PDS5 proteins are required for proper cohesin dynamics and participate in replication fork protection.

Cohesin is a chromatin-bound complex that mediates sister chromatid cohesion and facilitates long-range interactions through DNA looping. How the transcription and replication machineries deal with the presence of cohesin on chromatin remains unclear. The dynamic association of cohesin with chromatin depends on WAPL cohesin release factor (WAPL) and on PDS5 cohesin-associated factor (PDS5), which exists in two versions in vertebrate cells, PDS5A and PDS5B.

The limb enhancer marks an adult subpopulation of injury-responsive dermal fibroblasts.

The heterogeneous properties of dermal cell populations have been posited to contribute toward fibrotic, imperfect wound healing in mammals. Here we characterize an adult population of dermal fibroblasts that maintain an active enhancer which originally marked mesenchymal limb progenitors. In contrast to their abundance in limb development, postnatal enhancer-positive cells (Prrx1) make up a small subset of adult dermal cells (∼0.

Signaling-Dependent Control of Apical Membrane Size and Self-Renewal in Rosette-Stage Human Neuroepithelial Stem Cells.

In the developing nervous system, neural stem cells are polarized and maintain an apical domain facing a central lumen. The presence of apical membrane is thought to have a profound influence on maintaining the stem cell state. With the onset of neurogenesis, cells lose their polarization, and the concomitant loss of the apical domain coincides with a loss of the stem cell identity.

The ng_ζ1 toxin of the gonococcal epsilon/zeta toxin/antitoxin system drains precursors for cell wall synthesis.

Bacterial toxin-antitoxin complexes are emerging as key players modulating bacterial physiology as activation of toxins induces stasis or programmed cell death by interference with vital cellular processes. Zeta toxins, which are prevalent in many bacterial genomes, were shown to interfere with cell wall formation by perturbing peptidoglycan synthesis in Gram-positive bacteria. Here, we characterize the epsilon/zeta toxin-antitoxin (TA) homologue from the Gram-negative pathogen Neisseria gonorrhoeae termed ng_ɛ1 / ng_ζ1.

Salamander spinal cord regeneration: The ultimate positive control in vertebrate spinal cord regeneration.

Repairing injured tissues / organs is one of the major challenges for the maintenance of proper organ function in adulthood. In mammals, the central nervous system including the spinal cord, once established during embryonic development, has very limited capacity to regenerate. In contrast, salamanders such as axolotls can fully regenerate the injured spinal cord, making this a very powerful vertebrate model system for studying this process.

The posterior neural plate in axolotl gives rise to neural tube or turns anteriorly to form somites of the tail and posterior trunk.

Classical grafting experiments in the Mexican axolotl had shown that the posterior neural plate of the neurula is no specified neuroectoderm but gives rise to somites of the tail and posterior trunk. The bipotentiality of this region with neuromesodermal progenitor cell populations was revealed more recently also in zebrafish, chick, and mouse. We reinvestigated the potency of the posterior plate in axolotl using grafts from transgenic embryos, immunohistochemistry, and in situ hybridization.

Interactions of DNA repair gene variants modulate chromosomal aberrations in healthy subjects.

Human cancers are often associated with numerical and structural chromosomal instability. Structural chromosomal aberrations (CAs) in peripheral blood lymphocytes (PBL) arise as consequences of direct DNA damage or due to replication on a damaged DNA template. In both cases, DNA repair is critical and inter-individual differences in its capacity are probably due to corresponding genetic variations.

Structural basis for the regulated protease and chaperone function of DegP.

All organisms have to monitor the folding state of cellular proteins precisely. The heat-shock protein DegP is a protein quality control factor in the bacterial envelope that is involved in eliminating misfolded proteins and in the biogenesis of outer-membrane proteins. Here we describe the molecular mechanisms underlying the regulated protease and chaperone function of DegP from Escherichia coli.

Acto-myosin reorganization and PAR polarity in C. elegans.

