The cloned avirulence gene avrPto induces disease resistance in tomato cultivars containing the Pto resistance gene.

Resistance of tomato plants to the bacterial pathogen Pseudomonas syringae pv. tomato race 0 is controlled by the locus Pto. A bacterial avirulence gene was cloned by constructing a cosmid library from an avirulent P. syringae pv. tomato race, conjugating the recombinants into a strain of P. syringae pv. maculicola virulent on a tomato cultivar containing Pto, and screening for those clones that converted the normally virulent phenotype to avirulence. The cloned gene, designated avrPto, reduced multiplication of P. syringae pv. tomato transconjugants specifically on Pto tomato lines, as demonstrated by bacterial growth curve analyses. Analysis of F2 populations revealed cosegregation of resistance to P. syringae pv. tomato transconjugants carrying avrPto with resistance to P. syringae pv. tomato race 0. Surprisingly, mutation of avrPto in P. syringae pv. tomato race 0 does not eliminate the avirulent phenotype of race 0, suggesting that additional, as yet uncharacterized, avirulence genes and/or resistance genes may contribute to specificity in the avrPto-Pto interaction. Genetic analysis indicates that this resistance gene(s) would be tightly linked to Pto. Interestingly, P. syringae pv. glycinea transconjugants carrying avrPto elicit a typical hypersensitive resistant response in the soybean cultivar Centennial, suggesting conservation of Pto function between two crop plants, tomato and soybean.     

Expression of the Tomato Pto Gene in Tobacco Enhances Resistance to Pseudomonas syringae pv tabaci Expressing avrPto

The Pto gene encodes a serine-threonine kinase that confers resistance in tomato to Pseudomonas syringae pv tomato strains expressing the avirulence gene avrPto. We examined the ability of Pto to function in tobacco, a species that is sexually incompatible with tomato. Evidence that a heterologous Pto-like signal transduction pathway is present in tobacco was suggested by the fact that tobacco line Wisconsin-38 exhibits a hypersensitive response after infection with P. syringae pv tabaci expressing avrPto. We introduced a Pto transgene into cultivar Wisconsin-38 and assessed the ability of transformed plants to further inhibit growth of the P. s. tabaci strain expressing avrPto. The Pto-transformed tobacco plants exhibited a significant increase in resistance to the avirulent P. s. tabaci strain compared with wild-type tobacco as indicated by (1) more rapid development of a hypersensitive resistance response at high inoculum concentrations (108 colony-forming units per mL); (2) lessened severity of disease symptoms at moderate inoculum concentrations (106 and 107 colony-forming units per mL); and (3) reduced growth of avirulent P. s. tabaci in inoculated leaves. The results indicate that essential components of a Pto-mediated signal transduction pathway are conserved in tobacco and should prompt examination of resistance gene function across even broader taxonomic distances.     

Constitutively active mutants of rhodopsin.

Two critical amino acids in the visual pigment rhodopsin are Lys-296, the site of attachment of retinal to the protein through a protonated Schiff base linkage, and Glu-113, the Schiff base counterion. Mutation of Lys-296 or Glu-113 results in constitutive activation of opsin, as assayed by its ability to activate transducin in the absence of added chromophore. We conclude that opsin is constrained to an inactive conformation by a salt bridge between Lys-296 and Glu-113. Recently, one of the mutants, K296E, was found in a family with retinitis pigmentosa, suggesting that degeneration of the photoreceptor cells in individuals with this mutation may result from persistent stimulation of the phototransduction pathway.     

avrPto enhances growth and necrosis caused by Pseudomonas syringae pv.tomato in tomato lines lacking either Pto or Prf

AvrPto was introduced into three tomato genotypes with two biotic agents to study its role in compatible interactions. avrPto enhanced the capacity of the Pseudomonas syringae pv. tomato strain T1 to induce necrotic symptoms on tomato plants that lacked either Pto or Prf genes. The enhanced necrosis correlated with a small increase in bacterial growth. In planta expression of avrPto in isolation did not elicit necrosis in the absence of a functional Prf gene.     

