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Chanwang J Lio - One of the best experts on this subject based on the ideXlab platform.
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the tumor suppressor kinase dapk3 drives tumor Intrinsic Immunity through the sting ifn β pathway
Nature Immunology, 2021Co-Authors: Mariko Takahashi, Chanwang J Lio, Anaamika Campeau, Martin Steger, Matthias Mann, David Gonzalez, Mohit JainAbstract:Evasion of host Immunity is a hallmark of cancer; however, mechanisms linking oncogenic mutations and immune escape are incompletely understood. Through loss-of-function screening of 1,001 tumor suppressor genes, we identified death-associated protein kinase 3 (DAPK3) as a previously unrecognized driver of anti-tumor Immunity through the stimulator of interferon genes (STING) pathway of cytosolic DNA sensing. Loss of DAPK3 expression or kinase activity impaired STING activation and interferon (IFN)-β-stimulated gene induction. DAPK3 deficiency in IFN-β-producing tumors drove rapid growth and reduced infiltration of CD103+CD8α+ dendritic cells and cytotoxic lymphocytes, attenuating the response to cancer chemo-immunotherapy. Mechanistically, DAPK3 coordinated post-translational modification of STING. In unstimulated cells, DAPK3 inhibited STING K48-linked poly-ubiquitination and proteasome-mediated degradation. After cGAMP stimulation, DAPK3 was required for STING K63-linked poly-ubiquitination and STING–TANK-binding kinase 1 interaction. Comprehensive phospho-proteomics uncovered a DAPK3-specific phospho-site on the E3 ligase LMO7, critical for LMO7–STING interaction and STING K63-linked poly-ubiquitination. Thus, DAPK3 is an essential kinase for STING activation that drives tumor-Intrinsic innate Immunity and tumor immune surveillance. Sharma and colleagues identify the kinase DAPK3 as a positive regulator of the STING–interferon-β activation pathway. DAPK3 acts to modify E3 ubiquitin ligases that regulate STING K63-linked poly-ubiquitination.
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the tumor suppressor kinase dapk3 drives tumor Intrinsic Immunity through the sting ifn β pathway
Nature Immunology, 2021Co-Authors: Mariko Takahashi, Chanwang J Lio, Anaamika Campeau, Martin Steger, Matthias Mann, David Gonzalez, Mohit Jain, Sonia SharmaAbstract:Evasion of host Immunity is a hallmark of cancer; however, mechanisms linking oncogenic mutations and immune escape are incompletely understood. Through loss-of-function screening of 1,001 tumor suppressor genes, we identified death-associated protein kinase 3 (DAPK3) as a previously unrecognized driver of anti-tumor Immunity through the stimulator of interferon genes (STING) pathway of cytosolic DNA sensing. Loss of DAPK3 expression or kinase activity impaired STING activation and interferon (IFN)-β-stimulated gene induction. DAPK3 deficiency in IFN-β-producing tumors drove rapid growth and reduced infiltration of CD103+CD8α+ dendritic cells and cytotoxic lymphocytes, attenuating the response to cancer chemo-immunotherapy. Mechanistically, DAPK3 coordinated post-translational modification of STING. In unstimulated cells, DAPK3 inhibited STING K48-linked poly-ubiquitination and proteasome-mediated degradation. After cGAMP stimulation, DAPK3 was required for STING K63-linked poly-ubiquitination and STING-TANK-binding kinase 1 interaction. Comprehensive phospho-proteomics uncovered a DAPK3-specific phospho-site on the E3 ligase LMO7, critical for LMO7-STING interaction and STING K63-linked poly-ubiquitination. Thus, DAPK3 is an essential kinase for STING activation that drives tumor-Intrinsic innate Immunity and tumor immune surveillance.
David Gonzalez - One of the best experts on this subject based on the ideXlab platform.
