenesis of NASH.Item Open Access MCC950, a selective NLPR3 inflammasome inhibitor, improves neurologic function and survival after cardiac arrest and resuscitation.(Journal of neuroinflammation, 2020-08-31) Jiang, Maorong; Li, Ran; Lyu, Jingjun; Li, Xuan; Wang, Wei; Wang, Zhuoran; Sheng, Huaxin; Zhang, Weiguo; Karhausen, Jörn; Yang, WeiBackground
Cardiac arrest (CA) is associated with high morbidity and mortality, even after spontaneous circulation is re-established. This dire situation is partly due to post-CA syndrome for which no specific and effective intervention is available. One key component of post-CA syndrome is sterile inflammation, which affects various organs including the brain. A major effector of sterile inflammation is activated NLRP3 inflammasome, which leads to increased release of interleukin (IL)-1β. However, how NLRP3 inflammasome impacts neuroinflammation and neurologic outcome after CA is largely undefined.Methods
Mice were subjected to a potassium-based murine CA and cardiopulmonary resuscitation (CPR) model. MCC950 was used to suppress activation of NLRP3 inflammasome after CA/CPR. Levels of protein and mRNA were examined by Western blotting and quantitative PCR, respectively. Immunologic changes were assessed by measuring cytokine expression and immune cell compositions. CA outcomes, including neurologic deficits, bacterial load in the lung, and survival rate, were evaluated.Results
Using our CA/CPR model, we found that NLRP3 inflammasome was activated in the post-CA brain, and that pro-inflammatory cytokine levels, including IL-1β, were increased. After treatment with MCC950, a potent and selective NLRP3 inflammasome inhibitor, mice exhibited improved functional recovery and survival rate during the 14-day observational period after CA/CPR. In line with these findings, IL-1β mRNA levels in the post-CA brain were significantly suppressed after MCC950 treatment. Interestingly, we also found that in MCC950- vs. vehicle-treated CA mice, immune homeostasis in the spleen was better preserved and bacterial load in the lung was significantly reduced.Conclusions
Our data demonstrate that activation of NLRP3 inflammasome could be a key event shaping the post-CA immuno- and neuro-pathology, and identify this pathway as a unique and promising therapeutic target to improve outcomes after CA/CPR.Item Open Access NLRP3 signaling drives macrophage-induced adaptive immune suppression in pancreatic carcinoma.(The Journal of experimental medicine, 2017-06) Daley, Donnele; Mani, Vishnu R; Mohan, Navyatha; Akkad, Neha; Pandian, Gautam SD Balasubramania; Savadkar, Shivraj; Lee, Ki Buom; Torres-Hernandez, Alejandro; Aykut, Berk; Diskin, Brian; Wang, Wei; Farooq, Mohammad S; Mahmud, Arif I; Werba, Gregor; Morales, Eduardo J; Lall, Sarah; Wadowski, Benjamin J; Rubin, Amanda G; Berman, Matthew E; Narayanan, Rajkishen; Hundeyin, Mautin; Miller, GeorgeThe tumor microenvironment (TME) in pancreatic ductal adenocarcinoma (PDA) is characterized by immune tolerance, which enables disease to progress unabated by adaptive immunity. However, the drivers of this tolerogenic program are incompletely defined. In this study, we found that NLRP3 promotes expansion of immune-suppressive macrophages in PDA. NLRP3 signaling in macrophages drives the differentiation of CD4+ T cells into tumor-promoting T helper type 2 cell (Th2 cell), Th17 cell, and regulatory T cell populations while suppressing Th1 cell polarization and cytotoxic CD8+ T cell activation. The suppressive effects of NLRP3 signaling were IL-10 dependent. Pharmacological inhibition or deletion of NLRP3, ASC (apoptosis-associated speck-like protein containing a CARD complex), or caspase-1 protected against PDA and was associated with immunogenic reprogramming of innate and adaptive immunity within the TME. Similarly, transfer of PDA-entrained macrophages or T cells from NLRP3-/- hosts was protective. These data suggest that targeting NLRP3 holds the promise for the immunotherapy of PDA.Item Open Access PD-L1 engagement on T cells promotes self-tolerance and suppression of neighboring macrophages and effector T cells in cancer(Nature Immunology, 2020-04) Diskin, Brian; Adam, Salma; Cassini, Marcelo F; Sanchez, Gustavo; Liria, Miguel; Aykut, Berk; Buttar, Chandan; Li, Eric; Sundberg, Belen; Salas, Ruben