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4yp1
From Proteopedia
Misting with CDA
Structural highlights
Function[STING_MOUSE] Facilitator of innate immune signaling that acts as a sensor of cytosolic DNA from bacteria and viruses and promotes the production of type I interferon (IFN-alpha and IFN-beta). Innate immune response is triggered in response to non-CpG double-stranded DNA from viruses and bacteria delivered to the cytoplasm. Acts by recognizing and binding cyclic di-GMP (c-di-GMP), a second messenger produced by bacteria, and cyclic GMP-AMP (cGAMP), a messenger produced in response to DNA virus in the cytosol: upon binding of c-di-GMP or cGAMP, autoinhibition is alleviated and TMEM173/STING is able to activate both NF-kappa-B and IRF3 transcription pathways to induce expression of type I interferon and exert a potent anti-viral state. May be involved in translocon function, the translocon possibly being able to influence the induction of type I interferons. May be involved in transduction of apoptotic signals via its association with the major histocompatibility complex class II (MHC-II). Mediates death signaling via activation of the extracellular signal-regulated kinase (ERK) pathway.[1] [2] [3] [4] [5] [6] Publication Abstract from PubMedCyclic di-AMP (c-di-AMP) is a relatively new member of the family of bacterial cyclic dinucleotide second messengers. It has attracted significant attention in recent years because of the abundant roles it plays in a variety of Gram-positive bacteria. The structural features that allow diverse bacterial proteins to bind c-di-AMP are not fully understood. Here we report the biophysical and structural studies of c-di-AMP in complex with a bacterial cation-proton antiporter (CpaA) RCK (regulator of the conductance of K(+)) protein from Staphylococcus aureus (Sa). The crystal structure of the SaCpaA_RCK C-terminal domain (CTD) in complex with c-di-AMP was determined to a resolution of 1.81 A. This structure revealed two well-liganded water molecules, each interacting with one of the adenine bases by a unique H2Olp-pi interaction to stabilize the complex. Sequence blasting using the SaCpaA_RCK primary sequence against the bacterial genome database returned many CpaA analogues, and alignment of these sequences revealed that the active site residues are all well-conserved, indicating a universal c-di-AMP binding mode for CpaA_RCK. A proteoliposome activity assay using the full-length SaCpaA membrane protein indicated that c-di-AMP binding alters its antiporter activity by approximately 40%. A comparison of this structure to all other reported c-di-AMP-receptor complex structures revealed that c-di-AMP binds to receptors in either a "U-shape" or "V-shape" mode. The two adenine rings are stabilized in the inner interaction zone by a variety of CH-pi, cation-pi, backbone-pi, or H2Olp-pi interaction, but more commonly in the outer interaction zone by hydrophobic CH-pi or pi-pi interaction. The structures determined to date provide an understanding of the mechanisms by which a single c-di-AMP can interact with a variety of receptor proteins, and how c-di-AMP binds receptor proteins in a special way different from that of c-di-GMP. Structural Insights into the Distinct Binding Mode of Cyclic Di-AMP with SaCpaA_RCK.,Chin KH, Liang JM, Yang JG, Shih MS, Tu ZL, Wang YC, Sun XH, Hu NJ, Liang ZX, Dow JM, Ryan RP, Chou SH Biochemistry. 2015 Aug 11;54(31):4936-51. doi: 10.1021/acs.biochem.5b00633. Epub , 2015 Jul 27. PMID:26171638[7] From MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine. See AlsoReferences
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Categories: Large Structures | Lk3 transgenic mice | Chen, C K | Chin, K H | Chou, S H | Tu, Z I | Cda | Immune system | Msting