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the tumor suppressor kinase dapk3 drives tumor Intrinsic Immunity through the sting ifn β pathway
Nature Immunology, 2021Co-Authors: Mariko Takahashi, Chanwang J Lio, Anaamika Campeau, Martin Steger, Matthias Mann, David Gonzalez, Mohit JainAbstract:Evasion of host Immunity is a hallmark of cancer; however, mechanisms linking oncogenic mutations and immune escape are incompletely understood. Through loss-of-function screening of 1,001 tumor suppressor genes, we identified death-associated protein kinase 3 (DAPK3) as a previously unrecognized driver of anti-tumor Immunity through the stimulator of interferon genes (STING) pathway of cytosolic DNA sensing. Loss of DAPK3 expression or kinase activity impaired STING activation and interferon (IFN)-β-stimulated gene induction. DAPK3 deficiency in IFN-β-producing tumors drove rapid growth and reduced infiltration of CD103+CD8α+ dendritic cells and cytotoxic lymphocytes, attenuating the response to cancer chemo-immunotherapy. Mechanistically, DAPK3 coordinated post-translational modification of STING. In unstimulated cells, DAPK3 inhibited STING K48-linked poly-ubiquitination and proteasome-mediated degradation. After cGAMP stimulation, DAPK3 was required for STING K63-linked poly-ubiquitination and STING–TANK-binding kinase 1 interaction. Comprehensive phospho-proteomics uncovered a DAPK3-specific phospho-site on the E3 ligase LMO7, critical for LMO7–STING interaction and STING K63-linked poly-ubiquitination. Thus, DAPK3 is an essential kinase for STING activation that drives tumor-Intrinsic innate Immunity and tumor immune surveillance. Sharma and colleagues identify the kinase DAPK3 as a positive regulator of the STING–interferon-β activation pathway. DAPK3 acts to modify E3 ubiquitin ligases that regulate STING K63-linked poly-ubiquitination.
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the tumor suppressor kinase dapk3 drives tumor Intrinsic Immunity through the sting ifn β pathway
Nature Immunology, 2021Co-Authors: Mariko Takahashi, Chanwang J Lio, Anaamika Campeau, Martin Steger, Matthias Mann, David Gonzalez, Mohit Jain, Sonia SharmaAbstract:Evasion of host Immunity is a hallmark of cancer; however, mechanisms linking oncogenic mutations and immune escape are incompletely understood. Through loss-of-function screening of 1,001 tumor suppressor genes, we identified death-associated protein kinase 3 (DAPK3) as a previously unrecognized driver of anti-tumor Immunity through the stimulator of interferon genes (STING) pathway of cytosolic DNA sensing. Loss of DAPK3 expression or kinase activity impaired STING activation and interferon (IFN)-β-stimulated gene induction. DAPK3 deficiency in IFN-β-producing tumors drove rapid growth and reduced infiltration of CD103+CD8α+ dendritic cells and cytotoxic lymphocytes, attenuating the response to cancer chemo-immunotherapy. Mechanistically, DAPK3 coordinated post-translational modification of STING. In unstimulated cells, DAPK3 inhibited STING K48-linked poly-ubiquitination and proteasome-mediated degradation. After cGAMP stimulation, DAPK3 was required for STING K63-linked poly-ubiquitination and STING-TANK-binding kinase 1 interaction. Comprehensive phospho-proteomics uncovered a DAPK3-specific phospho-site on the E3 ligase LMO7, critical for LMO7-STING interaction and STING K63-linked poly-ubiquitination. Thus, DAPK3 is an essential kinase for STING activation that drives tumor-Intrinsic innate Immunity and tumor immune surveillance.
Jessica L Mcalpine - One of the best experts on this subject based on the ideXlab platform.
