Project description:The eukaryotic GID/CTLH complex is a highly conserved E3 ubiquitin ligase involved in a broad range of biological processes. However, a role of this complex in host antimicrobial defenses has not been described. We exploited Mycobacterium tuberculosis (Mtb) induced cytotoxicity in macrophages in a FACS based CRISPR genetic screen to identify host determinants of intracellular Mtb growth restriction. Our screen identified 5 (GID8, YPEL5, WDR26, UBE2H, MAEA) of the 10 predicted members of the GID/CTLH complex as determinants of intracellular growth of both Mtb and Salmonella serovar Typhimurium. We show that the antimicrobial properties of the GID/CTLH complex knockdown macrophages are mediated by enhanced GABAergic signaling, activated AMPK, increased autophagic flux and resistance to cell death. Meanwhile, Mtb isolated from GID/CTLH knockdown macrophages are nutritionally starved and oxidatively stressed. Our study identifies the GID/CTLH complex activity as broadly suppressive of host antimicrobial responses against intracellular bacterial infections.

Project description:Ubiquitylation by the GID/CTLH complex regulates the metabolic and innate immune response of macrophages to infection by Mycobacterium tuberculosis

Project description:Ubiquitylation is catalyzed by coordinated actions of E3 and E2 enzymes. Molecular principles governing many important E3-E2 partnerships remain unknown, including for RING-family GID/CTLH E3 ubiquitin ligases and their dedicated E2, Ubc8/UBE2H (yeast/human nomenclature). GID/CTLH-Ubc8/UBE2H-mediated ubiquitylation regulates biological processes ranging from yeast metabolic signaling to human development. Here, cryo-EM, biochemistry, and cell biology reveal exquisitely specific GID/CTLH-Ubc8/UBE2H pairing through an unconventional catalytic assembly and auxiliary interactions 70-100 Å away, mediated by E2 phosphorylation. Rather than dynamic polyelectrostatic interactions reported for other ubiquitylation complexes, multiple Ubc8/UBE2H phosphorylation sites within acidic CK2-targeted sequences specifically anchor the E2 C-termini to E3 basic patches. Positions of phospho-dependent interactions relative to the catalytic domains correlate across evolution. Overall, our data illustrate phosphorylation-dependent multivalency establishes a specific E3-E2 partnership, is antagonistic with dephosphorylation, immobilizes the catalytic centers within a flexing GID E3-substrate assembly, and facilitates substrate collision with ubiquitylation active sites.

Project description:Genome-wide screen of Mycobacterium tuberculosis-infected macrophages revealed GID/CTLH complex-mediated modulation of bacterial growth

Project description:How are E3 ubiquitin ligases configured to match substrate quaternary structures? Here, by studying the yeast GID complex, mutation of which is Glucose-Induced Degradation deficient, we discover supramolecular chelate assembly as an E3 ligase strategy for targeting an oligomeric substrate. Cryo EM structures show that to bind the tetrameric substrate fructose-1,6-bisphosphatase (Fbp1), two otherwise functional GID E3s assemble into a 20-protein Chelator-GIDSR4, which resembles an organometallic supramolecular chelate. The Chelator-GIDSR4 assembly avidly binds multiple Fbp1 degrons and positions Fbp1 so that its protomers are simultaneously ubiquitylated at lysines near its allosteric and substrate binding sites. Significantly, key structural and biochemical features - including capacity for supramolecular assembly - are preserved in the human ortholog, the CTLH E3. Based on our integrative structural, biochemical and cell biological data, we propose that higher-order E3 ligase assembly generally underlies multipronged targeting, capable of simultaneously incapacitating multiple protomers and functionalities of oligomeric substrates.

