STING mediates immune responses in a unicellular choanoflagellate
Posted on: 1 July 2021 , updated on: 2 July 2021
Preprint posted on 14 May 2021
Article now published in eLife at http://dx.doi.org/10.7554/eLife.70436
The STING ligand 2’3’-cGAMP induces an NF-κB-dependent anti-bacterial innate immune response in the starlet sea anemone Nematostella vectensis
Posted on: , updated on: 2 July 2021
Preprint posted on 14 May 2021
Article now published in Proceedings of the National Academy of Sciences at http://dx.doi.org/10.1073/pnas.2109022118
Categories: evolutionary biology, immunology
Background:
Animal immune systems include numerous specialized immune features, such as the vertebrate-specific interferon cascade and adaptive immune system.However, other aspects of animal immune systems, including various pathogen sensors, are evolutionarily ancient and common to most branches of animal life. An outstanding question in the evolution of the immune system is whether these sensors always carried immune function, and if not, how those functions were acquired. Efforts to understand these evolutionary questions are aided by studies of early-branching taxa that may carry signatures of functions that were already present in early common ancestors.
The closest relatives of all animals are the choanoflagellates, which are unicellular marine eukaryotes. Within animals, many well-studied model organisms are Bilaterians (having bilateral symmetry during development), including classical vertebrate and invertebrate models. The Cnidaria, aquatic animals such as jellyfish, sponges, and anemones, are the “sister group” of Bilateria. Therefore, studies of choanoflagellates and Cnidaria provide critical context for the origins of animals and Bilaterians, respectively.
In vertebrates, the stimulator of interferon genes (STING), senses cyclic dinucleotides (CDNs) produced by cyclic GMP-AMP synthase (cGAS) to trigger interferon signaling and an anti-viral immune response. Although the downstream interferon response pathway is a vertebrate innovation, the cGAS-STING pathway is detectable in a broad range of metazoans, including the Cnidarian sea anemone Nematostella vectensis. It has previously been shown that STING binding to CDNs is evolutionarily conserved in Cnidaria [Kranzusch and Wilson et al, Mol Cell 2015], and that it can substitute for mammalian STING in at least some functions [Gui and Yang et al, Nature 2019]. In a pair of new preprints, Woznica et al and Margolis et al explore the immune functions of STING in choanoflagellates and Nematostella vectensis, clarifying the ancient anti-bacterial roles of STING.
Key findings:
- Woznica et al characterize the immune activity of the choanoflagellate Monosiga brevicollis, and establish it as a new model system for studying the evolution of animal innate immunity. By screening numerous bacteria in co-culture with brevicollis, they characterize Pseudomonas aeruginosa as a novel pathogen for M. brevicollis. They show that it induces cell death and drives the upregulation of STING transcriptionally, as measured by RNA-seq, and at the protein level, using a newly developed and validated antibody for Western blotting. The authors developed transfection and CRISPR-based knockout protocols to enable expression of tagged proteins for microscopy and isolated a clonal STING knockout linease. Using these overexpression and knockout techniques, they showed that 2’3’cGAMP (the CDN ligand of mammalian STING) drives STING upregulation, cell death, and the induction of autophagy, and that these activities depend on the expression of endogenous STING.
- Margolis et al study the endogenous function of STING in vectensis, using RNA-seq to show that treatment with CDNs drives activation of an anti-bacterial gene program (such as LBP and Dae4) in addition to expression of anti-viral genes (OAS, Viperin, and STING itself). While they did not formally demonstrate a dependence on STING, they were unable to generate full knockdown or knockout of STING, and therefore this remains an untested question. They were able to show effects of knockdown on the N. vectensis homolog of NFkb on this gene response, rather than the interferon-system-like IRFs or STAT homologs present in N. vectensis. These genes were additionally activated during bacterial challenge with P. aeruginosa. Furthermore, they biochemically characterized anti-bacterial homologs of Dae4 (a peptidoglycan cleaving enzyme capable of direct bactericidal activity on gram-positive bacteria) and LBP (a lipopolysaccharide binding protein that targets gram-negative bacterial outer membranes) to demonstrate the expected anti-bacterial activities.
Importance:
These two preprints firmly establish the evolutionarily ancient role of STING / CDN sensing as a mediator of anti-bacterial immunity through clear studies of endogenous activity in choanoflagellates and the cnidarian N. vectensis. This reinforces the early role of STING in immune activation, prior to its integration into anti-viral sensing and the interferon system more recently in the evolution of animal immunity. These reports, and particularly the development of a new model system in M. brevicollis, are critical to advance our understanding of the evolution of innate immunity through animal evolution.
Moving forward:
- Both preprints comment on the role of cGAS in activating STING responses, and the need for further investigation to clarify the role of cGAS activation upstream of STING in brevicollis and N. vectensis. These will be extremely interesting developments to follow to understand how an immune circuit evolved – and whether STING ever operated “independently” before co-opting cGAS activity, or whether the “minimal unit” of this antiviral circuit required both genes.
- Both studies use treatment with CDNs as a key experimental technique to trigger immune responses. While pathogen-derived CDNs showed no activation of brevicollis STING, this may be due to differences in uptake or transport. Recognizing that P. aeruginosa is the first identified pathogen for M. brevicollis, what might be the relative “dangers” from extracellular vs intracellular pathogens (which may deliver CDNs at higher concentrations)? Could STING even be acting as a kind of “food quality control” mechanism to enhance autophagy when certain bacteria are ingested? Some of these questions could be informed by the contribution of cGAS to STING activation, as described above, or biochemical studies with purified STING assessing the activity of different CDNs in closer detail.