D; Chen, Ruonan; Wang, Junjie; Kim, Mirhee; Farooq, Mohammad Saad; Nguy, Susanna; Fedele, Carmine; Tang, Kwan Ho; Chen, Ting; Wang, Wei; Hundeyin, Mautin; Rossi, Juan A Kochen; Kurz, Emma; Haq, Muhammad Israr Ul; Karlen, Jason; Kruger, Emma; Sekendiz, Zennur; Wu, Dongling; Shadaloey, Sorin AA; Baptiste, Gillian; Werba, Gregor; Selvaraj, Shanmugapriya; Loomis, Cynthia; Wong, Kwok-Kin; Leinwand, Joshua; Miller, GeorgeItem Open Access RIP1 Kinase Drives Macrophage-Mediated Adaptive Immune Tolerance in Pancreatic Cancer(Cancer Cell, 2018-11) Wang, Wei; Marinis, Jill M; Beal, Allison M; Savadkar, Shivraj; Wu, Yue; Khan, Mohammed; Taunk, Pardeep S; Wu, Nan; Su, Wenyu; Wu, Jingjing; Ahsan, Aarif; Kurz, Emma; Chen, Ting; Yaboh, Inedouye; Li, Fei; Gutierrez, Johana; Diskin, Brian; Hundeyin, Mautin; Reilly, Michael; Lich, John D; Harris, Philip A; Mahajan, Mukesh K; Thorpe, James H; Nassau, Pamela; Mosley, Julie E; Leinwand, Joshua; Kochen Rossi, Juan A; Mishra, Ankita; Aykut, Berk; Glacken, Michael; Ochi, Atsuo; Verma, Narendra; Kim, Jacqueline I; Vasudevaraja, Varshini; Adeegbe, Dennis; Almonte, Christina; Bagdatlioglu, Ece; Cohen, Deirdre J; Wong, Kwok-Kin; Bertin, John; Miller, GeorgeItem Open Access Specialized dendritic cells induce tumor-promoting IL-10+IL-17+ FoxP3neg regulatory CD4+ T cells in pancreatic carcinoma(Nature Communications) Barilla, Rocky M; Diskin, Brian; Caso, Raul Caso; Lee, Ki Buom; Mohan, Navyatha; Buttar, Chandan; Adam, Salma; Sekendiz, Zennur; Wang, Junjie; Salas, Ruben D; Cassini, Marcelo F; Karlen, Jason; Sundberg, Belen; Akbar, Hashem; Levchenko, Dmitry; Gakhal, Inderdeep; Gutierrez, Johana; Wang, Wei; Hundeyin, Mautin; Torres-Hernandez, Alejandro; Leinwand, Joshua; Kurz, Emma; Rossi, Juan A Kochen; Mishra, Ankita; Liria, Miguel; Sanchez, Gustavo; Panta, Jyoti; Loke, P’ng; Aykut, Berk; Miller, GeorgeAbstractThe drivers and the specification of CD4+ T cell differentiation in the tumor microenvironment and their contributions to tumor immunity or tolerance are incompletely understood. Using models of pancreatic ductal adenocarcinoma (PDA), we show that a distinct subset of tumor-infiltrating dendritic cells (DC) promotes PDA growth by directing a unique TH-program. Specifically, CD11b+CD103− DC predominate in PDA, express high IL-23 and TGF-β, and induce FoxP3neg tumor-promoting IL-10+IL-17+IFNγ+ regulatory CD4+ T cells. The balance between this distinctive TH program and canonical FoxP3+ TREGS is unaffected by pattern recognition receptor ligation and is modulated by DC expression of retinoic acid. This TH-signature is mimicked in human PDA where it is associated with immune-tolerance and diminished patient survival. Our data suggest that CD11b+CD103− DC promote CD4+ T cell tolerance in PDA which may underscore its resistance to immunotherapy.Item Open Access Targeting Piezo1 unleashes innate immunity against cancer and infectious disease(Science Immunology, 2020-08-14) Aykut, Berk; Chen, Ruonan; Kim, Jacqueline I; Wu, Dongling; Shadaloey, Sorin AA; Abengozar, Raquel; Preiss, Pamela; Saxena, Anjana; Pushalkar, Smruti; Leinwand, Joshua; Diskin, Brian; Wang, Wei; Werba, Gregor; Berman, Matthew; Lee, Steve Ki Buom; Khodadadi-Jamayran, Alireza; Saxena, Deepak; Coetzee, William A; Miller, GeorgeBlockade of the Piezo1 mechanoreceptor decreases myeloid cell suppression of immune responses to cancer and polymicrobial sepsis.Item Open Access Targeting SYK signaling in myeloid cells protects against liver fibrosis and hepatocarcinogenesis(Oncogene, 2019-06) Torres-Hernandez, Alejandro; Wang, Wei; Nikiforov, Yuri; Tejada, Karla; Torres, Luisana; Kalabin, Aleksandr; Wu, Yue; Haq, Muhammad Israr Ul; Khan, Mohammed Y; Zhao, Zhen; Su, Wenyu; Camargo, Jimmy; Hundeyin, Mautin; Diskin, Brian; Adam, Salma; Rossi, Juan A Kochen; Kurz, Emma; Aykut, Berk; Shadaloey, Sorin AA; Leinwand, Joshua; Miller, GeorgeItem Open Access The fungal mycobiome promotes pancreatic oncogenesis via activation of MBL(Nature, 2019-10-10) Aykut, Berk; Pushalkar, Smruti; Chen, Ruonan; Li, Qianhao; Abengozar, Raquel; Kim, Jacqueline I; Shadaloey, Sorin A; Wu, Dongling; Preiss, Pamela; Verma, Narendra; Guo, Yuqi; Saxena, Anjana; Vardhan, Mridula; Diskin, Brian; Wang, Wei; Leinwand, Joshua; Kurz, Emma; Kochen Rossi, Juan A; Hundeyin, Mautin; Zambrinis, Constantinos; Li, Xin; Saxena, Deepak; Miller, GeorgeItem