Borlan Pan scite author profile

The Ras gene is frequently mutated in cancer, and mutant Ras drives tumorigenesis. Although Ras is a central oncogene, small molecules that bind to Ras in a well-defined manner and exert inhibitory effects have not been uncovered to date. Through an NMR-based fragment screen, we identified a group of small molecules that all bind to a common site on Ras. High-resolution cocrystal structures delineated a unique ligand-binding pocket on the Ras protein that is adjacent to the switch I/II regions and can be expanded upon compound binding. Structure analysis predicts that compound-binding interferes with the Ras/SOS interactions. Indeed, selected compounds inhibit SOS-mediated nucleotide exchange and prevent Ras activation by blocking the formation of intermediates of the exchange reaction. The discovery of a small-molecule binding pocket on Ras with functional significance provides a new direction in the search of therapeutically effective inhibitors of the Ras oncoprotein.small G protein | guanine nucleotide exchange | nuclear magnetic resonance | crystal structure | small-molecule inhibitors R as is a small GTP-binding protein that functions as a nucleotide-dependent switch for central growth signaling pathways (1, 2). In response to extracellular signals, Ras is converted from a GDP-bound (Ras GDP ) to a GTP-bound (Ras GTP ) state, as catalyzed by guanine nucleotide exchange factors (GEFs), notably the SOS1 protein. Active Ras GTP mediates its diverse growth-stimulating functions through its direct interactions with effectors including Raf, PI3K, and Ral guanine nucleotide dissociation stimulator. The intrinsic GTPase activity of Ras then hydrolyzes GTP to GDP to terminate Ras signaling. The Ras GTPase activity can be further accelerated by its interactions with GTPase-activating proteins (GAPs), including the neurofibromin 1 tumor suppressor (2).Ras, a human oncogene identified and characterized over 30 y ago, is mutated in more than 20% of human cancers. Among the three Ras isoforms (K, N, and H), KRas is most frequently mutated (2). Mutant Ras has a reduced GTPase activity, which prolongs its activated conformation, thereby promoting Rasdependent signaling and cancer cell survival or growth (1, 2).Mutations of Ras in cancer are associated with poor prognosis (2). Inactivation of oncogenic Ras in mice results in tumor shrinkage. Thus, Ras is widely considered an oncology target of exceptional importance. However, development of small-molecule inhibitors against Ras has thus far proven unsuccessful. Given the picomolar affinity between guanine nucleotides and Ras and the high cytosolic concentration of guanine nucleotides, it is very challenging to develop a conventional inhibitor competitive against nucleotide binding (1, 2). Outside of the nucleotide-binding pocket, the Ras protein does not contain obvious cavities for small-molecule binding. A number of small molecules have been reported to bind to Ras (3-7), but their mechanisms of action and the structural basis to achieve Ras inhibition remain elusive.Fra...

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Ubiquitin Binding to A20 ZnF4 Is Required for Modulation of NF-κB Signaling

Bosanac¹,

Wertz²,

Pan³

et al. 2010

Molecular Cell

169

166

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Inactivating mutations in the ubiquitin (Ub) editing protein A20 promote persistent nuclear factor (NF)-κB signaling and are genetically linked to inflammatory diseases and hematologic cancers. A20 tightly regulates NF-κB signaling by acting as an Ub editor, removing K63-linked Ub chains and mediating addition of Ub chains that target substrates for degradation. However, a precise molecular understanding of how A20 modulates this pathway remains elusive. Here, using structural analysis, domain mapping, and functional assays, we show that A20 zinc finger 4 (ZnF4) does not directly interact with E2 enzymes but instead can bind mono-Ub and K63-linked poly-Ub. Mutations to the A20 ZnF4 Ub-binding surface result in decreased A20-mediated ubiquitination and impaired regulation of NF-κB signaling. Collectively, our studies illuminate the mechanistically distinct but biologically interdependent activities of the A20 ZnF and ovarian tumor (OTU) domains that are inherent to the Ub editing process and, ultimately, to regulation of NF-κB signaling.