Project description:GID/CTLH E3 ligase complex control cell fate programs for sexual development of Plasmodium falciparum

Project description:The developmentof haematopoietic stem cellsinto mature erythrocytes–erythropoiesis –is a controlled process characterized by cellular reorganisation and drastic reshaping of the proteome landscape.Failure of ordered erythropoiesis isassociated with anaemias and haematological malignancies. Although the ubiquitin (UB) system isa known crucial post-translational regulator in erythropoiesis, how the erythrocyteis reshaped by the UBsystemis poorly understood.Bymeasuringthe proteomiclandscape of in vitrohuman erythropoiesis models, we founddynamic differential expression ofsubunitsof the CTLH E3 ubiquitin ligase complexthat formeddistinctmaturation stage-dependent assemblies of structurally homologous RANBP9-and RANBP10-CTLH complexes.Moreover,protein abundance of CTLH’s cognate E2-conjugating enzyme UBE2H increased during terminal differentiation,which dependedon catalyticallyactive CTLH E3complexes.CRISPR-Cas9 mediated inactivation of all CTLH E3 assemblies by targeting the catalytic subunit MAEA,orUBE2H, triggered spontaneous and accelerated maturationof erythroid progenitor cellsincluding increased heme and haemoglobin synthesis. Thus, the orderly progression of human erythropoiesis is controlled by the assembly of distinct UBE2H-CTLHmodulesfunctioning at different developmental stages.

Project description:CD4 T cells are crucial for protective immunity to Mycobacterium tuberculosis (Mtb). Because CD4 T cell protection depends upon direct interaction with infected macrophages, we sought to identify contact-dependent protective factors. We discovered that direct contact with antigen-specific CD4 T cells drives signaling lymphocytic activation molecule family member 1 (SLAMF1/CD150) expression on macrophages. SLAMF1 is a cell-surface receptor that mediates homotypic interactions between hematopoietic cells, interacts with microbes, and promotes macrophage antimicrobial responses. In mice, SLAMF1 expression was induced on Mtb-infected myeloid cells in a T cell-dependent manner and partially impaired in autophagy-deficient macrophages. In non-human primates, antigen presentation by lung macrophages induced SLAMF1 expression in a manner that correlated with T cell abundance and vaccine protection. Finally, in mice SLAMF1 limited Mtb burden and inflammatory responses during Mtb infection. We conclude that SLAMF1 is a T cell contact-dependent factor in macrophages that contributes to host protection from TB.

Project description:Latent tuberculosis infection (LTBI) relies on a homeostasis of macrophages and Mycobacterium tuberculosis (Mtb). The small heat shock protein, Mtb Hsp16.3 (also known as latency-associated antigen), plays an important role in Mtb persistence within macrophages. However, the mechanism of LTBI remains elusive. The aim of this study was to delineate LTBI-related miRNA expression in U937 macrophages expressing Mtb Hsp16.3 protein. This study intends to explore the potential function of miRNAs in the interaction of macrophages with Mtb Hsp16.3 and provide insights for investigating the role of macrophage homeostasis in LTBI. U937 macrophages were infected with an integrase-deficient Lentivirus vector to transiently express Mtb Hsp16.3, and green fluorescent protein (GFP) as a control. We used a microRNA (miRNA) microarray chip containing more than 1000 probes to identify the significant differentially expressed miRNAs in the infected U937 cells, and employed real-time quantitative polymerase chain reaction (qRT-PCR) for validation. Furthermore, we confirmed these candidate LTBI-related miRNAs in peripheral blood mononuclear cells from subjects with LTBI and in healthy control individuals. Functional annotation prediction of miRNA target genes and pathway enrichment analyses were used to explore the putative links between these miRNAs and LTBI.

Project description:We crossed Tyrobp-deficient and Inpp5d-deficient mice with App(NL-G-F/NL-G-F) Alzheimer model mice (hereafter, NLGF) and generate Tyrobp-/-;Inpp5d+/-;NLGF mice to assess the role of Inpp5d in Tyrobp-/- mice. We isolated microglia from NLGF, Tyrobp-/-;NLGF, and Tyrobp-/-;Inpp5d+/-;NLGF mice and analyzed microglial transcriptome using RNA-sequencing. Tyrobp-/- microglia showed substantially different transcriptome compared with NLGF microglia. Previously described "disease asscociated microglia" genes were enriched in the differentially expressed genes in Tyrobp-/- microglia. On the other hand, Tyrobp-/-;Inpp5d+/-;NLGF microglia showed similar transcriptome to Tyrobp-/- microglia except several genes (e.g., Wdfy1, Mamdc2, Klrb1f). These data suggest Inpp5d modulates microglial functions without affecting disease associated microglial gene expression in Tyrobp-/-;NLGF micrglia.