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human ipsc derived trigeminal neurons lack constitutive tlr3 dependent Immunity that protects cortical neurons from hsv 1 infection
Proceedings of the National Academy of Sciences of the United States of America, 2018Co-Authors: Oliver Harschnitz, Osefame Ewaleifoh, Bastian Zimmer, Yoon Seung Lee, Camille Peneau, Jessica L McalpineAbstract:Herpes simplex virus type 1 (HSV-1) encephalitis (HSE) is the most common sporadic viral encephalitis in Western countries. Some HSE children carry inborn errors of the Toll-like receptor 3 (TLR3)-dependent IFN-α/β– and -λ–inducing pathway. Induced pluripotent stem cell (iPSC)-derived cortical neurons with TLR3 pathway mutations are highly susceptible to HSV-1, due to impairment of cell-Intrinsic TLR3-IFN Immunity. In contrast, the contribution of cell-Intrinsic Immunity of human trigeminal ganglion (TG) neurons remains unclear. Here, we describe efficient in vitro derivation and purification of TG neurons from human iPSCs via a cranial placode intermediate. The resulting TG neurons are of sensory identity and exhibit robust responses to heat (capsaicin), cold (icilin), and inflammatory pain (ATP). Unlike control cortical neurons, both control and TLR3-deficient TG neurons were highly susceptible to HSV-1. However, pretreatment of control TG neurons with poly(I:C) induced the cells into an anti–HSV-1 state. Moreover, both control and TLR3-deficient TG neurons developed resistance to HSV-1 following pretreatment with IFN-β but not IFN-λ. These data indicate that TG neurons are vulnerable to HSV-1 because they require preemptive stimulation of the TLR3 or IFN-α/β receptors to induce antiviral Immunity, whereas cortical neurons possess a TLR3-dependent constitutive resistance that is sufficient to block incoming HSV-1 in the absence of prior antiviral signals. The lack of constitutive resistance in TG neurons in vitro is consistent with their exploitation as a latent virus reservoir in vivo. Our results incriminate deficiencies in the constitutive TLR3-dependent response of cortical neurons in the pathogenesis of HSE.
Shenying Zhang - One of the best experts on this subject based on the ideXlab platform.
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inborn errors of rna lariat metabolism in humans with brainstem viral infection
Cell, 2018Co-Authors: Shenying Zhang, Nathaniel E Clark, Catherine A Freije, Elodie Pauwels, Allison J Taggart, Satoshi Okada, Hanna MandelAbstract:Viruses that are typically benign sometimes invade the brainstem in otherwise healthy children. We report bi-allelic DBR1 mutations in unrelated patients from different ethnicities, each of whom had brainstem infection due to herpes simplex virus 1 (HSV1), influenza virus, or norovirus. DBR1 encodes the only known RNA lariat debranching enzyme. We show that DBR1 expression is ubiquitous, but strongest in the spinal cord and brainstem. We also show that all DBR1 mutant alleles are severely hypomorphic, in terms of expression and function. The fibroblasts of DBR1-mutated patients contain higher RNA lariat levels than control cells, this difference becoming even more marked during HSV1 infection. Finally, we show that the patients’ fibroblasts are highly susceptible to HSV1. RNA lariat accumulation and viral susceptibility are rescued by wild-type DBR1. Autosomal recessive, partial DBR1 deficiency underlies viral infection of the brainstem in humans through the disruption of tissue-specific and cell-Intrinsic Immunity to viruses.
