Abstract
The release of DNA into the cytoplasm upon damage to the nucleus or during viral infection triggers an interferon-mediated defense response, inflammation and cell death. In human cells cytoplasmic DNA is sensed by cyclic GMP-AMP Synthase (cGAS) and Absent In Melanoma 2 (AIM2). Here, we report the identification of a “natural knockout” model of cGAS. Comparative genomics of phylogenetically diverse mammalian species showed that cGAS and its interaction partner Stimulator of Interferon Genes (STING) have been inactivated by mutations in the Malayan pangolin whereas other mammals retained intact copies of these genes. The coding sequences of CGAS and STING1 are also disrupted by premature stop codons and frame-shift mutations in Chinese and tree pangolins, suggesting that expression of these genes was lost in a common ancestor of all pangolins that lived more than 20 million years ago. AIM2 is retained in a functional form in pangolins whereas it is inactivated by mutations in carnivorans, the phylogenetic sister group of pangolins. The deficiency of cGAS and STING points to the existence of alternative mechanisms of controlling cytoplasmic DNA-associated cell damage and viral infections in pangolins.
Highlights
The presence of DNA in the cytoplasm is a sign of infection with DNA viruses or damage to the nucleus or mitochondria in which endogenous DNA is normally contained [1, 2]
A targeted search for CGAS-like sequences revealed that remnants of 3 exons of CGAS are located between DDX43 and MT01 in the pangolin (Fig. 1b)
To the best of our knowledge, pangolins are the first mammals that are reported to lack the cyclic GMP-AMP Synthase (cGAS)-Stimulator of Interferon Genes (STING) pathway. Both genes that are active in this pathway, i.e. CGAS and STING1, are pseudogenized in pangolins and the results of our comparative analysis of phylogenetically diverse pangolin species suggest that the inactivating mutations occurred more than 20 million years ago
Summary
The presence of DNA in the cytoplasm is a sign of infection with DNA viruses or damage to the nucleus or mitochondria in which endogenous DNA is normally contained [1, 2]. Cellular response systems have evolved to detect cytoplasmic DNA and to initiate processes aimed at the re-establishment of homeostasis at the tissue level. These responses include the production of type I and type III interferons, interleukin. At the cellular level, mislocalized DNA can trigger senescence and programmed cell death [4–6]. Cell death is important in host defense against DNA viruses, such as vaccinia virus, enterovirus A71, and herpes viruses, and bacteria, such as Mycobacterium tuberculosis variant bovis, Listeria monocytogenes, Legionella pneumophila, and Francisella tularenis, and in sterile inflammation and cancer [5, 6]
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