Constitutively active Akt induces ectodermal defects and impaired bone morphogenetic protein signaling

Aberrant activation of the Akt pathway has been implicated in several human pathologies including cancer. However, current knowledge on the involvement of Akt signaling in development is limited. Previous data have suggested that Akt-mediated signaling may be an essential mediator of epidermal homeostasis through cell autonomous and noncell autonomous mechanisms. Here we report the developmental consequences of deregulated Akt activity in the basal layer of stratified epithelia, mediated by the expression of a constitutively active Akt1 (myrAkt) in transgenic mice. Contrary to mice overexpressing wild-type Akt1 (Akt^wt), these myrAkt mice display, in a dose-dependent manner, altered development of ectodermally derived organs such as hair, teeth, nails, and epidermal glands. To identify the possible molecular mechanisms underlying these alterations, gene profiling approaches were used. We demonstrate that constitutive Akt activity disturbs the bone morphogenetic protein-dependent signaling pathway. In addition, these mice also display alterations in adult epidermal stem cells. Collectively, we show that epithelial tissue development and homeostasis is dependent on proper regulation of Akt expression and activity.     

A TMV-Cg mutant with a truncated coat protein induces cell death resembling the hypersensitive response in Arabidopsis

Tobacco mosaic virus (TMV)-Cg is able to propagate and multiply systemically to high levels in Arabidopsis thaliana ecotype Col-0. In this study, we obtained a Cg mutant, Cgk1, which expresses a coat protein with a truncated carboxyl terminus. Interestingly, Cgk1 induced necrosis that resembled the hypersensitive response and caused more pronounced disease symptoms than wild type Cg in Arabidopsis Col-0 plants. A reactive oxidative burst occurred prior to this necrosis. We found that expression of the pathogenesis-related gene PR-1 was induced by Cgk1 infection, and also by infection with wild type Cg, but only in npr1-2 mutant plants, not in NahG transgenic plants. These results suggested that PR-1 expression is dependent on the salicylic acid signaling pathway, but is independent of NPR1.     

Ionizing radiation induces iNOS-mediated epithelial dysfunction in the absence of an inflammatory response

Ionizing radiation induces intestinal epithelial hyporesponsiveness to secretagogues through an unknown mechanism. We investigated the role of the inducible isoform of nitric oxide (NO) synthase (iNOS)-derived NO in radiation-induced hyporesponsiveness. C57BL/6 mice were sham treated or exposed to 10-Gy gamma-radiation and were studied 3 days later. Tissues were mounted in Ussing-type diffusion chambers to assess chloride secretion in response to electrical field stimulation (EFS) and forskolin (10 microM). Transport studies were also repeated in iNOS-deficient mice. White blood cell counts were significantly lower in irradiated mice, and there was no inflammatory response as shown by myeloperoxidase activity and histological assessment. iNOS mRNA levels and nitrate/nitrite concentrations were significantly elevated in irradiated colons. iNOS immunoreactivity localized to the epithelium. Colons from irradiated wild-type, but not iNOS-deficient, mice exhibited a significant reduction in the responsiveness of the tissue to EFS and forskolin. The hyporesponsiveness was reversed by L-N(6)-(1-iminoethyl)lysine, 1400W, and dexamethasone treatments. iNOS-derived NO mediates colonic hyporesponsiveness 3 days after irradiation in the mouse in the absence of an inflammatory response.     

Constitutively active GPR6 is located in the intracellular compartments

We used multiple imaging assays to test the hypothesis that GPR6, a constitutively active Gs-coupled receptor, is present on the cell surface. A pHluorin tag at the N-terminus of rat GPR6 expressed in human embryonic kidney 293 (HEK293) cells was not accessible to protons, chymotrypsin or anti-green fluorescent protein antibody, demonstrating that GPR6 is primarily located in intracellular compartments. Similar intracellular localization of pHluorin-tagged GPR6 was found in striatal neurons, where endogenous GPR6 is expressed. Confirmation of Gs-mediated constitutive activity in HEK293 cells and striatal neurons led us to conclude that GPR6 can signal from intracellular compartments.     