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Structure of IL-33 and Its Interaction with the ST2 and IL-1RAcP Receptors—Insight into Heterotrimeric IL-1 Signaling Complexes

Lingel¹,

et al. 2009

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Summary Members of the interleukin-1 (IL-1) family of cytokines play major roles in host defense and immune system regulation in infectious and inflammatory diseases. IL-1 cytokines trigger a biological response in effector cells by assembling a heterotrimeric signaling complex with two IL-1 receptor chains, a high-affinity primary receptor and a low-affinity co-receptor. To gain insights into the signaling mechanism of the novel IL-1-like cytokine IL-33, we first solved its solution structure and then performed a detailed biochemical and structural characterization of the interaction between IL-33, its primary receptor ST2 and the co-receptor IL-1RAcP. Using NMR data, we obtained a model of the IL-33/ST2 complex in solution that is validated by small-angle X-ray scattering (SAXS) data and is similar to the IL-1β/IL-1R1 complex. We extended our SAXS analysis to the IL-33/ST2/IL-1RAcP and IL-1β/IL-1R1/IL-1RAcP complexes and propose a general model of the molecular architecture of IL-1 ternary signaling complexes.

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Solution structure of a phage-derived peptide antagonist in complex with vascular endothelial growth factor

Pan¹,

Li²,

Russell³

et al. 2002

Journal of Molecular Biology

114

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Structural and functional analysis of the PDZ domains of human HtrA1 and HtrA3

Runyon¹,

Zhang²,

Appleton³

et al. 2007

Protein Science

111

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High-temperature requirement A (HtrA) and its homologs contain a serine protease domain followed by one or two PDZ domains. Bacterial HtrA proteins and the mitochondrial protein HtrA2/Omi maintain cell function by acting as both molecular chaperones and proteases to manage misfolded proteins. The biological roles of the mammalian family members HtrA1 and HtrA3 are less clear. We report a detailed structural and functional analysis of the PDZ domains of human HtrA1 and HtrA3 using peptide libraries and affinity assays to define specificity, structural studies to view the molecular details of ligand recognition, and alanine scanning mutagenesis to investigate the energetic contributions of individual residues to ligand binding. In common with HtrA2/Omi, we show that the PDZ domains of HtrA1 and HtrA3 recognize hydrophobic polypeptides, and while C-terminal sequences are preferred, internal sequences are also recognized. However, the details of the interactions differ, as different domains rely on interactions with different residues within the ligand to achieve high affinity binding. The results suggest that mammalian HtrA PDZ domains interact with a broad range of hydrophobic binding partners. This promiscuous specificity resembles that of bacterial HtrA family members and suggests a similar function for recognizing misfolded polypeptides with exposed hydrophobic sequences. Our results support a common activation mechanism for the HtrA family, whereby hydrophobic peptides bind to the PDZ domain and induce conformational changes that activate the protease. Such a mechanism is well suited to proteases evolved for the recognition and degradation of misfolded proteins.Keywords: structure/function studies; chaperonins; NMR spectroscopy; docking proteins; PDZ domain; ligand specificity Supplemental material: see www.proteinscience.org Reprint requests to: Sachdev S. Sidhu, Department of Protein Engineering, Genentech, Inc., 1 DNA Way, South San Francisco, CA 94080, USA; e-mail: sidhu@gene.com; fax: (650) 225-3734.Abbreviations: BSA, bovine serum albumin; ELISA, enzyme-linked immunosorbent assay; Erbin-PDZ, the PDZ domain of human Erbin; GST, glutathione S-transferase; HtrA, high-temperature requirement A; HtrA1-PDZ, the PDZ domain of HtrA1; HtrA2-PDZ, the PDZ domain of HtrA2; HtrA3-PDZ, the PDZ domain of HtrA3; IGF, insulin-like growth factor; IGFBP, IGF binding protein; IPTG, isopropyl-b-D-thiogalactoside; NiNTA, Nickel-nitrilotriacetic acid; NMR, nuclear magnetic resonance; NOE, nuclear Overhauser enhancement; PBS, phosphate-buffered saline; PDZ, PSD-95/Discs-large/ZO-1; PEG, polyethylene glycol; TGF-b, transforming growth factor b; ZO, zonula occludens; ZO1-PDZ1, the first PDZ domain of human ZO-1.Article and publication are at

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The Unique N Terminus of the UbcH10 E2 Enzyme Controls the Threshold for APC Activation and Enhances Checkpoint Regulation of the APC

