Sid Ahmed Labed scite author profile

Animal host defense against infection requires the expression of defense genes at the right place and the right time. To understand such tight control of host defense requires the elucidation of the transcription factors involved. Using an unbiased approach in the model Caenorhabditis elegans, we discovered that HLH-30 (known as TFEB in mammals) is a key transcription factor for host defense. HLH-30 was activated shortly after Staphylococcus aureus infection, and drove the expression of close to 80% of the host response, including antimicrobial and autophagy genes that were essential for host tolerance of infection. TFEB was also rapidly activated in murine macrophages upon S. aureus infection, and was required for proper transcriptional induction of several proinflammatory cytokines and chemokines. Thus, our data suggest that TFEB is a previously unappreciated, evolutionarily ancient transcription factor in the host response to infection.

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An Evolutionarily Conserved PLC-PKD-TFEB Pathway for Host Defense

Najibi

Labed

Visvikis

et al. 2016

Cell Reports

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Summary The mechanisms that tightly control the transcription of host defense genes have not been fully elucidated. We previously identified TFEB as a transcription factor important for host defense, but the mechanisms that regulate TFEB during infection remained unknown. We used C. elegans to discover a pathway that activates TFEB during infection. Gene dkf-1, which encodes a homolog of protein kinase D (PKD), was required for TFEB activation in nematodes infected with Staphylococcus aureus. Conversely, pharmacological activation of PKD was sufficient to activate TFEB. Furthermore, phospholipase C (PLC) gene plc-1 was also required for TFEB activation, downstream of Gαq homolog egl-30 and upstream of dkf-1. Using reverse and chemical genetics, we discovered a similar PLC-PKD-TFEB axis in Salmonella-infected mouse macrophages. In addition, PKCα was required in macrophages but not nematodes. These observations reveal a previously unknown host defense signaling pathway, which has been conserved across one billion years of evolution.

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Intestinal Epithelial Wnt Signaling Mediates Acetylcholine-Triggered Host Defense against Infection

et al. 2018

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Regulated antimicrobial peptide expression in the intestinal epithelium is key to defense against infection and to microbiota homeostasis. Understanding the mechanisms that regulate such expression is necessary for understanding immune homeostasis and inflammatory disease and for developing safe and effective therapies. We used Caenorhabditis elegans in a preclinical approach to discover mechanisms of antimicrobial gene expression control in the intestinal epithelium. We found an unexpected role for the cholinergic nervous system. Infection-induced acetylcholine release from neurons stimulated muscarinic signaling in the epithelium, driving downstream induction of Wnt expression in the same tissue. Wnt induction activated the epithelial canonical Wnt pathway, resulting in the expression of C-type lectin and lysozyme genes that enhanced host defense. Furthermore, the muscarinic and Wnt pathways are linked by conserved transcription factors. These results reveal a tight connection between the nervous system and the intestinal epithelium, with important implications for host defense, immune homeostasis, and cancer.

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The Pseudokinase NIPI-4 Is a Novel Regulator of Antimicrobial Peptide Gene Expression

et al. 2012

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Hosts have developed diverse mechanisms to counter the pathogens they face in their natural environment. Throughout the plant and animal kingdoms, the up-regulation of antimicrobial peptides is a common response to infection. In C. elegans , infection with the natural pathogen Drechmeria coniospora leads to rapid induction of antimicrobial peptide gene expression in the epidermis. Through a large genetic screen we have isolated many new mutants that are incapable of upregulating the antimicrobial peptide nlp-29 in response to infection (i.e. with a Nipi or ‘no induction of peptide after infection’ phenotype). More than half of the newly isolated Nipi mutants do not correspond to genes previously associated with the regulation of antimicrobial peptides. One of these, nipi-4 , encodes a member of a nematode-specific kinase family. NIPI-4 is predicted to be catalytically inactive, thus to be a pseudokinase. It acts in the epidermis downstream of the PKC∂ TPA-1, as a positive regulator of nlp antimicrobial peptide gene expression after infection. It also controls the constitutive expression of antimicrobial peptide genes of the cnc family that are targets of TGFß regulation. Our results open the way for a more detailed understanding of how host defense pathways can be molded by environmental pathogens.

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Caenorhabditis elegans Antifungal Defense Mechanisms

Labed¹,

Pujol²

2012

Int J Clin Rev

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C. elegans orphan nuclear receptor NHR-42 represses innate immunity and promotes lipid loss downstream of HLH-30/TFEB

2023

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In recent years, transcription factors of the Microphthalmia-TFE (MiT) family, including TFEB and TFE3 in mammals and HLH-30 in Caenorhabditis elegans, have emerged as important regulators of innate immunity and inflammation in invertebrates and vertebrates. Despite great strides in knowledge, the mechanisms that mediate downstream actions of MiT transcription factors in the context of innate host defense remain poorly understood. Here, we report that HLH-30, which promotes lipid droplet mobilization and host defense, induces the expression of orphan nuclear receptor NHR-42 during infection with Staphylococcus aureus. Remarkably, NHR-42 loss of function promoted host infection resistance, genetically defining NHR-42 as an HLH-30-controlled negative regulator of innate immunity. During infection, NHR-42 was required for lipid droplet loss, suggesting that it is an important effector of HLH-30 in lipid immunometabolism. Moreover, transcriptional profiling of nhr-42 mutants revealed wholesale activation of an antimicrobial signature, of which abf-2, cnc-2, and lec-11 were important for the enhanced survival of infection of nhr-42 mutants. These results advance our knowledge of the mechanisms by which MiT transcription factors promote host defense, and by analogy suggest that TFEB and TFE3 may similarly promote host defense via NHR-42-homologous nuclear receptors in mammals.

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Negative regulation of C. elegans innate immunity by orphan nuclear receptor NHR-42

Goswamy

Labed²,

Irazoqui

2022

Preprint

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Positive and negative regulators of innate immunity work together to maintain immune homeostasis. We previously discovered that HLH-30/TFEB is a critical transcription factor that positively regulates host defense genes upon S. aureus infection in C. elegans. However, repression of host defense genes and negative regulation of immunity remain poorly understood. In this study, we identified nhr-42 as a negative regulator of host defense genes functioning downstream of HLH-30/TFEB, with major implications in host survival and metabolism after infection. nhr-42 expression is induced in an HLH-30/TFEB dependent manner mostly in the pharynx upon infection. We find that animals lacking nhr-42 have higher expression of host defense genes, which enables enhanced survival after infection. Antimicrobials expressed in the pharynx such as abf-2, function downstream of nhr-42 to confer resistance to infection by mitigating pathogen burden. Furthermore, nhr-42 deficient animals are defective in lipid mobilization, having higher lipid stores compared to wild type animals after infection. nhr-42 therefore enables C. elegans to limit the host defense response and reallocate energy resources through lipid mobilization after infection. To our knowledge, this is the first report of a transcription factor that represses host defense genes in C. elegans.

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Sid Ahmed Labed

Innate Host Defense Requires TFEB-Mediated Transcription of Cytoprotective and Antimicrobial Genes

An Evolutionarily Conserved PLC-PKD-TFEB Pathway for Host Defense

Intestinal Epithelial Wnt Signaling Mediates Acetylcholine-Triggered Host Defense against Infection

The Pseudokinase NIPI-4 Is a Novel Regulator of Antimicrobial Peptide Gene Expression

Caenorhabditis elegans Antifungal Defense Mechanisms

C. elegans orphan nuclear receptor NHR-42 represses innate immunity and promotes lipid loss downstream of HLH-30/TFEB

Negative regulation of C. elegans innate immunity by orphan nuclear receptor NHR-42

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