Constitutively active calcium channels in plasma membrane of T-lymphocytes

Compensated influx and efflux of calcium ions maintain the constancy of Ca²⁺ concentration in cytoplasm of quiescent cells under variable external conditions. In cell plasma membrane there exist several types of Ca²⁺ channels with different properties, regulation mechanisms, and pharmacology. Using fluorescent Ca²⁺-sensitive probes, we have shown here that in T-lymphocytes under resting conditions, Ca²⁺ influx occurs through special constitutively active Ca²⁺ channels, permeable to Ni²⁺ and Mn²⁺. These channels differ from the receptor-activated SOC channels, from Ca²⁺ channels activated by arachidonic acid, and from calmidazolium-activated channels. Ca²⁺ influx rate in quiescent cells increases with a rise in temperature (Q₁₀ =1.9). The strong dependence of the constitutively active channel activity on temperature coincided with the plasma membrane Ca²⁺-ATPase dependence, indicating that intracellular enzymes regulate the channel activity. To identify the constitutively active channel, we analyzed the effects of L-type Ca²⁺ channels, SOC channels, Ca²⁺-independent phospholipase A2, and calmodulin inhibitors. Of all inhibitors listed only dihydropyridine blocker of L-type voltage-dependent Ca²⁺ channels, isradipin, at a concentration of 1.5 μM completely suppressed calcium influx. However, the channels did not exhibit sensitivity to changes in membrane potential. Our observations testify to the existence of a new nonselective Ca²⁺ channel in T-lymphocyte plasma membrane and characterize the new channels pharmacologically. The results obtained are important for understanding the regulation mechanisms of Ca²⁺ channels in plasma membrane of non-excitable cells.     

Ralstonia solanacearum type III secretion system effector Rip36 induces a hypersensitive response in the nonhost wild eggplant Solanum torvum

Ralstonia solanacearum is a Gram‐negative soil‐borne bacterium that causes bacterial wilt disease in more than 200 plant species, including economically important Solanaceae species. In R. solanacearum, the hypersensitive response and pathogenicity (Hrp) type III secretion system is required for both the ability to induce the hypersensitive response (HR) in nonhost plants and pathogenicity in host plants. Recently, 72 effector genes, called rip (Ralstonia protein injected into plant cells), have been identified in R. solanacearum RS1000. RS1002, a spontaneous nalixidic acid‐resistant derivative of RS1000, induced strong HR in the nonhost wild eggplant Solanum torvum in an Hrp‐dependent manner. An Agrobacterium‐mediated transient expression system revealed that Rip36, a putative Zn‐dependent protease effector of R. solanacearum, induced HR in S. torvum. A mutation in the putative Zn‐binding motif (E149A) completely abolished the ability to induce HR. In agreement with this result, the RS1002‐derived Δrip36 and rip36E149A mutants lost the ability to induce HR in S. torvum. An E149A mutation had no effect on the translocation of Rip36 into plant cells. These results indicate that Rip36 is an avirulent factor that induces HR in S. torvum and that a putative Zn‐dependent protease motif is essential for this activity.     

Constitutively active mitogen-activated protein kinase kinase MEK1 disrupts morphogenesis and induces an invasive phenotype in Madin-Darby canine kidney epithelial cells.

During certain developmental processes, as well as during tumor progression, polarized epithelial cells integrated within multicellular structures convert into scattered, freely migrating fibroblast-like cells. Despite the biological and clinical importance of this phenomenon, the intracellular biochemical cascades that control the switch between the epithelial and mesenchymal phenotypes have not been elucidated. Using Madin-Darby canine kidney (MDCK) cells (clone C7) as a model system, we have assessed the potential role of the mitogen-activated protein kinase (MAPK)/ extracellular signal-regulated kinase (ERK) cascade in the modulation of epithelial plasticity. When grown in three-dimensional collagen gels, MDCK-C7 cells form spherical cysts composed of polarized epithelial cells circumscribing a central lumen. This morphogenetic behavior is profoundly subverted in MDCK-C7 cells expressing a constitutively active MAPK/ERK kinase 1 (caMEK1) mutant (C7-caMEK1 cells). When suspended in collagen gels, C7-caMEK1 cells assume an elongated fibroblastoid shape and are unable to generate multicellular cysts. In addition, when seeded onto the surface of a collagen gel, C7-caMEK1 cells penetrate extensively into the underlying matrix, unlike wild-type and mock-transfected MDCK-C7 cells, which remain confined to the surface of the gel. Similar changes in morphogenetic and invasive properties are observed in MDCK-C7F cells, a nontransfected, stably dedifferentiated derivative of MDCK-C7 cells that expresses substantially increased ERK2 activity. Both C7-caMEK1 and MDCK-C7F cells but not wild-type or mock-transfected MDCK-C7 cells express activated M(r) 72,000 gelatinase A [matrix metalloproteinase (MMP)-2] as well as elevated levels of membrane type-1 MMP. Synthetic MMP inhibitors as well as recombinant tissue inhibitor of metalloproteinases 2 and 3 suppress the invasion of collagen gels and restore the capacity of C7-caMEK1 cells to form cysts, thereby implicating the membrane type-1 MMP/MMP-2 proteolytic system in epithelial cell invasiveness and loss of multicellular organization. Taken together, our data demonstrate that increased activity of the MEK1-ERK2 signaling module in MDCK-C7 cells is associated with failure of morphogenesis and expression of a highly invasive phenotype. Sustained activation of the MAPK cascade therefore results in the destabilization of the three-dimensional architecture and the conversion of polarized epithelial cells into migrating mesenchymal-like cells.     