The symmetry-breaking event during polarization of C. elegans embryos is an asymmetric rearrangement of the acto-myosin network, which dictates cell polarity through the differential recruitment of PAR proteins. The sperm-supplied centrosomes are required to initiate this cortical reorganization.

Autocrine PDGFR signaling promotes mammary cancer metastasis.

Metastasis is the major cause of cancer morbidity, but strategies for direct interference with invasion processes are lacking. Dedifferentiated, late-stage tumor cells secrete multiple factors that represent attractive targets for therapeutic intervention. Here we show that metastatic potential of oncogenic mammary epithelial cells requires an autocrine PDGF/PDGFR loop, which is established as a consequence of TGF-beta-induced epithelial-mesenchymal transition (EMT), a faithful in vitro correlate of metastasis.

Canonical Wnt/beta-catenin signaling prevents osteoblasts from differentiating into chondrocytes.

Osteoblasts and chondrocytes are involved in building up the vertebrate skeleton and are thought to differentiate from a common mesenchymal precursor, the osteo-chondroprogenitor. Although numerous transcription factors involved in chondrocyte and osteoblast differentiation have been identified, little is known about the signals controlling lineage decisions of the two cell types. Here, we show by conditionally deleting beta-catenin in limb and head mesenchyme that beta-catenin is required for osteoblast lineage differentiation.

Expression profiling of epithelial plasticity in tumor progression.

Epithelial-to-mesenchymal transition (EMT), a switch of polarized epithelial cells to a migratory, fibroblastoid phenotype, is increasingly considered as an important event during malignant tumor progression and metastasis. To identify molecular players involved in EMT and metastasis, we performed expression profiling of a set of combined in vitro/in vivo cellular models, based on clonal, fully polarized mammary epithelial cells. Seven closely related cell pairs were used, which were modified by defined oncogenes and/or external factors and showed specific aspects of epithelial plasticity relevant to cell migration, local invasion and metastasis.

A ubiquitin C-terminal hydrolase is required to maintain osmotic balance and execute actin-dependent processes in the early C. elegans embryo.

In the early Caenorhabditis elegans embryo, establishment of cell polarity and cytokinesis are both dependent upon reorganization of the actin cytoskeleton. Mutations in the cyk-3 gene cause maternal effect embryonic lethality. Embryos produced by homozygous cyk-3 mutant animals become multinucleate.

Non-imprinted Igf2r expression decreases growth and rescues the Tme mutation in mice.

In the mouse the insulin-like growth factor receptor type 2 gene (Igf2r) is imprinted and maternally expressed. Igf2r encodes a trans-membrane receptor that transports mannose-6-phosphate tagged proteins and insulin-like growth factor 2 to lysosomes. During development the receptor reduces the amount of insulin-like growth factors and thereby decreases embryonic growth.

TGF-beta inhibits p70 S6 kinase via protein phosphatase 2A to induce G(1) arrest.

On TGF-beta binding, the TGF-beta receptor directly phosphorylates and activates the transcription factors Smad2/3, leading to G(1) arrest. Here, we present evidence for a second, parallel, TGF-beta-dependent pathway for cell cycle arrest, achieved via inhibition of p70(s6k). TGF-beta induces association of its receptor with protein phosphatase-2A (PP2A)-Balpha.

JNK2 is required for efficient T-cell activation and apoptosis but not for normal lymphocyte development.

Background: The Jun N-terminal kinase (JNK) signaling pathway has been implicated in cell proliferation and apoptosis, but its function seems to depend on the cell type and inducing signal. In T cells, JNK has been implicated in both antigen-induced activation and apoptosis.

Results: We generated mice lacking the JNK2 isozymes.

TGFbeta signaling is necessary for carcinoma cell invasiveness and metastasis.

Background: Invasive growth of epithelial tumor cells, a major cause of death from cancer in humans, involves loss of epithelial polarity and dedifferentiation. Transforming growth factor beta (TGFbeta) is regarded as a major tumor suppressor during early tumor development because it inhibits cell-cycle progression and tumor growth. Many dedifferentiated, late-stage tumors are resistant to growth inhibition by TGFbeta, however, and even secrete TGFbeta.