Open Access The Pancreatic Cancer Microbiome Promotes Oncogenesis by Induction of Innate and Adaptive Immune Suppression(Cancer Discovery, 2018-04-01) Pushalkar, Smruti; Hundeyin, Mautin; Daley, Donnele; Zambirinis, Constantinos P; Kurz, Emma; Mishra, Ankita; Mohan, Navyatha; Aykut, Berk; Usyk, Mykhaylo; Torres, Luisana E; Werba, Gregor; Zhang, Kevin; Guo, Yuqi; Li, Qianhao; Akkad, Neha; Lall, Sarah; Wadowski, Benjamin; Gutierrez, Johana; Kochen Rossi, Juan Andres; Herzog, Jeremy W; Diskin, Brian; Torres-Hernandez, Alejandro; Leinwand, Josh; Wang, Wei; Taunk, Pardeep S; Savadkar, Shivraj; Janal, Malvin; Saxena, Anjana; Li, Xin; Cohen, Deirdre; Sartor, R Balfour; Saxena, Deepak; Miller, GeorgeAbstract We found that the cancerous pancreas harbors a markedly more abundant microbiome compared with normal pancreas in both mice and humans, and select bacteria are differentially increased in the tumorous pancreas compared with gut. Ablation of the microbiome protects against preinvasive and invasive pancreatic ductal adenocarcinoma (PDA), whereas transfer of bacteria from PDA-bearing hosts, but not controls, reverses tumor protection. Bacterial ablation was associated with immunogenic reprogramming of the PDA tumor microenvironment, including a reduction in myeloid-derived suppressor cells and an increase in M1 macrophage differentiation, promoting TH1 differentiation of CD4+ T cells and CD8+ T-cell activation. Bacterial ablation also enabled efficacy for checkpoint-targeted immunotherapy by upregulating PD-1 expression. Mechanistically, the PDA microbiome generated a tolerogenic immune program by differentially activating select Toll-like receptors in monocytic cells. These data suggest that endogenous microbiota promote the crippling immune-suppression characteristic of PDA and that the microbiome has potential as a therapeutic target in the modulation of disease progression. Significance: We found that a distinct and abundant microbiome drives suppressive monocytic cellular differentiation in pancreatic cancer via selective Toll-like receptor ligation leading to T-cell anergy. Targeting the microbiome protects against oncogenesis, reverses intratumoral immune tolerance, and enables efficacy for checkpoint-based immunotherapy. These data have implications for understanding immune suppression in pancreatic cancer and its reversal in the clinic. Cancer Discov; 8(4); 403–16. ©2018 AACR. See related commentary by Riquelme et al., p. 386. This article is highlighted in the In This Issue feature, p. 371Item Open Access γδ T Cells Promote Steatohepatitis by Orchestrating Innate and Adaptive Immune Programming(Hepatology, 2020-02) Torres‐Hernandez, Alejandro; Wang, Wei; Nikiforov, Yuri; Tejada, Karla; Torres, Luisana; Kalabin, Aleksandr; Adam, Salma; Wu, Jingjing; Lu, Lu; Chen, Ruonan; Lemmer, Aaron; Camargo, Jimmy; Hundeyin, Mautin; Diskin, Brian; Aykut, Berk; Kurz, Emma; Kochen Rossi, Juan A; Khan, Mohammed; Liria, Miguel; Sanchez, Gustavo; Wu, Nan; Su, Wenyu; Adams, Steven; Haq, Muhammad Israr Ul; Farooq, Mohammad Saad; Vasudevaraja, Varshini; Leinwand, Joshua; Miller, GeorgeBackground and Aims The recruitment and activation of inflammatory cells in the liver delineates the transition from hepatic steatosis to steatohepatitis (SH). Approach and Results We found that in SH, γδT cells are recruited to the liver by C‐C chemokine receptor (CCR) 2, CCR5, and nucleotide‐binding oligomerization domain‐containing protein 2 signaling and are skewed toward an interleukin (IL)‐17A+ phenotype in an inducible costimulator (ICOS)/ICOS ligand–dependent manner. γδT cells exhibit a distinct Vγ4+, PD1+, Ly6C+CD44+ phenotype in SH. Moreover, γδT cells up‐regulate both CD1d, which is necessary for lipid‐based antigens presentation, and the free fatty acid receptor, CD36. γδT cells are stimulated to express IL‐17A by palmitic acid and CD1d ligation. Deletion, depletion, and targeted interruption of γδT cell recruitment protects against diet‐induced SH and accelerates disease resolution. Conclusions We demonstrate that hepatic γδT cells exacerbate SH, independent of IL‐17 expression, by mitigating conventional CD4+ T‐cell expansion and modulating their inflammatory program by CD1d‐dependent vascular endothelial growth factor expression.