Luca Mollica scite author profile

High-mobility group box 1 protein (HMGB1) is a nuclear component, but extracellularly it serves as a signaling molecule involved in acute and chronic inflammation, for example in sepsis and arthritis. The identification of HMGB1 inhibitors is therefore of significant experimental and clinical interest. We show that glycyrrhizin, a natural anti-inflammatory and antiviral triterpene in clinical use, inhibits HMGB1 chemoattractant and mitogenic activities, and has a weak inhibitory effect on its intranuclear DNA-binding function. NMR and fluorescence studies indicate that glycyrrhizin binds directly to HMGB1 (K(d) approximately 150 microM), interacting with two shallow concave surfaces formed by the two arms of both HMG boxes. Our results explain in part the anti-inflammatory properties of glycyrrhizin, and might direct the design of new derivatives with improved HMGB1-binding properties.

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The autoimmune regulator PHD finger binds to non‐methylated histone H3K4 to activate gene expression

Org

et al. 2008

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This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. This license does not permit commercial exploitation or the creation of derivative works without specific permission.Mutations in the gene autoimmune regulator (AIRE) cause autoimmune polyendocrinopathy candidiasis ectodermal dystrophy. AIRE is expressed in thymic medullary epithelial cells, where it promotes the expression of tissue-restricted antigens. By the combined use of biochemical and biophysical methods, we show that AIRE selectively interacts with histone H3 through its first plant homeodomain (PHD) finger (AIRE-PHD1) and preferentially binds to non-methylated H3K4 (H3K4me0). Accordingly, in vivo AIRE binds to and activates promoters containing low levels of H3K4me3 in human embryonic kidney 293 cells. We conclude that AIRE-PHD1 is an important member of a newly identified class of PHD fingers that specifically recognize H3K4me0, thus providing a new link between the status of histone modifications and the regulation of tissue-restricted antigen expression in thymus.

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Intrinsic disorder in measles virus nucleocapsids

Jensen

Communie

Ribeiro

et al. 2011

Proc. Natl. Acad. Sci. U.S.A.

186

217

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The genome of measles virus is encapsidated by multiple copies of the nucleoprotein (N), forming helical nucleocapsids of molecular mass approaching 150 Megadalton. The intrinsically disordered C-terminal domain of N (N TAIL ) is essential for transcription and replication of the virus via interaction with the phosphoprotein P of the viral polymerase complex. The molecular recognition element (MoRE) of N TAIL that binds P is situated 90 amino acids from the folded RNA-binding domain (N CORE ) of N, raising questions about the functional role of this disordered chain. Here we report the first in situ structural characterization of N TAIL in the context of the entire N-RNA capsid. Using nuclear magnetic resonance spectroscopy, small angle scattering, and electron microscopy, we demonstrate that N TAIL is highly flexible in intact nucleocapsids and that the MoRE is in transient interaction with N CORE . We present a model in which the first 50 disordered amino acids of N TAIL are conformationally restricted as the chain escapes to the outside of the nucleocapsid via the interstitial space between successive N CORE helical turns. The model provides a structural framework for understanding the role of N TAIL in the initiation of viral transcription and replication, placing the flexible MoRE close to the viral RNA and, thus, positioning the polymerase complex in its functional environment.is a member of the Paramyxoviridae family of the Mononegavirales order of negative sense, single stranded RNA viruses. The viral genome is encapsidated by multiple copies of the nucleoprotein (N) forming a helical nucleocapsid. Transcription and replication of the viral RNA are initiated by an interaction between N and the polymerase complex, composed of the phosphoprotein (P) and the RNAdependent RNA polymerase (1). N consists of two domains: N CORE (residues 1-400), responsible for the interaction with the viral RNA and for maintaining the nucleocapsid structure, and a long intrinsically disordered domain, N TAIL (residues 401-525) serving as the anchor point for the polymerase complex (2, 3). The molecular recognition element (MoRE) (residues 485-502) of the disordered N TAIL interacts with the C-terminal three-helix bundle domain, XD, of P (residues 459-507) (4) and thereby recruits the polymerase complex onto the nucleocapsid template (5, 6).The realization that intrinsically disordered proteins (IDPs) are functional despite a lack of structure (7-9) has revealed entirely new paradigms that appear to redefine our understanding of the role of conformational flexibility in molecular interactions (10-12). Until now most IDPs have been studied in isolation, or in the presence of a single interaction partner, although it is evident that a real physiological environment could influence the nature and relevance of apparent intrinsic disorder. In this context resolving the question of whether the protein is actually disordered in situ is of paramount importance. In this case the mechanistic role of the extensive disorder present in N TA...

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Luca Mollica

Glycyrrhizin Binds to High-Mobility Group Box 1 Protein and Inhibits Its Cytokine Activities

The autoimmune regulator PHD finger binds to non‐methylated histone H3K4 to activate gene expression

Intrinsic disorder in measles virus nucleocapsids

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