Tumor cells expressing a recall antigen are powerful cancer vaccines.

Tumor cells were engineered to express a specific recall antigen molecule to serve as a target for the host's existing memory response, and then used as immunogens as a novel form of cancer vaccine. As recall antigen, the efficiently expressible hybrid protein Heat1 was employed, that contains an antigenic fragment of the Mycobacterium bovis 65-kDa heat shock protein (hsp65), and thus can be recognized in mice immunized with live Bacillus Calmette-Guérin (BCG) or its derivatives. Mouse M-3 melanoma cells were transfected to express Heat1, irradiated, and used as anti-melanoma vaccines.

Depletion of naive T cells of the peripheral lymph nodes abrogates systemic antitumor protection conferred by IL-2 secreting cancer vaccines.

It has been postulated that IL-2 secreting cancer vaccines establish antitumor immunity because the cytokine acting in a paracrine fashion would deliver a helper signal directly to the T cells making contact with the modified tumor cells at the site of vaccination. However, patterns of lymphocyte recirculation cannot be reconciled with the above direct interaction model: only primed memory T cells rather than naive T lymphocytes patrol the periphery, while naive T cells travel to the peripheral lymph nodes, where priming occurs. We have found that in vivo treatment of mice with the antibody MEL-14 directed against L-selectin, which is a molecule expressed at high levels on naive T cells, can completely abrogate protection against a mouse melanoma conferred by an IL-2 secreting vaccine.

The adenovirus protease is required for virus entry into host cells.

We have analyzed the mechanisms used by adenovirus to gain entry into the host cell. Using both virus infection and the ability of adenovirus particles to enhance polylysine/DNA uptake as a measure of virus entry, we have demonstrated that the adenovirus-encoded 23K protease is required for two functions in the infection process. A proteolytic processing of the capsid is required to generate a virus capsid that can increase membrane interactions at pH 5.

Regulation of embryonic growth and lysosomal targeting by the imprinted Igf2/Mpr gene.

The receptor for insulin-like growth factor type 2, also known as the cation-independent mannose-6-phosphate receptor (Igf2/Mpr), is a multifunctional receptor thought to play a role in lysosomal targeting, cell growth and signal transduction. Igf2/Mpr has been mapped to the mouse Tme locus and shown to be an imprinted gene, which further suggests a role in embryonic growth regulation. To define the functions of Igf2/Mpr, we have generated mice lacking this gene.

Immortalization of conditionally transformed chicken cells: loss of normal p53 expression is an early step that is independent of cell transformation.

Clones of mortal chicken fibroblasts and erythroblasts transformed by temperature-sensitive v-src and v-erb B oncoproteins have been developed into immortal cell lines that retain the conditional transformed phenotype. The expressions of two tumor suppressor genes, the retinoblastoma (Rb) gene and the p53 gene, were investigated during senescence, crisis, and cell line establishment. In temperature-sensitive (ts)-v-erb B erythroblasts and ts-v-src fibroblasts (as well as in v-myc macrophages), loss of p53 mRNA or expression of a mutated p53 gene invariably occurred in the early phase of immortalization.

Repression of genes by DNA methylation depends on CpG density and promoter strength: evidence for involvement of a methyl-CpG binding protein.

Repression of transcription from densely methylated genes can be mediated by the methyl-CpG binding protein MeCP-1 (Boyes and Bird, 1991). Here we have investigated the effect of methylation on genes with a low density of methyl-CpG. We found that sparse methylation could repress transfected genes completely, but the inhibition was fully overcome by the presence in cis of an SV40 enhancer.

Expression of functional c-kit receptors rescues the genetic defect of W mutant mast cells.

Loss-of-function mutations in the gene for the c-kit tyrosine kinase receptor are strongly implicated in the developmental abnormalities of W mutant mice. To dissect further the relationship between kit and the W phenotype, retroviruses carrying the normal murine c-kit gene were constructed. In infected cells, the level of c-kit expression from these vectors varied markedly with different promoter elements, the 5' viral LTR proving to be the most effective.