- STING is generally described as an anti-viral protein in mammalian cells – there was a clear antiviral response in N. vectensis, and further examination of the genes induced in M. brevicollis will be needed to clarify if putative anti-viral homologs are induced there. What kinds of pressures might drive the broadening/narrowing of STING functions in the innate immune system through animal evolution?
Sign up to customise the site to your preferences and to receive alerts
Register hereAlso in the evolutionary biology category:
Enhancer-driven cell type comparison reveals similarities between the mammalian and bird pallium
Rodrigo Senovilla-Ganzo
Modular control of time and space during vertebrate axis segmentation
AND
Natural genetic variation quantitatively regulates heart rate and dimension
Girish Kale, Jennifer Ann Black
Fetal brain response to maternal inflammation requires microglia
Manuel Lessi
Also in the immunology category:
Alzheimer’s Disease Patient Brain Extracts Induce Multiple Pathologies in Vascularized Neuroimmune Organoids for Disease Modeling and Drug Discovery
Manuel Lessi
Global coordination of protrusive forces in migrating immune cells
yohalie kalukula
Integrin conformation-dependent neutrophil slowing obstructs the capillaries of the pre-metastatic lung in a model of breast cancer
Simon Cleary
preListsevolutionary biology category:
in the‘In preprints’ from Development 2022-2023
A list of the preprints featured in Development's 'In preprints' articles between 2022-2023
List by | Alex Eve, Katherine Brown |
preLights peer support – preprints of interest
This is a preprint repository to organise the preprints and preLights covered through the 'preLights peer support' initiative.
List by | preLights peer support |
EMBO | EMBL Symposium: The organism and its environment
This preList contains preprints discussed during the 'EMBO | EMBL Symposium: The organism and its environment', organised at EMBL Heidelberg, Germany (May 2023).
List by | Girish Kale |
9th International Symposium on the Biology of Vertebrate Sex Determination
This preList contains preprints discussed during the 9th International Symposium on the Biology of Vertebrate Sex Determination. This conference was held in Kona, Hawaii from April 17th to 21st 2023.
List by | Martin Estermann |
EMBL Synthetic Morphogenesis: From Gene Circuits to Tissue Architecture (2021)
A list of preprints mentioned at the #EESmorphoG virtual meeting in 2021.
List by | Alex Eve |
Planar Cell Polarity – PCP
This preList contains preprints about the latest findings on Planar Cell Polarity (PCP) in various model organisms at the molecular, cellular and tissue levels.
List by | Ana Dorrego-Rivas |
TAGC 2020
Preprints recently presented at the virtual Allied Genetics Conference, April 22-26, 2020. #TAGC20
List by | Maiko Kitaoka et al. |
ECFG15 – Fungal biology
Preprints presented at 15th European Conference on Fungal Genetics 17-20 February 2020 Rome
List by | Hiral Shah |
COVID-19 / SARS-CoV-2 preprints
List of important preprints dealing with the ongoing coronavirus outbreak. See http://covidpreprints.com for additional resources and timeline, and https://connect.biorxiv.org/relate/content/181 for full list of bioRxiv and medRxiv preprints on this topic
List by | Dey Lab, Zhang-He Goh |
1
SDB 78th Annual Meeting 2019
A curation of the preprints presented at the SDB meeting in Boston, July 26-30 2019. The preList will be updated throughout the duration of the meeting.
List by | Alex Eve |
Pattern formation during development
The aim of this preList is to integrate results about the mechanisms that govern patterning during development, from genes implicated in the processes to theoritical models of pattern formation in nature.
List by | Alexa Sadier |
Also in the immunology category:
Journal of Cell Science meeting ‘Imaging Cell Dynamics’
This preList highlights the preprints discussed at the JCS meeting 'Imaging Cell Dynamics'. The meeting was held from 14 - 17 May 2023 in Lisbon, Portugal and was organised by Erika Holzbaur, Jennifer Lippincott-Schwartz, Rob Parton and Michael Way.
List by | Helen Zenner |
Fibroblasts
The advances in fibroblast biology preList explores the recent discoveries and preprints of the fibroblast world. Get ready to immerse yourself with this list created for fibroblasts aficionados and lovers, and beyond. Here, my goal is to include preprints of fibroblast biology, heterogeneity, fate, extracellular matrix, behavior, topography, single-cell atlases, spatial transcriptomics, and their matrix!
List by | Osvaldo Contreras |
Single Cell Biology 2020
A list of preprints mentioned at the Wellcome Genome Campus Single Cell Biology 2020 meeting.
List by | Alex Eve |
Autophagy
Preprints on autophagy and lysosomal degradation and its role in neurodegeneration and disease. Includes molecular mechanisms, upstream signalling and regulation as well as studies on pharmaceutical interventions to upregulate the process.
List by | Sandra Malmgren Hill |
Antimicrobials: Discovery, clinical use, and development of resistance
Preprints that describe the discovery of new antimicrobials and any improvements made regarding their clinical use. Includes preprints that detail the factors affecting antimicrobial selection and the development of antimicrobial resistance.
List by | Zhang-He Goh |
Zebrafish immunology
A compilation of cutting-edge research that uses the zebrafish as a model system to elucidate novel immunological mechanisms in health and disease.
List by | Shikha Nayar |