John Wojcik scite author profile

The fibronectin type III domain (FN3) has become one of the most widely used non-antibody scaffolds for generating new binding proteins. Because of its structural homology to the immunoglobulin domain, combinatorial libraries of FN3 designed to date have primarily focused on introducing amino acid diversity into three loops that are equivalent to antibody complementarity-determining regions. Here, we report an FN3 library that utilizes alternative positions for presenting amino acid diversity. We diversified positions on a β-sheet and surface loops that together form a concave surface. The new library produced binding proteins (termed “monobodies”) to multiple target proteins, generally with similar efficacy as the original, loop-focused library. The crystal structure of a monobody generated from the new library in complex with its target, the Abl SH2 domain, revealed that a concave surface of the monobody, as intended in our design, bound to a convex surface of the target with the interface area being among the largest of published structures of monobody-target complexes. This mode of interaction differs from a common binding mode for single-domain antibodies and antibody mimics in which recognition loops recognize clefts in targets. Together, this work illustrates the utilization of different surfaces of a single immunoglobulin-like scaffold to generate binding proteins with distinct characteristics.

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A potent and highly specific FN3 monobody inhibitor of the Abl SH2 domain

Wojcik

Hantschel

Grebien

et al. 2010

Nat Struct Mol Biol

150

225

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Interactions between SH2 domains and phosphotyrosine sites regulate tyrosine kinase signaling networks. Selective perturbation of these interactions is challenging due to the high homology among the 120 human SH2 domains. Using an improved phage-display selection system, we generated a small antibody-mimic or ‘monobody’, termed HA4, that bound to the Abl kinase SH2 domain with low nanomolar affinity. SH2 protein microarray analysis and mass spectrometry of intracellular HA4 interactors demonstrated HA4's exquisite specificity, and a crystal structure revealed how this specificity is achieved. HA4 disrupted intramolecular interactions of Abl involving the SH2 domain and potently activated the kinase in vitro. Within cells, HA4 inhibited processive phosphorylation activity of Abl and also STAT5 activation. This work provides a design guideline for highly specific and potent inhibitors of a protein interaction domain and demonstrates their utility in mechanistic and cellular investigations.

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Targeting the SH2-Kinase Interface in Bcr-Abl Inhibits Leukemogenesis

Grebien¹,

Hantschel²,

Wojcik³

et al. 2011

Cell

135

157

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SUMMARY Chronic myelogenous leukemia (CML) is caused by the constitutively active tyrosine kinase Bcr-Abl and treated with the tyrosine kinase inhibitor (TKI) imatinib. However, emerging TKI resistance prevents complete cure. Therefore, alternative strategies targeting regulatory modules of Bcr-Abl in addition to the kinase active site are strongly desirable. Here, we show that an intramolecular interaction between the SH2 and kinase domains in Bcr-Abl is both necessary and sufficient for high catalytic activity of the enzyme. Disruption of this interface led to inhibition of downstream events critical for CML signaling and, importantly, completely abolished leukemia formation in mice. Furthermore, disruption of the SH2-kinase interface increased sensitivity of imatinib-resistant Bcr-Abl mutants to TKI inhibition. An engineered Abl SH2-binding fibronectin type III monobody inhibited Bcr-Abl kinase activity both in vitro and in primary CML cells, where it induced apoptosis. This work validates the SH2-kinase interface as an allosteric target for therapeutic intervention.

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Actionable mutations in canine hemangiosarcoma

Wang

MaloneyHuss

et al. 2017

PLoS ONE

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BackgroundAngiosarcomas (AS) are rare in humans, but they are a deadly subtype of soft tissue sarcoma. Discovery sequencing in AS, especially the visceral form, is hampered by the rarity of cases. Most diagnostic material exists as archival formalin fixed, paraffin embedded tissue which serves as a poor source of high quality DNA for genome-wide sequencing. We approached this problem through comparative genomics. We hypothesized that exome sequencing a histologically similar tumor, hemangiosarcoma (HSA), that occurs in approximately 50,000 dogs per year, may lead to the identification of potential oncogenic drivers and druggable targets that could also occur in angiosarcoma.MethodsSplenic hemangiosarcomas are common in dogs, which allowed us to collect a cohort of archived matched tumor and normal tissue samples suitable for whole exome sequencing. Mapping of the reads to the latest canine reference genome (Canfam3) demonstrated that >99% of the targeted exomal regions were covered, with >80% at 20X coverage and >90% at 10X coverage.Results and conclusionsSequence analysis of 20 samples identified somatic mutations in PIK3CA, TP53, PTEN, and PLCG1, all of which correspond to well-known tumor drivers in human cancer, in more than half of the cases. In one case, we identified a mutation in PLCG1 identical to a mutation observed previously in this gene in human visceral AS. Activating PIK3CA mutations present novel therapeutic targets, and clinical trials of targeted inhibitors are underway in human cancers. Our results lay a foundation for similar clinical trials in canine HSA, enabling a precision medicine approach to this disease.

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Metabolic Regulation of the Epigenome Drives Lethal Infantile Ependymoma

Michealraj

Kumar

Kim

et al. 2020

Cell

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John Wojcik

Teaching an Old Scaffold New Tricks: Monobodies Constructed Using Alternative Surfaces of the FN3 Scaffold

A potent and highly specific FN3 monobody inhibitor of the Abl SH2 domain

Targeting the SH2-Kinase Interface in Bcr-Abl Inhibits Leukemogenesis

Actionable mutations in canine hemangiosarcoma

Metabolic Regulation of the Epigenome Drives Lethal Infantile Ependymoma

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