Feng Guo scite author profile

The tumor suppressor Merlin/NF2 functions upstream of the core Hippo pathway kinases Lats1/2 and Mst1/2, as well as the nuclear E3 ubiquitin ligase CRL4DCAF1. Numerous mutations of Merlin have been identified in Neurofibromatosis type 2 and other cancer patients. Despite more than two decades of research, the upstream regulator of Merlin in the Hippo pathway remains unknown. Here we show by high-resolution crystal structures that the Lats1/2-binding site on the Merlin FERM domain is physically blocked by Merlin's auto-inhibitory tail. Angiomotin binding releases the auto-inhibition and promotes Merlin's binding to Lats1/2. Phosphorylation of Ser518 outside the Merlin's auto-inhibitory tail does not obviously alter Merlin's conformation, but instead prevents angiomotin from binding and thus inhibits Hippo pathway kinase activation. Cancer-causing mutations clustered in the angiomotin-binding domain impair angiomotin-mediated Merlin activation. Our findings reveal that angiomotin and Merlin respectively interface cortical actin filaments and core kinases in Hippo signaling, and allow construction of a complete Hippo signaling pathway.

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Catalytic Acid−Base Groups in Yeast Pyruvate Decarboxylase. 1. Site-Directed Mutagenesis and Steady-State Kinetic Studies on the Enzyme with the D28A, H114F, H115F, and E477Q Substitutions

Liu

Sergienko

Guo

et al. 2001

Biochemistry

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The roles of four of the active center groups with potential acid-base properties in the region of pH optimum of pyruvate decarboxylase from Saccharomyces cerevisiae have been studied with the substitutions Asp28Ala, His114Phe, His115Phe, and Glu477Gln, introduced by site-directed mutagenesis methods. The steady-state kinetic constants were determined in the pH range of activity for the enzyme. The substitutions result in large changes in k(cat) and k(cat)/S(0.5) (and related terms), indicating that all four groups have a role in transition state stabilization. Furthermore, these results also imply that all four are involved in some manner in stabilizing the rate-limiting transition state(s) both at low substrate (steps starting with substrate binding and culminating in decarboxylation) and at high substrate concentration (steps beginning with decarboxylation and culminating in product release). With the exception of some modest effects, the shapes of neither the bell-shaped k(cat)/S(0.5)-pH (and related functions) plots nor the k(cat)-pH plots are changed by the substitutions. Yet, the fractional activity still remaining after substitutions virtually rules out any of the four residues as being directly responsible for initiating the catalytic process by ionizing the C2H. There is no effect on the C2 H/D exchange rate exhibited by the D28A and E477Q substitutions. These results strongly imply that the base-induced deprotonation at C2 is carried out by the only remaining base, the iminopyrimidine tautomer of the coenzyme, via intramolecular proton abstraction. The first product is released as CO(2) rather than HCO(3)(-) by both wild-type and E477Q and D28A variants, ruling out several mechanistic alternatives.

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Crystal Structure of the Heterodimeric Complex of the Adaptor, ClpS, with the N-domain of the AAA+ Chaperone, ClpA

Guo

Esser

Singh

et al. 2002

Journal of Biological Chemistry

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Spiral structure of Escherichia coli HUαβ provides foundation for DNA supercoiling

Guo

Adhya

2007

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

110

100

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We determined the crystal structure of the Escherichia coli nucleoidassociated HU␣␤ protein by x-ray diffraction and observed that the heterodimers form multimers with octameric units in three potential arrangements, which may serve specialized roles in different DNA transaction reactions. It is of special importance that one of the structures forms spiral filaments with left-handed rotations. A negatively superhelical DNA can be modeled to wrap around this lefthanded HU␣␤ multimer. Whereas the wild-type HU generated negative DNA supercoiling in vitro, an engineered heterodimer with an altered amino acid residue critical for the formation of the left-handed spiral protein in the crystal was defective in the process, thus providing the structural explanation for the classical property of HU to restrain negative supercoils in DNA.HU-multimers ͉ nucleoid ͉ x-ray crystallography

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Crystal structure of TAZ-TEAD complex reveals a distinct interaction mode from that of YAP-TEAD complex

Kaan¹,

Chan²,

Tan³

et al. 2017

Sci Rep

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The Hippo pathway is a tumor suppressor pathway that is implicated in the regulation of organ size. The pathway has three components: the upstream regulatory factors, the kinase core, and the downstream transcriptional machinery, which consists of YAP, TAZ (transcription co-activators) and TEAD (transcription factor). Formation of YAP/TAZ-TEAD complexes leads to the transcription of growth-promoting genes. Herein, we report the crystal structure of TAZ-TEAD4 complex, which reveals two binding modes. The first is similar to the published YAP-TEAD structure. The second is a unique binding mode, whereby two molecules of TAZ bind to and bridge two molecules of TEAD4. We validated the latter using cross-linking and multi-angle light scattering. Using siRNA, we showed that TAZ knockdown leads to a decrease in TEAD4 dimerization. Lastly, results from luciferase assays, using YAP/TAZ transfected or knockdown cells, give support to the non-redundancy of YAP/TAZ co-activators in regulating gene expression in the Hippo pathway.