Summers¹,

Pan²,

Mukhyala³

et al. 2008

Molecular Cell

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Summary In vitro, the Anaphase Promoting Complex (APC) E3 ligase functions with E2 ubiquitin conjugating enzymes of the E2–C and Ubc4/5 families to ubiquitinate substrates. However, only the use of the E2–C family, notably UbcH10, is genetically well validated. Here, we biochemically demonstrate preferential use of UbcH10 by the APC, specified by the E2 core domain. Importantly, an additional E2–E3 interaction mediated by the N-terminal extension of UbcH10 regulates APC activity. Mutating the highly conserved N-terminus increases substrate ubiquitination, the number of substrate lysines targeted, allows ubiquitination of APC substrates lacking their destruction-boxes, increases resistance to the APC inhibitors Emi1 and BubR1 in vitro, and bypasses the spindle checkpoint in vivo. Fusion of the UbcH10 N-terminus to UbcH5 restricts ubiquitination activity, but does not direct specific interactions with the APC. Thus, UbcH10 combines a specific E2–E3 interface and regulation via its N-terminal extension to limit APC activity for substrate selection and checkpoint control.

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BAFF/BLyS Receptor 3 Comprises a Minimal TNF Receptor-like Module That Encodes a Highly Focused Ligand-Binding Site

Gordon¹,

Pan

Hymowitz

et al. 2003

Biochemistry

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BAFF/BLyS, a member of the tumor necrosis family (TNF) superfamily of ligands, is a crucial survival factor for B cells. BAFF binds three receptors, TACI, BCMA, and BR3, with signaling through BR3 being essential for promoting B cell function. Typical TNF receptor (TNFR) family members bind their cognate ligands through interactions with two cysteine-rich domains (CRDs). However, the extracellular domain (ECD) of BR3 consists of only a partial CRD, with cysteine spacing distinct from other modules described previously. Herein, we report the solution structure of the BR3 ECD. A core region of only 19 residues adopts a stable structure in solution. The BR3 fold is analogous to the first half of a canonical TNFR CRD but is stabilized by an additional noncanonical disulfide bond. BAFF-binding determinants were identified by shotgun alanine-scanning mutagenesis of the BR3 ECD expressed on phage. Several of the key BAFF-binding residues are presented from a beta-turn that we have shown previously to be sufficient for ligand binding when transferred to a structured beta-hairpin scaffold [Kayagaki, N., Yan, M., Seshasayee, D., Wang, H., Lee, W., French, D. M., Grewal, I. S., Cochran, A. G., Gordon, N. C., Yin, J., Starovasnik, M. A, and Dixit, V. M. (2002) Immunity 10, 515-524]. Outside of the turn, mutagenesis identifies additional hydrophobic contacts that enhance the BAFF-BR3 interaction. The crystal structure of the minimal hairpin peptide, bhpBR3, in complex with BAFF reveals intimate packing of the six-residue BR3 turn into a cavity on the ligand surface. Thus, BR3 binds BAFF through a highly focused interaction site, unprecedented in the TNFR family.

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Identification of substituted 2-thio-6-oxo-1,6-dihydropyrimidines as inhibitors of human lactate dehydrogenase

Dragovich¹,

Fauber²,

Corson³

et al. 2013

Bioorganic & Medicinal Chemistry Letters

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Borlan Pan

Small-molecule ligands bind to a distinct pocket in Ras and inhibit SOS-mediated nucleotide exchange activity

Ubiquitin Binding to A20 ZnF4 Is Required for Modulation of NF-κB Signaling

Structure of IL-33 and Its Interaction with the ST2 and IL-1RAcP Receptors—Insight into Heterotrimeric IL-1 Signaling Complexes

Solution structure of a phage-derived peptide antagonist in complex with vascular endothelial growth factor

Structural and functional analysis of the PDZ domains of human HtrA1 and HtrA3

The Unique N Terminus of the UbcH10 E2 Enzyme Controls the Threshold for APC Activation and Enhances Checkpoint Regulation of the APC

BAFF/BLyS Receptor 3 Comprises a Minimal TNF Receptor-like Module That Encodes a Highly Focused Ligand-Binding Site

Identification of substituted 2-thio-6-oxo-1,6-dihydropyrimidines as inhibitors of human lactate dehydrogenase

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