Benjamin I. Leach scite author profile

The WNT signaling pathway is a critical mediator of tissue homeostasis and repair, and frequently co-opted during tumor development. Almost all colorectal cancers (CRC) demonstrate hyperactivation of the WNT pathway, which in many cases is believed to be the initiating and driving event. In this short review, we provide a focused overview of recent developments in our understanding of the WNT pathway in CRC, describe new research tools that are enabling a deeper understanding of WNT biology, and outline ongoing efforts to target this pathway therapeutically.

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Transplantation of engineered organoids enables rapid generation of metastatic mouse models of colorectal cancer

O’Rourke

et al. 2017

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Colorectal cancer (CRC) is a leading cause of death, yet facile preclinical models that mimic the natural stages of CRC progression are lacking. Through the orthotopic engraftment of colon organoids we describe a broadly usable immunocompetent CRC model that recapitulates the entire adenoma-adenocarcinoma-metastasis axis in vivo. The engraftment procedure takes less than 5 minutes, shows efficient tumor engraftment in 2/3 mice, and can be achieved using organoids derived from GEMMs, wild type organoids engineered ex vivo, or from patient-derived human CRC organoids. In this model, we describe the genotype and time-dependent progression of CRCs from adenocarcinoma (6 weeks), to local disseminated disease (11–12 weeks) and spontaneous metastasis (>20 weeks). Further, we use the system to show that loss of dysregulated Wnt signaling is critical for the progression of disseminated CRCs. Thus, our approach provides a fast and flexible means to produce tailored CRC mouse models for genetic studies and pre-clinical investigation.

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Mechanisms of resistance to systemic therapy in metastatic castration-resistant prostate cancer

Galletti

Leach

Lam

et al. 2017

Cancer Treatment Reviews

163

129

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Leukemia Fusion Target AF9 Is an Intrinsically Disordered Transcriptional Regulator that Recruits Multiple Partners via Coupled Folding and Binding

et al. 2013

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Summary Mixed Lineage Leukemia (MLL) fusion proteins cause oncogenic transformation of hematopoietic cells by constitutive recruitment of elongation factors to HOX promoters, resulting in over-expression of target genes. The structural basis of transactivation by MLL fusion partners remains undetermined. We show that the ANC1 Homology Domain (AHD) of AF9, one of the most common MLL translocation partners, is intrinsically disordered and recruits multiple transcription factors through coupled folding and binding. We determined the structure of the AF9 AHD in complex with the elongation factor AF4, and show that aliphatic residues which are conserved in each of the AF9 binding partners form an integral part of the hydrophobic core of the complex. NMR relaxation measurements show AF9 retains significant dynamic behavior which may facilitate exchange between disordered partners. We propose that AF9 functions as a signaling hub which regulates transcription through dynamic recruitment of co-factors in normal hematopoiesis and in acute leukemia.

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Distinct Colorectal Cancer–Associated APC Mutations Dictate Response to Tankyrase Inhibition

Schatoff

Goswami

Zafra

et al. 2019

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The majority of colorectal cancers (CRCs) show hyperactivated WNT signaling due to inactivating mutations in the APC tumor suppressor. Genetically restoring Apc suppresses WNT and induces rapid and sustained tumor regression, implying that re-engaging this endogenous tumor suppressive mechanism may be an effective therapeutic strategy. Here, using new animal models, human cell lines, and ex vivo organoid cultures, we show that Tankyrase (TNKS) inhibition can control WNT hyperactivation and provide long-term tumor control in vivo, but that effective responses are critically dependent on how APC is disrupted. Mutant APC proteins truncated within the Mutation Cluster Region (MCR) region physically engage the destruction complex and suppress the WNT transcriptional program, while early APC truncations (i.e. Apc Min) show limited interaction with AXIN1 and β-catenin, and do not respond to TNKS blockade. Together, this work shows that TNKS inhibition, like APC restoration, can reestablish endogenous control of WNT/β-catenin signaling, but that APC genotype is a crucial determinant of this response.

