At high concentrations, free radicals and radical-derived, nonradical reactive species are hazardous for living organisms and damage all major cellular constituents. At moderate concentrations, how...

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Free Radicals in the Physiological Control of Cell Function

Cell signaling by receptor-tyrosine kinases

Tight control of cell-cell communication is essential for the generation of a normally patterned embryo. A critical mediator of key cell-cell signaling events during embryogenesis is the highly conserved Wnt family of secreted proteins. Recent biochemical and genetic analyses have greatly enriched our understanding of how Wnts signal, and the list of canonical Wnt signaling components has exploded. The data reveal that multiple extracellular, cytoplasmic, and nuclear regulators intricately modulate Wnt signaling levels. In addition, receptor-ligand specificity and feedback loops help to determine Wnt signaling outputs. Wnts are required for adult tissue maintenance, and perturbations in Wnt signaling promote both human degenerative diseases and cancer. The next few years are likely to see novel therapeutic reagents aimed at controlling Wnt signaling in order to alleviate these conditions.

/pdf/the-wnt-signaling-pathway-in-development-and-disease-z4j8s29ao8.pdf

The Wnt signaling pathway in development and disease.

https://www.cell.com/cell/pdf/S0092-8674(06)01344-4.pdf

Wnt/beta-catenin signaling in development and disease.

Wnt/β-catenin signaling: components, mechanisms, and diseases

The structure of a large fragment of the c-Src tyrosine kinase, comprising the regulatory and kinase domains and the carboxy-terminal tall, has been determined at 1.7 A resolution in a closed, inactive state. Interactions among domains, stabilized by binding of the phosphorylated tail to the SH2 domain, lock the molecule in a conformation that simultaneously disrupts the kinase active site and sequesters the binding surfaces of the SH2 and SH3 domains. The structure shows how appropriate cellular signals, or transforming mutations in v-Src, could break these interactions to produce an open, active kinase.

Three-dimensional structure of the tyrosine kinase c-Src

Crystal structures of c-Src reveal features of its autoinhibitory mechanism.

At the heart of the canonical Wnt signaling pathway is the β-catenin destruction complex, which functions in the absence of Wnt signaling to keep the cytosolic and nuclear levels of β-catenin very low by promoting the phosphorylation and ubiquitination of β-catenin. Structural studies, combined with other experimental approaches, have begun to provide important insights into the mechanism of the destruction complex. We suggest a working model for the destruction complex based on the existing structural and experimental data, and focus on the questions that this model and other studies have raised about the function of the complex in both the normal and Wnt-inhibited states.

beta-catenin destruction complex: insights and questions from a structural perspective.

https://www.cell.com/cell/pdf/S0092-8674(05)00553-2.pdf

Recognition of Antimicrobial Peptides by a Bacterial Sensor Kinase

Protein phosphatase 2A (PP2A) is a principal Ser/Thr phosphatase, the deregulation of which is associated with multiple human cancers, Alzheimer's disease and increased susceptibility to pathogen infections. How PP2A is structurally organized and functionally regulated remains unclear. Here we report the crystal structure of an AB'C heterotrimeric PP2A holoenzyme. The structure reveals that the HEAT repeats of the scaffold A subunit form a horseshoe-shaped fold, holding the catalytic C and regulatory B' subunits together on the same side. The regulatory B' subunit forms pseudo-HEAT repeats and interacts with the C subunit near the active site, thereby defining substrate specificity. The methylated carboxy-terminal tail of the C subunit interacts with a highly negatively charged region at the interface between A and B' subunits, suggesting that the C-terminal carboxyl methylation of the C subunit promotes B' subunit recruitment by neutralizing charge repulsion. Together, our structural results establish a crucial foundation for understanding PP2A assembly, substrate recruitment and regulation.

Wenqing Xu

Papers

Three-dimensional structure of the tyrosine kinase c-Src

Crystal structures of c-Src reveal features of its autoinhibitory mechanism.

beta-catenin destruction complex: insights and questions from a structural perspective.

Recognition of Antimicrobial Peptides by a Bacterial Sensor Kinase

Crystal structure of a protein phosphatase 2A heterotrimeric holoenzyme