Constitutively active homo-oligomeric angiotensin II type 2 receptor induces cell signaling independent of receptor conformation and ligand stimulation

Members of the G-protein-coupled receptor superfamily (GPCRs) undergo homo- and/or hetero-oligomerization to induce cell signaling. Although some of these show constitutive activation, it is not clear how such GPCRs undergo homo-oligomerization with transmembrane helix movement. We previously reported that angiotensin II (Ang II) type 2 (AT(2)) receptor, a GPCR, showed constitutive activation and induced apoptosis independent of its ligand, Ang II. In the present study, we analyzed the translocation and oligomerization of the AT(2) receptor with transmembrane movement when the receptor induces cell signaling. Constitutively active homo-oligomerization, which was due to disulfide bonding between Cys(35) in one AT(2) receptor and Cys(290) in another AT(2) receptor, was localized in the cell membrane without Ang II stimulation and induced apoptosis without changes in receptor conformation. These results provide the direct evidence that the constitutively active homo-oligomeric GPCRs by intermolecular interaction in two extracellular loops is translocated to the cell membrane and induces cell signaling independent of receptor conformation and ligand stimulation.     

Feedback control of the Arabidopsis hypersensitive response

The plant hypersensitive response (HR) to avirulent bacterial pathogens results from programmed cell death of plant cells in the infected region. Ion leakage and changes in signaling components associated with HR progression were measured. These studies compared Arabidopsis mutants affecting feedback loops with wild-type plants, with timepoints taken hourly. In response to Pseudomonas syringae pv. tomato DC3000 x avrB, npr1-2 mutant plants showed increased ion leakage relative to wild-type plants. Hydrogen peroxide accumulation was similar to that in wild type, but salicylic acid accumulation was reduced at some timepoints. With DC3000 x avrRpt2, similar trends were seen. In response to DC3000 x avrB, ndr1-1 mutant plants showed more ion leakage than wild-type or npr1-2 plants. Hydrogen peroxide accumulation was delayed by approximately 1 h and reached half the level seen with wild-type plants. Salicylic acid accumulation was similar to npr1-2 mutant plants. With DC3000 x avrRpt2, ndr1-1 mutant plants showed no ion leakage, no hydrogen peroxide accumulation, and minimal salicylic acid accumulation. Results with a ndr1-1 and npr1-2 double mutant were similar to ndr1-1. A model consistent with these data is presented, in which one positive and two negative regulatory circuits control HR progression. Understanding this circuitry will facilitate HR manipulation for enhanced disease resistance.     

Constitutively active beta-catenin promotes expansion of multipotent hematopoietic progenitors in culture

This study was designed to investigate one component of the Wnt/beta-catenin signaling pathway that has been implicated in stem cell self-renewal. Retroviral-mediated introduction of stable beta-catenin to primitive murine bone marrow cells allowed the expansion of multipotential c-Kit(low)Sca-1(low/-)CD19(-) CD11b/Mac-1(-)Flk-2(-)CD43(+)AA4.1(+)NK1.1(-)CD3(-)CD11c(-)Gr-1(-)CD45R/B220(+) cells in the presence of stromal cells and cytokines. They generated myeloid, T, and B lineage lymphoid cells in culture, but had no T lymphopoietic potential when transplanted. Stem cell factor and IL-6 were found to be minimal requirements for long-term, stromal-free propagation, and a beta-catenin-transduced cell line was maintained for 5 mo with these defined conditions. Although multipotential and responsive to many normal stimuli in culture, it was unable to engraft several types of irradiated recipients. These findings support previous studies that have implicated the canonical Wnt pathway signaling in regulation of multipotent progenitors. In addition, we demonstrate how it may be experimentally manipulated to generate valuable cell lines.