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Actin-binding and Cell Proliferation Activities of Angiomotin Family Members Are Regulated by Hippo Pathway-mediated Phosphorylation

Chan

Lim

Guo

et al. 2013

Journal of Biological Chemistry

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Background: LATS kinase, one of the core kinases of Hippo pathway, phosphorylates and inactivates the downstream coactivator YAP/TAZ. Results: The angiomotin (Amot) family members are phosphorylated by LATS kinase. Conclusion: Phosphorylation of Amots by LATS kinase inhibits actin-binding, stabilizes Amot, and inhibits cell proliferation. Significance: Besides phosphorylating YAP/TAZ, LATS kinase may phosphorylate other components of the Hippo pathway.

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Lgr5 ⁺ pericentral hepatocytes are self-maintained in normal liver regeneration and susceptible to hepatocarcinogenesis

Ang

Hsu

Guo

et al. 2019

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

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Emerging evidence suggests that hepatocytes are primarily maintained by self-renewal during normal liver homeostasis, as well as in response to a wide variety of hepatic injuries. However, how hepatocytes in distinct anatomic locations within the liver lobule are replenished under homeostasis and injury-induced regeneration remains elusive. Using a newly developed bacterial artificial chromosome (BAC)-transgenic mouse model, we demonstrate that Lgr5 expression in the liver is restricted to a unique subset of hepatocytes most adjacent to the central veins. Genetic lineage tracing revealed that pericentral Lgr5+ hepatocytes have a long lifespan and mainly contribute to their own lineage maintenance during postnatal liver development and homeostasis. Remarkably, these hepatocytes also fuel the regeneration of their own lineage during the massive and rapid regeneration process following two-thirds partial hepatectomy. Moreover, Lgr5+ hepatocytes are found to be the main cellular origin of diethylnitrosamine (DEN)-induced hepatocellular carcinoma (HCC) and are highly susceptible to neoplastic transformation triggered by activation of Erbb pathway. Our findings establish an unexpected self-maintaining mode for a defined subset of hepatocytes during liver homeostasis and regeneration, and identify Lgr5+ pericentral hepatocytes as major cells of origin in HCC development.

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Feng Guo

Crystal Structure of ClpA, an Hsp100 Chaperone and Regulator of ClpAP Protease

Angiomotin binding-induced activation of Merlin/NF2 in the Hippo pathway

Catalytic Acid−Base Groups in Yeast Pyruvate Decarboxylase. 1. Site-Directed Mutagenesis and Steady-State Kinetic Studies on the Enzyme with the D28A, H114F, H115F, and E477Q Substitutions

Crystal Structure of the Heterodimeric Complex of the Adaptor, ClpS, with the N-domain of the AAA+ Chaperone, ClpA

Spiral structure of Escherichia coli HUαβ provides foundation for DNA supercoiling

Crystal structure of TAZ-TEAD complex reveals a distinct interaction mode from that of YAP-TEAD complex

Actin-binding and Cell Proliferation Activities of Angiomotin Family Members Are Regulated by Hippo Pathway-mediated Phosphorylation

Lgr5 ⁺ pericentral hepatocytes are self-maintained in normal liver regeneration and susceptible to hepatocarcinogenesis

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Feng Guo

Crystal Structure of ClpA, an Hsp100 Chaperone and Regulator of ClpAP Protease

Angiomotin binding-induced activation of Merlin/NF2 in the Hippo pathway

Catalytic Acid−Base Groups in Yeast Pyruvate Decarboxylase. 1. Site-Directed Mutagenesis and Steady-State Kinetic Studies on the Enzyme with the D28A, H114F, H115F, and E477Q Substitutions

Crystal Structure of the Heterodimeric Complex of the Adaptor, ClpS, with the N-domain of the AAA+ Chaperone, ClpA

Spiral structure of Escherichia coli HUαβ provides foundation for DNA supercoiling

Crystal structure of TAZ-TEAD complex reveals a distinct interaction mode from that of YAP-TEAD complex

Actin-binding and Cell Proliferation Activities of Angiomotin Family Members Are Regulated by Hippo Pathway-mediated Phosphorylation

Lgr5 + pericentral hepatocytes are self-maintained in normal liver regeneration and susceptible to hepatocarcinogenesis

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Lgr5 ⁺ pericentral hepatocytes are self-maintained in normal liver regeneration and susceptible to hepatocarcinogenesis