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Effects of methylmalonyl-CoA mutase gene knockouts on erythromycin production in carbohydrate-based and oil-based fermentations of Saccharopolyspora erythraea

Reeves

Brikun

Cernota

et al. 2006

J IND MICROBIOL BIOTECHNOL

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In carbohydrate-based fermentations of Saccharopolyspora erythraea, a polar knockout of the methylmalonyl-CoA mutase (MCM) gene, mutB, improved erythromycin production an average of 126% (within the range of 102-153% for a 0.95 confidence interval). In oil-based fermentations, where erythromycin production by the wild-type strain averages 184% higher (141-236%, 0.95 CI) than in carbohydrate-based fermentations, the same polar knockout in mutB surprisingly reduced erythromycin production by 66% (53-76%, 0.95 CI). A metabolic model is proposed where in carbohydrate-based fermentations MCM acts as a drain on the methylmalonyl-CoA metabolite pool, and in oil-based fermentations, MCM acts in the reverse direction to fill the methylmalonyl-CoA pool. Therefore, the model explains, in part, how the well-known oil-based process improvement for erythromycin production operates at the biochemical level; furthermore, it illustrates how the mutB erythromycin strain improvement mutation operates at the genetic level in carbohydrate-based fermentations.

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Engineering of the methylmalonyl-CoA metabolite node of Saccharopolyspora erythraea for increased erythromycin production

Reeves

Brikun

Cernota

et al. 2007

Metabolic Engineering

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Engineering of the methylmalonyl-CoA (mmCoA) metabolite node of the Saccharopolyspora erythraea wild type strain (FL2267) through duplication of the mmCoA mutase (MCM) operon led to a 51% (range 40%-64%, 0.95 CI, N = 152) increase in erythromycin production in a highperformance oil-based fermentation medium. The MCM operon was carried on a 6.8 kb DNA fragment in plasmid pFL2212 which was inserted by homologous recombination into the S. erythraea chromosome. The fragment contained one uncharacterized gene, ORF1; three MCM related genes, mutA, mutB, meaB; and one gntR-family regulatory gene, mutR. Additional strains were constructed containing partial duplications of the MCM operon, as well as a knockout of ORF1, none of these strains showed any significant alteration in their erythromycin production profile. The combined results showed that increased erythromycin production only occurred in strain FL2385 containing a duplication of the entire MCM operon including mutR and a predicted stem-loop structure overlapping the 3′ terminus of the mutR coding sequence.

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NMR Measurements Reveal the Structural Basis of Transthyretin Destabilization by Pathogenic Mutations

et al. 2018

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Inherited mutations of transthyretin (TTR) destabilize its structure, leading to aggregation and familial amyloid disease. Although numerous crystal structures of wild-type (WT) and mutant TTRs have been determined, they have failed to yield a comprehensive structural explanation for destabilization by pathogenic mutations. To identify structural and dynamic variations that are not readily observed in the crystal structures, we used NMR to study WT TTR and three kinetically and/or thermodynamically destabilized pathogenic variants (V30M, L55P, and V122I). Sequence-corrected chemical shifts reveal important structural differences between WT and mutant TTR. The L55P mutation linked to aggressive early onset cardiomyopathy and polyneuropathy induces substantial structural perturbations in both the DAGH and CBEF β-sheets, whereas the V30M polyneuropathy-linked substitution perturbs primarily the CBEF sheet. In both variants, the structural perturbations propagate across the entire width of the β-sheets from the site of mutation. Structural changes caused by the V122I cardiomyopathy-associated mutation are restricted to the immediate vicinity of the mutation site, directly perturbing the subunit interfaces. NMR relaxation dispersion measurements show that WT TTR and the three pathogenic variants undergo millisecond time scale conformational fluctuations to populate a common excited state with an altered structure in the subunit interfaces. The excited state is most highly populated in L55P. The combined application of chemical shift analysis and relaxation dispersion to these pathogenic variants reveals differences in ground state structure and in the population of a transient excited state that potentially facilitates tetramer dissociation, providing new insights into the molecular mechanism by which mutations promote TTR amyloidosis.

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Benjamin I. Leach

WNT Signaling and Colorectal Cancer

Transplantation of engineered organoids enables rapid generation of metastatic mouse models of colorectal cancer

Mechanisms of resistance to systemic therapy in metastatic castration-resistant prostate cancer

Leukemia Fusion Target AF9 Is an Intrinsically Disordered Transcriptional Regulator that Recruits Multiple Partners via Coupled Folding and Binding

Distinct Colorectal Cancer–Associated APC Mutations Dictate Response to Tankyrase Inhibition

Effects of methylmalonyl-CoA mutase gene knockouts on erythromycin production in carbohydrate-based and oil-based fermentations of Saccharopolyspora erythraea

Engineering of the methylmalonyl-CoA metabolite node of Saccharopolyspora erythraea for increased erythromycin production

NMR Measurements Reveal the Structural Basis of Transthyretin Destabilization by Pathogenic Mutations

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