Preeti Chugha scite author profile

Plexins are the first known transmembrane receptors that interact directly with small GTPases. On binding to certain Rho family GTPases, the receptor regulates the remodeling of the actin cytoskeleton and alters cell movement in response to semaphorin guidance cues. In a joint solution NMR spectroscopy and x-ray crystallographic study, we characterize a 120-residue cytoplasmic independent folding domain of plexin-B1 that directly binds three Rho family GTPases, Rac1, Rnd1, and RhoD. The NMR data show that, surprisingly, the Cdc42/Rac interactive binding-like motif of plexin-B1 is not involved in this interaction. Instead, all three GTPases interact with the same region, ␤-strands 3 and 4 and a short ␣-helical segment of the plexin domain. The 2.0 Å resolution x-ray structure shows that these segments are brought together by the tertiary structure of the ubiquitin-like fold. In the crystal, the protein is dimerized with C2 symmetry through a four-stranded antiparallel ␤-sheet that is formed outside the fold by a long loop between the monomers. This region is adjacent to the GTPase binding motifs identified by NMR. Destabilization of the dimer in solution by binding of any one of the three GTPases suggests a model for receptor regulation that involves bidirectional signaling. The model implies a multifunctional role for the GTPase-plexin interaction that includes conformational change and a localization of active receptors in the signaling mechanism.Members of the plexin family of transmembrane receptors have important functions in guiding axon growth in the developing nervous system (1-3). Plexins also function in several developmental processes such as cardiovascular development and angiogenesis (4 -8), in the invasive growth of epithelial cells (9), and in the immune system (10). The extracellular part of plexin shares significant homology with that of the hepatocyte growth factor receptor as well as with semaphorins, the principal family of ligands for plexins. The cytoplasmic region of plexins is also well conserved (11). Two segments with homology to Ras GTPase-activating proteins (GAPs) 5 are linked by a region that has been identified as the location for the binding of several Rho family GTPases.Plexins are unique in that they are the first documented example of a transmembrane receptor that interacts directly with small GTPases. Most A-and B-family plexins bind activated Rac1 and Rnd1 (12-15), Rho family GTPases that are known regulators of cytoskeletal dynamics and cell adhesion (16). Plexin-A1 has also been shown to bind active RhoD (17), another Rho family GTPase involved in actin remodeling and endosomal dynamics and possibly in receptor down-regulation (18). The role of these plexin-Rho GTPase interactions has remained unclear, however, as have the characteristics of the binding region. Does the Rho GTPase binding segment provide a GTPase regulatory property, functioning akin to a guanine nucleotide dissociation inhibitor by sequestering certain Rho family GTPases, or does it act as an effector pro...

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EPHA2 Is Associated with Age-Related Cortical Cataract in Mice and Humans

Jun

et al. 2009

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Age-related cataract is a major cause of blindness worldwide, and cortical cataract is the second most prevalent type of age-related cataract. Although a significant fraction of age-related cataract is heritable, the genetic basis remains to be elucidated. We report that homozygous deletion of Epha2 in two independent strains of mice developed progressive cortical cataract. Retroillumination revealed development of cortical vacuoles at one month of age; visible cataract appeared around three months, which progressed to mature cataract by six months. EPHA2 protein expression in the lens is spatially and temporally regulated. It is low in anterior epithelial cells, upregulated as the cells enter differentiation at the equator, strongly expressed in the cortical fiber cells, but absent in the nuclei. Deletion of Epha2 caused a significant increase in the expression of HSP25 (murine homologue of human HSP27) before the onset of cataract. The overexpressed HSP25 was in an underphosphorylated form, indicating excessive cellular stress and protein misfolding. The orthologous human EPHA2 gene on chromosome 1p36 was tested in three independent worldwide Caucasian populations for allelic association with cortical cataract. Common variants in EPHA2 were found that showed significant association with cortical cataract, and rs6678616 was the most significant in meta-analyses. In addition, we sequenced exons of EPHA2 in linked families and identified a new missense mutation, Arg721Gln, in the protein kinase domain that significantly alters EPHA2 functions in cellular and biochemical assays. Thus, converging evidence from humans and mice suggests that EPHA2 is important in maintaining lens clarity with age.

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NMR Structure of a Heterodimeric SAM:SAM Complex: Characterization and Manipulation of EphA2 Binding Reveal New Cellular Functions of SHIP2

et al. 2012

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The sterile alpha motif (SAM) for protein-protein interactions is encountered in over 200 proteins, but the structural bases for its interactions is just becoming clear. Here we solved the structure of the EphA2-SHIP2 SAM:SAM heterodimeric complex by use of NMR restraints from chemical shift perturbations, NOE and RDC experiments. Specific contacts between the protein surfaces differ significantly from a previous model and from other SAM:SAM complexes. Molecular dynamics and docking simulations indicate fluctuations in the complex towards alternate, higher energy conformations. The interface suggests that EphA family members bind to SHIP2 SAM whereas EphB members may not; correspondingly we demonstrate binding of EphA1 but not of EphB2 to SHIP2 SAM. A variant of EphB2 SAM was designed that binds SHIP2. Functional characterization of a mutant EphA2 compromised in SHIP2 binding reveals two previously unrecognized functions of SHIP2 in suppressing ligand-induced activation of EphA2 and in promoting chemotactic cell migration in coordination with the receptor.

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Preeti Chugha

Binding of Rac1, Rnd1, and RhoD to a Novel Rho GTPase Interaction Motif Destabilizes Dimerization of the Plexin-B1 Effector Domain

EPHA2 Is Associated with Age-Related Cortical Cataract in Mice and Humans

NMR Structure of a Heterodimeric SAM:SAM Complex: Characterization and Manipulation of EphA2 Binding Reveal New Cellular Functions of SHIP2

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