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impaired Intrinsic Immunity to hsv 1 in human ipsc derived tlr3 deficient cns cells
Nature, 2012Co-Authors: Fabien G Lafaille, Shenying Zhang, Itai M Pessach, Michael J Ciancanelli, Melina Herman, Avinash Abhyankar, Shuiwang YingAbstract:In the course of primary infection with herpes simplex virus 1 (HSV-1), children with inborn errors of toll-like receptor 3 (TLR3) Immunity are prone to HSV-1 encephalitis (HSE) 1–3 .W e tested the hypothesis that the pathogenesis of HSE involves nonhaematopoietic CNS-resident cells. We derived induced pluripotent stem cells (iPSCs) from the dermal fibroblasts of TLR3- and UNC-93B-deficient patients and from controls. These iPSCs were differentiated into highly purified populations of neural stem cells (NSCs), neurons, astrocytes and oligodendrocytes. The induction of interferon-b (IFN-b) and/or IFN-l1 in response to stimulation by the dsRNA analogue polyinosinic:polycytidylic acid (poly(I:C)) was dependent on TLR3 and UNC-93B in all cells tested. However, the induction of IFN-b and IFN-l1 in response to HSV-1 infection was impaired selectively in UNC-93B-deficient neurons and oligodendrocytes. These cells were also much more susceptible to HSV-1 infection than control cells, whereas UNC-93B-deficient NSCs and astrocytes were not. TLR3-deficient neurons were also found to be susceptible to HSV-1 infection. The rescue of UNC-93B- and TLR3deficient cells with the corresponding wild-type allele showed that the genetic defect was the cause of the poly(I:C) and HSV-1 phenotypes. The viral infection phenotype was rescued further by treatment with exogenous IFN-a or IFN-b ( IFN-a/b) but not IFN-l1. Thus, impaired TLR3- and UNC-93B-dependent IFN-a/b Intrinsic Immunity to HSV-1 in the CNS, in neurons and oligodendrocytes in particular, may underlie the pathogenesis of HSE in children with TLR3-pathway deficiencies. Childhood HSE is a rare, life-threatening, central nervous system (CNS)-restricted complication of primary infection with HSV-1, an almost ubiquitous virus that is typically innocuous 4 . Children with HSE are not unusually susceptible to other infectious agents, including viruses, or even to HSV-1-related diseases affecting sites other than the CNS 4,5 . HSV-1 reaches the CNS from the oral and nasal epithelium, via the cranial nerves 4 . We identified autosomal recessive UNC-93B deficiency as the first genetic aetiology of childhood HSE 1 . UNC-93B is required for TLR3, TLR7, TLR8 and TLR9 responses 1,6 . We then identified autosomal-recessive or autosomal-dominant deficiencies of TLR3 (refs 2 and 3), TRAF3 (ref. 7), TRIF 8 and TBK1 (ref. 9), revealing
Marshall E Bloom - One of the best experts on this subject based on the ideXlab platform.
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perk mediated unfolded protein response signaling restricts replication of the tick borne flavivirus langat virus
Viruses, 2020Co-Authors: Tyler G Lewy, Luwanika Mlera, Danielle K Offerdahl, Jeffrey M Grabowski, Eliza M Kellman, Abhilash I Chiramel, Marshall E BloomAbstract:The unfolded protein response (UPR) maintains protein-folding homeostasis in the endoplasmic reticulum (ER) and has been implicated as both beneficial and detrimental to flavivirus infection. Protein kinase R (PKR)-like endoplasmic reticulum kinase (PERK), a sensor of the UPR, is commonly associated with antiviral effects during mosquito-borne flavivirus (MBFV) infection, but its relation to tick-borne flavivirus (TBFV) infection remains largely unexplored. In this study, we identified changes in UPR and autophagic activity during Langat virus (LGTV) infection. LGTV robustly activated UPR and altered autophagic flux. Knockdown of endogenous PERK in human cells resulted in increased LGTV replication, but not that of closely related Powassan virus (POWV). Finally, on examining changes in protein levels of components associated with UPR and autophagy in the absence of PERK, we could show that LGTV-infected cells induced UPR but did not lead to expression of C/EBP homologous protein (CHOP), an important downstream transcription factor of multiple stress pathways. From these data, we hypothesize that LGTV can antagonize other kinases that target eukaryotic initiation factor 2α (eIF2α), but not PERK, implicating PERK as a potential mediator of Intrinsic Immunity. This effect was not apparent for POWV, a more pathogenic TBFV, suggesting it may be better equipped to mitigate the antiviral effects of PERK.
